mirror of https://github.com/FDOS/kernel.git
404 lines
11 KiB
NASM
404 lines
11 KiB
NASM
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; This is an LBA-enabled FreeDOS FAT32 boot sector (single sector!).
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; You can use and copy source code and binaries under the terms of the
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; GNU Public License (GPL), version 2 or newer. See www.gnu.org for more.
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; Based on earlier work by FreeDOS kernel hackers, modified heavily by
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; Eric Auer and Jon Gentle in 7 / 2003.
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;
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; Features: Uses LBA and calculates all variables from BPB/EBPB data,
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; thus making partition move / resize / image-restore easier. FreeDOS
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; can boot from FAT32 partitions which start > 8 GB boundary with this
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; boot sector. Disk geometry knowledge is not needed for booting.
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;
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; Windows uses 2-3 sectors for booting (sector stage, statistics sector,
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; filesystem stage). Only using 1 sector for FreeDOS makes multi-booting
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; of FreeDOS and Windows on the same filesystem easier.
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;
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; Requirements: LBA BIOS and 386 or better CPU. Use the older CHS-only
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; boot sector if you want FAT32 on really old PCs (problems: you cannot
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; boot from > 8 GB boundary, cannot move / resize / ... without applying
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; SYS again if you use the CHS-only FAT32 boot sector).
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;
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; FAT12 / FAT16 hints: Use the older CHS-only boot sector unless you
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; have to boot from > 8 GB. The LBA-and-CHS FAT12 / FAT16 boot sector
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; needs applying SYS again after move / resize / ... a variant of that
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; boot sector without CHS support but with better move / resize / ...
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; support would be good for use on LBA harddisks.
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; Memory layout for the FreeDOS FAT32 single stage boot process:
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; ...
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; |-------| 1FE0:7E00
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; |BOOTSEC|
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; |RELOC. |
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; |-------| 1FE0:7C00
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; ...
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; |-------| 2000:0200
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; | FAT | (only 1 sector buffered)
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; |-------| 2000:0000
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; ...
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; |-------| 0000:7E00
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; |BOOTSEC| overwritten by the kernel, so the
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; |ORIGIN | bootsector relocates itself up...
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; |-------| 0000:7C00
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; ...
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; |-------|
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; |KERNEL | maximum size 134k (overwrites bootsec origin)
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; |LOADED | (holds 1 sector directory buffer before kernel load)
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; |-------| 0060:0000
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; ...
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segment .text
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org 0x7c00 ; this is a boot sector
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Entry: jmp short real_start
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nop
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; bp is initialized to 7c00h
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; %define bsOemName bp+0x03 ; OEM label (8)
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%define bsBytesPerSec bp+0x0b ; bytes/sector (dw)
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%define bsSecPerClust bp+0x0d ; sectors/allocation unit (db)
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%define bsResSectors bp+0x0e ; # reserved sectors (dw)
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%define bsFATs bp+0x10 ; # of fats (db)
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; %define bsRootDirEnts bp+0x11 ; # of root dir entries (dw, 0 for FAT32)
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; (FAT32 has root dir in a cluster chain)
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; %define bsSectors bp+0x13 ; # sectors total in image (dw, 0 for FAT32)
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; (if 0 use nSectorHuge even if FAT16)
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; %define bsMedia bp+0x15 ; media descriptor: fd=2side9sec, etc... (db)
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; %define sectPerFat bp+0x16 ; # sectors in a fat (dw, 0 for FAT32)
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; (FAT32 always uses xsectPerFat)
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%define sectPerTrack bp+0x18 ; # sectors/track
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; %define nHeads bp+0x1a ; # heads (dw)
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%define nHidden bp+0x1c ; # hidden sectors (dd)
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; %define nSectorHuge bp+0x20 ; # sectors if > 65536 (dd)
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%define xsectPerFat bp+0x24 ; Sectors/Fat (dd)
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; +0x28 dw flags (for fat mirroring)
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; +0x2a dw filesystem version (usually 0)
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%define xrootClst bp+0x2c ; Starting cluster of root directory (dd)
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; +0x30 dw -1 or sector number of fs.-info sector
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; +0x32 dw -1 or sector number of boot sector backup
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; (+0x34 .. +0x3f reserved)
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%define drive bp+0x40 ; Drive number
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%define loadsegoff_60 bp+loadseg_off-Entry
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%define LOADSEG 0x0060
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%define FATSEG 0x2000
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%define fat_secshift fat_afterss-1 ; each fat sector describes 2^??
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; clusters (db) (selfmodifying)
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%define fat_sector bp+0x44 ; last accessed FAT sector (dd)
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; (overwriting unused bytes)
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%define fat_start bp+0x48 ; first FAT sector (dd)
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; (overwriting unused bytes)
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%define data_start bp+0x4c ; first data sector (dd)
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; (overwriting unused bytes)
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times 0x5a-$+$$ db 0
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; not used: [0x42] = byte 0x29 (ext boot param flag)
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; [0x43] = dword serial
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; [0x47] = label (padded with 00, 11 bytes)
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; [0x52] = "FAT32",32,32,32 (not used by Windows)
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; ([0x5a] is where FreeDOS parts start)
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;-----------------------------------------------------------------------
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; ENTRY
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;-----------------------------------------------------------------------
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real_start: cld
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cli
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sub ax, ax
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mov ds, ax
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mov bp, 0x7c00
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mov ax, 0x1FE0
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mov es, ax
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mov si, bp
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mov di, bp
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mov cx, 0x0100
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rep movsw ; move boot code to the 0x1FE0:0x0000
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jmp word 0x1FE0:cont
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loadseg_off dw 0, LOADSEG
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; -------------
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cont: mov ds, ax
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mov ss, ax ; stack and BP-relative moves up, too
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lea sp, [bp-0x20]
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sti
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mov [drive], dl ; BIOS passes drive number in DL
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mov si, msg_LoadFreeDOS
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call print ; modifies AX BX SI
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; -------------
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; CALCPARAMS: figure out where FAT and DATA area starts
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; (modifies EAX EDX, sets fat_start and data_start variables)
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calc_params: xor eax, eax
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mov [fat_sector], eax ; init buffer status
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; first, find fat_start:
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mov ax, [bsResSectors] ; no movzx eax, word... needed
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add eax, [nHidden]
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mov [fat_start], eax ; first FAT sector
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mov [data_start], eax ; (only first part of value)
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; next, find data_start:
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mov eax, [bsFATs] ; no movzx ... byte needed:
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; the 2 dw after the bsFATs db are 0 by FAT32 definition :-).
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imul dword [xsectPerFat] ; (also changes edx)
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add [data_start], eax ; first DATA sector
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; (adding in RAM is shorter!)
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; finally, find fat_secshift:
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mov ax, 512 ; default sector size (means default shift)
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; shift = log2(secSize) - log2(fatEntrySize)
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;--- mov cl, 9-2 ; shift is 7 for 512 bytes per sector
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fatss_scan: cmp ax, [bsBytesPerSec]
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jz fatss_found
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add ax,ax
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;--- inc cx
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inc word [fat_secshift] ;XXX ; initially 9-2 (byte!)
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jmp short fatss_scan ; try other sector sizes
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fatss_found:
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;--- mov [fat_secshift], cl
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; -------------
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; FINDFILE: Searches for the file in the root directory.
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; Returns: EAX = first cluster of file
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mov eax, [xrootClst] ; root dir cluster
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ff_next_clust: push eax ; save cluster
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call convert_cluster
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jc boot_error ; EOC encountered
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; EDX is clust/sector, EAX is sector
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ff_next_sector: les bx, [loadsegoff_60] ; load to loadseg:0
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call readDisk
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;--- push eax ; save sector
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;--- xor ax, ax ; first dir. entry in this sector
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xor di, di ;XXX
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; Search for KERNEL.SYS file name, and find start cluster.
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ff_next_entry: mov cx, 11
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mov si, filename
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;--- mov di, ax
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repe cmpsb
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jz ff_done ; note that di now is at dirent+11
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;--- add ax, 0x20 ; next directory entry
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;--- cmp ax, [bsBytesPerSec] ; end of sector reached?
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add di, byte 0x20 ;XXX
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and di, byte -0x20 ; 0xffe0 ;XXX
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cmp di, [bsBytesPerSec] ;XXX
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jnz ff_next_entry
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;--- pop eax ; restore sector
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dec dx ; next sector in cluster
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jnz ff_next_sector
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ff_walk_fat: pop eax ; restore current cluster
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call next_cluster ; find next cluster
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jmp ff_next_clust
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ff_done: push word [es:di+0x14-11] ; get cluster number HI
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push word [es:di+0x1A-11] ; get cluster number LO
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pop eax ; convert to 32bit
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sub bx, bx ; ES points to LOADSEG
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; (kernel -> ES:BX)
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; -------------
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read_kernel: push eax
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call convert_cluster
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jc boot_success ; EOC encountered - done
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; EDX is sectors in cluster, EAX is sector
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rk_in_cluster: call readDisk
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dec dx
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jnz rk_in_cluster ; loop over sect. in cluster
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rk_walk_fat: pop eax
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call next_cluster
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jmp read_kernel
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;-----------------------------------------------------------------------
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boot_success: mov bl, [drive]
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jmp far [loadsegoff_60]
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;-----------------------------------------------------------------------
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boot_error: mov si, msg_BootError
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call print ; modifies AX BX SI
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wait_key: xor ah,ah
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int 0x16 ; wait for a key
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reboot: int 0x19 ; reboot the machine
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;-----------------------------------------------------------------------
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; given a cluster number, find the number of the next cluster in
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; the FAT chain. Needs fat_secshift and fat_start.
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; input: EAX - cluster
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; output: EAX - next cluster
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next_cluster: push es
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push di
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push bx
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mov di, ax
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shl di, 2 ; 32bit FAT
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push ax
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mov ax, [bsBytesPerSec]
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dec ax
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and di, ax ; mask to sector size
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pop ax
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shr eax, 7 ; e.g. 9-2 for 512 by/sect.
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fat_afterss: ; selfmodifying code: previous byte is patched!
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; (to hold the fat_secshift value)
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add eax, [fat_start] ; absolute sector number now
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mov bx, FATSEG
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mov es, bx
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sub bx, bx
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cmp eax, [fat_sector] ; already buffered?
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jz cn_buffered
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mov [fat_sector],eax ; number of buffered sector
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call readDisk
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cn_buffered: and byte [es:di+3],0x0f ; mask out top 4 bits
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mov eax, [es:di] ; read next cluster number
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pop bx
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pop di
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pop es
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ret
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;-----------------------------------------------------------------------
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; Convert cluster number to the absolute sector number
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; ... or return carry if EndOfChain! Needs data_start.
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; input: EAX - target cluster
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; output: EAX - absolute sector
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; EDX - [bsSectPerClust] (byte)
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; carry clear
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; (if carry set, EAX/EDX unchanged, end of chain)
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convert_cluster:
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cmp eax, 0x0ffffff8 ; if end of cluster chain...
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jnb end_of_chain
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; sector = (cluster-2) * clustersize + data_start
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dec eax
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dec eax
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movzx edx, byte [bsSecPerClust]
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push edx
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mul edx
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pop edx
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add eax, [data_start]
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; here, carry is unset (unless parameters are wrong)
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ret
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end_of_chain: stc ; indicate EOC by carry
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ret
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;-----------------------------------------------------------------------
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; PRINT - prints string DS:SI
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; modifies AX BX SI
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printchar: xor bx, bx ; video page 0
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mov ah, 0x0e ; print it
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int 0x10 ; via TTY mode
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print: lodsb ; get token
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cmp al, 0 ; end of string?
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jne printchar ; until done
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ret ; return to caller
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;-----------------------------------------------------------------------
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; Read a sector from disk, using LBA
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; input: EAX - 32-bit DOS sector number
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; ES:BX - destination buffer
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; (will be filled with 1 sector of data)
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; output: ES:BX points one byte after the last byte read.
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; EAX - next sector
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readDisk: push dx
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push si
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push di
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read_next: push eax ; would ax be enough?
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mov di, sp ; remember parameter block end
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;--- db 0x66 ; operand size override (push dword)
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push byte 0 ;XXX ; other half of the 32 bits at [C]
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; (did not trust "o32 push byte 0" opcode)
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push byte 0 ; [C] sector number high 32bit
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push eax ; [8] sector number low 32bit
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push es ; [6] buffer segment
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push bx ; [4] buffer offset
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push byte 1 ; [2] 1 sector (word)
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push byte 16 ; [0] size of parameter block (word)
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mov si, sp
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mov dl, [drive]
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mov ah, 42h ; disk read
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int 0x13
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mov sp, di ; remove parameter block from stack
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; (without changing flags!)
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pop eax ; would ax be enough?
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jnc read_ok ; jump if no error
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push ax ; !!
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xor ah, ah ; else, reset and retry
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int 0x13
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pop ax ; !!
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jmp read_next
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read_ok: inc eax ; next sector
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add bx, word [bsBytesPerSec]
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jnc no_incr_es ; if overflow...
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mov dx, es
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add dh, 0x10 ; ...add 1000h to ES
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mov es, dx
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no_incr_es: pop di
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pop si
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pop dx
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ret
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;-----------------------------------------------------------------------
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msg_LoadFreeDOS db "Loading FreeDOS ",0
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times 0x01ee-$+$$ db 0
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msg_BootError db "No "
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; currently, only "kernel.sys not found" gives a message,
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; but read errors in data or root or fat sectors do not.
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filename db "KERNEL SYS"
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sign dw 0, 0xAA55
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; Win9x uses all 4 bytes as magic value here.
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