mirror of
https://github.com/reactos/reactos.git
synced 2024-10-30 11:35:58 +00:00
590 lines
17 KiB
ArmAsm
590 lines
17 KiB
ArmAsm
/*
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* COPYRIGHT: See COPYING in the top level directory
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* PROJECT: ReactOS Bootsector
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* FILE: boot/freeldr/bootsect/faty.S
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* PURPOSE: Combined FAT12, FAT16 and FAT32 boot sector
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* PROGRAMMERS: Brian Palmer
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* Timo Kreuzer
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*/
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#define DISKREADBUFFER HEX(8E000)
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/*
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* Layout of a FAT volume:
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*
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* |---------------------------------------------------------
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* | * BootSector |
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* | * FS Information Sector (FAT32 only) | ReservedSectors
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* | * ... more reserved sectors ... |
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* |--------------------------------------------------------
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* | * FAT 1 | NumberOfFats
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* | * FAT 2 | *
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* | * [more FATs] | SectorsPerFat
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* |---------------------------------------------------------
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* | * Root Directory (FAT12/FAT16 only) | MaxRootEntries / 16
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* |---------------------------------------------------------
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* | * File data |
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* | .... |
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* |----------------------------------------
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*/
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/* INCLUDES ******************************************************************/
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#include <asm.inc>
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#include <freeldr/include/arch/pc/x86common.h>
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#define ADDRESS_FOR_DIRENTRIES HEX(10000)
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SizeOfDataArea = 32
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/* Put the stack below the data area */
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BootSectorStackTop = (HEX(7c00) - SizeOfDataArea)
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/* Data area offsets for uninitialized data */
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DataAreaStart = BootSectorStackTop + 0 /* dword */
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#ifndef FAT32
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RootDirStartSector = BootSectorStackTop + 4 /* dword */
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#endif
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BiosCHSDriveSize = BootSectorStackTop + 8 /* dword */
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LBASectorsRead = BootSectorStackTop + 12 /* dword */
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ReadSectorsOffset = BootSectorStackTop + 16 /* word */
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ReadClusterOffset = BootSectorStackTop + 18 /* word */
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PutCharsOffset = BootSectorStackTop + 20 /* word */
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/* Macro for bp relative memory access to reduce code size */
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#define BP_REL(x) ss:[bp + x - BootSectorStackTop]
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/* The code starts at 0x7c00 */
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// org 7c00h
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.code16
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/******************************************************************************
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* BIOS Parameter Block (BPB) *
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******************************************************************************/
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/* We have 3 bytes at the entry point to jump over the data area */
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start:
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jmp short main // FIXME: When compiling FAT32, assembler will complain
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// that the label is too far... Need investigation!
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nop
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/* Here starts the BIOS Parameter Block (BPB) data.
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The real data will be copied during install */
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OEMName:
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.ascii "FrLdr1.0"
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BytesPerSector:
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.word 512
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SectorsPerCluster:
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.byte 0
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ReservedSectors:
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.word 32
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NumberOfFats:
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.byte 2
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MaxRootEntries:
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.word 0 // Always zero for FAT32 volumes
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TotalSectors:
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.word 0 // Always zero for FAT32 volumes
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MediaDescriptor:
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.byte HEX(0f8)
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SectorsPerFat:
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.word 0 // Always zero for FAT32 volumes
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SectorsPerTrack:
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.word 0
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NumberOfHeads:
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.word 0
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HiddenSectors:
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.long 0
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TotalSectorsBig:
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.long 0
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/* Extra data for FAT32 volumes */
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#ifdef FAT32
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SectorsPerFatBig:
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.long 0
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ExtendedFlags:
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.word 0
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FSVersion:
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.word 0
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RootDirStartCluster:
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.long 0
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FSInfoSector:
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.word 0
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BackupBootSector:
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.word 6
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Reserved1:
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.space 12, 0
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#endif // FAT32
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BootDrive:
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.byte 0
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Reserved:
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.byte 0
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ExtendSig:
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.byte HEX(29)
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SerialNumber:
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.long 0
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VolumeLabel:
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.ascii "NO NAME "
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FileSystem:
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.ascii "FATxx "
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/******************************************************************************
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* String data *
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******************************************************************************/
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filename:
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.ascii "FREELDR SYS"
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msgBootFailure:
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.ascii "Load failed!", CR, LF, NUL
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msgAnyKey:
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.ascii "Press any key to reboot...", NUL
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/******************************************************************************
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* Main code entry *
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* Input: DL = Boot drive *
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******************************************************************************/
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main:
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/* First setup the segment registers */
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xor ax, ax
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mov ds, ax
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mov ss, ax
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/* Load the stack pointer */
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mov sp, BootSectorStackTop
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/* Load bp for relative memory access, which saves us some bytes of code
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size, when used with 32 bit instructions */
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mov bp, sp
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/* Load the boot drive from the BPB into al */
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mov al, byte ptr ds:[BootDrive]
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/* Check if it's valid */
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cmp al, HEX(0ff)
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je .SaveBootDrive
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/* Copy it into dl */
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mov dl, al
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.SaveBootDrive:
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/* Save the bootdrive in the BPB */
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mov byte ptr ds:[BootDrive], dl
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/******************************************************************************
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* Get drive parameters *
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******************************************************************************/
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/* Call INT 13 to get the drive parameters:
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AH = 08h
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DL = drive (bit 7 set for hard disk)
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ES:DI = 0000h:0000h to guard against BIOS bugs */
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xor di, di
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mov ah, 8
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int HEX(13)
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/* Return from INT 13h/08h:
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CF set on error -> AH = status (07h)
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CF clear if successful -> AH = 00h
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AL = 00h on at least some BIOSes
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BL = drive type (AT/PS2 floppies only)
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CH = low eight bits of maximum cylinder number
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CL = bits 0:5 maximum sector number, bits 7:8 high two bits of maximum cylinder number
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DH = maximum head number
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DL = number of drives
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ES:DI -> drive parameter table (floppies only) */
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/* Check for failure */
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jc BootFailure
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/******************************************************************************
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* Calculate drive size *
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******************************************************************************/
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movzx ebx, ch // Put the low 8-bits of the cylinder count into EBX
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mov bh, cl // Put the high 2-bits in BH
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shr bh, 6 // Shift them into position, now BX contains the cylinder count
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and cl, HEX(3f) // Mask off cylinder bits from sector count
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movzx ecx, cl // Move the sectors per track into ECX
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movzx eax, dh // Move the heads into EAX
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inc eax // Make it one based because the bios returns it zero based
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inc ebx // Make the cylinder count one based also
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mul ecx // Multiply heads with the sectors per track, result in edx:eax
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mul ebx // Multiply the cylinders with (heads * sectors) [stored in edx:eax already]
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// We now have the total number of sectors as reported
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// by the bios in eax, so store it in our variable
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mov dword ptr BP_REL(BiosCHSDriveSize), eax
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/******************************************************************************
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* Load the FAT *
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******************************************************************************/
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/* Load the number of first sector of the FAT into eax */
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movzx eax, word ptr BP_REL(ReservedSectors)
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add eax, dword ptr BP_REL(HiddenSectors)
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/* Load sector count into ecx */
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#ifdef FAT32
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mov ecx, dword ptr BP_REL(SectorsPerFatBig)
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#else
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movzx ecx, word ptr BP_REL(SectorsPerFat)
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#endif
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/* Save FAT sector and size for later use */
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pushad
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/* Point ES:DI to the memory that is later the disk read buffer for freeldr.
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This way we cannot overwrite our FAT with freeldr data */
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mov bx, DISKREADBUFFER / 16
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mov es,bx
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xor di, di
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/* Read the sectors */
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call ReadSectors
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/* Restore FAT sector and size */
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popad
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/******************************************************************************
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* Get root directory / data area start *
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******************************************************************************/
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/* Copy reserved + hidden sectors to EBX */
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mov ebx, eax
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/* Calculate (NumberOfFats * SectorsPerFat) */
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movzx eax, byte ptr BP_REL(NumberOfFats)
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mul ecx
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/* Add reserved sectors and hidden sectors */
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add eax, ebx
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#ifndef FAT32
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/* Save the starting sector of the root directory */
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mov dword ptr BP_REL(RootDirStartSector), eax
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/* Calculate number of sectors for the root dir:
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sectors = MaxRootEntries * 32 / 512 (rounded up!) */
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movzx ebx, word ptr BP_REL(MaxRootEntries)
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add ebx, 15
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shr ebx, 4
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/* Add the root dir start sector and save it as DataAreaStart */
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add ebx, eax
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mov dword ptr BP_REL(DataAreaStart), ebx
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#else
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mov dword ptr BP_REL(DataAreaStart), eax
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/* On FAT32 volumes the root dir start cluster is stored in the BPB */
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mov eax, dword ptr BP_REL(RootDirStartCluster)
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#endif
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/******************************************************************************
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* Search the root directory for freeldr *
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******************************************************************************/
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.SearchForFreeldr:
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/* Load ES with the segment where we put the dir entries */
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mov bx, ADDRESS_FOR_DIRENTRIES / 16
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mov es, bx
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/* Set the address offset to 0 */
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xor di, di
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#ifdef FAT32
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/* Read the dir cluster. This loads the next cluster into EAX */
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call ReadCluster
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/* Calculate the numer of dir entries in this cluster:
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dx = SectorsPerCluster * 512 / 32 */
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movzx dx, byte ptr ds:[SectorsPerCluster]
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shl dx, 4
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#else
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/* Set the number of sectors to read to 1 */
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xor cx, cx
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inc cx
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/* Read the sector, but preserve ES */
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push es
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call ReadSectors
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pop es
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/* Set entry count to entries per sector */
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mov dx, (512 / 32)
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#endif
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/* Load the start offset of the dir entries into ebx */
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xor bx, bx
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.CheckDirEntry:
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/* Load the address of the name into di */
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mov di, bx
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/* If the first byte of the entry is 0 then we have reached the end */
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cmp byte ptr es:[di], ch
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jz BootFailure
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/* Compare with freeldr file name */
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mov si, offset filename
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mov cx, 11
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repe cmpsb
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/* Check if we found the file */
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jz .FoundFreeLoader
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/* File didn't match, go to next entry */
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add bx, 32
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/* Decrement entry count and check if we reached the end */
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dec dx
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jnz .CheckDirEntry
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#ifdef FAT32
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/* Check to see if this was the last cluster in the chain */
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cmp eax, HEX(0ffffff8)
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jnb BootFailure
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#endif
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/* Repeat the search process with the next sector / cluster.
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eax is already incremented in ReadSectors / ReadCluster */
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jmp .SearchForFreeldr
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/******************************************************************************
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* Load freeldr *
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******************************************************************************/
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.FoundFreeLoader:
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/* Load the cluster number of freeldr into eax */
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#ifdef FAT32
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#error unsupported
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#else
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movzx eax, word ptr es:[bx + HEX(1A)]
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#endif
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/* Load es:di with the freeldr start address */
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mov dx, FREELDR_BASE / 16
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mov es, dx
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xor di, di
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.LoadNextCluster:
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/* Load the cluster to the current address. EAX is adjusted to the next
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cluster and ES is adjusted for the next read */
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call ReadCluster
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/* Check if this is the last cluster in the chain */
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#if defined(FAT32)
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cmp eax, HEX(0ffffff8)
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#elif defined(FAT12)
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cmp ax, HEX(0ff8)
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#else
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cmp ax, HEX(0fff8)
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#endif
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jb .LoadNextCluster
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/* Load boot drive into DL, boot partition into DH */
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mov dl, byte ptr ds:[BootDrive]
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mov dh, byte ptr ds:[BootPartition]
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/* Now the complete freeldr imag is loaded.
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Jump to the realmode entry point. */
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ljmp16 0, FREELDR_BASE
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BootFailure:
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mov si, offset msgBootFailure
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call PutChars
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Reboot:
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/* Output "Press any key to reboot" message */
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mov si, offset msgAnyKey
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call PutChars
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/* Wait for a keypress */
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xor ax, ax
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int HEX(16)
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/* Reboot */
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int HEX(19)
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/******************************************************************************
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* PROCEDURE ReadCluster *
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* Input: EAX = Cluster number, ES:DI = Target *
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* Modifies: EAX (next cluster number), BX, DX (undefined) *
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******************************************************************************/
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ReadCluster:
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pushad
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// StartSector = ((Cluster - 2) * SectorsPerCluster) + SectorsForFat + ReservedSectors + HiddenSectors
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// StartSector = ((Cluster - 2) * SectorsPerCluster) + DataAreaStart
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/* Substract 2 */
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dec eax
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dec eax
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/* Multiply with SectorsPerCluster */
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movzx ecx, byte ptr BP_REL(SectorsPerCluster)
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mul ecx
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/* Add DataAreaStart */
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add eax, dword ptr BP_REL(DataAreaStart)
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/* Call ReadSectors. EAX = SectorNumber, ECX = SectorsPerCluster */
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call ReadSectors
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/* Restore the cluster number */
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popad
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/* Save ES */
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push es
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#if defined(FAT32)
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#error FAT32 not implemented
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#elif defined(FAT12)
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#error FAT12 not implemented
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#else
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/* DX:AX = AX * 2 (since FAT16 entries are 2 bytes) */
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mov bx, 2
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mul bx
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/* Shift DX, so that it is the segment offset: DX = DX * (64K / 16) */
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shl dx, 12
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/* Put segment address of FAT into ES */
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add dx, DISKREADBUFFER / 16
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mov es, dx
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/* Put the FAT entry offset into EBX for indirect mov */
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mov bx, ax
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/* Put the content of the FAT entry into AX */
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mov ax, es:[bx]
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#endif
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/* Restore ES and return */
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pop es
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ret
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/******************************************************************************
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* PROCEDURE ReadSectors *
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* Input: EAX = Sector start number, ECX = number of sectors, ES:DI = Target *
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* Modifies: EAX (incremented by sector count), CX = 0, ES (incremented), *
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* EBX undefined *
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******************************************************************************/
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ReadSectors:
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/* We could possibly also implement CHS, but it's currently unimplemented */
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//jmp $
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ReadSectorsLBA:
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/* Copy number of sectors to ebx */
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movzx ebx, cx
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/* Since the LBA calls only support 0x7F sectors at a time,
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we will limit ourselves to 64 */
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cmp bx, 64
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jbe .ReadSectorsLBA2
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mov bx, 64
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.ReadSectorsLBA2:
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/* Save logical sector number & sector count */
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pushad
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/* Setup the disk address packet on the stack */
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.byte HEX(66) // size overwrite prefix for next push
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push 0 // Put 64-bit logical block address (high part) on stack
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push eax // Put 64-bit logical block address (low part) on stack
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push es // Put transfer segment on stack
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push di // Put transfer offset on stack
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push bx // Set transfer count (for this round)
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push 16 // Set size of packet to 16
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/* Point si to the disk address packet on stack */
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mov si, sp
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/* Set the drive number */
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mov dl, byte ptr ds:[BootDrive]
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//jmp $
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/* Call INT 13h, AH = 42h - Extended Read
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Input: ...
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Modifies: ... */
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mov ah, HEX(42)
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int HEX(13)
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//jmp $
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/* Check for failure */
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jc BootFailure
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/* Remove disk address packet from stack */
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add sp, 16
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/* Adjust ES to point to the next sector */
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shl bx, 5
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mov ax, es
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add ax, bx
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mov es, ax
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/* Restore sector count & logical sector number */
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popad
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/* Adjust the sector number to the next sector we need to read
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by adding the number of sectors that we read */
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add eax, ebx
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/* Adjust remaining sectors */
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sub cx, bx
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jnz ReadSectorsLBA
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/* return */
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ret
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/******************************************************************************
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* PROCEDURE PutChars *
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* Input: ESI = Points to string to be printed *
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* Modifies: AL, AH, SI *
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******************************************************************************/
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PutChars2:
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mov ah, HEX(0e)
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mov bx, 7
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int HEX(10)
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PutChars:
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lodsb
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or al, al
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jnz short PutChars2
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ret
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/******************************************************************************
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* Padding and boot sector signature *
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******************************************************************************/
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/* Pad to 509 bytes */
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.org 509
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BootPartition:
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.byte 0
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BootSignature:
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.word HEX(0aa55) // BootSector signature
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.endcode16
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END
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