; ; File: ; oemboot.asm ; 2004, Kenneth J. Davis ; Copyright (c) 200?, ; Description: ; OEM boot sector for FreeDOS compatible with IBM's (R) PC-DOS, ; and Microsoft's (R) PC-DOS. It may work with OpenDOS/DR-DOS, ; although the standard FreeDOS boot sector works with later ; releases. May work with other versions of DOS that use ; IBMBIO.COM/IBMDOS.COM pair. This boot sector loads only up ; to 58 sectors (29KB) of the kernel (IBMBIO.COM) to 0x70:0 then ; jumps to it. As best I can tell, PC-DOS (and assuming MS-DOS ; behaves similar) expects on entry for: ; ch = media id byte in the boot sector ; dl = BIOS drive booted from (0x00=A:, 0x80=C:, ...) ; ax:bx = the LBA sector of 1st data sector 0x0000:0021 for FAT12 ; ?or? 1st sector of IBMBIO.COM (which is normally 1st data sector) ; it also expects the boot sector (in particular the BPB) ; to still be at 0x0:7C00, the directory entry for IBMBIO.COM ; (generally first entry of first sector of the root directory) ; at 0x50:0 (DOS Data Area). The original boot sector may update ; the floppy disk parameter table (int 1Eh), but we don't so ; may fail for any systems where the changes (???) are needed. ; If the above conditions are not met, then IBMBIO.COM will ; print the not a bootable disk error message. ; ; This boot sector only supports FAT12/FAT16 as PC-DOS ; does not support FAT32 and newer FAT32 capable DOSes ; probably have different boot requirements; also do NOT ; use it to boot the FreeDOS kernel as it expects to be ; fully loaded by boot sector (> 29KB & usually to 0x60:0). ; ; WARNING: PC-DOS has additional requirements, in particular, ; it may expect that IBMBIO.COM and IBMDOS.COM be the 1st ; two entries in the root directory (even before the label) ; and that they occupy the 1st consecutive data sectors. ; Newer releases may support other positions, but still ; generally should occupy consecutive sectors. These conditions ; can usually be met by running sys on a freshly formatted ; and un-label'd disk. ; ; ; Derived From: ; boot.asm ; DOS-C boot ; ; Copyright (c) 1997, 2000-2004 ; Svante Frey, Jim Hall, Jim Tabor, Bart Oldeman, ; Tom Ehlert, Eric Auer, Luchezar Georgiev, Jon Gentle ; and Michal H. Tyc (DR-DOS adaptation, boot26dr.asm) ; All Rights Reserved ; ; This file is part of FreeDOS. ; ; DOS-C is free software; you can redistribute it and/or ; modify it under the terms of the GNU General Public License ; as published by the Free Software Foundation; either version ; 2, or (at your option) any later version. ; ; DOS-C is distributed in the hope that it will be useful, but ; WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See ; the GNU General Public License for more details. ; ; You should have received a copy of the GNU General Public ; License along with DOS-C; see the file COPYING. If not, ; write to the Free Software Foundation, 675 Mass Ave, ; Cambridge, MA 02139, USA. ; ; ; +--------+ ; | CLUSTER| ; | LIST | ; |--------| 0000:7F00 ; |LBA PKT | ; |--------| 0000:7E00 (0:BP+200) ; |BOOT SEC| contains BPB ; |ORIGIN | ; |--------| 0000:7C00 (0:BP) ; |STACK | minimal 256 bytes (1/2 sector) ; |- - - - | ; |KERNEL | kernel loaded here (max 58 sectors, 29KB) ; |LOADED | also used as FAT buffer ; |--------| 0070:0000 (0:0700) ; |DOS DA/ | DOS Data Area, ; |ROOT DIR| during boot the 1st sector of root directory ; |--------| 0000:0500 ; |BDA | BIOS Data Area ; +--------+ 0000:0400 ; |IVT | Interrupt Vector Table ; +--------+ 0000:0000 ;%define ISFAT12 1 ; only 1 of these should be set, ;%define ISFAT16 1 ; defines which FAT is supported %define TRYLBAREAD 1 ; undefine to use only CHS int 13h ;%define LOOPONERR 1 ; if defined on error simply loop forever ;%define SETROOTDIR 1 ; if defined dir entry copied to 0:500 ;%define RETRYALWAYS 1 ; if defined retries read forever ;%define MSCOMPAT 1 ; sets default filename to MSDOS IO.SYS segment .text %define BASE 0x7c00 ; boot sector originally at 0x0:BASE %define LOADSEG 0x0070 ; segment to load kernel at LOADSEG:0 %define LOADEND 0x07b0 ; limit reads to below this segment ; LOADSEG+29KB, else data overwritten %define FATBUF bp-0x7500 ; offset of temporary buffer for FAT ; chain 0:FATBUF = 0:0700 = LOADSEG:0 %define ROOTDIR bp-0x7700 ; offset to buffer for root directory ; entry of kernel 0:ROOTDIR %define CLUSTLIST bp+0x0300 ; zero terminated list of clusters ; that the kernel occupies ; Some extra variables ; using bp-Entry+variable_name generates smaller code than using just ; variable_name, where bp is initialized to Entry, so bp-Entry equals 0 %define LBA_PACKET bp+0x0200 ; immediately after boot sector %define LBA_SIZE word [LBA_PACKET] ; size of packet, should be 10h %define LBA_SECNUM word [LBA_PACKET+2] ; number of sectors to read %define LBA_OFF LBA_PACKET+4 ; buffer to read/write to %define LBA_SEG LBA_PACKET+6 %define LBA_SECTOR_0 word [LBA_PACKET+8 ] ; LBA starting sector # %define LBA_SECTOR_16 word [LBA_PACKET+10] %define LBA_SECTOR_32 word [LBA_PACKET+12] %define LBA_SECTOR_48 word [LBA_PACKET+14] %define PARAMS LBA_PACKET+0x10 ;%define RootDirSecs PARAMS+0x0 ; # of sectors root dir uses %define fat_start PARAMS+0x2 ; first FAT sector ;%define root_dir_start PARAMS+0x6 ; first root directory sector %define data_start PARAMS+0x0a ; first data sector ;----------------------------------------------------------------------- org BASE Entry: jmp short real_start nop ; bp is initialized to 7c00h %define bsOemName bp+0x03 ; OEM label %define bsBytesPerSec bp+0x0b ; bytes/sector %define bsSecPerClust bp+0x0d ; sectors/allocation unit %define bsResSectors bp+0x0e ; # reserved sectors %define bsFATs bp+0x10 ; # of fats %define bsRootDirEnts bp+0x11 ; # of root dir entries %define bsSectors bp+0x13 ; # sectors total in image %define bsMedia bp+0x15 ; media descrip: fd=2side9sec, etc... %define sectPerFat bp+0x16 ; # sectors in a fat %define sectPerTrack bp+0x18 ; # sectors/track %define nHeads bp+0x1a ; # heads %define nHidden bp+0x1c ; # hidden sectors %define nSectorHuge bp+0x20 ; # sectors if > 65536 %define drive bp+0x24 ; drive number %define extBoot bp+0x26 ; extended boot signature %define volid bp+0x27 %define vollabel bp+0x2b %define filesys bp+0x36 ;----------------------------------------------------------------------- ; times 0x3E-$+$$ db 0 ; ; Instead of zero-fill, ; initialize BPB with values suitable for a 1440 K floppy ; db 'IBM 5.0' ; OEM label dw 512 ; bytes per sector db 1 ; sectors per cluster dw 1 ; reserved sectors db 2 ; number of FATs dw 224 ; root directory entries dw 80 * 36 ; total sectors on disk db 0xF0 ; media descriptor dw 9 ; sectors per 1 FAT copy dw 18 ; sectors per track dw 2 ; number of heads dd 0 ; hidden sectors dd 0 ; big total sectors db 0 ; boot unit db 0 ; reserved db 0x29 ; extended boot record id dd 0x12345678 ; volume serial number db 'NO NAME '; volume label db 'FAT12 ' ; filesystem id ;----------------------------------------------------------------------- ; ENTRY ;----------------------------------------------------------------------- real_start: cli ; disable interrupts until stack ready cld ; all string operations increment xor ax, ax ; ensure our segment registers ready mov ds, ax ; cs=ds=es=ss=0x0000 mov es, ax mov ss, ax mov bp, BASE lea sp, [bp-2] ; a reset should not be needed here ; int 0x13 ; reset drive ; For compatibility, diskette parameter vector updated. ; lea di [bp+0x3E] ; just use bp for DR-DOS? ; mov bx, 4 * 1eh ; stored at int 1E's vector ; lds si, [bx] ; fetch current int 1eh pointer ; mov cl, 11 ; the parameter table is 11 bytes ; rep movsb ; and copy the parameter block ; mov ds, ax ; restore DS sti ; enable interrupts ; ; Note: some BIOS implementations may not correctly pass drive number ; in DL, however we work around this in SYS.COM by NOP'ing out the use of DL ; (formerly we checked for [drive]==0xff; update sys.c if code moves) ; mov [drive], dl ; rely on BIOS drive number in DL ; GETDRIVEPARMS: Calculate start of some disk areas. ; mov si, word [nHidden] mov di, word [nHidden+2] add si, word [bsResSectors] adc di, byte 0 ; DI:SI = first FAT sector mov word [fat_start], si mov word [fat_start+2], di mov al, [bsFATs] cbw mul word [sectPerFat] ; DX:AX = total number of FAT sectors add si, ax adc di, dx ; DI:SI = first root directory sector push di ; mov word [root_dir_start+2], di push si ; mov word [root_dir_start], si ; Calculate how many sectors the root directory occupies. mov bx, [bsBytesPerSec] mov cl, 5 ; divide BX by 32 shr bx, cl ; BX = directory entries per sector mov ax, [bsRootDirEnts] xor dx, dx div bx ; set AX = sectors per root directory push ax ; mov word [RootDirSecs], ax add si, ax adc di, byte 0 ; DI:SI = first data sector mov [data_start], si mov [data_start+2], di ; FINDFILE: Searches for the file in the root directory. ; ; Returns: ; AX = first cluster of file ; First, read the root directory into buffer. ; into the temporary buffer. (max 29KB or overruns stuff) pop di ; mov di, word [RootDirSecs] pop ax ; mov ax, word [root_dir_start] pop dx ; mov dx, word [root_dir_start+2] lea bx, [ROOTDIR] ; es:bx = 0:0500 push es ; save pointer to ROOTDIR call readDisk pop es ; restore pointer to ROOTDIR lea si, [ROOTDIR] ; ds:si = 0:0500 ; Search for kernel file name, and find start cluster. next_entry: mov cx, 11 mov di, filename push si repe cmpsb pop si mov ax, [si+0x1A]; get cluster number from directory entry je ffDone add si, byte 0x20 ; go to next directory entry jc near boot_error ; fail if not found and si wraps cmp byte [si], 0 ; if the first byte of the name is 0, jnz next_entry ; there are no more files in the directory ffDone: push ax ; store first cluster number %ifdef SETROOTDIR ; copy over this portion of root dir to 0x0:500 for PC-DOS ; (this may allow IBMBIO.COM to start in any directory entry) lea di, [ROOTDIR] ; es:di = 0:0500 mov cx, 0x100 rep movsw %endif ; GETFATCHAIN: ; ; Reads the FAT chain and stores it in a temporary buffer in the first ; 64 kb. The FAT chain is stored an array of 16-bit cluster numbers, ; ending with 0. ; ; The file must fit in conventional memory, so it can't be larger than ; 640 kb. The sector size must be at least 512 bytes, so the FAT chain ; can't be larger than 2.5 KB (655360 / 512 * 2 = 2560). ; ; Call with: AX = first cluster in chain ; Load the complete FAT into memory. The FAT can't be larger ; than 128 kb lea bx, [FATBUF] ; es:bx = 0:0700 mov di, [sectPerFat] mov ax, word [fat_start] mov dx, word [fat_start+2] call readDisk ; Set ES:DI to the temporary storage for the FAT chain. push ds pop es lea di, [CLUSTLIST] ; Set DS:0 to FAT data we loaded mov ax, LOADSEG mov ds, ax ; ds:0 = 0x70:0 = 0:FATBUF pop ax ; restore first cluster number push ds ; store LOADSEG next_clust: stosw ; store cluster number mov si, ax ; SI = cluster number %ifdef ISFAT12 ; This is a FAT-12 disk. fat_12: add si, si ; multiply cluster number by 3... add si, ax shr si, 1 ; ...and divide by 2 lodsw ; If the cluster number was even, the cluster value is now in ; bits 0-11 of AX. If the cluster number was odd, the cluster ; value is in bits 4-15, and must be shifted right 4 bits. If ; the number was odd, CF was set in the last shift instruction. jnc fat_even mov cl, 4 shr ax, cl fat_even: and ah, 0x0f ; mask off the highest 4 bits cmp ax, 0x0ff8 ; check for EOF jb next_clust ; continue if not EOF %endif %ifdef ISFAT16 ; This is a FAT-16 disk. The maximal size of a 16-bit FAT ; is 128 kb, so it may not fit within a single 64 kb segment. fat_16: mov dx, LOADSEG add si, si ; multiply cluster number by two jnc first_half ; if overflow... add dh, 0x10 ; ...add 64 kb to segment value first_half: mov ds, dx ; DS:SI = pointer to next cluster lodsw ; AX = next cluster cmp ax, 0xfff8 ; >= FFF8 = 16-bit EOF jb next_clust ; continue if not EOF %endif finished: ; Mark end of FAT chain with 0, so we have a single ; EOF marker for both FAT-12 and FAT-16 systems. xor ax, ax stosw push cs pop ds ; loadFile: Loads the file into memory, one cluster at a time. pop es ; set ES:BX to load address 70:0 xor bx, bx lea si, [CLUSTLIST] ; set DS:SI to the FAT chain cluster_next: lodsw ; AX = next cluster to read or ax, ax ; EOF? jne load_next ; no, continue ; dl set to drive by readDisk mov ch, [bsMedia] ; ch set to media id mov ax, [data_start+2] ; ax:bx set to 1st data sector mov bx, [data_start] ; jmp LOADSEG:0000 ; yes, pass control to kernel load_next: dec ax ; cluster numbers start with 2 dec ax mov di, word [bsSecPerClust] and di, 0xff ; DI = sectors per cluster mul di add ax, [data_start] adc dx, [data_start+2] ; DX:AX = first sector to read call readDisk jmp short cluster_next ; shows text after the call to this function. show: pop si lodsb ; get character push si ; stack up potential return address mov ah,0x0E ; show character int 0x10 ; via "TTY" mode cmp al,'.' ; end of string? jne show ; until done ret ; failed to boot boot_error: %ifdef LOOPONERR jmp boot_error %else call show ; db "Error! Hit a key to reboot." db "Err." xor ah,ah int 0x13 ; reset floppy int 0x16 ; wait for a key int 0x19 ; reboot the machine %endif ; readDisk: Reads a number of sectors into memory. ; ; Call with: DX:AX = 32-bit DOS sector number ; DI = number of sectors to read ; ES:BX = destination buffer ; ; Returns: CF set on error ; ES:BX points one byte after the last byte read. ; Exits early if LBA_SEG == LOADEND. readDisk: push si ; preserve cluster # mov LBA_SECTOR_0,ax mov LBA_SECTOR_16,dx mov word [LBA_SEG], es mov word [LBA_OFF], bx call show db "." read_next: ; initialize constants mov LBA_SIZE, 10h ; LBA packet is 16 bytes mov LBA_SECNUM,1 ; reset LBA count if error ; limit kernel loading to 29KB, preventing stack & boot sector being overwritten cmp word [LBA_SEG], LOADEND ; skip reading if past the end je read_skip ; of kernel file buffer ;******************** LBA_READ ******************************* ; check for LBA support %ifdef TRYLBAREAD mov ah,041h ; mov bx,055aah ; mov dl, [drive] ; BIOS drive, 0=A:, 80=C: test dl,dl ; don't use LBA addressing on A: jz read_normal_BIOS ; might be a (buggy) ; CDROM-BOOT floppy emulation int 0x13 jc read_normal_BIOS shr cx,1 ; CX must have 1 bit set sbb bx,0aa55h - 1 ; tests for carry (from shr) too! jne read_normal_BIOS ; OK, drive seems to support LBA addressing lea si,[LBA_PACKET] ; setup LBA disk block mov LBA_SECTOR_32,bx ; bx is 0 if extended 13h mode supported mov LBA_SECTOR_48,bx mov ah,042h jmp short do_int13_read %endif read_normal_BIOS: ;******************** END OF LBA_READ ************************ mov cx, LBA_SECTOR_0 mov dx, LBA_SECTOR_16 ; ; translate sector number to BIOS parameters ; ; ; abs = sector offset in track ; + head * sectPerTrack offset in cylinder ; + track * sectPerTrack * nHeads offset in platter ; mov al, [sectPerTrack] mul byte [nHeads] xchg ax, cx ; cx = nHeads * sectPerTrack <= 255*63 ; dx:ax = abs div cx ; ax = track, dx = sector + head * sectPertrack xchg ax, dx ; dx = track, ax = sector + head * sectPertrack div byte [sectPerTrack] ; dx = track, al = head, ah = sector mov cx, dx ; cx = track, al = head, ah = sector ; the following manipulations are necessary in order to ; properly place parameters into registers. ; ch = cylinder number low 8 bits ; cl = 7-6: cylinder high two bits ; 5-0: sector mov dh, al ; save head into dh for bios xchg ch, cl ; set cyl no low 8 bits ror cl, 1 ; move track high bits into ror cl, 1 ; bits 7-6 (assumes top = 0) or cl, ah ; merge sector into cylinder inc cx ; make sector 1-based (1-63) les bx,[LBA_OFF] mov ax, 0x0201 do_int13_read: mov dl, [drive] int 0x13 read_finished: %ifdef RETRYALWAYS jnc read_ok ; jump if no error xor ah, ah ; else, reset floppy int 0x13 read_next_chained: jmp short read_next ; read the same sector again %else jc boot_error ; exit on error %endif read_ok: mov ax, word [bsBytesPerSec] shr ax, 4 ; adjust segment pointer by increasing add word [LBA_SEG], ax ; by paragraphs read in (per sector) add LBA_SECTOR_0, byte 1 adc LBA_SECTOR_16, byte 0 ; DX:AX = next sector to read dec di ; if there is anything left to read, %ifdef RETRYALWAYS jnz read_next_chained ; continue %else jnz read_next ; continue %endif read_skip: mov es, word [LBA_SEG] ; load adjusted segment value ; clear carry: unnecessary since adc clears it pop si ret times 0x01f1-$+$$ db 0 %ifdef MSCOMPAT filename db "IO SYS" %else filename db "IBMBIO COM" %endif db 0,0 sign dw 0xAA55