[BOOTSECT][FREELDR] Support booting from NTFS partitions (#3416)

Implement NTFS boot sector that loads FreeLdr from a NTFS partition.

CORE-17474

- Able to find/parse root directory;
- Handle fixups in FILE MFT record;
- Implement directory tree search;
- Implement loading found file from disk;
- Handle fixups in INDX records;
- Fail if compressed or sparse;
- Attempt to support 64-bit disks.

Some TO-DOs for later:
- Handle "weird" NTFS partition with uncommon sector sizes / sectors per cluster / sectors per index record;
- Better implementation for file loading;
- 64-bit LCN support.
This commit is contained in:
Sylvain Deverre 2023-08-17 15:07:59 +02:00 committed by GitHub
parent 7d2f6b65b3
commit f0d73e0f7f
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
3 changed files with 896 additions and 1 deletions

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@ -8,6 +8,7 @@ if(ARCH STREQUAL "i386" OR ARCH STREQUAL "amd64")
CreateBootSectorTarget(fat ${CMAKE_CURRENT_SOURCE_DIR}/fat.S ${CMAKE_CURRENT_BINARY_DIR}/fat.bin 7c00) CreateBootSectorTarget(fat ${CMAKE_CURRENT_SOURCE_DIR}/fat.S ${CMAKE_CURRENT_BINARY_DIR}/fat.bin 7c00)
CreateBootSectorTarget(fat32 ${CMAKE_CURRENT_SOURCE_DIR}/fat32.S ${CMAKE_CURRENT_BINARY_DIR}/fat32.bin 7c00) CreateBootSectorTarget(fat32 ${CMAKE_CURRENT_SOURCE_DIR}/fat32.S ${CMAKE_CURRENT_BINARY_DIR}/fat32.bin 7c00)
CreateBootSectorTarget(ntfsvbr ${CMAKE_CURRENT_SOURCE_DIR}/ntfs.S ${CMAKE_CURRENT_BINARY_DIR}/ntfs.bin 7c00)
CreateBootSectorTarget(btrfsvbr ${CMAKE_CURRENT_SOURCE_DIR}/btrfs.S ${CMAKE_CURRENT_BINARY_DIR}/btrfs.bin 7c00) CreateBootSectorTarget(btrfsvbr ${CMAKE_CURRENT_SOURCE_DIR}/btrfs.S ${CMAKE_CURRENT_BINARY_DIR}/btrfs.bin 7c00)
if(SARCH STREQUAL "pc98") if(SARCH STREQUAL "pc98")
@ -34,6 +35,7 @@ if(ARCH STREQUAL "i386" OR ARCH STREQUAL "amd64")
add_cd_file(TARGET btrfsvbr DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/btrfs.bin FOR bootcd regtest) add_cd_file(TARGET btrfsvbr DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/btrfs.bin FOR bootcd regtest)
add_cd_file(TARGET fat DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/fat.bin FOR bootcd regtest) add_cd_file(TARGET fat DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/fat.bin FOR bootcd regtest)
add_cd_file(TARGET fat32 DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/fat32.bin FOR bootcd regtest) add_cd_file(TARGET fat32 DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/fat32.bin FOR bootcd regtest)
add_cd_file(TARGET ntfsvbr DESTINATION loader NO_CAB FILE ${CMAKE_CURRENT_BINARY_DIR}/ntfs.bin FOR bootcd regtest)
add_cd_file(TARGET isoboot DESTINATION loader NO_CAB NOT_IN_HYBRIDCD FILE ${CMAKE_CURRENT_BINARY_DIR}/isoboot.bin FOR all hybridcd) add_cd_file(TARGET isoboot DESTINATION loader NO_CAB NOT_IN_HYBRIDCD FILE ${CMAKE_CURRENT_BINARY_DIR}/isoboot.bin FOR all hybridcd)
add_cd_file(TARGET isobtrt DESTINATION loader NO_CAB NOT_IN_HYBRIDCD FILE ${CMAKE_CURRENT_BINARY_DIR}/isobtrt.bin FOR bootcd regtest) add_cd_file(TARGET isobtrt DESTINATION loader NO_CAB NOT_IN_HYBRIDCD FILE ${CMAKE_CURRENT_BINARY_DIR}/isobtrt.bin FOR bootcd regtest)
elseif(ARCH STREQUAL "arm") elseif(ARCH STREQUAL "arm")

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@ -0,0 +1,893 @@
/*
* PROJECT: ReactOS Bootsector
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
* FILE: boot/freeldr/bootsect/fat32.S
* PURPOSE: Implementing boot sector for NTFS
* COPYRIGHT: Copyright 2020 Sylvain Deverre (deverre.sylv@gmail.com)
*/
/* INCLUDES ******************************************************************/
#include <asm.inc>
#include <freeldr/include/arch/pc/x86common.h>
.code16
//ORG HEX(7c00)
start:
jmp short main
nop
OEMName:
.ASCII "NTFS " // NTFS signature
BytesPerSector:
.word 512
SectsPerCluster:
.byte 8
ReservedSectors:
.word 0 // Unused by NTFS
NumberOfFats:
.byte 0 // Unused by NTFS
MaxRootEntries:
.word 0 // Unused by NTFS
TotalSectors:
.word 0 // Unused by NTFS
MediaDescriptor:
.byte HEX(0f8)
SectorsPerFat:
.word 0 // Unused by NTFS
SectorsPerTrack:
.word 0 // Should contain disk geometry
NumberOfHeads:
.word 0 // Should contain disk geometry
HiddenSectors:
.long 0 // Filled by format program
TotalSectorsBig:
.long 0 // Unused by NTFS
// NTFS inserted info
BootDrive:
.byte HEX(80)
CurrentHead:
.byte 0
BootSignature:
.byte HEX(80)
Unused:
.byte 0
VolumeSectorCount:
.quad 0 // Must be patched by format program !
MftLocation:
.quad 0 // Must be patched by format program !
MftMirrorLocation:
.quad 0 // Must be patched by format program !
ClustersPerMftRecord:
.long 0
ClustersPerIndexRecord:
.long 0
VolumeSerialNumber:
.quad 0
Checksum:
.long 0
main:
xor ax,ax // Setup segment registers
mov ds,ax // Make DS correct
mov es,ax // Make ES correct
mov ss,ax // Make SS correct
mov sp, HEX(7c00)
mov bp, sp // Setup a stack
cmp byte ptr [BootDrive], HEX(0ff) // If they have specified a boot drive then use it
jne GetDriveParameters
mov byte ptr [BootDrive], dl // Save the boot drive
GetDriveParameters:
mov ah, 8
mov dl, byte ptr [BootDrive] // Get boot drive in dl
int HEX(13) // Request drive parameters from the bios
jnc CalcDriveSize // If the call succeeded then calculate the drive size
// If we get here then the call to the BIOS failed
// so just set CHS equal to the maximum addressable
// size
mov cx, HEX(0ffff)
mov dh, cl
CalcDriveSize:
// Now that we have the drive geometry
// lets calculate the drive size
mov bl, ch // Put the low 8-bits of the cylinder count into BL
mov bh, cl // Put the high 2-bits in BH
shr bh, 6 // Shift them into position, now BX contains the cylinder count
and cl, HEX(3f) // Mask off cylinder bits from sector count
// CL now contains sectors per track and DH contains head count
movzx eax, dh // Move the heads into EAX
movzx ebx, bx // Move the cylinders into EBX
movzx ecx, cl // Move the sectors per track into ECX
inc eax // Make it one based because the bios returns it zero based
inc ebx // Make the cylinder count one based also
mul ecx // Multiply heads with the sectors per track, result in edx:eax
mul ebx // Multiply the cylinders with (heads * sectors) [stored in edx:eax already]
// We now have the total number of sectors as reported
// by the bios in eax, so store it in our variable
mov dword ptr ds:[BiosCHSDriveSize], eax
LoadExtraBootCode:
// First we have to load our extra boot code at
// next sector into memory at [0000:7e00h]
mov eax, HEX(1)
xor edx, edx
mov cx, 4
xor bx, bx
mov es, bx // Read sector to [0000:7e00h]
mov bx, HEX(7e00)
call ReadSectors
jmp StartSearch
// Reads logical sectors into [ES:BX]
// EDX:EAX has logical sector number to read
// CX has number of sectors to read
ReadSectors:
push es
add eax, dword ptr [HiddenSectors] // Add offset from the disk beginning
test edx, edx
jnz ReadSectorsLBA
cmp eax, dword ptr ds:[BiosCHSDriveSize] // Check if they are reading a sector outside CHS range
jae ReadSectorsLBA // Yes - go to the LBA routine
// If at all possible we want to use LBA routines because
// They are optimized to read more than 1 sector per read
pushad // Save logical sector number & sector count
CheckInt13hExtensions: // Now check if this computer supports extended reads
mov ah, HEX(41) // AH = 41h
mov bx, HEX(55aa) // BX = 55AAh
mov dl, byte ptr [BootDrive] // DL = drive (80h-FFh)
int HEX(13) // IBM/MS INT 13 Extensions - INSTALLATION CHECK
jc ReadSectorsCHS // CF set on error (extensions not supported)
cmp bx, HEX(0aa55) // BX = AA55h if installed
jne ReadSectorsCHS
test cl,1 // CX = API subset support bitmap
jz ReadSectorsCHS // Bit 0, extended disk access functions (AH=42h-44h,47h,48h) supported
popad // Restore sector count & logical sector number
ReadSectorsLBA:
pushad // Save logical sector number & sector count
cmp cx, 64 // Since the LBA calls only support 0x7F sectors at a time we will limit ourselves to 64
jbe ReadSectorsSetupDiskAddressPacket // If we are reading less than 65 sectors then just do the read
mov cx, 64 // Otherwise read only 64 sectors on this loop iteration
ReadSectorsSetupDiskAddressPacket:
mov word ptr ds:[LBASectorsRead],cx
push edx
push eax // Put 64-bit logical block address on stack
push es // Put transfer segment on stack
push bx // Put transfer offset on stack
push cx // Set transfer count
push 16 // Set size of packet to 10h
mov si, sp // Setup disk address packet on stack
mov dl, byte ptr [BootDrive] // Drive number
mov ah, HEX(42) // Int 13h, AH = 42h - Extended Read
int HEX(13) // Call BIOS
jc PrintDiskError // If the read failed then abort
add sp, 16 // Remove disk address packet from stack
popad // Restore sector count & logical sector number
push bx
mov ebx, dword ptr ds:[LBASectorsRead]
add eax, ebx // Increment sector to read
adc edx, 0
shl ebx, 5
mov dx, es
add dx, bx // Setup read buffer for next sector
mov es, dx
pop bx
sub cx, word ptr ds:[LBASectorsRead]
jnz ReadSectorsLBA // Read next sector
pop es
ret
LBASectorsRead:
.long 0
// Reads logical sectors into [ES:BX]
// EAX has logical sector number to read
// CX has number of sectors to read
ReadSectorsCHS:
popad // Get logical sector number & sector count off stack
ReadSectorsCHSLoop:
pushad
xor edx, edx
movzx ecx, word ptr [SectorsPerTrack]
div ecx // Divide logical by SectorsPerTrack
inc dl // Sectors numbering starts at 1 not 0
mov cl, dl // Sector in CL
mov edx, eax
shr edx, 16
div word ptr [NumberOfHeads] // Divide logical by number of heads
mov dh, dl // Head in DH
mov dl, byte ptr [BootDrive] // Drive number in DL
mov ch, al // Cylinder in CX
ror ah, 2 // Low 8 bits of cylinder in CH, high 2 bits
// in CL shifted to bits 6 & 7
or cl, ah // Or with sector number
mov ax, HEX(0201)
int HEX(13) // DISK - READ SECTORS INTO MEMORY
// AL = number of sectors to read, CH = track, CL = sector
// DH = head, DL = drive, ES:BX -> buffer to fill
// Return: CF set on error, AH = status (see AH=01h), AL = number of sectors read
jc PrintDiskError // If the read failed then abort
popad
inc eax // Increment Sector to Read
mov dx, es
add dx, 32 // Increment read buffer for next sector
mov es, dx
loop ReadSectorsCHSLoop // Read next sector
pop es
ret
// Displays a disk error message
// And reboots
PrintDiskError:
mov si, offset msgDiskError // Bad boot disk message
call PutChars // Display it
jmp Reboot
// Displays a file system error message
// And reboots
PrintFileSystemError:
mov si, offset msgFileSystemError // FreeLdr not found message
call PutChars // Display it
Reboot:
mov si, offset msgAnyKey // Press any key message
call PutChars // Display it
xor ax, ax
int HEX(16) // Wait for a keypress
int HEX(19) // Reboot
PutChars:
lodsb
or al, al
jz short Done
mov ah, HEX(0e)
mov bx, 7
int HEX(10)
jmp short PutChars
Done:
ret
msgDiskError:
.ascii "Disk error", CR, LF, NUL
msgFileSystemError:
.ascii "File system error", CR, LF, NUL
msgAnyKey:
.ascii "Press any key to restart", CR, LF, NUL
SectsPerMFT:
.word 0
MFTStartSector:
.quad 0
BiosCHSDriveSize:
.long 0
.org 509 // Pad to 509 bytes
BootPartition:
.byte 1
BootFlagSignature:
.word HEX(0aa55) // BootSector signature
// End of Bootsector
// Next sector starts as sector 2, since boot sector is
// as a file under NTFS ($Boot, which has inode number 7)
// and takes the two first clusters of the volume (which means
// 16 sectors, checked on Windows and mkfs.ntfs from ntfsutils)
#define ATTRIBUTE_DATA HEX(80)
#define ATTRIBUTE_INDEX_ROOT HEX(90)
#define ATTRIBUTE_INDEX_ALLOCATION HEX(A0)
#define FILE_MAGIC HEX(454c4946)
#define INDX_MAGIC HEX(58444e49)
#define NTFS_FILE_ROOT 5
StartSearch:
// Compute MFT start sector
mov eax, dword ptr [MftLocation]
mov cl, byte ptr [SectsPerCluster]
movzx ecx, cx
mul ecx
mov dword ptr [MFTStartSector], eax
// Compute size of MFT entry in sectors
xor ax, ax
mov al, byte ptr [ClustersPerMftRecord]
test al, al
js NegativeOffset
mov cx, word ptr [SectsPerCluster]
mul cx
mov word ptr [SectsPerMFT], cx
jmp SearchNext
NegativeOffset:
// ClustersPerMftRecord is negative, so we need to perform 1 << (-ClustersPerMftRecord)
// to get the number of bytes needed for a MFT entry
not al
inc al
mov cl, al
xor ax, ax
inc ax
shl ax, cl
// But here want to store sectors, so we need to divide by BytesPerSector
xor dx, dx
mov cx, word ptr [BytesPerSector]
div cx
mov word ptr [SectsPerMFT], ax
SearchNext:
mov bp, sp
sub sp, HEX(10)
// Read Root Directory MFT into [2000:0]
mov ax, HEX(2000)
mov es, ax
xor bx, bx
xor edx, edx
mov eax, NTFS_FILE_ROOT
call ReadInode
// Finds freeldr.sys into index root's B-Tree
// and return its MFT index
xor ax, ax
call ExploreIndexRoot
// Read the MFT entry of freeldr.sys into [A00:0]
push eax
mov ax, HEX(A00)
mov es, ax
pop eax
call ReadInode
xor ax, ax
mov ebx, HEX(30)
call FindAttributeHdr
mov si, ax
// Move to the attribute data
add si, word ptr es:[si + HEX(14)]
// We don't support compressed, sparse or encrypted Freeldr
test dword ptr es:[si + HEX(38)], HEX(4a00)
jnz CompressedFreeldr
// Compute size in clusters
mov eax, dword ptr es:[si + HEX(28)]
mov cl, byte ptr [SectsPerCluster]
xor edx, edx
div ecx
mov cx, word ptr [BytesPerSector]
movzx ecx, cx
xor edx, edx
div ecx
mov edx, eax
push ax
mov si, offset msgLoading
call PutChars
pop ax
xor ax, ax
mov ebx, HEX(80)
call FindAttributeHdr
mov si, ax
add ax, word ptr es:[si + HEX(20)]
xor ecx, ecx
xor bx, bx
push FREELDR_BASE / 16
pop fs
FreeLdrLoad:
pushad
call ReadNonResidentAttribute
popad
mov bx, fs
add bx, HEX(100)
mov fs, bx
xor bx, bx
inc ecx
cmp ecx, edx
jbe FreeLdrLoad
mov dl, byte ptr [BootDrive]
mov dh, byte ptr [BootPartition]
ljmp16 0, FREELDR_BASE
// Error message if Freeldr is compressed, encrypted or sparse
CompressedFreeldr:
mov si, offset msgFreeldrCompressed
call PutChars
jmp Reboot
// Finds Freeldr.sys into the directory tree and returns the
// inode index
// INPUT:
// - ES:[AX] address of the MFT record
// OUTPUT:
// - EDX:EAX MFT number of the found file
ExploreIndexRoot:
#define fileRecordBase 2
#define fileRecord 4
#define indexRootData 6
#define allocationRunList 8
push bp
mov bp, sp
push bx
push si
push di
sub sp, HEX(10)
mov word ptr [bp - fileRecordBase], es
mov word ptr [bp - fileRecord], ax
mov ebx, ATTRIBUTE_INDEX_ROOT
call FindAttributeHdr
test ax, ax
jz PrintFileSystemError // fail if no INDEX_ROOT
mov si, ax
cmp byte ptr es:[si + 8], HEX(0)
jnz PrintFileSystemError // fail if attribute is non-resident
add si, word ptr es:[si + HEX(14)]
cmp dword ptr es:[si], HEX(30)
jnz PrintFileSystemError // fail if FILE_NAME attribute isn't indexed
mov word ptr [bp - indexRootData], si
mov ax, word ptr [bp - fileRecord]
test byte ptr es:[si + HEX(0c)], 1
jz ExploreNext // Skip index allocation lookup if we don't have children
mov ebx, ATTRIBUTE_INDEX_ALLOCATION
call FindAttributeHdr
test ax, ax
jz PrintFileSystemError // No INDEX_ALLOCATION found
mov si, ax
cmp byte ptr es:[si + 8], 1
jnz PrintFileSystemError // Fail if attribute is resident (shouldn't be)
add si, word ptr es:[si + HEX(20)]
mov word ptr [bp - allocationRunList], si // save run list
ExploreNext:
mov si, word ptr [bp - indexRootData]
lea si, [si + 32] // get the first INDEX_ENTRY
// Main search loop. We browse the B-Tree which contains directory entries
// SI contains the current index entry.
NodeCheck:
test word ptr es:[si + HEX(0C)], 2
jnz NodeCheckLastNode
mov cl, byte ptr es:[si + HEX(50)]
movzx cx, cl
lea si, [si + HEX(52)]
mov di, offset FreeLdr
call CompareWideStrInsensitive
lea si, [si - HEX(52)]
test ax, ax
jz RootIndexFound
test word ptr es:[si + HEX(0C)], 1
jz ContinueSearch
test ax, HEX(f000)
jnz LookupChildNode // if result < 0 then explore child node
ContinueSearch:
add si, word ptr es:[si + 8]
jmp NodeCheck
RootIndexFound:
mov eax, dword ptr es:[si] // We found root entry, return with its MFT number
mov dx, word ptr es:[si + 4] // Return high part into edx.
// We take only the first word, the high word contains the
// sequence number
movzx edx, dx
jmp ExitIndexTree
NodeCheckLastNode:
test word ptr es:[si + HEX(0C)], 1
jz PrintFreeldrError
LookupChildNode:
// Take the right LCN at the end of the index record
add si, word ptr es:[si + 8]
mov ecx, dword ptr es:[si - 8]
// Read the fixed up LCN
mov bx, word ptr [bp - allocationRunList]
mov ax, word ptr [bp - fileRecordBase]
mov es, ax
mov ax, HEX(9000)
mov fs, ax
mov ax, bx
xor bx, bx
call ReadINDX
// Go again to the loop but with the child node list
mov ax, HEX(9000)
mov es, ax
mov si, 0
add si, es:[si + HEX(18)] // Go to the first node
lea si, [si + HEX(18)]
jmp NodeCheck
ExitIndexTree:
pop di
pop si
mov sp, bp
pop bp
ret
// 64-bit multiplication
// EDX:EAX operand
// ECX operator
Multiply64:
push bp
mov bp, sp
sub sp, 12
// Save the high part of the multiplication
mov dword ptr [bp - 4], edx
// Multiply the low part and save the result
mul ecx
mov dword ptr[bp - 8], eax
mov dword ptr[bp - 12], edx
// Multiply the high part and add the carry
mov eax, dword ptr [bp - 4]
mul ecx
add eax, dword ptr [bp - 12]
// Format correctly the number
mov edx, eax
mov eax, dword ptr [bp - 8]
mov sp, bp
pop bp
ret
// Compare case-insensitive strings
// [ES:SI] - the source file name
// [DS:DI] - the destination file name
// CX - compare length
CompareWideStrInsensitive:
push bx
push si
push di
movzx cx, cl
CmpLoop:
mov ax, word ptr es:[si]
cmp ax, 'a'
jl NoUpper
cmp ax, 'z'
jg NoUpper
sub ax, HEX(20)
NoUpper:
mov bx, word ptr ds:[di]
sub bx, ax
test bx, bx
jnz CompareFail
add si, 2
add di, 2
dec cx
jnz CmpLoop
CompareFail:
mov ax, bx
pop di
pop si
pop bx
ret
// Reads a NTFS cluster
// INPUT:
// - EDX:EAX : cluster number to read
// OUTPUT:
// - ES:BX : address to read
ReadCluster:
push ecx
mov cl, byte ptr [SectsPerCluster] // Convert clusters to sectors
movzx ecx, cx
call Multiply64
call ReadSectors
pop ecx
ret
// Reads a MFT entry
// INPUT:
// - EDX:EAX : MFT inode
// OUTPUT:
// - ES:[BX] : address to read
ReadInode:
push ecx
push si
push di
push edx
mov cx, word ptr [SectsPerMFT] // Get the correct number of sectors for the FILE entry
movzx ecx, cx
mul ecx
movzx eax, ax
add eax, dword ptr [MFTStartSector] // Add it to the start of the MFT
mov cx, word ptr [SectsPerMFT]
movzx ecx, cx
pop edx
call ReadSectors
cmp dword ptr es:[bx], FILE_MAGIC // Ensure we get a valid FILE record
jnz PrintFileSystemError
call ApplyFixups
pop di
pop si
pop ecx
ret
#define UpdateSequenceOffset 4
#define UpdateSequenceLen 6
// Apply fixups to INDX and FILE records
// INPUT:
// - ES:[BX] - pointer to the record to fixup
ApplyFixups:
push si
push di
mov si, bx
add si, word ptr es:[bx + UpdateSequenceOffset]
xor cx, cx
inc cx
FixupLoop:
cmp cx, word ptr es:[bx + UpdateSequenceLen]
jz EndFixupLoop
mov si, bx
add si, word ptr es:[bx + UpdateSequenceOffset]
mov ax, word ptr es:[si] // Get first fixup value
mov di, cx
shl di, 9
add di, bx
sub di, 2
cmp ax, word ptr es:[di] // Check fixup value
jnz PrintFileSystemError // Fixup is corrupted, so print error
inc cx
add si, cx
mov ax, word ptr es:[si] // Apply fixup
mov word ptr es:[di], ax
jmp FixupLoop
EndFixupLoop:
pop di
pop si
ret
// Reads a non-resident attribute
// INPUT:
// - ES:[AX] : Address of the data runs
// - ECX : LCN to read
// OUTPUT:
// - FS:[BX] : Address to write to
ReadNonResidentAttribute:
#define currentLCN 4
#define offsetWrite 8
#define startReadLCN HEX(0C)
push bp
mov bp, sp
sub sp, HEX(10)
push edx
push si
mov dword ptr [bp - currentLCN], 0 // Store the current LCN
mov word ptr [bp - offsetWrite], bx
mov dword ptr [bp - startReadLCN], ecx
mov si, ax
xor edx, edx
RunLoop:
mov al, byte ptr es:[si]
test al, al
jz NotFound
call UnpackRun
add dword ptr [bp - currentLCN], eax
cmp dword ptr [bp - startReadLCN], ecx
jb FoundRun
sub dword ptr [bp - startReadLCN], ecx // Decrement the cluster
jmp RunLoop
FoundRun:
mov ebx, dword ptr [bp - currentLCN]
mov ecx, dword ptr [bp - startReadLCN]
add ebx, ecx
push es
mov ax, fs
mov es, ax
mov eax, ebx
mov bx, word ptr [bp - offsetWrite]
call ReadCluster
pop es
jmp RunSearchEnd
NotFound:
xor ax, ax
RunSearchEnd:
pop si
pop edx
mov sp, bp
pop bp
ret
// Decodes a run in the runlist
// INPUT:
// - ES:[SI] : address of the run
// OUTPUT:
// - EAX : Unpacked LCN
// - ECX : Unpacked run length (in sectors)
// - SI : Next run in the run list
UnpackRun:
push bp
mov bp, sp
sub sp, HEX(10)
push ebx
// Unpack run header
mov bl, byte ptr es:[si]
inc si
mov bh, bl
shr bh, 4
and bl, 7
mov byte ptr [bp-2], bh // BH contains the LCN length
mov byte ptr [bp-1], bl // BL contains the number of cluster length
mov al, bl
call UnpackLen
mov dword ptr [bp - 8], ebx
mov al, byte ptr [bp-2]
call UnpackLen
mov cl, byte ptr es:[si-1] // Fixup sign if last byte is > 255
test cl, HEX(80)
jz NoSign
not eax
add ebx, eax
NoSign:
mov eax, ebx
mov ecx, dword ptr [bp - 8]
pop ebx
mov sp, bp
pop bp
ret
// Auxiliary function that unpacks n bytes in the memory
// INPUT:
// - AL : size to unpack (max 4 bytes)
// OUTPUT:
// - EAX : the mask used to unpack (for negative number fixup)
// - EBX : the unpacked number
// - SI : Next byte to read
UnpackLen:
push cx
movzx ax, al
// Read the whole DWORD and then compute a mask to remove
// unneeded bytes to get correct size
xor ebx, ebx
mov ebx, dword ptr es:[si]
add si, ax
cmp al, 4
jnz UnpackLen_not4
xor eax, eax
dec eax
jmp UnpackLen_mask
UnpackLen_not4:
mov cl, al // Compute mask (2^(8*len) - 1)
shl cl, 3
xor eax, eax
inc eax
shl eax, cl
dec eax
UnpackLen_mask:
and ebx, eax // Apply mask
pop cx
ret
// Reads an INDX sector and applies fixups
// INPUT:
// - ES:[AX] : Address of the data runs
// - ECX : LCN to read
// OUTPUT:
// - FS:[BX] : Address to write to
ReadINDX:
push es
push bx
call ReadNonResidentAttribute
test ax, ax
jz PrintFileSystemError
cmp dword ptr fs:[0], INDX_MAGIC
jnz PrintFileSystemError // jump if not valid
pop bx
mov ax, fs
mov es, ax
call ApplyFixups
pop es
ret
// Finds an attribute header into the MFT
// INPUT:
// - ES:[AX] : pointer to the MFT entry
// - EBX : type to find
// OUTPUT:
// - ES:[AX] : Pointer to the attribute header in the MFT entry
FindAttributeHdr:
push cx
push si
push edx
mov si, ax
mov cx, word ptr es:[si+HEX(14)] // Get offset attribute
add si, cx
FindAttributeHdrLoop:
mov edx, dword ptr es:[si] // Get attribute type
cmp edx, ebx
jz AttrFound
cmp edx, HEX(ffffffff)
jz AttrNotFound
add cx, word ptr es:[si + 4] // Add size of the attribute
add si, word ptr es:[si + 4]
jmp FindAttributeHdrLoop
AttrNotFound:
// Attribute not found, reset the offset
xor cx, cx
AttrFound:
mov ax, cx
pop edx
pop si
pop cx
ret
PrintFreeldrError:
mov si, offset msgFreeldr
call PutChars
jmp Reboot
FreeLdr:
.word 'F', 'R', 'E', 'E', 'L', 'D', 'R', '.', 'S', 'Y', 'S'
msgFreeldr:
.ascii "FreeLdr not found, cannot boot", CR, LF, NUL
msgLoading:
.ascii "Loading FreeLoader...", CR, LF, NUL
msgFreeldrCompressed:
.ascii "freeldr.sys is a sparse, compressed or encrypted file, cannot boot", CR, LF, NUL
.endcode16
END

View file

@ -1,7 +1,7 @@
/* /*
* FreeLoader NTFS support * FreeLoader NTFS support
* Copyright (C) 2004 Filip Navara <xnavara@volny.cz> * Copyright (C) 2004 Filip Navara <xnavara@volny.cz>
* Copyright (C) 2009-2010 Hervé Poussineau * Copyright (C) 2009-2010 Herv<EFBFBD> Poussineau
* *
* This program is free software; you can redistribute it and/or modify * This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by * it under the terms of the GNU General Public License as published by