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/** @file
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Copyright ( c ) 2004 - 2011 , 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
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 :
GenFvInternalLib . c
Abstract :
This file contains the internal functions required to generate a Firmware Volume .
* */
//
// Include files
//
# ifdef __GNUC__
# include <uuid/uuid.h>
# include <sys/stat.h>
# endif
# include <string.h>
# ifndef __GNUC__
# include <io.h>
# endif
# include <assert.h>
# include "GenFvInternalLib.h"
# include "FvLib.h"
# include "PeCoffLib.h"
# include "WinNtInclude.h"
BOOLEAN mArm = FALSE ;
STATIC UINT32 MaxFfsAlignment = 0 ;
EFI_GUID mEfiFirmwareVolumeTopFileGuid = EFI_FFS_VOLUME_TOP_FILE_GUID ;
EFI_GUID mFileGuidArray [ MAX_NUMBER_OF_FILES_IN_FV ] ;
EFI_GUID mZeroGuid = { 0x0 , 0x0 , 0x0 , { 0x0 , 0x0 , 0x0 , 0x0 , 0x0 , 0x0 , 0x0 , 0x0 } } ;
EFI_GUID mDefaultCapsuleGuid = { 0x3B6686BD , 0x0D76 , 0x4030 , { 0xB7 , 0x0E , 0xB5 , 0x51 , 0x9E , 0x2F , 0xC5 , 0xA0 } } ;
CHAR8 * mFvbAttributeName [ ] = {
EFI_FVB2_READ_DISABLED_CAP_STRING ,
EFI_FVB2_READ_ENABLED_CAP_STRING ,
EFI_FVB2_READ_STATUS_STRING ,
EFI_FVB2_WRITE_DISABLED_CAP_STRING ,
EFI_FVB2_WRITE_ENABLED_CAP_STRING ,
EFI_FVB2_WRITE_STATUS_STRING ,
EFI_FVB2_LOCK_CAP_STRING ,
EFI_FVB2_LOCK_STATUS_STRING ,
NULL ,
EFI_FVB2_STICKY_WRITE_STRING ,
EFI_FVB2_MEMORY_MAPPED_STRING ,
EFI_FVB2_ERASE_POLARITY_STRING ,
EFI_FVB2_READ_LOCK_CAP_STRING ,
EFI_FVB2_READ_LOCK_STATUS_STRING ,
EFI_FVB2_WRITE_LOCK_CAP_STRING ,
EFI_FVB2_WRITE_LOCK_STATUS_STRING
} ;
CHAR8 * mFvbAlignmentName [ ] = {
EFI_FVB2_ALIGNMENT_1_STRING ,
EFI_FVB2_ALIGNMENT_2_STRING ,
EFI_FVB2_ALIGNMENT_4_STRING ,
EFI_FVB2_ALIGNMENT_8_STRING ,
EFI_FVB2_ALIGNMENT_16_STRING ,
EFI_FVB2_ALIGNMENT_32_STRING ,
EFI_FVB2_ALIGNMENT_64_STRING ,
EFI_FVB2_ALIGNMENT_128_STRING ,
EFI_FVB2_ALIGNMENT_256_STRING ,
EFI_FVB2_ALIGNMENT_512_STRING ,
EFI_FVB2_ALIGNMENT_1K_STRING ,
EFI_FVB2_ALIGNMENT_2K_STRING ,
EFI_FVB2_ALIGNMENT_4K_STRING ,
EFI_FVB2_ALIGNMENT_8K_STRING ,
EFI_FVB2_ALIGNMENT_16K_STRING ,
EFI_FVB2_ALIGNMENT_32K_STRING ,
EFI_FVB2_ALIGNMENT_64K_STRING ,
EFI_FVB2_ALIGNMENT_128K_STRING ,
EFI_FVB2_ALIGNMENT_256K_STRING ,
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EFI_FVB2_ALIGNMENT_512K_STRING ,
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EFI_FVB2_ALIGNMENT_1M_STRING ,
EFI_FVB2_ALIGNMENT_2M_STRING ,
EFI_FVB2_ALIGNMENT_4M_STRING ,
EFI_FVB2_ALIGNMENT_8M_STRING ,
EFI_FVB2_ALIGNMENT_16M_STRING ,
EFI_FVB2_ALIGNMENT_32M_STRING ,
EFI_FVB2_ALIGNMENT_64M_STRING ,
EFI_FVB2_ALIGNMENT_128M_STRING ,
EFI_FVB2_ALIGNMENT_256M_STRING ,
EFI_FVB2_ALIGNMENT_512M_STRING ,
EFI_FVB2_ALIGNMENT_1G_STRING ,
EFI_FVB2_ALIGNMENT_2G_STRING
} ;
//
// This data array will be located at the base of the Firmware Volume Header (FVH)
// in the boot block. It must not exceed 14 bytes of code. The last 2 bytes
// will be used to keep the FVH checksum consistent.
// This code will be run in response to a starutp IPI for HT-enabled systems.
//
# define SIZEOF_STARTUP_DATA_ARRAY 0x10
UINT8 m128kRecoveryStartupApDataArray [ SIZEOF_STARTUP_DATA_ARRAY ] = {
//
// EA D0 FF 00 F0 ; far jmp F000:FFD0
// 0, 0, 0, 0, 0, 0, 0, 0, 0, ; Reserved bytes
// 0, 0 ; Checksum Padding
//
0xEA ,
0xD0 ,
0xFF ,
0x0 ,
0xF0 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00
} ;
UINT8 m64kRecoveryStartupApDataArray [ SIZEOF_STARTUP_DATA_ARRAY ] = {
//
// EB CE ; jmp short ($-0x30)
// ; (from offset 0x0 to offset 0xFFD0)
// 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ; Reserved bytes
// 0, 0 ; Checksum Padding
//
0xEB ,
0xCE ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00 ,
0x00
} ;
FV_INFO mFvDataInfo ;
CAP_INFO mCapDataInfo ;
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EFI_PHYSICAL_ADDRESS mFvBaseAddress [ 0x10 ] ;
UINT32 mFvBaseAddressNumber = 0 ;
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EFI_STATUS
ParseFvInf (
IN MEMORY_FILE * InfFile ,
OUT FV_INFO * FvInfo
)
/*++
Routine Description :
This function parses a FV . INF file and copies info into a FV_INFO structure .
Arguments :
InfFile Memory file image .
FvInfo Information read from INF file .
Returns :
EFI_SUCCESS INF file information successfully retrieved .
EFI_ABORTED INF file has an invalid format .
EFI_NOT_FOUND A required string was not found in the INF file .
- - */
{
CHAR8 Value [ _MAX_PATH ] ;
UINT64 Value64 ;
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UINTN Index ;
UINTN Number ;
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EFI_STATUS Status ;
EFI_GUID GuidValue ;
//
// Read the FV base address
//
if ( ! mFvDataInfo . BaseAddressSet ) {
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_FV_BASE_ADDRESS_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Get the base address
//
Status = AsciiStringToUint64 ( Value , FALSE , & Value64 ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s = %s " , EFI_FV_BASE_ADDRESS_STRING , Value ) ;
return EFI_ABORTED ;
}
DebugMsg ( NULL , 0 , 9 , " rebase address " , " %s = %s " , EFI_FV_BASE_ADDRESS_STRING , Value ) ;
FvInfo - > BaseAddress = Value64 ;
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FvInfo - > BaseAddressSet = TRUE ;
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}
}
//
// Read the FV File System Guid
//
if ( ! FvInfo - > FvFileSystemGuidSet ) {
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_FV_FILESYSTEMGUID_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Get the guid value
//
Status = StringToGuid ( Value , & GuidValue ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s = %s " , EFI_FV_FILESYSTEMGUID_STRING , Value ) ;
return EFI_ABORTED ;
}
memcpy ( & FvInfo - > FvFileSystemGuid , & GuidValue , sizeof ( EFI_GUID ) ) ;
FvInfo - > FvFileSystemGuidSet = TRUE ;
}
}
//
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// Read the FV Extension Header File Name
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//
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Status = FindToken ( InfFile , ATTRIBUTES_SECTION_STRING , EFI_FV_EXT_HEADER_FILE_NAME , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
strcpy ( FvInfo - > FvExtHeaderFile , Value ) ;
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}
//
// Read the FV file name
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_FV_FILE_NAME_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// copy the file name
//
strcpy ( FvInfo - > FvName , Value ) ;
}
//
// Read Fv Attribute
//
for ( Index = 0 ; Index < sizeof ( mFvbAttributeName ) / sizeof ( CHAR8 * ) ; Index + + ) {
if ( ( mFvbAttributeName [ Index ] ! = NULL ) & & \
( FindToken ( InfFile , ATTRIBUTES_SECTION_STRING , mFvbAttributeName [ Index ] , 0 , Value ) = = EFI_SUCCESS ) ) {
if ( ( strcmp ( Value , TRUE_STRING ) = = 0 ) | | ( strcmp ( Value , ONE_STRING ) = = 0 ) ) {
FvInfo - > FvAttributes | = 1 < < Index ;
} else if ( ( strcmp ( Value , FALSE_STRING ) ! = 0 ) & & ( strcmp ( Value , ZERO_STRING ) ! = 0 ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s expected %s | %s " , mFvbAttributeName [ Index ] , TRUE_STRING , FALSE_STRING ) ;
return EFI_ABORTED ;
}
}
}
//
// Read Fv Alignment
//
for ( Index = 0 ; Index < sizeof ( mFvbAlignmentName ) / sizeof ( CHAR8 * ) ; Index + + ) {
if ( FindToken ( InfFile , ATTRIBUTES_SECTION_STRING , mFvbAlignmentName [ Index ] , 0 , Value ) = = EFI_SUCCESS ) {
if ( strcmp ( Value , TRUE_STRING ) = = 0 ) {
FvInfo - > FvAttributes | = Index < < 16 ;
DebugMsg ( NULL , 0 , 9 , " FV file alignment " , " Align = %s " , mFvbAlignmentName [ Index ] ) ;
break ;
}
}
}
//
// Read block maps
//
for ( Index = 0 ; Index < MAX_NUMBER_OF_FV_BLOCKS ; Index + + ) {
if ( FvInfo - > FvBlocks [ Index ] . Length = = 0 ) {
//
// Read block size
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_BLOCK_SIZE_STRING , Index , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Update the size of block
//
Status = AsciiStringToUint64 ( Value , FALSE , & Value64 ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s = %s " , EFI_BLOCK_SIZE_STRING , Value ) ;
return EFI_ABORTED ;
}
FvInfo - > FvBlocks [ Index ] . Length = ( UINT32 ) Value64 ;
DebugMsg ( NULL , 0 , 9 , " FV Block Size " , " %s = %s " , EFI_BLOCK_SIZE_STRING , Value ) ;
} else {
//
// If there is no blocks size, but there is the number of block, then we have a mismatched pair
// and should return an error.
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_NUM_BLOCKS_STRING , Index , Value ) ;
if ( ! EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " both %s and %s must be specified. " , EFI_NUM_BLOCKS_STRING , EFI_BLOCK_SIZE_STRING ) ;
return EFI_ABORTED ;
} else {
//
// We are done
//
break ;
}
}
//
// Read blocks number
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_NUM_BLOCKS_STRING , Index , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Update the number of blocks
//
Status = AsciiStringToUint64 ( Value , FALSE , & Value64 ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s = %s " , EFI_NUM_BLOCKS_STRING , Value ) ;
return EFI_ABORTED ;
}
FvInfo - > FvBlocks [ Index ] . NumBlocks = ( UINT32 ) Value64 ;
DebugMsg ( NULL , 0 , 9 , " FV Block Number " , " %s = %s " , EFI_NUM_BLOCKS_STRING , Value ) ;
}
}
}
if ( Index = = 0 ) {
Error ( NULL , 0 , 2001 , " Missing required argument " , " block size. " ) ;
return EFI_ABORTED ;
}
//
// Read files
//
Number = 0 ;
for ( Number = 0 ; Number < MAX_NUMBER_OF_FILES_IN_FV ; Number + + ) {
if ( FvInfo - > FvFiles [ Number ] [ 0 ] = = ' \0 ' ) {
break ;
}
}
for ( Index = 0 ; Index < MAX_NUMBER_OF_FILES_IN_FV ; Index + + ) {
//
// Read the FFS file list
//
Status = FindToken ( InfFile , FILES_SECTION_STRING , EFI_FILE_NAME_STRING , Index , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Add the file
//
strcpy ( FvInfo - > FvFiles [ Number + Index ] , Value ) ;
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DebugMsg ( NULL , 0 , 9 , " FV component file " , " the %uth name is %s " , ( unsigned ) Index , Value ) ;
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} else {
break ;
}
}
if ( ( Index + Number ) = = 0 ) {
Warning ( NULL , 0 , 0 , " FV components are not specified. " , NULL ) ;
}
return EFI_SUCCESS ;
}
VOID
UpdateFfsFileState (
IN EFI_FFS_FILE_HEADER * FfsFile ,
IN EFI_FIRMWARE_VOLUME_HEADER * FvHeader
)
/*++
Routine Description :
This function changes the FFS file attributes based on the erase polarity
of the FV . Update the reserved bits of State to EFI_FVB2_ERASE_POLARITY .
Arguments :
FfsFile File header .
FvHeader FV header .
Returns :
None
- - */
{
if ( FvHeader - > Attributes & EFI_FVB2_ERASE_POLARITY ) {
FfsFile - > State = ( UINT8 ) ~ ( FfsFile - > State ) ;
// FfsFile->State |= ~(UINT8) EFI_FILE_ALL_STATE_BITS;
}
}
EFI_STATUS
ReadFfsAlignment (
IN EFI_FFS_FILE_HEADER * FfsFile ,
IN OUT UINT32 * Alignment
)
/*++
Routine Description :
This function determines the alignment of the FFS input file from the file
attributes .
Arguments :
FfsFile FFS file to parse
Alignment The minimum required alignment offset of the FFS file
Returns :
EFI_SUCCESS The function completed successfully .
EFI_INVALID_PARAMETER One of the input parameters was invalid .
EFI_ABORTED An error occurred .
- - */
{
//
// Verify input parameters.
//
if ( FfsFile = = NULL | | Alignment = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
switch ( ( FfsFile - > Attributes > > 3 ) & 0x07 ) {
case 0 :
//
// 8 byte alignment, mini alignment requirement for FFS file.
//
* Alignment = 3 ;
break ;
case 1 :
//
// 16 byte alignment
//
* Alignment = 4 ;
break ;
case 2 :
//
// 128 byte alignment
//
* Alignment = 7 ;
break ;
case 3 :
//
// 512 byte alignment
//
* Alignment = 9 ;
break ;
case 4 :
//
// 1K byte alignment
//
* Alignment = 10 ;
break ;
case 5 :
//
// 4K byte alignment
//
* Alignment = 12 ;
break ;
case 6 :
//
// 32K byte alignment
//
* Alignment = 15 ;
break ;
case 7 :
//
// 64K byte alignment
//
* Alignment = 16 ;
break ;
default :
break ;
}
return EFI_SUCCESS ;
}
EFI_STATUS
AddPadFile (
IN OUT MEMORY_FILE * FvImage ,
IN UINT32 DataAlignment ,
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IN VOID * FvEnd ,
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IN EFI_FIRMWARE_VOLUME_EXT_HEADER * ExtHeader
)
/*++
Routine Description :
This function adds a pad file to the FV image if it required to align the
data of the next file .
Arguments :
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FvImage The memory image of the FV to add it to .
The current offset must be valid .
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DataAlignment The data alignment of the next FFS file .
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FvEnd End of the empty data in FvImage .
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ExtHeader PI FvExtHeader Optional
Returns :
EFI_SUCCESS The function completed successfully .
EFI_INVALID_PARAMETER One of the input parameters was invalid .
EFI_OUT_OF_RESOURCES Insufficient resources exist in the FV to complete
the pad file add .
- - */
{
EFI_FFS_FILE_HEADER * PadFile ;
UINTN PadFileSize ;
//
// Verify input parameters.
//
if ( FvImage = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
//
// Check if a pad file is necessary
//
if ( ( ExtHeader = = NULL ) & & ( ( ( UINTN ) FvImage - > CurrentFilePointer - ( UINTN ) FvImage - > FileImage + sizeof ( EFI_FFS_FILE_HEADER ) ) % DataAlignment = = 0 ) ) {
return EFI_SUCCESS ;
}
//
// Calculate the pad file size
//
//
// This is the earliest possible valid offset (current plus pad file header
// plus the next file header)
//
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PadFileSize = ( UINTN ) FvImage - > CurrentFilePointer - ( UINTN ) FvImage - > FileImage + ( sizeof ( EFI_FFS_FILE_HEADER ) * 2 ) ;
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//
// Add whatever it takes to get to the next aligned address
//
while ( ( PadFileSize % DataAlignment ) ! = 0 ) {
PadFileSize + + ;
}
//
// Subtract the next file header size
//
PadFileSize - = sizeof ( EFI_FFS_FILE_HEADER ) ;
//
// Subtract the starting offset to get size
//
PadFileSize - = ( UINTN ) FvImage - > CurrentFilePointer - ( UINTN ) FvImage - > FileImage ;
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//
// Append extension header size
//
if ( ExtHeader ! = NULL ) {
PadFileSize = PadFileSize + ExtHeader - > ExtHeaderSize ;
}
//
// Verify that we have enough space for the file header
//
if ( ( ( UINTN ) FvImage - > CurrentFilePointer + PadFileSize ) > ( UINTN ) FvEnd ) {
return EFI_OUT_OF_RESOURCES ;
}
//
// Write pad file header
//
PadFile = ( EFI_FFS_FILE_HEADER * ) FvImage - > CurrentFilePointer ;
//
// Write PadFile FFS header with PadType, don't need to set PAD file guid in its header.
//
PadFile - > Type = EFI_FV_FILETYPE_FFS_PAD ;
PadFile - > Attributes = 0 ;
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//
// Write pad file size (calculated size minus next file header size)
//
PadFile - > Size [ 0 ] = ( UINT8 ) ( PadFileSize & 0xFF ) ;
PadFile - > Size [ 1 ] = ( UINT8 ) ( ( PadFileSize > > 8 ) & 0xFF ) ;
PadFile - > Size [ 2 ] = ( UINT8 ) ( ( PadFileSize > > 16 ) & 0xFF ) ;
//
// Fill in checksums and state, they must be 0 for checksumming.
//
PadFile - > IntegrityCheck . Checksum . Header = 0 ;
PadFile - > IntegrityCheck . Checksum . File = 0 ;
PadFile - > State = 0 ;
PadFile - > IntegrityCheck . Checksum . Header = CalculateChecksum8 ( ( UINT8 * ) PadFile , sizeof ( EFI_FFS_FILE_HEADER ) ) ;
PadFile - > IntegrityCheck . Checksum . File = FFS_FIXED_CHECKSUM ;
PadFile - > State = EFI_FILE_HEADER_CONSTRUCTION | EFI_FILE_HEADER_VALID | EFI_FILE_DATA_VALID ;
UpdateFfsFileState (
( EFI_FFS_FILE_HEADER * ) PadFile ,
( EFI_FIRMWARE_VOLUME_HEADER * ) FvImage - > FileImage
) ;
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//
// Update the current FV pointer
//
FvImage - > CurrentFilePointer + = PadFileSize ;
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if ( ExtHeader ! = NULL ) {
//
// Copy Fv Extension Header and Set Fv Extension header offset
//
memcpy ( PadFile + 1 , ExtHeader , ExtHeader - > ExtHeaderSize ) ;
( ( EFI_FIRMWARE_VOLUME_HEADER * ) FvImage - > FileImage ) - > ExtHeaderOffset = ( UINT16 ) ( ( UINTN ) ( PadFile + 1 ) - ( UINTN ) FvImage - > FileImage ) ;
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//
// Make next file start at QWord Boundry
//
while ( ( ( UINTN ) FvImage - > CurrentFilePointer & ( EFI_FFS_FILE_HEADER_ALIGNMENT - 1 ) ) ! = 0 ) {
FvImage - > CurrentFilePointer + + ;
}
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}
return EFI_SUCCESS ;
}
BOOLEAN
IsVtfFile (
IN EFI_FFS_FILE_HEADER * FileBuffer
)
/*++
Routine Description :
This function checks the header to validate if it is a VTF file
Arguments :
FileBuffer Buffer in which content of a file has been read .
Returns :
TRUE If this is a VTF file
FALSE If this is not a VTF file
- - */
{
if ( ! memcmp ( & FileBuffer - > Name , & mEfiFirmwareVolumeTopFileGuid , sizeof ( EFI_GUID ) ) ) {
return TRUE ;
} else {
return FALSE ;
}
}
EFI_STATUS
WriteMapFile (
IN OUT FILE * FvMapFile ,
IN CHAR8 * FileName ,
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IN EFI_FFS_FILE_HEADER * FfsFile ,
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IN EFI_PHYSICAL_ADDRESS ImageBaseAddress ,
IN PE_COFF_LOADER_IMAGE_CONTEXT * pImageContext
)
/*++
Routine Description :
This function gets the basic debug information ( entrypoint , baseaddress , . text , . data section base address )
from PE / COFF image and abstracts Pe Map file information and add them into FvMap file for Debug .
Arguments :
FvMapFile A pointer to FvMap File
FileName Ffs File PathName
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FfsFile A pointer to Ffs file image .
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ImageBaseAddress PeImage Base Address .
pImageContext Image Context Information .
Returns :
EFI_SUCCESS Added required map information .
- - */
{
CHAR8 PeMapFileName [ _MAX_PATH ] ;
CHAR8 * Cptr , * Cptr2 ;
CHAR8 FileGuidName [ MAX_LINE_LEN ] ;
FILE * PeMapFile ;
CHAR8 Line [ MAX_LINE_LEN ] ;
CHAR8 KeyWord [ MAX_LINE_LEN ] ;
CHAR8 FunctionName [ MAX_LINE_LEN ] ;
EFI_PHYSICAL_ADDRESS FunctionAddress ;
UINT32 FunctionType ;
CHAR8 FunctionTypeName [ MAX_LINE_LEN ] ;
UINT32 Index ;
UINT32 AddressOfEntryPoint ;
UINT32 Offset ;
EFI_IMAGE_OPTIONAL_HEADER_UNION * ImgHdr ;
EFI_TE_IMAGE_HEADER * TEImageHeader ;
EFI_IMAGE_SECTION_HEADER * SectionHeader ;
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unsigned long long TempLongAddress ;
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UINT32 TextVirtualAddress ;
UINT32 DataVirtualAddress ;
EFI_PHYSICAL_ADDRESS LinkTimeBaseAddress ;
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//
// Init local variable
//
FunctionType = 0 ;
//
// Print FileGuid to string buffer.
//
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PrintGuidToBuffer ( & FfsFile - > Name , ( UINT8 * ) FileGuidName , MAX_LINE_LEN , TRUE ) ;
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//
// Construct Map file Name
//
strcpy ( PeMapFileName , FileName ) ;
//
// Change '\\' to '/', unified path format.
//
Cptr = PeMapFileName ;
while ( * Cptr ! = ' \0 ' ) {
if ( * Cptr = = ' \\ ' ) {
* Cptr = FILE_SEP_CHAR ;
}
Cptr + + ;
}
//
// Get Map file
//
Cptr = PeMapFileName + strlen ( PeMapFileName ) ;
while ( ( * Cptr ! = ' . ' ) & & ( Cptr > = PeMapFileName ) ) {
Cptr - - ;
}
if ( Cptr < PeMapFileName ) {
return EFI_NOT_FOUND ;
} else {
* ( Cptr + 1 ) = ' m ' ;
* ( Cptr + 2 ) = ' a ' ;
* ( Cptr + 3 ) = ' p ' ;
* ( Cptr + 4 ) = ' \0 ' ;
}
//
// Get module Name
//
Cptr2 = Cptr ;
while ( ( * Cptr ! = FILE_SEP_CHAR ) & & ( Cptr > = PeMapFileName ) ) {
Cptr - - ;
}
* Cptr2 = ' \0 ' ;
strcpy ( KeyWord , Cptr + 1 ) ;
* Cptr2 = ' . ' ;
//
// AddressOfEntryPoint and Offset in Image
//
if ( ! pImageContext - > IsTeImage ) {
ImgHdr = ( EFI_IMAGE_OPTIONAL_HEADER_UNION * ) ( ( UINT8 * ) pImageContext - > Handle + pImageContext - > PeCoffHeaderOffset ) ;
AddressOfEntryPoint = ImgHdr - > Pe32 . OptionalHeader . AddressOfEntryPoint ;
Offset = 0 ;
SectionHeader = ( EFI_IMAGE_SECTION_HEADER * ) (
( UINT8 * ) ImgHdr +
sizeof ( UINT32 ) +
sizeof ( EFI_IMAGE_FILE_HEADER ) +
ImgHdr - > Pe32 . FileHeader . SizeOfOptionalHeader
) ;
Index = ImgHdr - > Pe32 . FileHeader . NumberOfSections ;
} else {
TEImageHeader = ( EFI_TE_IMAGE_HEADER * ) pImageContext - > Handle ;
AddressOfEntryPoint = TEImageHeader - > AddressOfEntryPoint ;
Offset = TEImageHeader - > StrippedSize - sizeof ( EFI_TE_IMAGE_HEADER ) ;
SectionHeader = ( EFI_IMAGE_SECTION_HEADER * ) ( TEImageHeader + 1 ) ;
Index = TEImageHeader - > NumberOfSections ;
}
2010-03-01 00:39:39 +01:00
2009-07-17 11:10:31 +02:00
//
// module information output
//
if ( ImageBaseAddress = = 0 ) {
fprintf ( FvMapFile , " %s (dummy) ( " , KeyWord ) ;
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fprintf ( FvMapFile , " BaseAddress=%010llx, " , ( unsigned long long ) ImageBaseAddress ) ;
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} else {
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fprintf ( FvMapFile , " %s (Fixed Flash Address, " , KeyWord ) ;
fprintf ( FvMapFile , " BaseAddress=0x%010llx, " , ( unsigned long long ) ( ImageBaseAddress + Offset ) ) ;
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}
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if ( FfsFile - > Type ! = EFI_FV_FILETYPE_SECURITY_CORE & & pImageContext - > Machine = = EFI_IMAGE_MACHINE_IA64 ) {
2010-05-18 07:04:32 +02:00
//
// Process IPF PLABEL to get the real address after the image has been rebased.
// PLABEL structure is got by AddressOfEntryPoint offset to ImageBuffer stored in pImageContext->Handle.
//
2010-03-23 12:46:50 +01:00
fprintf ( FvMapFile , " EntryPoint=0x%010llx " , ( unsigned long long ) ( * ( UINT64 * ) ( ( UINTN ) pImageContext - > Handle + ( UINTN ) AddressOfEntryPoint ) ) ) ;
} else {
fprintf ( FvMapFile , " EntryPoint=0x%010llx " , ( unsigned long long ) ( ImageBaseAddress + AddressOfEntryPoint ) ) ;
}
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fprintf ( FvMapFile , " ) \n " ) ;
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fprintf ( FvMapFile , " (GUID=%s " , FileGuidName ) ;
TextVirtualAddress = 0 ;
DataVirtualAddress = 0 ;
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for ( ; Index > 0 ; Index - - , SectionHeader + + ) {
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if ( stricmp ( ( CHAR8 * ) SectionHeader - > Name , " .text " ) = = 0 ) {
TextVirtualAddress = SectionHeader - > VirtualAddress ;
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} else if ( stricmp ( ( CHAR8 * ) SectionHeader - > Name , " .data " ) = = 0 ) {
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DataVirtualAddress = SectionHeader - > VirtualAddress ;
} else if ( stricmp ( ( CHAR8 * ) SectionHeader - > Name , " .sdata " ) = = 0 ) {
DataVirtualAddress = SectionHeader - > VirtualAddress ;
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}
}
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fprintf ( FvMapFile , " .textbaseaddress=0x%010llx " , ( unsigned long long ) ( ImageBaseAddress + TextVirtualAddress ) ) ;
fprintf ( FvMapFile , " .databaseaddress=0x%010llx " , ( unsigned long long ) ( ImageBaseAddress + DataVirtualAddress ) ) ;
fprintf ( FvMapFile , " ) \n \n " ) ;
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//
// Open PeMapFile
//
PeMapFile = fopen ( PeMapFileName , " r " ) ;
if ( PeMapFile = = NULL ) {
// fprintf (stdout, "can't open %s file to reading\n", PeMapFileName);
return EFI_ABORTED ;
}
VerboseMsg ( " The map file is %s " , PeMapFileName ) ;
//
// Output Functions information into Fv Map file
//
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LinkTimeBaseAddress = 0 ;
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while ( fgets ( Line , MAX_LINE_LEN , PeMapFile ) ! = NULL ) {
//
// Skip blank line
//
if ( Line [ 0 ] = = 0x0a ) {
FunctionType = 0 ;
continue ;
}
//
// By Address and Static keyword
//
if ( FunctionType = = 0 ) {
sscanf ( Line , " %s " , KeyWord ) ;
if ( stricmp ( KeyWord , " Address " ) = = 0 ) {
//
// function list
//
FunctionType = 1 ;
fgets ( Line , MAX_LINE_LEN , PeMapFile ) ;
} else if ( stricmp ( KeyWord , " Static " ) = = 0 ) {
//
// static function list
//
FunctionType = 2 ;
fgets ( Line , MAX_LINE_LEN , PeMapFile ) ;
2010-03-01 00:39:39 +01:00
} else if ( stricmp ( KeyWord , " Preferred " ) = = 0 ) {
sscanf ( Line + strlen ( " Preferred load address is " ) , " %llx " , & TempLongAddress ) ;
LinkTimeBaseAddress = ( UINT64 ) TempLongAddress ;
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}
continue ;
}
//
// Printf Function Information
//
if ( FunctionType = = 1 ) {
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sscanf ( Line , " %s %s %llx %s " , KeyWord , FunctionName , & TempLongAddress , FunctionTypeName ) ;
FunctionAddress = ( UINT64 ) TempLongAddress ;
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if ( FunctionTypeName [ 1 ] = = ' \0 ' & & ( FunctionTypeName [ 0 ] = = ' f ' | | FunctionTypeName [ 0 ] = = ' F ' ) ) {
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fprintf ( FvMapFile , " 0x%010llx " , ( unsigned long long ) ( ImageBaseAddress + FunctionAddress - LinkTimeBaseAddress ) ) ;
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fprintf ( FvMapFile , " %s \n " , FunctionName ) ;
}
} else if ( FunctionType = = 2 ) {
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sscanf ( Line , " %s %s %llx %s " , KeyWord , FunctionName , & TempLongAddress , FunctionTypeName ) ;
FunctionAddress = ( UINT64 ) TempLongAddress ;
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if ( FunctionTypeName [ 1 ] = = ' \0 ' & & ( FunctionTypeName [ 0 ] = = ' f ' | | FunctionTypeName [ 0 ] = = ' F ' ) ) {
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fprintf ( FvMapFile , " 0x%010llx " , ( unsigned long long ) ( ImageBaseAddress + FunctionAddress - LinkTimeBaseAddress ) ) ;
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fprintf ( FvMapFile , " %s \n " , FunctionName ) ;
}
}
}
//
// Close PeMap file
//
fprintf ( FvMapFile , " \n \n " ) ;
fclose ( PeMapFile ) ;
return EFI_SUCCESS ;
}
EFI_STATUS
AddFile (
IN OUT MEMORY_FILE * FvImage ,
IN FV_INFO * FvInfo ,
IN UINTN Index ,
IN OUT EFI_FFS_FILE_HEADER * * VtfFileImage ,
2010-03-01 00:39:39 +01:00
IN FILE * FvMapFile ,
IN FILE * FvReportFile
2009-07-17 11:10:31 +02:00
)
/*++
Routine Description :
This function adds a file to the FV image . The file will pad to the
appropriate alignment if required .
Arguments :
FvImage The memory image of the FV to add it to . The current offset
must be valid .
FvInfo Pointer to information about the FV .
Index The file in the FvInfo file list to add .
VtfFileImage A pointer to the VTF file within the FvImage . If this is equal
to the end of the FvImage then no VTF previously found .
FvMapFile Pointer to FvMap File
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FvReportFile Pointer to FvReport File
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Returns :
EFI_SUCCESS The function completed successfully .
EFI_INVALID_PARAMETER One of the input parameters was invalid .
EFI_ABORTED An error occurred .
EFI_OUT_OF_RESOURCES Insufficient resources exist to complete the add .
- - */
{
FILE * NewFile ;
UINTN FileSize ;
UINT8 * FileBuffer ;
UINTN NumBytesRead ;
UINT32 CurrentFileAlignment ;
EFI_STATUS Status ;
UINTN Index1 ;
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UINT8 FileGuidString [ PRINTED_GUID_BUFFER_SIZE ] ;
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Index1 = 0 ;
//
// Verify input parameters.
//
if ( FvImage = = NULL | | FvInfo = = NULL | | FvInfo - > FvFiles [ Index ] [ 0 ] = = 0 | | VtfFileImage = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
//
// Read the file to add
//
NewFile = fopen ( FvInfo - > FvFiles [ Index ] , " rb " ) ;
if ( NewFile = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , FvInfo - > FvFiles [ Index ] ) ;
return EFI_ABORTED ;
}
//
// Get the file size
//
FileSize = _filelength ( fileno ( NewFile ) ) ;
//
// Read the file into a buffer
//
FileBuffer = malloc ( FileSize ) ;
if ( FileBuffer = = NULL ) {
Error ( NULL , 0 , 4001 , " Resouce " , " memory cannot be allocated! " ) ;
return EFI_OUT_OF_RESOURCES ;
}
NumBytesRead = fread ( FileBuffer , sizeof ( UINT8 ) , FileSize , NewFile ) ;
//
// Done with the file, from this point on we will just use the buffer read.
//
fclose ( NewFile ) ;
//
// Verify read successful
//
if ( NumBytesRead ! = sizeof ( UINT8 ) * FileSize ) {
free ( FileBuffer ) ;
Error ( NULL , 0 , 0004 , " Error reading file " , FvInfo - > FvFiles [ Index ] ) ;
return EFI_ABORTED ;
}
//
// For None PI Ffs file, directly add them into FvImage.
//
if ( ! FvInfo - > IsPiFvImage ) {
memcpy ( FvImage - > CurrentFilePointer , FileBuffer , FileSize ) ;
if ( FvInfo - > SizeofFvFiles [ Index ] > FileSize ) {
FvImage - > CurrentFilePointer + = FvInfo - > SizeofFvFiles [ Index ] ;
} else {
FvImage - > CurrentFilePointer + = FileSize ;
}
goto Done ;
}
//
// Verify Ffs file
//
Status = VerifyFfsFile ( ( EFI_FFS_FILE_HEADER * ) FileBuffer ) ;
if ( EFI_ERROR ( Status ) ) {
free ( FileBuffer ) ;
2011-12-07 07:19:28 +01:00
Error ( NULL , 0 , 3000 , " Invalid " , " %s is not a valid FFS file. " , FvInfo - > FvFiles [ Index ] ) ;
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return EFI_INVALID_PARAMETER ;
}
//
// Verify space exists to add the file
//
if ( FileSize > ( UINTN ) ( ( UINTN ) * VtfFileImage - ( UINTN ) FvImage - > CurrentFilePointer ) ) {
free ( FileBuffer ) ;
Error ( NULL , 0 , 4002 , " Resource " , " FV space is full, not enough room to add file %s. " , FvInfo - > FvFiles [ Index ] ) ;
return EFI_OUT_OF_RESOURCES ;
}
//
// Verify the input file is the duplicated file in this Fv image
//
for ( Index1 = 0 ; Index1 < Index ; Index1 + + ) {
if ( CompareGuid ( ( EFI_GUID * ) FileBuffer , & mFileGuidArray [ Index1 ] ) = = 0 ) {
2009-09-11 05:14:43 +02:00
Error ( NULL , 0 , 2000 , " Invalid parameter " , " the %dth file and %uth file have the same file GUID. " , ( unsigned ) Index1 + 1 , ( unsigned ) Index + 1 ) ;
2009-07-17 11:10:31 +02:00
PrintGuid ( ( EFI_GUID * ) FileBuffer ) ;
return EFI_INVALID_PARAMETER ;
}
}
CopyMem ( & mFileGuidArray [ Index ] , FileBuffer , sizeof ( EFI_GUID ) ) ;
//
// Update the file state based on polarity of the FV.
//
UpdateFfsFileState (
( EFI_FFS_FILE_HEADER * ) FileBuffer ,
( EFI_FIRMWARE_VOLUME_HEADER * ) FvImage - > FileImage
) ;
//
// Check if alignment is required
//
ReadFfsAlignment ( ( EFI_FFS_FILE_HEADER * ) FileBuffer , & CurrentFileAlignment ) ;
//
// Find the largest alignment of all the FFS files in the FV
//
if ( CurrentFileAlignment > MaxFfsAlignment ) {
MaxFfsAlignment = CurrentFileAlignment ;
}
//
// If we have a VTF file, add it at the top.
//
if ( IsVtfFile ( ( EFI_FFS_FILE_HEADER * ) FileBuffer ) ) {
if ( ( UINTN ) * VtfFileImage = = ( UINTN ) FvImage - > Eof ) {
//
// No previous VTF, add this one.
//
* VtfFileImage = ( EFI_FFS_FILE_HEADER * ) ( UINTN ) ( ( UINTN ) FvImage - > FileImage + FvInfo - > Size - FileSize ) ;
//
// Sanity check. The file MUST align appropriately
//
if ( ( ( UINTN ) * VtfFileImage + sizeof ( EFI_FFS_FILE_HEADER ) - ( UINTN ) FvImage - > FileImage ) % ( 1 < < CurrentFileAlignment ) ) {
2009-09-11 05:14:43 +02:00
Error ( NULL , 0 , 3000 , " Invalid " , " VTF file cannot be aligned on a %u-byte boundary. " , ( unsigned ) ( 1 < < CurrentFileAlignment ) ) ;
2009-07-17 11:10:31 +02:00
free ( FileBuffer ) ;
return EFI_ABORTED ;
}
//
// Rebase the PE or TE image in FileBuffer of FFS file for XIP
// Rebase for the debug genfvmap tool
//
2011-09-18 14:17:25 +02:00
Status = FfsRebase ( FvInfo , FvInfo - > FvFiles [ Index ] , ( EFI_FFS_FILE_HEADER * ) FileBuffer , ( UINTN ) * VtfFileImage - ( UINTN ) FvImage - > FileImage , FvMapFile ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " Could not rebase %s. " , FvInfo - > FvFiles [ Index ] ) ;
return Status ;
}
2009-07-17 11:10:31 +02:00
//
// copy VTF File
//
memcpy ( * VtfFileImage , FileBuffer , FileSize ) ;
2010-03-01 00:39:39 +01:00
PrintGuidToBuffer ( ( EFI_GUID * ) FileBuffer , FileGuidString , sizeof ( FileGuidString ) , TRUE ) ;
fprintf ( FvReportFile , " 0x%08X %s \n " , ( unsigned ) ( UINTN ) ( ( ( UINT8 * ) * VtfFileImage ) - ( UINTN ) FvImage - > FileImage ) , FileGuidString ) ;
2009-07-17 11:10:31 +02:00
free ( FileBuffer ) ;
DebugMsg ( NULL , 0 , 9 , " Add VTF FFS file in FV image " , NULL ) ;
return EFI_SUCCESS ;
} else {
//
// Already found a VTF file.
//
Error ( NULL , 0 , 3000 , " Invalid " , " multiple VTF files are not permitted within a single FV. " ) ;
free ( FileBuffer ) ;
return EFI_ABORTED ;
}
}
//
// Add pad file if necessary
//
2009-09-11 05:14:43 +02:00
Status = AddPadFile ( FvImage , 1 < < CurrentFileAlignment , * VtfFileImage , NULL ) ;
2009-07-17 11:10:31 +02:00
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 4002 , " Resource " , " FV space is full, could not add pad file for data alignment property. " ) ;
free ( FileBuffer ) ;
return EFI_ABORTED ;
}
//
// Add file
//
2009-09-11 05:14:43 +02:00
if ( ( UINTN ) ( FvImage - > CurrentFilePointer + FileSize ) < = ( UINTN ) ( * VtfFileImage ) ) {
2009-07-17 11:10:31 +02:00
//
// Rebase the PE or TE image in FileBuffer of FFS file for XIP.
// Rebase Bs and Rt drivers for the debug genfvmap tool.
//
2011-09-18 14:17:25 +02:00
Status = FfsRebase ( FvInfo , FvInfo - > FvFiles [ Index ] , ( EFI_FFS_FILE_HEADER * ) FileBuffer , ( UINTN ) FvImage - > CurrentFilePointer - ( UINTN ) FvImage - > FileImage , FvMapFile ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " Could not rebase %s. " , FvInfo - > FvFiles [ Index ] ) ;
return Status ;
}
2009-07-17 11:10:31 +02:00
//
// Copy the file
//
memcpy ( FvImage - > CurrentFilePointer , FileBuffer , FileSize ) ;
2010-03-01 00:39:39 +01:00
PrintGuidToBuffer ( ( EFI_GUID * ) FileBuffer , FileGuidString , sizeof ( FileGuidString ) , TRUE ) ;
fprintf ( FvReportFile , " 0x%08X %s \n " , ( unsigned ) ( FvImage - > CurrentFilePointer - FvImage - > FileImage ) , FileGuidString ) ;
2009-07-17 11:10:31 +02:00
FvImage - > CurrentFilePointer + = FileSize ;
} else {
Error ( NULL , 0 , 4002 , " Resource " , " FV space is full, cannot add file %s. " , FvInfo - > FvFiles [ Index ] ) ;
free ( FileBuffer ) ;
return EFI_ABORTED ;
}
//
// Make next file start at QWord Boundry
//
while ( ( ( UINTN ) FvImage - > CurrentFilePointer & ( EFI_FFS_FILE_HEADER_ALIGNMENT - 1 ) ) ! = 0 ) {
FvImage - > CurrentFilePointer + + ;
}
Done :
//
// Free allocated memory.
//
free ( FileBuffer ) ;
return EFI_SUCCESS ;
}
EFI_STATUS
PadFvImage (
IN MEMORY_FILE * FvImage ,
IN EFI_FFS_FILE_HEADER * VtfFileImage
)
/*++
Routine Description :
This function places a pad file between the last file in the FV and the VTF
file if the VTF file exists .
Arguments :
FvImage Memory file for the FV memory image
VtfFileImage The address of the VTF file . If this is the end of the FV
image , no VTF exists and no pad file is needed .
Returns :
EFI_SUCCESS Completed successfully .
EFI_INVALID_PARAMETER One of the input parameters was NULL .
- - */
{
EFI_FFS_FILE_HEADER * PadFile ;
UINTN FileSize ;
//
// If there is no VTF or the VTF naturally follows the previous file without a
// pad file, then there's nothing to do
//
if ( ( UINTN ) VtfFileImage = = ( UINTN ) FvImage - > Eof | | \
( ( UINTN ) VtfFileImage = = ( UINTN ) FvImage - > CurrentFilePointer ) ) {
return EFI_SUCCESS ;
}
2009-09-11 05:14:43 +02:00
if ( ( UINTN ) VtfFileImage < ( UINTN ) FvImage - > CurrentFilePointer ) {
return EFI_INVALID_PARAMETER ;
}
2009-07-17 11:10:31 +02:00
//
// Pad file starts at beginning of free space
//
PadFile = ( EFI_FFS_FILE_HEADER * ) FvImage - > CurrentFilePointer ;
//
// write PadFile FFS header with PadType, don't need to set PAD file guid in its header.
//
PadFile - > Type = EFI_FV_FILETYPE_FFS_PAD ;
PadFile - > Attributes = 0 ;
//
// FileSize includes the EFI_FFS_FILE_HEADER
//
FileSize = ( UINTN ) VtfFileImage - ( UINTN ) FvImage - > CurrentFilePointer ;
PadFile - > Size [ 0 ] = ( UINT8 ) ( FileSize & 0x000000FF ) ;
PadFile - > Size [ 1 ] = ( UINT8 ) ( ( FileSize & 0x0000FF00 ) > > 8 ) ;
PadFile - > Size [ 2 ] = ( UINT8 ) ( ( FileSize & 0x00FF0000 ) > > 16 ) ;
//
// Fill in checksums and state, must be zero during checksum calculation.
//
PadFile - > IntegrityCheck . Checksum . Header = 0 ;
PadFile - > IntegrityCheck . Checksum . File = 0 ;
PadFile - > State = 0 ;
PadFile - > IntegrityCheck . Checksum . Header = CalculateChecksum8 ( ( UINT8 * ) PadFile , sizeof ( EFI_FFS_FILE_HEADER ) ) ;
PadFile - > IntegrityCheck . Checksum . File = FFS_FIXED_CHECKSUM ;
PadFile - > State = EFI_FILE_HEADER_CONSTRUCTION | EFI_FILE_HEADER_VALID | EFI_FILE_DATA_VALID ;
UpdateFfsFileState (
( EFI_FFS_FILE_HEADER * ) PadFile ,
( EFI_FIRMWARE_VOLUME_HEADER * ) FvImage - > FileImage
) ;
//
// Update the current FV pointer
//
FvImage - > CurrentFilePointer = FvImage - > Eof ;
return EFI_SUCCESS ;
}
EFI_STATUS
UpdateResetVector (
IN MEMORY_FILE * FvImage ,
IN FV_INFO * FvInfo ,
IN EFI_FFS_FILE_HEADER * VtfFile
)
/*++
Routine Description :
This parses the FV looking for the PEI core and then plugs the address into
the SALE_ENTRY point of the BSF / VTF for IPF and does BUGBUG TBD action to
complete an IA32 Bootstrap FV .
Arguments :
FvImage Memory file for the FV memory image
FvInfo Information read from INF file .
VtfFile Pointer to the VTF file in the FV image .
Returns :
EFI_SUCCESS Function Completed successfully .
EFI_ABORTED Error encountered .
EFI_INVALID_PARAMETER A required parameter was NULL .
EFI_NOT_FOUND PEI Core file not found .
- - */
{
EFI_FFS_FILE_HEADER * PeiCoreFile ;
EFI_FFS_FILE_HEADER * SecCoreFile ;
EFI_STATUS Status ;
EFI_FILE_SECTION_POINTER Pe32Section ;
UINT32 EntryPoint ;
UINT32 BaseOfCode ;
UINT16 MachineType ;
EFI_PHYSICAL_ADDRESS PeiCorePhysicalAddress ;
EFI_PHYSICAL_ADDRESS SecCorePhysicalAddress ;
EFI_PHYSICAL_ADDRESS * SecCoreEntryAddressPtr ;
INT32 Ia32SecEntryOffset ;
UINT32 * Ia32ResetAddressPtr ;
UINT8 * BytePointer ;
UINT8 * BytePointer2 ;
UINT16 * WordPointer ;
UINT16 CheckSum ;
2009-09-11 05:14:43 +02:00
UINT32 IpiVector ;
2009-07-17 11:10:31 +02:00
UINTN Index ;
EFI_FFS_FILE_STATE SavedState ;
UINT64 FitAddress ;
FIT_TABLE * FitTablePtr ;
2009-11-09 12:47:35 +01:00
BOOLEAN Vtf0Detected ;
2009-07-17 11:10:31 +02:00
//
// Verify input parameters
//
if ( FvImage = = NULL | | FvInfo = = NULL | | VtfFile = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
//
// Initialize FV library
//
InitializeFvLib ( FvImage - > FileImage , FvInfo - > Size ) ;
//
// Verify VTF file
//
Status = VerifyFfsFile ( VtfFile ) ;
if ( EFI_ERROR ( Status ) ) {
return EFI_INVALID_PARAMETER ;
}
2009-11-09 12:47:35 +01:00
if (
( ( ( UINTN ) FvImage - > Eof - ( UINTN ) FvImage - > FileImage ) > =
IA32_X64_VTF_SIGNATURE_OFFSET ) & &
( * ( UINT32 * ) ( VOID * ) ( ( UINTN ) FvImage - > Eof -
IA32_X64_VTF_SIGNATURE_OFFSET ) = =
IA32_X64_VTF0_SIGNATURE )
) {
Vtf0Detected = TRUE ;
} else {
Vtf0Detected = FALSE ;
}
2009-07-17 11:10:31 +02:00
//
// Find the Sec Core
//
Status = GetFileByType ( EFI_FV_FILETYPE_SECURITY_CORE , 1 , & SecCoreFile ) ;
if ( EFI_ERROR ( Status ) | | SecCoreFile = = NULL ) {
2009-11-09 12:47:35 +01:00
if ( Vtf0Detected ) {
//
// If the SEC core file is not found, but the VTF-0 signature
// is found, we'll treat it as a VTF-0 'Volume Top File'.
// This means no modifications are required to the VTF.
//
return EFI_SUCCESS ;
}
2009-07-17 11:10:31 +02:00
Error ( NULL , 0 , 3000 , " Invalid " , " could not find the SEC core file in the FV. " ) ;
return EFI_ABORTED ;
}
//
// Sec Core found, now find PE32 section
//
Status = GetSectionByType ( SecCoreFile , EFI_SECTION_PE32 , 1 , & Pe32Section ) ;
if ( Status = = EFI_NOT_FOUND ) {
Status = GetSectionByType ( SecCoreFile , EFI_SECTION_TE , 1 , & Pe32Section ) ;
}
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not find a PE32 section in the SEC core file. " ) ;
return EFI_ABORTED ;
}
Status = GetPe32Info (
( VOID * ) ( ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) ) ,
& EntryPoint ,
& BaseOfCode ,
& MachineType
) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not get the PE32 entry point for the SEC core. " ) ;
return EFI_ABORTED ;
}
2009-11-09 12:47:35 +01:00
if (
Vtf0Detected & &
( MachineType = = EFI_IMAGE_MACHINE_IA32 | |
MachineType = = EFI_IMAGE_MACHINE_X64 )
) {
//
// If the SEC core code is IA32 or X64 and the VTF-0 signature
// is found, we'll treat it as a VTF-0 'Volume Top File'.
// This means no modifications are required to the VTF.
//
return EFI_SUCCESS ;
}
2009-07-17 11:10:31 +02:00
//
// Physical address is FV base + offset of PE32 + offset of the entry point
//
SecCorePhysicalAddress = FvInfo - > BaseAddress ;
SecCorePhysicalAddress + = ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) - ( UINTN ) FvImage - > FileImage ;
SecCorePhysicalAddress + = EntryPoint ;
2009-09-11 05:14:43 +02:00
DebugMsg ( NULL , 0 , 9 , " SecCore physical entry point address " , " Address = 0x%llX " , ( unsigned long long ) SecCorePhysicalAddress ) ;
2009-07-17 11:10:31 +02:00
//
// Find the PEI Core
//
Status = GetFileByType ( EFI_FV_FILETYPE_PEI_CORE , 1 , & PeiCoreFile ) ;
if ( EFI_ERROR ( Status ) | | PeiCoreFile = = NULL ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not find the PEI core in the FV. " ) ;
return EFI_ABORTED ;
}
//
// PEI Core found, now find PE32 or TE section
//
Status = GetSectionByType ( PeiCoreFile , EFI_SECTION_PE32 , 1 , & Pe32Section ) ;
if ( Status = = EFI_NOT_FOUND ) {
Status = GetSectionByType ( PeiCoreFile , EFI_SECTION_TE , 1 , & Pe32Section ) ;
}
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not find either a PE32 or a TE section in PEI core file. " ) ;
return EFI_ABORTED ;
}
Status = GetPe32Info (
( VOID * ) ( ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) ) ,
& EntryPoint ,
& BaseOfCode ,
& MachineType
) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not get the PE32 entry point for the PEI core. " ) ;
return EFI_ABORTED ;
}
//
// Physical address is FV base + offset of PE32 + offset of the entry point
//
PeiCorePhysicalAddress = FvInfo - > BaseAddress ;
PeiCorePhysicalAddress + = ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) - ( UINTN ) FvImage - > FileImage ;
PeiCorePhysicalAddress + = EntryPoint ;
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DebugMsg ( NULL , 0 , 9 , " PeiCore physical entry point address " , " Address = 0x%llX " , ( unsigned long long ) PeiCorePhysicalAddress ) ;
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if ( MachineType = = EFI_IMAGE_MACHINE_IA64 ) {
//
// Update PEI_CORE address
//
//
// Set the uncached attribute bit in the physical address
//
PeiCorePhysicalAddress | = 0x8000000000000000ULL ;
//
// Check if address is aligned on a 16 byte boundary
//
if ( PeiCorePhysicalAddress & 0xF ) {
Error ( NULL , 0 , 3000 , " Invalid " ,
2009-09-11 05:14:43 +02:00
" PEI_CORE entry point is not aligned on a 16 byte boundary, address specified is %llXh. " ,
( unsigned long long ) PeiCorePhysicalAddress
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) ;
return EFI_ABORTED ;
}
//
// First Get the FIT table address
//
FitAddress = ( * ( UINT64 * ) ( FvImage - > Eof - IPF_FIT_ADDRESS_OFFSET ) ) & 0xFFFFFFFF ;
FitTablePtr = ( FIT_TABLE * ) ( FvImage - > FileImage + ( FitAddress - FvInfo - > BaseAddress ) ) ;
Status = UpdatePeiCoreEntryInFit ( FitTablePtr , PeiCorePhysicalAddress ) ;
if ( ! EFI_ERROR ( Status ) ) {
UpdateFitCheckSum ( FitTablePtr ) ;
}
//
// Update SEC_CORE address
//
//
// Set the uncached attribute bit in the physical address
//
SecCorePhysicalAddress | = 0x8000000000000000ULL ;
//
// Check if address is aligned on a 16 byte boundary
//
if ( SecCorePhysicalAddress & 0xF ) {
Error ( NULL , 0 , 3000 , " Invalid " ,
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" SALE_ENTRY entry point is not aligned on a 16 byte boundary, address specified is %llXh. " ,
( unsigned long long ) SecCorePhysicalAddress
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) ;
return EFI_ABORTED ;
}
//
// Update the address
//
SecCoreEntryAddressPtr = ( EFI_PHYSICAL_ADDRESS * ) ( ( UINTN ) FvImage - > Eof - IPF_SALE_ENTRY_ADDRESS_OFFSET ) ;
* SecCoreEntryAddressPtr = SecCorePhysicalAddress ;
} else if ( MachineType = = EFI_IMAGE_MACHINE_IA32 | | MachineType = = EFI_IMAGE_MACHINE_X64 ) {
//
// Get the location to update
//
Ia32ResetAddressPtr = ( UINT32 * ) ( ( UINTN ) FvImage - > Eof - IA32_PEI_CORE_ENTRY_OFFSET ) ;
//
// Write lower 32 bits of physical address for Pei Core entry
//
* Ia32ResetAddressPtr = ( UINT32 ) PeiCorePhysicalAddress ;
//
// Write SecCore Entry point relative address into the jmp instruction in reset vector.
//
Ia32ResetAddressPtr = ( UINT32 * ) ( ( UINTN ) FvImage - > Eof - IA32_SEC_CORE_ENTRY_OFFSET ) ;
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Ia32SecEntryOffset = ( INT32 ) ( SecCorePhysicalAddress - ( FV_IMAGES_TOP_ADDRESS - IA32_SEC_CORE_ENTRY_OFFSET + 2 ) ) ;
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if ( Ia32SecEntryOffset < = - 65536 ) {
Error ( NULL , 0 , 3000 , " Invalid " , " The SEC EXE file size is too large, it must be less than 64K. " ) ;
return STATUS_ERROR ;
}
* ( UINT16 * ) Ia32ResetAddressPtr = ( UINT16 ) Ia32SecEntryOffset ;
//
// Update the BFV base address
//
Ia32ResetAddressPtr = ( UINT32 * ) ( ( UINTN ) FvImage - > Eof - 4 ) ;
* Ia32ResetAddressPtr = ( UINT32 ) ( FvInfo - > BaseAddress ) ;
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DebugMsg ( NULL , 0 , 9 , " update BFV base address in the top FV image " , " BFV base address = 0x%llX. " , ( unsigned long long ) FvInfo - > BaseAddress ) ;
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//
// Update the Startup AP in the FVH header block ZeroVector region.
//
BytePointer = ( UINT8 * ) ( ( UINTN ) FvImage - > FileImage ) ;
if ( FvInfo - > Size < = 0x10000 ) {
BytePointer2 = m64kRecoveryStartupApDataArray ;
} else if ( FvInfo - > Size < = 0x20000 ) {
BytePointer2 = m128kRecoveryStartupApDataArray ;
} else {
BytePointer2 = m128kRecoveryStartupApDataArray ;
//
// Find the position to place Ap reset vector, the offset
// between the position and the end of Fvrecovery.fv file
// should not exceed 128kB to prevent Ap reset vector from
// outside legacy E and F segment
//
Status = FindApResetVectorPosition ( FvImage , & BytePointer ) ;
if ( EFI_ERROR ( Status ) ) {
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Error ( NULL , 0 , 3000 , " Invalid " , " FV image does not have enough space to place AP reset vector. The FV image needs to reserve at least 4KB of unused space. " ) ;
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return EFI_ABORTED ;
}
}
for ( Index = 0 ; Index < SIZEOF_STARTUP_DATA_ARRAY ; Index + + ) {
BytePointer [ Index ] = BytePointer2 [ Index ] ;
}
//
// Calculate the checksum
//
CheckSum = 0x0000 ;
WordPointer = ( UINT16 * ) ( BytePointer ) ;
for ( Index = 0 ; Index < SIZEOF_STARTUP_DATA_ARRAY / 2 ; Index + + ) {
CheckSum = ( UINT16 ) ( CheckSum + ( ( UINT16 ) * WordPointer ) ) ;
WordPointer + + ;
}
//
// Update the checksum field
//
WordPointer = ( UINT16 * ) ( BytePointer + SIZEOF_STARTUP_DATA_ARRAY - 2 ) ;
* WordPointer = ( UINT16 ) ( 0x10000 - ( UINT32 ) CheckSum ) ;
//
// IpiVector at the 4k aligned address in the top 2 blocks in the PEI FV.
//
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IpiVector = ( UINT32 ) ( FV_IMAGES_TOP_ADDRESS - ( ( UINTN ) FvImage - > Eof - ( UINTN ) BytePointer ) ) ;
DebugMsg ( NULL , 0 , 9 , " Startup AP Vector address " , " IpiVector at 0x%X " , ( unsigned ) IpiVector ) ;
if ( ( IpiVector & 0xFFF ) ! = 0 ) {
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Error ( NULL , 0 , 3000 , " Invalid " , " Startup AP Vector address are not 4K aligned, because the FV size is not 4K aligned " ) ;
return EFI_ABORTED ;
}
IpiVector = IpiVector > > 12 ;
IpiVector = IpiVector & 0xFF ;
//
// Write IPI Vector at Offset FvrecoveryFileSize - 8
//
Ia32ResetAddressPtr = ( UINT32 * ) ( ( UINTN ) FvImage - > Eof - 8 ) ;
* Ia32ResetAddressPtr = IpiVector ;
} else if ( MachineType = = EFI_IMAGE_MACHINE_ARMT ) {
//
// Since the ARM reset vector is in the FV Header you really don't need a
// Volume Top File, but if you have one for some reason don't crash...
//
} else {
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Error ( NULL , 0 , 3000 , " Invalid " , " machine type=0x%X in PEI core. " , MachineType ) ;
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return EFI_ABORTED ;
}
//
// Now update file checksum
//
SavedState = VtfFile - > State ;
VtfFile - > IntegrityCheck . Checksum . File = 0 ;
VtfFile - > State = 0 ;
if ( VtfFile - > Attributes & FFS_ATTRIB_CHECKSUM ) {
VtfFile - > IntegrityCheck . Checksum . File = CalculateChecksum8 (
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( UINT8 * ) ( VtfFile + 1 ) ,
GetLength ( VtfFile - > Size ) - sizeof ( EFI_FFS_FILE_HEADER )
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) ;
} else {
VtfFile - > IntegrityCheck . Checksum . File = FFS_FIXED_CHECKSUM ;
}
VtfFile - > State = SavedState ;
return EFI_SUCCESS ;
}
EFI_STATUS
UpdateArmResetVectorIfNeeded (
IN MEMORY_FILE * FvImage ,
IN FV_INFO * FvInfo
)
/*++
Routine Description :
This parses the FV looking for SEC and patches that address into the
beginning of the FV header .
For ARM the reset vector is at 0x00000000 or 0xFFFF0000 .
This would commonly map to the first entry in the ROM .
ARM Exceptions :
Reset + 0
Undefined + 4
SWI + 8
Prefetch Abort + 12
Data Abort + 16
IRQ + 20
FIQ + 24
We support two schemes on ARM .
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1 ) Beginning of the FV is the reset vector
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2 ) Reset vector is data bytes FDF file and that code branches to reset vector
in the beginning of the FV ( fixed size offset ) .
Need to have the jump for the reset vector at location zero .
We also need to store the address or PEI ( if it exists ) .
We stub out a return from interrupt in case the debugger
is using SWI .
The optional entry to the common exception handler is
to support full featured exception handling from ROM and is currently
not support by this tool .
Arguments :
FvImage Memory file for the FV memory image
FvInfo Information read from INF file .
Returns :
EFI_SUCCESS Function Completed successfully .
EFI_ABORTED Error encountered .
EFI_INVALID_PARAMETER A required parameter was NULL .
EFI_NOT_FOUND PEI Core file not found .
- - */
{
EFI_FFS_FILE_HEADER * PeiCoreFile ;
EFI_FFS_FILE_HEADER * SecCoreFile ;
EFI_STATUS Status ;
EFI_FILE_SECTION_POINTER Pe32Section ;
UINT32 EntryPoint ;
UINT32 BaseOfCode ;
UINT16 MachineType ;
EFI_PHYSICAL_ADDRESS PeiCorePhysicalAddress ;
EFI_PHYSICAL_ADDRESS SecCorePhysicalAddress ;
INT32 ResetVector [ 4 ] ; // 0 - is branch relative to SEC entry point
// 1 - PEI Entry Point
// 2 - movs pc,lr for a SWI handler
// 3 - Place holder for Common Exception Handler
//
// Verify input parameters
//
if ( FvImage = = NULL | | FvInfo = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
//
// Initialize FV library
//
InitializeFvLib ( FvImage - > FileImage , FvInfo - > Size ) ;
//
// Find the Sec Core
//
Status = GetFileByType ( EFI_FV_FILETYPE_SECURITY_CORE , 1 , & SecCoreFile ) ;
if ( EFI_ERROR ( Status ) | | SecCoreFile = = NULL ) {
//
// Maybe hardware does SEC job and we only have PEI Core?
//
//
// Find the PEI Core. It may not exist if SEC loads DXE core directly
//
PeiCorePhysicalAddress = 0 ;
Status = GetFileByType ( EFI_FV_FILETYPE_PEI_CORE , 1 , & PeiCoreFile ) ;
if ( ! EFI_ERROR ( Status ) & & PeiCoreFile ! = NULL ) {
//
// PEI Core found, now find PE32 or TE section
//
Status = GetSectionByType ( PeiCoreFile , EFI_SECTION_PE32 , 1 , & Pe32Section ) ;
if ( Status = = EFI_NOT_FOUND ) {
Status = GetSectionByType ( PeiCoreFile , EFI_SECTION_TE , 1 , & Pe32Section ) ;
}
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not find either a PE32 or a TE section in PEI core file! " ) ;
return EFI_ABORTED ;
}
Status = GetPe32Info (
( VOID * ) ( ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) ) ,
& EntryPoint ,
& BaseOfCode ,
& MachineType
) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not get the PE32 entry point for the PEI core! " ) ;
return EFI_ABORTED ;
}
//
// Physical address is FV base + offset of PE32 + offset of the entry point
//
PeiCorePhysicalAddress = FvInfo - > BaseAddress ;
PeiCorePhysicalAddress + = ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) - ( UINTN ) FvImage - > FileImage ;
PeiCorePhysicalAddress + = EntryPoint ;
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DebugMsg ( NULL , 0 , 9 , " PeiCore physical entry point address " , " Address = 0x%llX " , ( unsigned long long ) PeiCorePhysicalAddress ) ;
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if ( MachineType = = EFI_IMAGE_MACHINE_ARMT ) {
memset ( ResetVector , 0 , sizeof ( ResetVector ) ) ;
// Address of PEI Core, if we have one
ResetVector [ 1 ] = ( UINT32 ) PeiCorePhysicalAddress ;
}
//
// Copy to the beginning of the FV
//
memcpy ( ( UINT8 * ) ( ( UINTN ) FvImage - > FileImage ) , ResetVector , sizeof ( ResetVector ) ) ;
}
return EFI_SUCCESS ;
}
//
// Sec Core found, now find PE32 section
//
Status = GetSectionByType ( SecCoreFile , EFI_SECTION_PE32 , 1 , & Pe32Section ) ;
if ( Status = = EFI_NOT_FOUND ) {
Status = GetSectionByType ( SecCoreFile , EFI_SECTION_TE , 1 , & Pe32Section ) ;
}
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not find a PE32 section in the SEC core file. " ) ;
return EFI_ABORTED ;
}
Status = GetPe32Info (
( VOID * ) ( ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) ) ,
& EntryPoint ,
& BaseOfCode ,
& MachineType
) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not get the PE32 entry point for the SEC core. " ) ;
return EFI_ABORTED ;
}
if ( MachineType ! = EFI_IMAGE_MACHINE_ARMT ) {
//
// If SEC is not ARM we have nothing to do
//
return EFI_SUCCESS ;
}
//
// Physical address is FV base + offset of PE32 + offset of the entry point
//
SecCorePhysicalAddress = FvInfo - > BaseAddress ;
SecCorePhysicalAddress + = ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) - ( UINTN ) FvImage - > FileImage ;
SecCorePhysicalAddress + = EntryPoint ;
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DebugMsg ( NULL , 0 , 9 , " SecCore physical entry point address " , " Address = 0x%llX " , ( unsigned long long ) SecCorePhysicalAddress ) ;
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//
// Find the PEI Core. It may not exist if SEC loads DXE core directly
//
PeiCorePhysicalAddress = 0 ;
Status = GetFileByType ( EFI_FV_FILETYPE_PEI_CORE , 1 , & PeiCoreFile ) ;
if ( ! EFI_ERROR ( Status ) & & PeiCoreFile ! = NULL ) {
//
// PEI Core found, now find PE32 or TE section
//
Status = GetSectionByType ( PeiCoreFile , EFI_SECTION_PE32 , 1 , & Pe32Section ) ;
if ( Status = = EFI_NOT_FOUND ) {
Status = GetSectionByType ( PeiCoreFile , EFI_SECTION_TE , 1 , & Pe32Section ) ;
}
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not find either a PE32 or a TE section in PEI core file! " ) ;
return EFI_ABORTED ;
}
Status = GetPe32Info (
( VOID * ) ( ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) ) ,
& EntryPoint ,
& BaseOfCode ,
& MachineType
) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " could not get the PE32 entry point for the PEI core! " ) ;
return EFI_ABORTED ;
}
//
// Physical address is FV base + offset of PE32 + offset of the entry point
//
PeiCorePhysicalAddress = FvInfo - > BaseAddress ;
PeiCorePhysicalAddress + = ( UINTN ) Pe32Section . Pe32Section + sizeof ( EFI_SECTION_PE32 ) - ( UINTN ) FvImage - > FileImage ;
PeiCorePhysicalAddress + = EntryPoint ;
2009-09-11 05:14:43 +02:00
DebugMsg ( NULL , 0 , 9 , " PeiCore physical entry point address " , " Address = 0x%llX " , ( unsigned long long ) PeiCorePhysicalAddress ) ;
2009-07-17 11:10:31 +02:00
}
// B SecEntryPoint - signed_immed_24 part +/-32MB offset
// on ARM, the PC is always 8 ahead, so we're not really jumping from the base address, but from base address + 8
ResetVector [ 0 ] = ( INT32 ) ( SecCorePhysicalAddress - FvInfo - > BaseAddress - 8 ) > > 2 ;
if ( ResetVector [ 0 ] > 0x00FFFFFF ) {
Error ( NULL , 0 , 3000 , " Invalid " , " SEC Entry point must be within 32MB of the start of the FV " ) ;
return EFI_ABORTED ;
}
// Add opcode for an uncondional branch with no link. AKA B SecEntryPoint
2010-07-21 04:46:15 +02:00
ResetVector [ 0 ] | = 0xEB000000 ;
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// Address of PEI Core, if we have one
ResetVector [ 1 ] = ( UINT32 ) PeiCorePhysicalAddress ;
// SWI handler movs pc,lr. Just in case a debugger uses SWI
ResetVector [ 2 ] = 0xE1B0F07E ;
// Place holder to support a common interrupt handler from ROM.
// Currently not suppprted. For this to be used the reset vector would not be in this FV
// and the exception vectors would be hard coded in the ROM and just through this address
// to find a common handler in the a module in the FV.
ResetVector [ 3 ] = 0 ;
//
// Copy to the beginning of the FV
//
memcpy ( ( UINT8 * ) ( ( UINTN ) FvImage - > FileImage ) , ResetVector , sizeof ( ResetVector ) ) ;
DebugMsg ( NULL , 0 , 9 , " Update Reset vector in FV Header " , NULL ) ;
return EFI_SUCCESS ;
}
EFI_STATUS
GetPe32Info (
IN UINT8 * Pe32 ,
OUT UINT32 * EntryPoint ,
OUT UINT32 * BaseOfCode ,
OUT UINT16 * MachineType
)
/*++
Routine Description :
Retrieves the PE32 entry point offset and machine type from PE image or TeImage .
See EfiImage . h for machine types . The entry point offset is from the beginning
of the PE32 buffer passed in .
Arguments :
Pe32 Beginning of the PE32 .
EntryPoint Offset from the beginning of the PE32 to the image entry point .
BaseOfCode Base address of code .
MachineType Magic number for the machine type .
Returns :
EFI_SUCCESS Function completed successfully .
EFI_ABORTED Error encountered .
EFI_INVALID_PARAMETER A required parameter was NULL .
EFI_UNSUPPORTED The operation is unsupported .
- - */
{
EFI_IMAGE_DOS_HEADER * DosHeader ;
EFI_IMAGE_OPTIONAL_HEADER_UNION * ImgHdr ;
EFI_TE_IMAGE_HEADER * TeHeader ;
//
// Verify input parameters
//
if ( Pe32 = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
//
// First check whether it is one TE Image.
//
TeHeader = ( EFI_TE_IMAGE_HEADER * ) Pe32 ;
if ( TeHeader - > Signature = = EFI_TE_IMAGE_HEADER_SIGNATURE ) {
//
// By TeImage Header to get output
//
* EntryPoint = TeHeader - > AddressOfEntryPoint + sizeof ( EFI_TE_IMAGE_HEADER ) - TeHeader - > StrippedSize ;
* BaseOfCode = TeHeader - > BaseOfCode + sizeof ( EFI_TE_IMAGE_HEADER ) - TeHeader - > StrippedSize ;
* MachineType = TeHeader - > Machine ;
} else {
//
// Then check whether
// First is the DOS header
//
DosHeader = ( EFI_IMAGE_DOS_HEADER * ) Pe32 ;
//
// Verify DOS header is expected
//
if ( DosHeader - > e_magic ! = EFI_IMAGE_DOS_SIGNATURE ) {
Error ( NULL , 0 , 3000 , " Invalid " , " Unknown magic number in the DOS header, 0x%04X. " , DosHeader - > e_magic ) ;
return EFI_UNSUPPORTED ;
}
//
// Immediately following is the NT header.
//
ImgHdr = ( EFI_IMAGE_OPTIONAL_HEADER_UNION * ) ( ( UINTN ) Pe32 + DosHeader - > e_lfanew ) ;
//
// Verify NT header is expected
//
if ( ImgHdr - > Pe32 . Signature ! = EFI_IMAGE_NT_SIGNATURE ) {
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Error ( NULL , 0 , 3000 , " Invalid " , " Unrecognized image signature 0x%08X. " , ( unsigned ) ImgHdr - > Pe32 . Signature ) ;
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return EFI_UNSUPPORTED ;
}
//
// Get output
//
* EntryPoint = ImgHdr - > Pe32 . OptionalHeader . AddressOfEntryPoint ;
* BaseOfCode = ImgHdr - > Pe32 . OptionalHeader . BaseOfCode ;
* MachineType = ImgHdr - > Pe32 . FileHeader . Machine ;
}
//
// Verify machine type is supported
//
if ( * MachineType ! = EFI_IMAGE_MACHINE_IA32 & & * MachineType ! = EFI_IMAGE_MACHINE_IA64 & & * MachineType ! = EFI_IMAGE_MACHINE_X64 & & * MachineType ! = EFI_IMAGE_MACHINE_EBC & &
* MachineType ! = EFI_IMAGE_MACHINE_ARMT ) {
Error ( NULL , 0 , 3000 , " Invalid " , " Unrecognized machine type in the PE32 file. " ) ;
return EFI_UNSUPPORTED ;
}
return EFI_SUCCESS ;
}
EFI_STATUS
GenerateFvImage (
IN CHAR8 * InfFileImage ,
IN UINTN InfFileSize ,
IN CHAR8 * FvFileName ,
IN CHAR8 * MapFileName
)
/*++
Routine Description :
This is the main function which will be called from application .
Arguments :
InfFileImage Buffer containing the INF file contents .
InfFileSize Size of the contents of the InfFileImage buffer .
FvFileName Requested name for the FV file .
MapFileName Fv map file to log fv driver information .
Returns :
EFI_SUCCESS Function completed successfully .
EFI_OUT_OF_RESOURCES Could not allocate required resources .
EFI_ABORTED Error encountered .
EFI_INVALID_PARAMETER A required parameter was NULL .
- - */
{
2009-11-09 12:47:35 +01:00
EFI_STATUS Status ;
MEMORY_FILE InfMemoryFile ;
MEMORY_FILE FvImageMemoryFile ;
UINTN Index ;
EFI_FIRMWARE_VOLUME_HEADER * FvHeader ;
EFI_FFS_FILE_HEADER * VtfFileImage ;
UINT8 * FvBufferHeader ; // to make sure fvimage header 8 type alignment.
UINT8 * FvImage ;
UINTN FvImageSize ;
FILE * FvFile ;
CHAR8 FvMapName [ _MAX_PATH ] ;
FILE * FvMapFile ;
EFI_FIRMWARE_VOLUME_EXT_HEADER * FvExtHeader ;
FILE * FvExtHeaderFile ;
UINTN FileSize ;
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CHAR8 FvReportName [ _MAX_PATH ] ;
FILE * FvReportFile ;
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FvBufferHeader = NULL ;
FvFile = NULL ;
FvMapFile = NULL ;
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FvReportFile = NULL ;
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if ( InfFileImage ! = NULL ) {
//
// Initialize file structures
//
InfMemoryFile . FileImage = InfFileImage ;
InfMemoryFile . CurrentFilePointer = InfFileImage ;
InfMemoryFile . Eof = InfFileImage + InfFileSize ;
//
// Parse the FV inf file for header information
//
Status = ParseFvInf ( & InfMemoryFile , & mFvDataInfo ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 0003 , " Error parsing file " , " the input FV INF file. " ) ;
return Status ;
}
}
//
// Update the file name return values
//
if ( FvFileName = = NULL & & mFvDataInfo . FvName [ 0 ] ! = ' \0 ' ) {
FvFileName = mFvDataInfo . FvName ;
}
if ( FvFileName = = NULL ) {
Error ( NULL , 0 , 1001 , " Missing option " , " Output file name " ) ;
return EFI_ABORTED ;
}
if ( mFvDataInfo . FvBlocks [ 0 ] . Length = = 0 ) {
Error ( NULL , 0 , 1001 , " Missing required argument " , " Block Size " ) ;
return EFI_ABORTED ;
}
//
// Debug message Fv File System Guid
//
if ( mFvDataInfo . FvFileSystemGuidSet ) {
DebugMsg ( NULL , 0 , 9 , " FV File System Guid " , " %08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X " ,
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( unsigned ) mFvDataInfo . FvFileSystemGuid . Data1 ,
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mFvDataInfo . FvFileSystemGuid . Data2 ,
mFvDataInfo . FvFileSystemGuid . Data3 ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 0 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 1 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 2 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 3 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 4 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 5 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 6 ] ,
mFvDataInfo . FvFileSystemGuid . Data4 [ 7 ] ) ;
}
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//
// Add PI FV extension header
//
FvExtHeader = NULL ;
FvExtHeaderFile = NULL ;
if ( mFvDataInfo . FvExtHeaderFile [ 0 ] ! = 0 ) {
//
// Open the FV Extension Header file
//
FvExtHeaderFile = fopen ( mFvDataInfo . FvExtHeaderFile , " rb " ) ;
//
// Get the file size
//
FileSize = _filelength ( fileno ( FvExtHeaderFile ) ) ;
//
// Allocate a buffer for the FV Extension Header
//
FvExtHeader = malloc ( FileSize ) ;
if ( FvExtHeader = = NULL ) {
fclose ( FvExtHeaderFile ) ;
return EFI_OUT_OF_RESOURCES ;
}
//
// Read the FV Extension Header
//
fread ( FvExtHeader , sizeof ( UINT8 ) , FileSize , FvExtHeaderFile ) ;
fclose ( FvExtHeaderFile ) ;
//
// See if there is an override for the FV Name GUID
//
if ( mFvDataInfo . FvNameGuidSet ) {
memcpy ( & FvExtHeader - > FvName , & mFvDataInfo . FvNameGuid , sizeof ( EFI_GUID ) ) ;
}
memcpy ( & mFvDataInfo . FvNameGuid , & FvExtHeader - > FvName , sizeof ( EFI_GUID ) ) ;
mFvDataInfo . FvNameGuidSet = TRUE ;
} else if ( mFvDataInfo . FvNameGuidSet ) {
//
// Allocate a buffer for the FV Extension Header
//
FvExtHeader = malloc ( sizeof ( EFI_FIRMWARE_VOLUME_EXT_HEADER ) ) ;
if ( FvExtHeader = = NULL ) {
return EFI_OUT_OF_RESOURCES ;
}
memcpy ( & FvExtHeader - > FvName , & mFvDataInfo . FvNameGuid , sizeof ( EFI_GUID ) ) ;
FvExtHeader - > ExtHeaderSize = sizeof ( EFI_FIRMWARE_VOLUME_EXT_HEADER ) ;
}
2009-07-17 11:10:31 +02:00
//
// Debug message Fv Name Guid
//
if ( mFvDataInfo . FvNameGuidSet ) {
DebugMsg ( NULL , 0 , 9 , " FV Name Guid " , " %08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X " ,
2009-09-11 05:14:43 +02:00
( unsigned ) mFvDataInfo . FvNameGuid . Data1 ,
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mFvDataInfo . FvNameGuid . Data2 ,
mFvDataInfo . FvNameGuid . Data3 ,
mFvDataInfo . FvNameGuid . Data4 [ 0 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 1 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 2 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 3 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 4 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 5 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 6 ] ,
mFvDataInfo . FvNameGuid . Data4 [ 7 ] ) ;
}
if ( CompareGuid ( & mFvDataInfo . FvFileSystemGuid , & mEfiFirmwareFileSystem2Guid ) = = 0 ) {
mFvDataInfo . IsPiFvImage = TRUE ;
}
//
// FvMap file to log the function address of all modules in one Fvimage
//
if ( MapFileName ! = NULL ) {
strcpy ( FvMapName , MapFileName ) ;
} else {
strcpy ( FvMapName , FvFileName ) ;
strcat ( FvMapName , " .map " ) ;
}
VerboseMsg ( " FV Map file name is %s " , FvMapName ) ;
2010-03-01 00:39:39 +01:00
//
// FvReport file to log the FV information in one Fvimage
//
strcpy ( FvReportName , FvFileName ) ;
strcat ( FvReportName , " .txt " ) ;
2009-07-17 11:10:31 +02:00
//
// Calculate the FV size and Update Fv Size based on the actual FFS files.
// And Update mFvDataInfo data.
//
Status = CalculateFvSize ( & mFvDataInfo ) ;
if ( EFI_ERROR ( Status ) ) {
return Status ;
}
2009-09-11 05:14:43 +02:00
VerboseMsg ( " the generated FV image size is %u bytes " , ( unsigned ) mFvDataInfo . Size ) ;
2009-07-17 11:10:31 +02:00
//
// support fv image and empty fv image
//
FvImageSize = mFvDataInfo . Size ;
//
// Allocate the FV, assure FvImage Header 8 byte alignment
//
FvBufferHeader = malloc ( FvImageSize + sizeof ( UINT64 ) ) ;
if ( FvBufferHeader = = NULL ) {
return EFI_OUT_OF_RESOURCES ;
}
FvImage = ( UINT8 * ) ( ( ( UINTN ) FvBufferHeader + 7 ) & ~ 7 ) ;
//
// Initialize the FV to the erase polarity
//
if ( mFvDataInfo . FvAttributes = = 0 ) {
//
// Set Default Fv Attribute
//
mFvDataInfo . FvAttributes = FV_DEFAULT_ATTRIBUTE ;
}
if ( mFvDataInfo . FvAttributes & EFI_FVB2_ERASE_POLARITY ) {
memset ( FvImage , - 1 , FvImageSize ) ;
} else {
memset ( FvImage , 0 , FvImageSize ) ;
}
//
// Initialize FV header
//
FvHeader = ( EFI_FIRMWARE_VOLUME_HEADER * ) FvImage ;
//
// Initialize the zero vector to all zeros.
//
memset ( FvHeader - > ZeroVector , 0 , 16 ) ;
//
// Copy the Fv file system GUID
//
memcpy ( & FvHeader - > FileSystemGuid , & mFvDataInfo . FvFileSystemGuid , sizeof ( EFI_GUID ) ) ;
FvHeader - > FvLength = FvImageSize ;
FvHeader - > Signature = EFI_FVH_SIGNATURE ;
FvHeader - > Attributes = mFvDataInfo . FvAttributes ;
FvHeader - > Revision = EFI_FVH_REVISION ;
FvHeader - > ExtHeaderOffset = 0 ;
FvHeader - > Reserved [ 0 ] = 0 ;
//
// Copy firmware block map
//
for ( Index = 0 ; mFvDataInfo . FvBlocks [ Index ] . Length ! = 0 ; Index + + ) {
FvHeader - > BlockMap [ Index ] . NumBlocks = mFvDataInfo . FvBlocks [ Index ] . NumBlocks ;
FvHeader - > BlockMap [ Index ] . Length = mFvDataInfo . FvBlocks [ Index ] . Length ;
}
//
// Add block map terminator
//
FvHeader - > BlockMap [ Index ] . NumBlocks = 0 ;
FvHeader - > BlockMap [ Index ] . Length = 0 ;
//
// Complete the header
//
FvHeader - > HeaderLength = ( UINT16 ) ( ( ( UINTN ) & ( FvHeader - > BlockMap [ Index + 1 ] ) ) - ( UINTN ) FvImage ) ;
FvHeader - > Checksum = 0 ;
FvHeader - > Checksum = CalculateChecksum16 ( ( UINT16 * ) FvHeader , FvHeader - > HeaderLength / sizeof ( UINT16 ) ) ;
//
// If there is no FFS file, generate one empty FV
//
2009-09-11 05:14:43 +02:00
if ( mFvDataInfo . FvFiles [ 0 ] [ 0 ] = = 0 & & ! mFvDataInfo . FvNameGuidSet ) {
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goto WriteFile ;
}
//
// Initialize our "file" view of the buffer
//
FvImageMemoryFile . FileImage = ( CHAR8 * ) FvImage ;
FvImageMemoryFile . CurrentFilePointer = ( CHAR8 * ) FvImage + FvHeader - > HeaderLength ;
FvImageMemoryFile . Eof = ( CHAR8 * ) FvImage + FvImageSize ;
//
// Initialize the FV library.
//
InitializeFvLib ( FvImageMemoryFile . FileImage , FvImageSize ) ;
//
// Initialize the VTF file address.
//
VtfFileImage = ( EFI_FFS_FILE_HEADER * ) FvImageMemoryFile . Eof ;
//
// Open FvMap file
//
FvMapFile = fopen ( FvMapName , " w " ) ;
if ( FvMapFile = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , FvMapName ) ;
return EFI_ABORTED ;
}
2010-03-01 00:39:39 +01:00
//
// Open FvReport file
//
FvReportFile = fopen ( FvReportName , " w " ) ;
if ( FvReportFile = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , FvReportName ) ;
return EFI_ABORTED ;
}
2009-07-17 11:10:31 +02:00
//
// record FV size information into FvMap file.
//
if ( mFvTotalSize ! = 0 ) {
fprintf ( FvMapFile , EFI_FV_TOTAL_SIZE_STRING ) ;
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fprintf ( FvMapFile , " = 0x%x \n " , ( unsigned ) mFvTotalSize ) ;
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}
if ( mFvTakenSize ! = 0 ) {
fprintf ( FvMapFile , EFI_FV_TAKEN_SIZE_STRING ) ;
2009-09-11 05:14:43 +02:00
fprintf ( FvMapFile , " = 0x%x \n " , ( unsigned ) mFvTakenSize ) ;
2009-07-17 11:10:31 +02:00
}
if ( mFvTotalSize ! = 0 & & mFvTakenSize ! = 0 ) {
fprintf ( FvMapFile , EFI_FV_SPACE_SIZE_STRING ) ;
2009-09-11 05:14:43 +02:00
fprintf ( FvMapFile , " = 0x%x \n \n " , ( unsigned ) ( mFvTotalSize - mFvTakenSize ) ) ;
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}
2010-03-01 00:39:39 +01:00
//
// record FV size information to FvReportFile.
//
fprintf ( FvReportFile , " %s = 0x%x \n " , EFI_FV_TOTAL_SIZE_STRING , ( unsigned ) mFvTotalSize ) ;
fprintf ( FvReportFile , " %s = 0x%x \n " , EFI_FV_TAKEN_SIZE_STRING , ( unsigned ) mFvTakenSize ) ;
2009-07-17 11:10:31 +02:00
//
2009-11-09 12:47:35 +01:00
// Add PI FV extension header
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//
2009-11-09 12:47:35 +01:00
if ( FvExtHeader ! = NULL ) {
//
// Add FV Extended Header contents to the FV as a PAD file
//
AddPadFile ( & FvImageMemoryFile , 4 , VtfFileImage , FvExtHeader ) ;
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//
// Fv Extension header change update Fv Header Check sum
//
FvHeader - > Checksum = 0 ;
FvHeader - > Checksum = CalculateChecksum16 ( ( UINT16 * ) FvHeader , FvHeader - > HeaderLength / sizeof ( UINT16 ) ) ;
}
//
// Add files to FV
//
for ( Index = 0 ; mFvDataInfo . FvFiles [ Index ] [ 0 ] ! = 0 ; Index + + ) {
//
// Add the file
//
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Status = AddFile ( & FvImageMemoryFile , & mFvDataInfo , Index , & VtfFileImage , FvMapFile , FvReportFile ) ;
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//
// Exit if error detected while adding the file
//
if ( EFI_ERROR ( Status ) ) {
goto Finish ;
}
}
//
// If there is a VTF file, some special actions need to occur.
//
if ( ( UINTN ) VtfFileImage ! = ( UINTN ) FvImageMemoryFile . Eof ) {
//
// Pad from the end of the last file to the beginning of the VTF file.
// If the left space is less than sizeof (EFI_FFS_FILE_HEADER)?
//
Status = PadFvImage ( & FvImageMemoryFile , VtfFileImage ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 4002 , " Resource " , " FV space is full, cannot add pad file between the last file and the VTF file. " ) ;
goto Finish ;
}
if ( ! mArm ) {
//
// Update reset vector (SALE_ENTRY for IPF)
// Now for IA32 and IA64 platform, the fv which has bsf file must have the
// EndAddress of 0xFFFFFFFF. Thus, only this type fv needs to update the
// reset vector. If the PEI Core is found, the VTF file will probably get
// corrupted by updating the entry point.
//
if ( ( mFvDataInfo . BaseAddress + mFvDataInfo . Size ) = = FV_IMAGES_TOP_ADDRESS ) {
Status = UpdateResetVector ( & FvImageMemoryFile , & mFvDataInfo , VtfFileImage ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " Could not update the reset vector. " ) ;
goto Finish ;
}
DebugMsg ( NULL , 0 , 9 , " Update Reset vector in VTF file " , NULL ) ;
}
}
}
if ( mArm ) {
Status = UpdateArmResetVectorIfNeeded ( & FvImageMemoryFile , & mFvDataInfo ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " Could not update the reset vector. " ) ;
goto Finish ;
}
//
// Update Checksum for FvHeader
//
FvHeader - > Checksum = 0 ;
FvHeader - > Checksum = CalculateChecksum16 ( ( UINT16 * ) FvHeader , FvHeader - > HeaderLength / sizeof ( UINT16 ) ) ;
}
//
// Update FV Alignment attribute to the largest alignment of all the FFS files in the FV
//
if ( ( ( ( FvHeader - > Attributes & EFI_FVB2_ALIGNMENT ) > > 16 ) ) < MaxFfsAlignment ) {
FvHeader - > Attributes = ( ( MaxFfsAlignment < < 16 ) | ( FvHeader - > Attributes & 0xFFFF ) ) ;
//
// Update Checksum for FvHeader
//
FvHeader - > Checksum = 0 ;
FvHeader - > Checksum = CalculateChecksum16 ( ( UINT16 * ) FvHeader , FvHeader - > HeaderLength / sizeof ( UINT16 ) ) ;
}
WriteFile :
//
// Write fv file
//
FvFile = fopen ( FvFileName , " wb " ) ;
if ( FvFile = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , FvFileName ) ;
Status = EFI_ABORTED ;
goto Finish ;
}
if ( fwrite ( FvImage , 1 , FvImageSize , FvFile ) ! = FvImageSize ) {
Error ( NULL , 0 , 0002 , " Error writing file " , FvFileName ) ;
Status = EFI_ABORTED ;
goto Finish ;
}
Finish :
if ( FvBufferHeader ! = NULL ) {
free ( FvBufferHeader ) ;
}
2009-11-09 12:47:35 +01:00
if ( FvExtHeader ! = NULL ) {
free ( FvExtHeader ) ;
}
2009-07-17 11:10:31 +02:00
if ( FvFile ! = NULL ) {
2010-03-01 00:39:39 +01:00
fflush ( FvFile ) ;
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fclose ( FvFile ) ;
}
if ( FvMapFile ! = NULL ) {
2010-03-01 00:39:39 +01:00
fflush ( FvMapFile ) ;
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fclose ( FvMapFile ) ;
}
2010-03-01 00:39:39 +01:00
if ( FvReportFile ! = NULL ) {
fflush ( FvReportFile ) ;
fclose ( FvReportFile ) ;
}
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return Status ;
}
EFI_STATUS
UpdatePeiCoreEntryInFit (
IN FIT_TABLE * FitTablePtr ,
IN UINT64 PeiCorePhysicalAddress
)
/*++
Routine Description :
This function is used to update the Pei Core address in FIT , this can be used by Sec core to pass control from
Sec to Pei Core
Arguments :
FitTablePtr - The pointer of FIT_TABLE .
PeiCorePhysicalAddress - The address of Pei Core entry .
Returns :
EFI_SUCCESS - The PEI_CORE FIT entry was updated successfully .
EFI_NOT_FOUND - Not found the PEI_CORE FIT entry .
- - */
{
FIT_TABLE * TmpFitPtr ;
UINTN Index ;
UINTN NumFitComponents ;
TmpFitPtr = FitTablePtr ;
NumFitComponents = TmpFitPtr - > CompSize ;
for ( Index = 0 ; Index < NumFitComponents ; Index + + ) {
if ( ( TmpFitPtr - > CvAndType & FIT_TYPE_MASK ) = = COMP_TYPE_FIT_PEICORE ) {
TmpFitPtr - > CompAddress = PeiCorePhysicalAddress ;
return EFI_SUCCESS ;
}
TmpFitPtr + + ;
}
return EFI_NOT_FOUND ;
}
VOID
UpdateFitCheckSum (
IN FIT_TABLE * FitTablePtr
)
/*++
Routine Description :
This function is used to update the checksum for FIT .
Arguments :
FitTablePtr - The pointer of FIT_TABLE .
Returns :
None .
- - */
{
if ( ( FitTablePtr - > CvAndType & CHECKSUM_BIT_MASK ) > > 7 ) {
FitTablePtr - > CheckSum = 0 ;
FitTablePtr - > CheckSum = CalculateChecksum8 ( ( UINT8 * ) FitTablePtr , FitTablePtr - > CompSize * 16 ) ;
}
}
EFI_STATUS
CalculateFvSize (
FV_INFO * FvInfoPtr
)
/*++
Routine Description :
Calculate the FV size and Update Fv Size based on the actual FFS files .
And Update FvInfo data .
Arguments :
FvInfoPtr - The pointer to FV_INFO structure .
Returns :
EFI_ABORTED - Ffs Image Error
EFI_SUCCESS - Successfully update FvSize
- - */
{
UINTN CurrentOffset ;
UINTN Index ;
FILE * fpin ;
UINTN FfsFileSize ;
2009-11-09 12:47:35 +01:00
UINTN FvExtendHeaderSize ;
2009-07-17 11:10:31 +02:00
UINT32 FfsAlignment ;
EFI_FFS_FILE_HEADER FfsHeader ;
BOOLEAN VtfFileFlag ;
2009-09-11 05:14:43 +02:00
UINTN VtfFileSize ;
2009-07-17 11:10:31 +02:00
2009-11-09 12:47:35 +01:00
FvExtendHeaderSize = 0 ;
2009-09-11 05:14:43 +02:00
VtfFileSize = 0 ;
2009-07-17 11:10:31 +02:00
VtfFileFlag = FALSE ;
fpin = NULL ;
Index = 0 ;
//
// Compute size for easy access later
//
FvInfoPtr - > Size = 0 ;
for ( Index = 0 ; FvInfoPtr - > FvBlocks [ Index ] . NumBlocks > 0 & & FvInfoPtr - > FvBlocks [ Index ] . Length > 0 ; Index + + ) {
FvInfoPtr - > Size + = FvInfoPtr - > FvBlocks [ Index ] . NumBlocks * FvInfoPtr - > FvBlocks [ Index ] . Length ;
}
//
// Caculate the required sizes for all FFS files.
//
CurrentOffset = sizeof ( EFI_FIRMWARE_VOLUME_HEADER ) ;
for ( Index = 1 ; ; Index + + ) {
CurrentOffset + = sizeof ( EFI_FV_BLOCK_MAP_ENTRY ) ;
if ( FvInfoPtr - > FvBlocks [ Index ] . NumBlocks = = 0 | | FvInfoPtr - > FvBlocks [ Index ] . Length = = 0 ) {
break ;
}
}
//
// Calculate PI extension header
//
2009-11-09 12:47:35 +01:00
if ( mFvDataInfo . FvExtHeaderFile [ 0 ] ! = ' \0 ' ) {
fpin = fopen ( mFvDataInfo . FvExtHeaderFile , " rb " ) ;
if ( fpin = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , mFvDataInfo . FvExtHeaderFile ) ;
return EFI_ABORTED ;
}
FvExtendHeaderSize = _filelength ( fileno ( fpin ) ) ;
fclose ( fpin ) ;
CurrentOffset + = sizeof ( EFI_FFS_FILE_HEADER ) + FvExtendHeaderSize ;
CurrentOffset = ( CurrentOffset + 7 ) & ( ~ 7 ) ;
} else if ( mFvDataInfo . FvNameGuidSet ) {
2009-07-17 11:10:31 +02:00
CurrentOffset + = sizeof ( EFI_FFS_FILE_HEADER ) + sizeof ( EFI_FIRMWARE_VOLUME_EXT_HEADER ) ;
CurrentOffset = ( CurrentOffset + 7 ) & ( ~ 7 ) ;
}
//
// Accumlate every FFS file size.
//
for ( Index = 0 ; FvInfoPtr - > FvFiles [ Index ] [ 0 ] ! = 0 ; Index + + ) {
//
// Open FFS file
//
fpin = NULL ;
fpin = fopen ( FvInfoPtr - > FvFiles [ Index ] , " rb " ) ;
if ( fpin = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , FvInfoPtr - > FvFiles [ Index ] ) ;
return EFI_ABORTED ;
}
//
// Get the file size
//
FfsFileSize = _filelength ( fileno ( fpin ) ) ;
//
// Read Ffs File header
//
fread ( & FfsHeader , sizeof ( UINT8 ) , sizeof ( EFI_FFS_FILE_HEADER ) , fpin ) ;
//
// close file
//
fclose ( fpin ) ;
if ( FvInfoPtr - > IsPiFvImage ) {
//
// Check whether this ffs file is vtf file
//
if ( IsVtfFile ( & FfsHeader ) ) {
if ( VtfFileFlag ) {
//
// One Fv image can't have two vtf files.
//
return EFI_ABORTED ;
}
VtfFileFlag = TRUE ;
2009-09-11 05:14:43 +02:00
VtfFileSize = FfsFileSize ;
continue ;
}
//
// Get the alignment of FFS file
//
ReadFfsAlignment ( & FfsHeader , & FfsAlignment ) ;
FfsAlignment = 1 < < FfsAlignment ;
//
// Add Pad file
//
if ( ( ( CurrentOffset + sizeof ( EFI_FFS_FILE_HEADER ) ) % FfsAlignment ) ! = 0 ) {
CurrentOffset = ( CurrentOffset + sizeof ( EFI_FFS_FILE_HEADER ) * 2 + FfsAlignment - 1 ) & ~ ( FfsAlignment - 1 ) ;
CurrentOffset - = sizeof ( EFI_FFS_FILE_HEADER ) ;
}
2009-07-17 11:10:31 +02:00
}
//
// Add ffs file size
//
if ( FvInfoPtr - > SizeofFvFiles [ Index ] > FfsFileSize ) {
CurrentOffset + = FvInfoPtr - > SizeofFvFiles [ Index ] ;
} else {
CurrentOffset + = FfsFileSize ;
}
//
// Make next ffs file start at QWord Boundry
//
if ( FvInfoPtr - > IsPiFvImage ) {
CurrentOffset = ( CurrentOffset + EFI_FFS_FILE_HEADER_ALIGNMENT - 1 ) & ~ ( EFI_FFS_FILE_HEADER_ALIGNMENT - 1 ) ;
}
}
2009-09-11 05:14:43 +02:00
CurrentOffset + = VtfFileSize ;
DebugMsg ( NULL , 0 , 9 , " FvImage size " , " The caculated fv image size is 0x%x and the current set fv image size is 0x%x " , ( unsigned ) CurrentOffset , ( unsigned ) FvInfoPtr - > Size ) ;
2009-07-17 11:10:31 +02:00
if ( FvInfoPtr - > Size = = 0 ) {
//
// Update FvInfo data
//
FvInfoPtr - > FvBlocks [ 0 ] . NumBlocks = CurrentOffset / FvInfoPtr - > FvBlocks [ 0 ] . Length + ( ( CurrentOffset % FvInfoPtr - > FvBlocks [ 0 ] . Length ) ? 1 : 0 ) ;
FvInfoPtr - > Size = FvInfoPtr - > FvBlocks [ 0 ] . NumBlocks * FvInfoPtr - > FvBlocks [ 0 ] . Length ;
FvInfoPtr - > FvBlocks [ 1 ] . NumBlocks = 0 ;
FvInfoPtr - > FvBlocks [ 1 ] . Length = 0 ;
} else if ( FvInfoPtr - > Size < CurrentOffset ) {
//
// Not invalid
//
2009-09-11 05:14:43 +02:00
Error ( NULL , 0 , 3000 , " Invalid " , " the required fv image size 0x%x exceeds the set fv image size 0x%x " , ( unsigned ) CurrentOffset , ( unsigned ) FvInfoPtr - > Size ) ;
2009-07-17 11:10:31 +02:00
return EFI_INVALID_PARAMETER ;
}
//
// Set Fv Size Information
//
mFvTotalSize = FvInfoPtr - > Size ;
mFvTakenSize = CurrentOffset ;
return EFI_SUCCESS ;
}
EFI_STATUS
FfsRebaseImageRead (
IN VOID * FileHandle ,
IN UINTN FileOffset ,
IN OUT UINT32 * ReadSize ,
OUT VOID * Buffer
)
/*++
Routine Description :
Support routine for the PE / COFF Loader that reads a buffer from a PE / COFF file
Arguments :
FileHandle - The handle to the PE / COFF file
FileOffset - The offset , in bytes , into the file to read
ReadSize - The number of bytes to read from the file starting at FileOffset
Buffer - A pointer to the buffer to read the data into .
Returns :
EFI_SUCCESS - ReadSize bytes of data were read into Buffer from the PE / COFF file starting at FileOffset
- - */
{
CHAR8 * Destination8 ;
CHAR8 * Source8 ;
UINT32 Length ;
Destination8 = Buffer ;
Source8 = ( CHAR8 * ) ( ( UINTN ) FileHandle + FileOffset ) ;
Length = * ReadSize ;
while ( Length - - ) {
* ( Destination8 + + ) = * ( Source8 + + ) ;
}
return EFI_SUCCESS ;
}
2010-03-01 00:39:39 +01:00
EFI_STATUS
GetChildFvFromFfs (
IN FV_INFO * FvInfo ,
IN EFI_FFS_FILE_HEADER * FfsFile ,
IN UINTN XipOffset
)
/*++
Routine Description :
This function gets all child FvImages in the input FfsFile , and records
their base address to the parent image .
Arguments :
FvInfo A pointer to FV_INFO struture .
FfsFile A pointer to Ffs file image that may contain FvImage .
XipOffset The offset address to the parent FvImage base .
Returns :
EFI_SUCCESS Base address of child Fv image is recorded .
- - */
{
EFI_STATUS Status ;
UINTN Index ;
EFI_FILE_SECTION_POINTER SubFvSection ;
EFI_FIRMWARE_VOLUME_HEADER * SubFvImageHeader ;
EFI_PHYSICAL_ADDRESS SubFvBaseAddress ;
for ( Index = 1 ; ; Index + + ) {
//
// Find FV section
//
Status = GetSectionByType ( FfsFile , EFI_SECTION_FIRMWARE_VOLUME_IMAGE , Index , & SubFvSection ) ;
if ( EFI_ERROR ( Status ) ) {
break ;
}
SubFvImageHeader = ( EFI_FIRMWARE_VOLUME_HEADER * ) ( ( UINT8 * ) SubFvSection . FVImageSection + sizeof ( EFI_FIRMWARE_VOLUME_IMAGE_SECTION ) ) ;
//
// Rebase on Flash
//
SubFvBaseAddress = FvInfo - > BaseAddress + ( UINTN ) SubFvImageHeader - ( UINTN ) FfsFile + XipOffset ;
mFvBaseAddress [ mFvBaseAddressNumber + + ] = SubFvBaseAddress ;
}
return EFI_SUCCESS ;
}
2009-07-17 11:10:31 +02:00
EFI_STATUS
FfsRebase (
IN OUT FV_INFO * FvInfo ,
IN CHAR8 * FileName ,
IN OUT EFI_FFS_FILE_HEADER * FfsFile ,
IN UINTN XipOffset ,
IN FILE * FvMapFile
)
/*++
Routine Description :
This function determines if a file is XIP and should be rebased . It will
rebase any PE32 sections found in the file using the base address .
Arguments :
FvInfo A pointer to FV_INFO struture .
FileName Ffs File PathName
FfsFile A pointer to Ffs file image .
XipOffset The offset address to use for rebasing the XIP file image .
FvMapFile FvMapFile to record the function address in one Fvimage
Returns :
EFI_SUCCESS The image was properly rebased .
EFI_INVALID_PARAMETER An input parameter is invalid .
EFI_ABORTED An error occurred while rebasing the input file image .
EFI_OUT_OF_RESOURCES Could not allocate a required resource .
EFI_NOT_FOUND No compressed sections could be found .
- - */
{
EFI_STATUS Status ;
PE_COFF_LOADER_IMAGE_CONTEXT ImageContext ;
PE_COFF_LOADER_IMAGE_CONTEXT OrigImageContext ;
EFI_PHYSICAL_ADDRESS XipBase ;
EFI_PHYSICAL_ADDRESS NewPe32BaseAddress ;
UINTN Index ;
EFI_FILE_SECTION_POINTER CurrentPe32Section ;
EFI_FFS_FILE_STATE SavedState ;
EFI_IMAGE_OPTIONAL_HEADER_UNION * ImgHdr ;
EFI_TE_IMAGE_HEADER * TEImageHeader ;
UINT8 * MemoryImagePointer ;
EFI_IMAGE_SECTION_HEADER * SectionHeader ;
CHAR8 PeFileName [ _MAX_PATH ] ;
CHAR8 * Cptr ;
FILE * PeFile ;
UINT8 * PeFileBuffer ;
UINT32 PeFileSize ;
CHAR8 * PdbPointer ;
Index = 0 ;
MemoryImagePointer = NULL ;
TEImageHeader = NULL ;
ImgHdr = NULL ;
SectionHeader = NULL ;
Cptr = NULL ;
PeFile = NULL ;
PeFileBuffer = NULL ;
//
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// Don't need to relocate image when BaseAddress is zero and no ForceRebase Flag specified.
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//
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if ( ( FvInfo - > BaseAddress = = 0 ) & & ( FvInfo - > ForceRebase = = - 1 ) ) {
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return EFI_SUCCESS ;
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}
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//
// If ForceRebase Flag specified to FALSE, will always not take rebase action.
//
if ( FvInfo - > ForceRebase = = 0 ) {
return EFI_SUCCESS ;
}
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XipBase = FvInfo - > BaseAddress + XipOffset ;
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//
// We only process files potentially containing PE32 sections.
//
switch ( FfsFile - > Type ) {
case EFI_FV_FILETYPE_SECURITY_CORE :
case EFI_FV_FILETYPE_PEI_CORE :
case EFI_FV_FILETYPE_PEIM :
case EFI_FV_FILETYPE_COMBINED_PEIM_DRIVER :
case EFI_FV_FILETYPE_DRIVER :
case EFI_FV_FILETYPE_DXE_CORE :
break ;
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case EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE :
//
// Rebase the inside FvImage.
//
GetChildFvFromFfs ( FvInfo , FfsFile , XipOffset ) ;
//
// Search PE/TE section in FV sectin.
//
break ;
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default :
return EFI_SUCCESS ;
}
//
// Rebase each PE32 section
//
Status = EFI_SUCCESS ;
for ( Index = 1 ; ; Index + + ) {
//
// Init Value
//
NewPe32BaseAddress = 0 ;
//
// Find Pe Image
//
Status = GetSectionByType ( FfsFile , EFI_SECTION_PE32 , Index , & CurrentPe32Section ) ;
if ( EFI_ERROR ( Status ) ) {
break ;
}
//
// Initialize context
//
memset ( & ImageContext , 0 , sizeof ( ImageContext ) ) ;
ImageContext . Handle = ( VOID * ) ( ( UINTN ) CurrentPe32Section . Pe32Section + sizeof ( EFI_PE32_SECTION ) ) ;
ImageContext . ImageRead = ( PE_COFF_LOADER_READ_FILE ) FfsRebaseImageRead ;
Status = PeCoffLoaderGetImageInfo ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
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Error ( NULL , 0 , 3000 , " Invalid PeImage " , " The input file is %s and the return status is %x " , FileName , ( int ) Status ) ;
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return Status ;
}
if ( ImageContext . Machine = = EFI_IMAGE_MACHINE_ARMT ) {
mArm = TRUE ;
}
//
// Keep Image Context for PE image in FV
//
memcpy ( & OrigImageContext , & ImageContext , sizeof ( ImageContext ) ) ;
//
// Get File PdbPointer
//
PdbPointer = PeCoffLoaderGetPdbPointer ( ImageContext . Handle ) ;
//
// Get PeHeader pointer
//
ImgHdr = ( EFI_IMAGE_OPTIONAL_HEADER_UNION * ) ( ( UINTN ) CurrentPe32Section . Pe32Section + sizeof ( EFI_PE32_SECTION ) + ImageContext . PeCoffHeaderOffset ) ;
//
// Calculate the PE32 base address, based on file type
//
switch ( FfsFile - > Type ) {
case EFI_FV_FILETYPE_SECURITY_CORE :
case EFI_FV_FILETYPE_PEI_CORE :
case EFI_FV_FILETYPE_PEIM :
case EFI_FV_FILETYPE_COMBINED_PEIM_DRIVER :
//
// Check if section-alignment and file-alignment match or not
//
if ( ( ImgHdr - > Pe32 . OptionalHeader . SectionAlignment ! = ImgHdr - > Pe32 . OptionalHeader . FileAlignment ) ) {
//
// Xip module has the same section alignment and file alignment.
//
Error ( NULL , 0 , 3000 , " Invalid " , " Section-Alignment and File-Alignment do not match : %s. " , FileName ) ;
return EFI_ABORTED ;
}
//
// PeImage has no reloc section. It will try to get reloc data from the original EFI image.
//
if ( ImageContext . RelocationsStripped ) {
//
// Construct the original efi file Name
//
strcpy ( PeFileName , FileName ) ;
Cptr = PeFileName + strlen ( PeFileName ) ;
while ( * Cptr ! = ' . ' ) {
Cptr - - ;
}
if ( * Cptr ! = ' . ' ) {
Error ( NULL , 0 , 3000 , " Invalid " , " The file %s has no .reloc section. " , FileName ) ;
return EFI_ABORTED ;
} else {
* ( Cptr + 1 ) = ' e ' ;
* ( Cptr + 2 ) = ' f ' ;
* ( Cptr + 3 ) = ' i ' ;
* ( Cptr + 4 ) = ' \0 ' ;
}
PeFile = fopen ( PeFileName , " rb " ) ;
if ( PeFile = = NULL ) {
Warning ( NULL , 0 , 0 , " Invalid " , " The file %s has no .reloc section. " , FileName ) ;
//Error (NULL, 0, 3000, "Invalid", "The file %s has no .reloc section.", FileName);
//return EFI_ABORTED;
break ;
}
//
// Get the file size
//
PeFileSize = _filelength ( fileno ( PeFile ) ) ;
PeFileBuffer = ( UINT8 * ) malloc ( PeFileSize ) ;
if ( PeFileBuffer = = NULL ) {
Error ( NULL , 0 , 4001 , " Resource " , " memory cannot be allocated on rebase of %s " , FileName ) ;
return EFI_OUT_OF_RESOURCES ;
}
//
// Read Pe File
//
fread ( PeFileBuffer , sizeof ( UINT8 ) , PeFileSize , PeFile ) ;
//
// close file
//
fclose ( PeFile ) ;
//
// Handle pointer to the original efi image.
//
ImageContext . Handle = PeFileBuffer ;
Status = PeCoffLoaderGetImageInfo ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
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Error ( NULL , 0 , 3000 , " Invalid PeImage " , " The input file is %s and the return status is %x " , FileName , ( int ) Status ) ;
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return Status ;
}
ImageContext . RelocationsStripped = FALSE ;
}
NewPe32BaseAddress = XipBase + ( UINTN ) CurrentPe32Section . Pe32Section + sizeof ( EFI_PE32_SECTION ) - ( UINTN ) FfsFile ;
break ;
case EFI_FV_FILETYPE_DRIVER :
case EFI_FV_FILETYPE_DXE_CORE :
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//
// Check if section-alignment and file-alignment match or not
//
if ( ( ImgHdr - > Pe32 . OptionalHeader . SectionAlignment ! = ImgHdr - > Pe32 . OptionalHeader . FileAlignment ) ) {
//
// Xip module has the same section alignment and file alignment.
//
Error ( NULL , 0 , 3000 , " Invalid " , " Section-Alignment and File-Alignment do not match : %s. " , FileName ) ;
return EFI_ABORTED ;
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}
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NewPe32BaseAddress = XipBase + ( UINTN ) CurrentPe32Section . Pe32Section + sizeof ( EFI_PE32_SECTION ) - ( UINTN ) FfsFile ;
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break ;
default :
//
// Not supported file type
//
return EFI_SUCCESS ;
}
//
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// Relocation doesn't exist
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//
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if ( ImageContext . RelocationsStripped ) {
Warning ( NULL , 0 , 0 , " Invalid " , " The file %s has no .reloc section. " , FileName ) ;
continue ;
}
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//
// Relocation exist and rebase
//
//
// Load and Relocate Image Data
//
MemoryImagePointer = ( UINT8 * ) malloc ( ( UINTN ) ImageContext . ImageSize + ImageContext . SectionAlignment ) ;
if ( MemoryImagePointer = = NULL ) {
Error ( NULL , 0 , 4001 , " Resource " , " memory cannot be allocated on rebase of %s " , FileName ) ;
return EFI_OUT_OF_RESOURCES ;
}
memset ( ( VOID * ) MemoryImagePointer , 0 , ( UINTN ) ImageContext . ImageSize + ImageContext . SectionAlignment ) ;
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ImageContext . ImageAddress = ( ( UINTN ) MemoryImagePointer + ImageContext . SectionAlignment - 1 ) & ( ~ ( ( UINTN ) ImageContext . SectionAlignment - 1 ) ) ;
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Status = PeCoffLoaderLoadImage ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " LocateImage() call failed on rebase of %s " , FileName ) ;
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free ( ( VOID * ) MemoryImagePointer ) ;
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return Status ;
}
ImageContext . DestinationAddress = NewPe32BaseAddress ;
Status = PeCoffLoaderRelocateImage ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " RelocateImage() call failed on rebase of %s " , FileName ) ;
free ( ( VOID * ) MemoryImagePointer ) ;
return Status ;
}
//
// Copy Relocated data to raw image file.
//
SectionHeader = ( EFI_IMAGE_SECTION_HEADER * ) (
( UINTN ) ImgHdr +
sizeof ( UINT32 ) +
sizeof ( EFI_IMAGE_FILE_HEADER ) +
ImgHdr - > Pe32 . FileHeader . SizeOfOptionalHeader
) ;
for ( Index = 0 ; Index < ImgHdr - > Pe32 . FileHeader . NumberOfSections ; Index + + , SectionHeader + + ) {
CopyMem (
( UINT8 * ) CurrentPe32Section . Pe32Section + sizeof ( EFI_COMMON_SECTION_HEADER ) + SectionHeader - > PointerToRawData ,
( VOID * ) ( UINTN ) ( ImageContext . ImageAddress + SectionHeader - > VirtualAddress ) ,
SectionHeader - > SizeOfRawData
) ;
}
free ( ( VOID * ) MemoryImagePointer ) ;
MemoryImagePointer = NULL ;
if ( PeFileBuffer ! = NULL ) {
free ( PeFileBuffer ) ;
PeFileBuffer = NULL ;
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}
//
// Update Image Base Address
//
if ( ImgHdr - > Pe32 . OptionalHeader . Magic = = EFI_IMAGE_NT_OPTIONAL_HDR32_MAGIC ) {
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ImgHdr - > Pe32 . OptionalHeader . ImageBase = ( UINT32 ) NewPe32BaseAddress ;
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} else if ( ImgHdr - > Pe32Plus . OptionalHeader . Magic = = EFI_IMAGE_NT_OPTIONAL_HDR64_MAGIC ) {
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ImgHdr - > Pe32Plus . OptionalHeader . ImageBase = NewPe32BaseAddress ;
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} else {
Error ( NULL , 0 , 3000 , " Invalid " , " unknown PE magic signature %X in PE32 image %s " ,
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ImgHdr - > Pe32 . OptionalHeader . Magic ,
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FileName
) ;
return EFI_ABORTED ;
}
//
// Now update file checksum
//
if ( FfsFile - > Attributes & FFS_ATTRIB_CHECKSUM ) {
SavedState = FfsFile - > State ;
FfsFile - > IntegrityCheck . Checksum . File = 0 ;
FfsFile - > State = 0 ;
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FfsFile - > IntegrityCheck . Checksum . File = CalculateChecksum8 (
( UINT8 * ) ( FfsFile + 1 ) ,
GetLength ( FfsFile - > Size ) - sizeof ( EFI_FFS_FILE_HEADER )
) ;
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FfsFile - > State = SavedState ;
}
//
// Get this module function address from ModulePeMapFile and add them into FvMap file
//
2010-03-01 00:39:39 +01:00
2009-07-17 11:10:31 +02:00
//
// Default use FileName as map file path
//
if ( PdbPointer = = NULL ) {
PdbPointer = FileName ;
}
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WriteMapFile ( FvMapFile , PdbPointer , FfsFile , NewPe32BaseAddress , & OrigImageContext ) ;
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}
if ( FfsFile - > Type ! = EFI_FV_FILETYPE_SECURITY_CORE & &
FfsFile - > Type ! = EFI_FV_FILETYPE_PEI_CORE & &
FfsFile - > Type ! = EFI_FV_FILETYPE_PEIM & &
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FfsFile - > Type ! = EFI_FV_FILETYPE_COMBINED_PEIM_DRIVER & &
FfsFile - > Type ! = EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE
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) {
//
// Only Peim code may have a TE section
//
return EFI_SUCCESS ;
}
//
// Now process TE sections
//
for ( Index = 1 ; ; Index + + ) {
NewPe32BaseAddress = 0 ;
//
// Find Te Image
//
Status = GetSectionByType ( FfsFile , EFI_SECTION_TE , Index , & CurrentPe32Section ) ;
if ( EFI_ERROR ( Status ) ) {
break ;
}
//
// Calculate the TE base address, the FFS file base plus the offset of the TE section less the size stripped off
// by GenTEImage
//
TEImageHeader = ( EFI_TE_IMAGE_HEADER * ) ( ( UINT8 * ) CurrentPe32Section . Pe32Section + sizeof ( EFI_COMMON_SECTION_HEADER ) ) ;
//
// Initialize context, load image info.
//
memset ( & ImageContext , 0 , sizeof ( ImageContext ) ) ;
ImageContext . Handle = ( VOID * ) TEImageHeader ;
ImageContext . ImageRead = ( PE_COFF_LOADER_READ_FILE ) FfsRebaseImageRead ;
Status = PeCoffLoaderGetImageInfo ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
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Error ( NULL , 0 , 3000 , " Invalid TeImage " , " The input file is %s and the return status is %x " , FileName , ( int ) Status ) ;
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return Status ;
}
if ( ImageContext . Machine = = EFI_IMAGE_MACHINE_ARMT ) {
mArm = TRUE ;
}
//
// Keep Image Context for TE image in FV
//
memcpy ( & OrigImageContext , & ImageContext , sizeof ( ImageContext ) ) ;
//
// Get File PdbPointer
//
PdbPointer = PeCoffLoaderGetPdbPointer ( ImageContext . Handle ) ;
//
// Set new rebased address.
//
NewPe32BaseAddress = XipBase + ( UINTN ) TEImageHeader + sizeof ( EFI_TE_IMAGE_HEADER ) \
- TEImageHeader - > StrippedSize - ( UINTN ) FfsFile ;
//
// if reloc is stripped, try to get the original efi image to get reloc info.
//
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if ( ImageContext . RelocationsStripped ) {
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//
// Construct the original efi file name
//
strcpy ( PeFileName , FileName ) ;
Cptr = PeFileName + strlen ( PeFileName ) ;
while ( * Cptr ! = ' . ' ) {
Cptr - - ;
}
if ( * Cptr ! = ' . ' ) {
Error ( NULL , 0 , 3000 , " Invalid " , " The file %s has no .reloc section. " , FileName ) ;
return EFI_ABORTED ;
} else {
* ( Cptr + 1 ) = ' e ' ;
* ( Cptr + 2 ) = ' f ' ;
* ( Cptr + 3 ) = ' i ' ;
* ( Cptr + 4 ) = ' \0 ' ;
}
PeFile = fopen ( PeFileName , " rb " ) ;
if ( PeFile = = NULL ) {
Warning ( NULL , 0 , 0 , " Invalid " , " The file %s has no .reloc section. " , FileName ) ;
//Error (NULL, 0, 3000, "Invalid", "The file %s has no .reloc section.", FileName);
//return EFI_ABORTED;
} else {
//
// Get the file size
//
PeFileSize = _filelength ( fileno ( PeFile ) ) ;
PeFileBuffer = ( UINT8 * ) malloc ( PeFileSize ) ;
if ( PeFileBuffer = = NULL ) {
Error ( NULL , 0 , 4001 , " Resource " , " memory cannot be allocated on rebase of %s " , FileName ) ;
return EFI_OUT_OF_RESOURCES ;
}
//
// Read Pe File
//
fread ( PeFileBuffer , sizeof ( UINT8 ) , PeFileSize , PeFile ) ;
//
// close file
//
fclose ( PeFile ) ;
//
// Append reloc section into TeImage
//
ImageContext . Handle = PeFileBuffer ;
Status = PeCoffLoaderGetImageInfo ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
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Error ( NULL , 0 , 3000 , " Invalid TeImage " , " The input file is %s and the return status is %x " , FileName , ( int ) Status ) ;
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return Status ;
}
ImageContext . RelocationsStripped = FALSE ;
}
}
2010-03-01 00:39:39 +01:00
//
// Relocation doesn't exist
//
if ( ImageContext . RelocationsStripped ) {
Warning ( NULL , 0 , 0 , " Invalid " , " The file %s has no .reloc section. " , FileName ) ;
continue ;
}
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//
// Relocation exist and rebase
//
2010-03-01 00:39:39 +01:00
//
// Load and Relocate Image Data
//
MemoryImagePointer = ( UINT8 * ) malloc ( ( UINTN ) ImageContext . ImageSize + ImageContext . SectionAlignment ) ;
if ( MemoryImagePointer = = NULL ) {
Error ( NULL , 0 , 4001 , " Resource " , " memory cannot be allocated on rebase of %s " , FileName ) ;
return EFI_OUT_OF_RESOURCES ;
}
memset ( ( VOID * ) MemoryImagePointer , 0 , ( UINTN ) ImageContext . ImageSize + ImageContext . SectionAlignment ) ;
2011-09-18 14:17:25 +02:00
ImageContext . ImageAddress = ( ( UINTN ) MemoryImagePointer + ImageContext . SectionAlignment - 1 ) & ( ~ ( ( UINTN ) ImageContext . SectionAlignment - 1 ) ) ;
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Status = PeCoffLoaderLoadImage ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " LocateImage() call failed on rebase of %s " , FileName ) ;
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free ( ( VOID * ) MemoryImagePointer ) ;
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return Status ;
}
//
// Reloacate TeImage
//
ImageContext . DestinationAddress = NewPe32BaseAddress ;
Status = PeCoffLoaderRelocateImage ( & ImageContext ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 3000 , " Invalid " , " RelocateImage() call failed on rebase of TE image %s " , FileName ) ;
free ( ( VOID * ) MemoryImagePointer ) ;
return Status ;
}
//
// Copy the relocated image into raw image file.
//
SectionHeader = ( EFI_IMAGE_SECTION_HEADER * ) ( TEImageHeader + 1 ) ;
for ( Index = 0 ; Index < TEImageHeader - > NumberOfSections ; Index + + , SectionHeader + + ) {
if ( ! ImageContext . IsTeImage ) {
CopyMem (
( UINT8 * ) TEImageHeader + sizeof ( EFI_TE_IMAGE_HEADER ) - TEImageHeader - > StrippedSize + SectionHeader - > PointerToRawData ,
( VOID * ) ( UINTN ) ( ImageContext . ImageAddress + SectionHeader - > VirtualAddress ) ,
SectionHeader - > SizeOfRawData
) ;
} else {
CopyMem (
( UINT8 * ) TEImageHeader + sizeof ( EFI_TE_IMAGE_HEADER ) - TEImageHeader - > StrippedSize + SectionHeader - > PointerToRawData ,
( VOID * ) ( UINTN ) ( ImageContext . ImageAddress + sizeof ( EFI_TE_IMAGE_HEADER ) - TEImageHeader - > StrippedSize + SectionHeader - > VirtualAddress ) ,
SectionHeader - > SizeOfRawData
) ;
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}
}
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//
// Free the allocated memory resource
//
free ( ( VOID * ) MemoryImagePointer ) ;
MemoryImagePointer = NULL ;
if ( PeFileBuffer ! = NULL ) {
free ( PeFileBuffer ) ;
PeFileBuffer = NULL ;
}
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//
// Update Image Base Address
//
TEImageHeader - > ImageBase = NewPe32BaseAddress ;
//
// Now update file checksum
//
if ( FfsFile - > Attributes & FFS_ATTRIB_CHECKSUM ) {
SavedState = FfsFile - > State ;
FfsFile - > IntegrityCheck . Checksum . File = 0 ;
FfsFile - > State = 0 ;
2009-11-09 12:47:35 +01:00
FfsFile - > IntegrityCheck . Checksum . File = CalculateChecksum8 (
( UINT8 * ) ( FfsFile + 1 ) ,
GetLength ( FfsFile - > Size ) - sizeof ( EFI_FFS_FILE_HEADER )
) ;
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FfsFile - > State = SavedState ;
}
//
// Get this module function address from ModulePeMapFile and add them into FvMap file
//
2010-03-01 00:39:39 +01:00
2009-07-17 11:10:31 +02:00
//
// Default use FileName as map file path
//
if ( PdbPointer = = NULL ) {
PdbPointer = FileName ;
}
WriteMapFile (
FvMapFile ,
PdbPointer ,
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FfsFile ,
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NewPe32BaseAddress ,
& OrigImageContext
) ;
}
return EFI_SUCCESS ;
}
EFI_STATUS
FindApResetVectorPosition (
IN MEMORY_FILE * FvImage ,
OUT UINT8 * * Pointer
)
/*++
Routine Description :
Find the position in this FvImage to place Ap reset vector .
Arguments :
FvImage Memory file for the FV memory image .
Pointer Pointer to pointer to position .
Returns :
EFI_NOT_FOUND - No satisfied position is found .
EFI_SUCCESS - The suitable position is return .
- - */
{
EFI_FFS_FILE_HEADER * PadFile ;
UINT32 Index ;
EFI_STATUS Status ;
UINT8 * FixPoint ;
UINT32 FileLength ;
for ( Index = 1 ; ; Index + + ) {
//
// Find Pad File to add ApResetVector info
//
Status = GetFileByType ( EFI_FV_FILETYPE_FFS_PAD , Index , & PadFile ) ;
if ( EFI_ERROR ( Status ) | | ( PadFile = = NULL ) ) {
//
// No Pad file to be found.
//
break ;
}
//
// Get Pad file size.
//
FileLength = ( * ( UINT32 * ) ( PadFile - > Size ) ) & 0x00FFFFFF ;
FileLength = ( FileLength + EFI_FFS_FILE_HEADER_ALIGNMENT - 1 ) & ~ ( EFI_FFS_FILE_HEADER_ALIGNMENT - 1 ) ;
//
// FixPoint must be align on 0x1000 relative to FvImage Header
//
FixPoint = ( UINT8 * ) PadFile + sizeof ( EFI_FFS_FILE_HEADER ) ;
FixPoint = FixPoint + 0x1000 - ( ( ( UINTN ) FixPoint - ( UINTN ) FvImage - > FileImage ) & 0xFFF ) ;
//
// FixPoint be larger at the last place of one fv image.
//
while ( ( ( UINTN ) FixPoint + SIZEOF_STARTUP_DATA_ARRAY - ( UINTN ) PadFile ) < = FileLength ) {
FixPoint + = 0x1000 ;
}
FixPoint - = 0x1000 ;
if ( ( UINTN ) FixPoint < ( ( UINTN ) PadFile + sizeof ( EFI_FFS_FILE_HEADER ) ) ) {
//
// No alignment FixPoint in this Pad File.
//
continue ;
}
if ( ( UINTN ) FvImage - > Eof - ( UINTN ) FixPoint < = 0x20000 ) {
//
// Find the position to place ApResetVector
//
* Pointer = FixPoint ;
return EFI_SUCCESS ;
}
}
return EFI_NOT_FOUND ;
}
EFI_STATUS
ParseCapInf (
IN MEMORY_FILE * InfFile ,
OUT CAP_INFO * CapInfo
)
/*++
Routine Description :
This function parses a Cap . INF file and copies info into a CAP_INFO structure .
Arguments :
InfFile Memory file image .
CapInfo Information read from INF file .
Returns :
EFI_SUCCESS INF file information successfully retrieved .
EFI_ABORTED INF file has an invalid format .
EFI_NOT_FOUND A required string was not found in the INF file .
- - */
{
CHAR8 Value [ _MAX_PATH ] ;
UINT64 Value64 ;
UINTN Index , Number ;
EFI_STATUS Status ;
//
// Initialize Cap info
//
// memset (CapInfo, 0, sizeof (CAP_INFO));
//
//
// Read the Capsule Guid
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_CAPSULE_GUID_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Get the Capsule Guid
//
Status = StringToGuid ( Value , & CapInfo - > CapGuid ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s = %s " , EFI_CAPSULE_GUID_STRING , Value ) ;
return EFI_ABORTED ;
}
DebugMsg ( NULL , 0 , 9 , " Capsule Guid " , " %s = %s " , EFI_CAPSULE_GUID_STRING , Value ) ;
}
//
// Read the Capsule Header Size
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_CAPSULE_HEADER_SIZE_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
Status = AsciiStringToUint64 ( Value , FALSE , & Value64 ) ;
if ( EFI_ERROR ( Status ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " %s = %s " , EFI_CAPSULE_HEADER_SIZE_STRING , Value ) ;
return EFI_ABORTED ;
}
CapInfo - > HeaderSize = ( UINT32 ) Value64 ;
DebugMsg ( NULL , 0 , 9 , " Capsule Header size " , " %s = %s " , EFI_CAPSULE_HEADER_SIZE_STRING , Value ) ;
}
//
// Read the Capsule Flag
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_CAPSULE_FLAGS_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
if ( strstr ( Value , " PopulateSystemTable " ) ! = NULL ) {
CapInfo - > Flags | = CAPSULE_FLAGS_PERSIST_ACROSS_RESET | CAPSULE_FLAGS_POPULATE_SYSTEM_TABLE ;
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if ( strstr ( Value , " InitiateReset " ) ! = NULL ) {
CapInfo - > Flags | = CAPSULE_FLAGS_INITIATE_RESET ;
}
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} else if ( strstr ( Value , " PersistAcrossReset " ) ! = NULL ) {
CapInfo - > Flags | = CAPSULE_FLAGS_PERSIST_ACROSS_RESET ;
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if ( strstr ( Value , " InitiateReset " ) ! = NULL ) {
CapInfo - > Flags | = CAPSULE_FLAGS_INITIATE_RESET ;
}
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} else {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " invalid Flag setting for %s. " , EFI_CAPSULE_FLAGS_STRING ) ;
return EFI_ABORTED ;
}
DebugMsg ( NULL , 0 , 9 , " Capsule Flag " , Value ) ;
}
//
// Read Capsule File name
//
Status = FindToken ( InfFile , OPTIONS_SECTION_STRING , EFI_FILE_NAME_STRING , 0 , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Get output file name
//
strcpy ( CapInfo - > CapName , Value ) ;
}
//
// Read the Capsule FileImage
//
Number = 0 ;
for ( Index = 0 ; Index < MAX_NUMBER_OF_FILES_IN_CAP ; Index + + ) {
if ( CapInfo - > CapFiles [ Index ] [ 0 ] ! = ' \0 ' ) {
continue ;
}
//
// Read the capsule file name
//
Status = FindToken ( InfFile , FILES_SECTION_STRING , EFI_FILE_NAME_STRING , Number + + , Value ) ;
if ( Status = = EFI_SUCCESS ) {
//
// Add the file
//
strcpy ( CapInfo - > CapFiles [ Index ] , Value ) ;
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DebugMsg ( NULL , 0 , 9 , " Capsule component file " , " the %uth file name is %s " , ( unsigned ) Index , CapInfo - > CapFiles [ Index ] ) ;
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} else {
break ;
}
}
if ( Index = = 0 ) {
Warning ( NULL , 0 , 0 , " Capsule components are not specified. " , NULL ) ;
}
return EFI_SUCCESS ;
}
EFI_STATUS
GenerateCapImage (
IN CHAR8 * InfFileImage ,
IN UINTN InfFileSize ,
IN CHAR8 * CapFileName
)
/*++
Routine Description :
This is the main function which will be called from application to create UEFI Capsule image .
Arguments :
InfFileImage Buffer containing the INF file contents .
InfFileSize Size of the contents of the InfFileImage buffer .
CapFileName Requested name for the Cap file .
Returns :
EFI_SUCCESS Function completed successfully .
EFI_OUT_OF_RESOURCES Could not allocate required resources .
EFI_ABORTED Error encountered .
EFI_INVALID_PARAMETER A required parameter was NULL .
- - */
{
UINT32 CapSize ;
UINT8 * CapBuffer ;
EFI_CAPSULE_HEADER * CapsuleHeader ;
MEMORY_FILE InfMemoryFile ;
UINT32 FileSize ;
UINT32 Index ;
FILE * fpin , * fpout ;
EFI_STATUS Status ;
if ( InfFileImage ! = NULL ) {
//
// Initialize file structures
//
InfMemoryFile . FileImage = InfFileImage ;
InfMemoryFile . CurrentFilePointer = InfFileImage ;
InfMemoryFile . Eof = InfFileImage + InfFileSize ;
//
// Parse the Cap inf file for header information
//
Status = ParseCapInf ( & InfMemoryFile , & mCapDataInfo ) ;
if ( Status ! = EFI_SUCCESS ) {
return Status ;
}
}
if ( mCapDataInfo . HeaderSize = = 0 ) {
//
// make header size align 16 bytes.
//
mCapDataInfo . HeaderSize = sizeof ( EFI_CAPSULE_HEADER ) ;
mCapDataInfo . HeaderSize = ( mCapDataInfo . HeaderSize + 0xF ) & ~ 0xF ;
}
if ( mCapDataInfo . HeaderSize < sizeof ( EFI_CAPSULE_HEADER ) ) {
Error ( NULL , 0 , 2000 , " Invalid parameter " , " The specified HeaderSize cannot be less than the size of EFI_CAPSULE_HEADER. " ) ;
return EFI_INVALID_PARAMETER ;
}
if ( CapFileName = = NULL & & mCapDataInfo . CapName [ 0 ] ! = ' \0 ' ) {
CapFileName = mCapDataInfo . CapName ;
}
if ( CapFileName = = NULL ) {
Error ( NULL , 0 , 2001 , " Missing required argument " , " Output Capsule file name " ) ;
return EFI_INVALID_PARAMETER ;
}
//
// Set Default Capsule Guid value
//
if ( CompareGuid ( & mCapDataInfo . CapGuid , & mZeroGuid ) = = 0 ) {
memcpy ( & mCapDataInfo . CapGuid , & mDefaultCapsuleGuid , sizeof ( EFI_GUID ) ) ;
}
//
// Calculate the size of capsule image.
//
Index = 0 ;
FileSize = 0 ;
CapSize = mCapDataInfo . HeaderSize ;
while ( mCapDataInfo . CapFiles [ Index ] [ 0 ] ! = ' \0 ' ) {
fpin = fopen ( mCapDataInfo . CapFiles [ Index ] , " rb " ) ;
if ( fpin = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , mCapDataInfo . CapFiles [ Index ] ) ;
return EFI_ABORTED ;
}
FileSize = _filelength ( fileno ( fpin ) ) ;
CapSize + = FileSize ;
fclose ( fpin ) ;
Index + + ;
}
//
// Allocate buffer for capsule image.
//
CapBuffer = ( UINT8 * ) malloc ( CapSize ) ;
if ( CapBuffer = = NULL ) {
Error ( NULL , 0 , 4001 , " Resource " , " memory cannot be allocated for creating the capsule. " ) ;
return EFI_OUT_OF_RESOURCES ;
}
//
// Initialize the capsule header to zero
//
memset ( CapBuffer , 0 , mCapDataInfo . HeaderSize ) ;
//
// create capsule header and get capsule body
//
CapsuleHeader = ( EFI_CAPSULE_HEADER * ) CapBuffer ;
memcpy ( & CapsuleHeader - > CapsuleGuid , & mCapDataInfo . CapGuid , sizeof ( EFI_GUID ) ) ;
CapsuleHeader - > HeaderSize = mCapDataInfo . HeaderSize ;
CapsuleHeader - > Flags = mCapDataInfo . Flags ;
CapsuleHeader - > CapsuleImageSize = CapSize ;
Index = 0 ;
FileSize = 0 ;
CapSize = CapsuleHeader - > HeaderSize ;
while ( mCapDataInfo . CapFiles [ Index ] [ 0 ] ! = ' \0 ' ) {
fpin = fopen ( mCapDataInfo . CapFiles [ Index ] , " rb " ) ;
if ( fpin = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , mCapDataInfo . CapFiles [ Index ] ) ;
free ( CapBuffer ) ;
return EFI_ABORTED ;
}
FileSize = _filelength ( fileno ( fpin ) ) ;
fread ( CapBuffer + CapSize , 1 , FileSize , fpin ) ;
fclose ( fpin ) ;
Index + + ;
CapSize + = FileSize ;
}
//
// write capsule data into the output file
//
fpout = fopen ( CapFileName , " wb " ) ;
if ( fpout = = NULL ) {
Error ( NULL , 0 , 0001 , " Error opening file " , CapFileName ) ;
free ( CapBuffer ) ;
return EFI_ABORTED ;
}
fwrite ( CapBuffer , 1 , CapSize , fpout ) ;
fclose ( fpout ) ;
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VerboseMsg ( " The size of the generated capsule image is %u bytes " , ( unsigned ) CapSize ) ;
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return EFI_SUCCESS ;
}