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717 lines
18 KiB
717 lines
18 KiB
;++
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;
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;Copyright (c) 1995 Microsoft Corporation
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;
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;Module Name:
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;
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; bioschk.asm
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;
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;Abstract:
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;
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; The code in this "image" is responsible for checking if is appropriate
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; for us to start setupldr.bin. We consider this appropriate when we pass
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; BIOS checkings. Setupldr.bin is binary appended at the end of this image.
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;
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;Author:
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;
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; Windows 2000 OPK Development Team 16-Dec-1999
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; Alan M. Brown (Compaq Datacenter) 18-Oct-2000
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; Scott Wilmot (CTO Tools) 25-Jan-2001
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; Windows 2000 OPK Development Team 02-Apr-2001
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;
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;Environment:
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;
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; Real mode
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;
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; Case 1:
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; Complete image has been loaded at 2000:0000 by the boot code
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; DL = INT 13h drive number we've booted from
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;
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; Case 2:
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; First 512 bytes of this image has been loaded at 2000:000 by the boot code
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; BX = Starting Cluster Number of this image
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; DL = INT 13h drive number we've booted from
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; DS:SI -> boot media's BPB
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; DS:DI -> argument structure
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;
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;Revision History:
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;
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;--
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page ,132
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title boot - BIOS check
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name bioschk
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.8086
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CODE SEGMENT
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ASSUME CS:CODE,DS:CODE,SS:NOTHING,ES:NOTHING
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ORG 0000H
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_BiosChk label byte
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BiosChkDestSeg EQU 1000h
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SetupLdrDestSeg EQU 2000h
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MaxCodeSize EQU 0800h ;number of paragraphs (32k)
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MaxSetupLdrSize EQU 4000h ;number of paragraphs (256k)
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StackSeg EQU 1000h ;stack goes from here
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MAXREAD EQU 10000h
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MAXSECTORS EQU MAXREAD/0200h
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DoubleWord struc
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lsw dw ?
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msw dw ?
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DoubleWord ends
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SHARED struc
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ReadClusters dd ? ; function pointer
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ReadSectors dd ? ; function pointer
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SectorBase dd ? ; starting sector for
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; ReadSectors callback
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SHARED ends
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BPB struc
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BytesPerSector dw ?
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SectorsPerCluster db ?
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ReservedSectors dw ?
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Fats db ?
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DirectoryEntries dw ?
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Sectors dw ?
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Media db ?
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FatSectors dw ?
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SectorsPerTrack dw ?
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Heads dw ?
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HiddenSectors dd ?
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SectorsLong dd ?
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BootDriveNumber db ?
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BPB ends
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JMPFAR MACRO DestOfs,DestSeg
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db 0eah
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dw OFFSET DestOfs
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dw DestSeg
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endm
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START:
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;
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; The FAT boot sector only reads in the first 512 bytes of NTLDR. This is
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; the module that contains those 512 bytes, so we are now responsible for
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; loading the rest of the file. Other filesystems will load the whole file,
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; so the default entrypoint branches around the FAT-specific code.
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;
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jmp RealStart
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FatBegin:
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.386
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;
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; If we're here, we've booted off a FAT system and we must load the rest
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; of the binary image at 2000:0200 (right behind this sector). The boot
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; sector passes us the following:
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; BX = Starting Cluster Number of this image
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; DL = INT 13h drive number we've booted from
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; DS:SI -> boot media's BPB
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; DS:DI -> argument structure
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;
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;
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; Save away the boot drive and the starting cluster number
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;
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push dx
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push bx
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;
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; Blast the FAT into memory at 6000:0000 - 8000:0000
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;
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.386
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push 06000h
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.8086
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pop es
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xor bx,bx ; (es:bx) = 6000:0000
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mov cx,ds:[si].ReservedSectors
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mov ds:[di].SectorBase.msw,0
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mov ds:[di].SectorBase.lsw,cx ; set up Sector Base
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mov ax,ds:[si].FatSectors ; (al) = # Sectors to read
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cmp ax,080h
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jbe FatLt64k
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; The FAT is > 64k, so we read the first 64k chunk, then the rest.
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; (A 16-bit FAT can't be bigger than 128k)
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push cx
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mov ax,080h ; (al) = # of sectors to read
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call ds:[di].ReadSectors
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pop cx ; (cx) = previous SectorBase
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.386
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push 07000h
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.8086
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pop es
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xor bx,bx ; (es:bx) = 7000:0000
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mov ax,ds:[si].FatSectors
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sub ax,080h ; (ax) = # Sectors left to read
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add cx,080h ; (cx) = SectorBase for next read
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mov ds:[di].SectorBase.lsw,cx
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adc ds:[di].SectorBase.msw,0 ; set up SectorBase
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;
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; (al) = # of sectors to read
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;
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FatLt64k:
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call ds:[di].ReadSectors
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;
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; FAT is in memory, now we restore our starting cluster number
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;
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pop dx ; (dx) = starting cluster number
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xor bx,bx
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;
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; set up FS and GS for reading the FAT
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;
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.386
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mov ax,6000h
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mov fs,ax
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mov ax,7000h
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mov gs,ax
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.8086
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;
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; set up ES for reading in the rest of us
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;
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push cs
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pop es
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mov ah,MAXSECTORS ; (ah) = number of sectors we can read
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FatLoop:
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;
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; (dx) = next cluster to load
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;
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push dx
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mov al,ds:[si].SectorsPerCluster ; (al) = number of contiguous sectors
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; found
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sub ah,ds:[si].SectorsPerCluster ; can read before 64k
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;
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; Check to see if we've reached the end of the file
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;
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cmp dx,0ffffh
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jne Fat10
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;
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; The entire file has been loaded. Throw away the saved next cluster,
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; restore the boot drive, and let NTLDR do its thing.
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;
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pop dx
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pop dx
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jmp RealStart
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Fat10:
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mov cx,dx
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;
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; (dx) = (cx) = last contiguous cluster
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; (al) = # of contiguous clusters found
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;
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call NextFatEntry
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;
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; (dx) = cluster following last contiguous cluster
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;
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; Check to see if the next cluster is contiguous. If not, go load the
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; contiguous block we've found.
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;
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inc cx
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cmp dx,cx
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jne LncLoad
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;
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; Check to see if we've reached the 64k boundary. If so, go load the
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; contiguous block so far. If not, increment the number of contiguous
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; sectors and loop again.
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;
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cmp ah,0
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jne Lnc20
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mov ah,MAXSECTORS ; (ah) = number of sectors until
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jmp short LncLoad
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Lnc20:
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add al,ds:[si].SectorsPerCluster
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sub ah,ds:[si].SectorsPerCluster
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jmp short Fat10
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LncLoad:
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;
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; (TOS) = first cluster to load
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; (dx) = first cluster of next group to load
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; (al) = number of contiguous sectors
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;
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pop cx
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push dx
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mov dx,cx
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mov cx,10 ; (cx) = retry count
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;
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; N.B.
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; This assumes that we will never have more than 255 contiguous clusters.
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; Since that would get broken up into chunks that don't cross the 64k
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; boundary, this is ok.
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;
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; (dx) = first cluster to load
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; (al) = number of contiguous sectors
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; (TOS) = first cluster of next group to load
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; (es:bx) = address where clusters should be loaded
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;
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FatRetry:
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push bx
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push ax
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push dx
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push cx
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call [di].ReadClusters
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jnc ReadOk
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;
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; error in the read, reset the drive and try again
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;
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mov ax,01h
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mov al,ds:[si].BootDriveNumber
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int 13h
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xor ax,ax
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mov al,ds:[si].BootDriveNumber
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int 13h
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;
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; pause for a while
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;
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xor ax,ax
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FatPause:
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dec ax
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jnz FatPause
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pop cx
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pop dx
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pop ax
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pop bx
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dec cx
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jnz FatRetry
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;
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; we have re-tried ten times, it still doesn't work, so punt.
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;
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push cs
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pop ds
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mov si,offset FAT_ERROR
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FatErrPrint:
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lodsb
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or al,al
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jz FatErrDone
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mov ah,14 ; write teletype
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mov bx,7 ; attribute
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int 10h ; print it
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jmp FatErrPrint
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FatErrDone:
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jmp $
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; BUGBUG this should be replaced by a mechanism to get a pointer
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; passed to us in the param block. since the boot sector msg itself
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; is properly localized but this one isn't.
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FAT_ERROR db 13,10,"Disk I/O error",0dh,0ah,0
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ReadOk:
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pop cx
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pop dx
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pop ax
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pop bx
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pop dx ; (dx) = first cluster of next group
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; to load.
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.386
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;
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; Convert # of sectors into # of bytes.
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;
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mov cl,al
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xor ch,ch
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shl cx,9
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.8086
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add bx,cx
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jz FatLoopDone
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jmp FatLoop
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FatLoopDone:
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;
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; (bx) = 0
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; This means we've just ended on a 64k boundary, so we have to
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; increment ES to continue reading the file. We are guaranteed to
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; always end on a 64k boundary and never cross it, because we
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; will reduce the number of contiguous clusters to read
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; to ensure that the last cluster read will end on the 64k boundary.
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; Since we start reading at 0, and ClusterSize will always be a power
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; of two, a cluster will never cross a 64k boundary.
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;
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mov ax,es
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add ax,01000h
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mov es,ax
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mov ah,MAXSECTORS
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jmp FatLoop
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;++
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;
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; NextFatEntry - This procedure returns the next cluster in the FAT chain.
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; It will deal with both 12-bit and 16-bit FATs. It assumes
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; that the entire FAT has been loaded into memory.
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;
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; Arguments:
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; (dx) = current cluster number
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; (fs:0) = start of FAT in memory
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; (gs:0) = start of second 64k of FAT in memory
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;
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; Returns:
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; (dx) = next cluster number in FAT chain
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; (dx) = 0ffffh if there are no more clusters in the chain
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;
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;--
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NextFatEntry proc near
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push bx
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;
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; Check to see if this is a 12-bit or 16-bit FAT. The biggest FAT we can
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; have for a 12-bit FAT is 4080 clusters. This is 6120 bytes, or just under
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; 12 sectors.
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;
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; A 16-bit FAT that's 12 sectors long would only hold 3072 clusters. Thus,
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; we compare the number of FAT sectors to 12. If it's greater than 12, we
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; have a 16-bit FAT. If it's less than or equal to 12, we have a 12-bit FAT.
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;
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call IsFat12
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jnc Next16Fat
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Next12Fat:
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mov bx,dx ; (fs:bx) => temporary index
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shr dx,1 ; (dx) = offset/2
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; (CY) = 1 need to shift
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pushf ; = 0 don't need to shift
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add bx,dx ; (fs:bx) => next cluster number
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.386
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mov dx,fs:[bx] ; (dx) = next cluster number
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.8086
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popf
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jc shift ; carry flag tells us whether to
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and dx,0fffh ; mask
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jmp short N12Tail
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shift:
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.386
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shr dx,4 ; or shift
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.8086
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N12Tail:
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;
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; Check for end of file
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;
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cmp dx,0ff8h ; If we're at the end of the file,
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jb NfeDone ; convert to canonical EOF.
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mov dx,0ffffh
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jmp short NfeDone
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Next16Fat:
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add dx,dx ; (dx) = offset
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jc N16high
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mov bx,dx ; (fs:bx) => next cluster number
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.386
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mov dx,fs:[bx] ; (dx) = next cluster number
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.8086
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jmp short N16Tail
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N16high:
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mov bx,dx
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.386
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mov dx,gs:[bx]
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.8086
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N16Tail:
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cmp dx,0fff8h
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jb NfeDone
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mov dx,0ffffh ; If we're at the end of the file
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; convert to canonical EOF.
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NfeDone:
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pop bx
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ret
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NextFatEntry endp
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;++
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;
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; IsFat12 - This function determines whether the BPB describes a 12-bit
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; or 16-bit FAT.
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;
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; Arguments - ds:si supplies pointer to BPB
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;
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; Returns
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; CY set - 12-bit FAT
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; CY clear - 16-bit FAT
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;
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;--
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IsFat12 proc near
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.386
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push eax
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push ebx
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push ecx
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push edx
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movzx ecx, ds:[si].Sectors
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or cx,cx
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jnz if10
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mov ecx, ds:[si].SectorsLong
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if10:
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;
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; (ecx) = number of sectors
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;
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movzx ebx, byte ptr ds:[si].Fats
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movzx eax, word ptr ds:[si].FatSectors
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mul ebx
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sub ecx,eax
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;
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; (ecx) = (#sectors)-(sectors in FATs)
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;
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movzx eax, word ptr ds:[si].DirectoryEntries
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shl eax, 5
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;
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; (eax) = #bytes in root dir
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;
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mov edx,eax
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and edx,0ffff0000h
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div word ptr ds:[si].BytesPerSector
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sub ecx,eax
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;
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; (ecx) = (#sectors) - (sectors in fat) - (sectors in root dir)
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;
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movzx eax, word ptr ds:[si].ReservedSectors
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sub ecx, eax
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mov eax, ecx
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movzx ecx, byte ptr ds:[si].SectorsPerCluster
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xor edx,edx
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div ecx
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cmp eax, 4087
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jae if20
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stc
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jmp short if30
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if20:
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clc
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if30:
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pop edx
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pop ecx
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pop ebx
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pop eax
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ret
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.8086
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IsFat12 endp
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Free EQU 512-($-Start)
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if Free lt 0
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%out FATAL PROBLEM: FAT-specific startup code is greater than
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%out 512 bytes. Fix it!
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.err
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endif
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RealStart:
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;
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; we are completely done with the boot sector, we can party on it's memory as we like.
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; set up the stack
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;
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mov ax,StackSeg
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mov ss,ax
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xor sp,sp
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mov ax,cs
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mov ds,ax
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mov es,ax
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;
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; save setupldr data
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;
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mov Preserve, dl
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; move ourselves from 2000:0000 to 1000:0000, one paragraph at a time.
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mov ax, BiosChkDestSeg
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mov es, ax
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mov dx, MaxCodeSize
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cld
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Again1:
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xor di, di
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xor si, si
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mov cx, 10h
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rep movsb
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mov ax, ds
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inc ax
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mov ds, ax
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mov ax, es
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inc ax
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mov es, ax
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dec dx
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jnz Again1
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mov ax, BiosChkDestSeg
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mov ds, ax
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mov es, ax
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JMPFAR Continue1, BiosChkDestSeg
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Continue1:
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; Go to System specific check
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jmp short IDCheck1
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IdString1 db 'COMPAQ'
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SYSID1 EQU 'C '
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SYSID2 EQU '3L'
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SYSID3 EQU '08'
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NoMatchUS db "This system is not a supported platform.",13,10,"$"
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TestString db 7 dup (0)
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IDCheck1:
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push ds
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push si
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mov ax,0f000h
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push ax
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pop ds
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mov ax,0ffeah
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push ax
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pop si
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mov di,OFFSET TestString
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mov cx,6
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rep movsb
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pop si
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pop ds
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mov si,OFFSET IdString1
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mov di,OFFSET TestString
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mov cx,6
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repe cmpsb
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jne IDCheckFailed
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IDCheck2:
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;
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push es
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;
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mov ax, 0f000h ; look in the ROM area for our system name id string search
|
|
mov es, ax ; load segment into ROM area
|
|
xor di, di ; begin indexing ROM area at 0
|
|
mov dx, 8000h ; total area to search
|
|
Loop2:
|
|
cmp di, dx ; Q: have we exhausted our search?
|
|
je short IDCheckFailed ; Y: unable to find string
|
|
mov si, di ; save off the data
|
|
inc di ; increment 1-byte for next loop
|
|
mov ax, word ptr es:[si] ; read 2-bytes
|
|
cmp ax, offset SYSID1 ; Q: match?
|
|
jne short Loop2 ; N: start again
|
|
mov ax, word ptr es:[si+2] ; read next 2-bytes
|
|
cmp ax, offset SYSID2 ; Q: match?
|
|
jne short Loop2 ; N: start again
|
|
mov ax, word ptr es:[si+4] ; read next 2-bytes
|
|
cmp ax, offset SYSID3 ; Q: match?
|
|
jne short Loop2 ; N: start again
|
|
;
|
|
pop es
|
|
;
|
|
jmp short MoveSetupLdr ; Y: Join the party...
|
|
|
|
;
|
|
; The System specific check failed...this system is not supported.
|
|
;
|
|
IDCheckFailed:
|
|
;
|
|
pop es
|
|
;
|
|
push dx
|
|
push cx
|
|
push bx
|
|
push ax
|
|
push bp
|
|
mov ax,1301h
|
|
mov bx,0007h
|
|
mov cx,42
|
|
mov dx,0A00h
|
|
mov bp, OFFSET NoMatchUS
|
|
int 10h
|
|
pop bp
|
|
pop ax
|
|
pop bx
|
|
pop cx
|
|
pop dx
|
|
jmp Continue2
|
|
|
|
|
|
MoveSetupLdr:
|
|
; move Setupldr code from 2000+MaxCodeSize:0000 to 2000:0000, one paragraph at a time.
|
|
|
|
push ds
|
|
push es
|
|
mov ax, SetupLdrDestSeg
|
|
mov es, ax
|
|
add ax, MaxCodeSize
|
|
mov ds, ax
|
|
mov dx, MaxSetupLdrSize
|
|
cld
|
|
Again2:
|
|
xor di, di
|
|
xor si, si
|
|
mov cx, 10h
|
|
rep movsb
|
|
mov ax, ds
|
|
inc ax
|
|
mov ds, ax
|
|
mov ax, es
|
|
inc ax
|
|
mov es, ax
|
|
dec dx
|
|
jnz Again2
|
|
pop es
|
|
pop ds
|
|
|
|
Continue2:
|
|
mov dl, Preserve
|
|
JMPFAR 0,SetupLdrDestSeg
|
|
|
|
;
|
|
;EXPECTS DS:SI - MESSAGE ADDR
|
|
;
|
|
PrintMsg proc near
|
|
push ax
|
|
push bx
|
|
PrintMsgLoop:
|
|
lodsb
|
|
cmp al,0
|
|
je PrintMsgEnd
|
|
mov ah,0eh
|
|
mov bx,0007h
|
|
int 10h
|
|
jmp PrintMsgLoop
|
|
PrintMsgEnd:
|
|
pop bx
|
|
pop ax
|
|
ret
|
|
PrintMsg endp
|
|
|
|
Preserve db ?
|
|
MsgPressKey db 0dh, 0ah, "Press any key to continue..."
|
|
db 0
|
|
|
|
.errnz ($-_BiosChk) GT (MaxCodeSize*16 - 2) ;FATAL: BiosChk code is too large
|
|
|
|
org MaxCodeSize*16 - 2
|
|
db 55h,0aah
|
|
|
|
|
|
CODE ENDS
|
|
END START
|