我正在尝试使用BIOS中断13h从我的fat12引导程序加载来自[head = 0,cilinder(track)= 1,sector = 1]的扇区号。
我使用子程序read_sectors读取扇区并将其加载到es:bx。
此代码适用于第一首曲目的任何扇区,但它从其他曲目的任何扇区只读取0,而这些扇区实际上是填充的。例如,对于扇区18,cx是0x0041,这是正确的。问题是,中断设置CF,说有错误。它还将ah(返回码)设置为1,将al(扇区读取)设置为1。
这是完整的bootloader .asm文件
bits 16
org 0
start: jmp load
nop
OEM: DB "ptiaOS "
bytesPerSector: DW 512
sectorsPerCluster: DB 1
reservedSectors: DW 1
numberOfFATs: DB 2
rootEntries: DW 224
totalSectors: DW 2880
media: DB 0xf8
sectorsPerFAT: DW 9
sectorsPerTrack: DW 18
headsPerCylinder: DW 2
hiddenSectors: DD 0
totalSectorsBig: DD 0
driveNumber: DB 0
unused: DB 0
extBootSignature: DB 0x29
serialNumber: DD 0xa0a1a2a3
volumeLabel: DB "PTIAOS FLP "
fileSystem: DB "FAT12 "
load:
;The bootloader is loaded at the address 0x7C00 and is 0x200 (512) bytes long
cli
mov ax, 0x07C0 ; setup registers to point to our segment
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
sti
mov si, hello_string
call prints
mov si, try_string
call prints
mov ax, 18
call lba_to_chs
mov al, 2
mov bx, 0x200
call read_sectors
mov si, success_string
call prints
mov si, 0x200
call prints
cli
hlt ;halt
;--------DATA--------
hello_string db `Hi, bootloader of ptiaOS here\n\r`, 0
success_string db `Successfully loaded from floppy\n\r`, 0
try_string db `Loading more data from floppy...\n\r`, 0
;CHS position of the sector to read
sector_number db 0 ;1 is the first (they're 18 per track)
cilinder_number db 0 ;track number: 0 is the first (they're 80 per side)
head_number db 0 ;0 is the first (the're 2)
;---SOTTOPROGRAMMI---
;print a 0-terminated string pointed by ds:si
prints:
mov ah, 0x0E ;dico all'interrupt del BIOS video di eseguire la funzione di stampa [al: carattere, bh: pagina]
.prints_printchar:
lodsb ;al = *(si++)
cmp al, 0
je .prints_end ;if(al == 0) goto print_string_end
int 0x10 ;chiamo l'interrupt di i/o dello schermo, con ah = 0x0E per stampare il carattere in al
jmp .prints_printchar
.prints_end:
ret
;Read sectors from floppy at the address specified by CHS variables, and load them in es:bx
read_sectors:
mov ah, 0x02 ;function 0x02, interrupt 0x13: read sectors
;al (the number of sectors to read), es:bx (destination) are set as arguments
xor cx, cx
mov cl, [cylinder_number]
shl cl, 6
or cl, [sector_number]
mov dh, [head_number]
mov dl, 0
int 0x13
jnc .sectors_read_successfully ;CF = 0 if no errors, 1 otherwise
;if errors occured, try to reset floppy
.flp_reset:
mov ah, 0 ;function 0, interrupt 0x13: reset disk
mov dl, 0 ;disk to reset: 0=floppy
int 0x13
jc .flp_reset ;CF = 0 if no errors, 1 otherwise
jmp read_sectors
.sectors_read_successfully:
ret
lba_to_chs:
mov cx, ax
mov bl, [sectorsPerTrack]
div bl
inc ah ;ah = lba % 18 + 1
mov byte [sector_number], ah
mov ax, cx
mov bl, [sectorsPerTrack]
div bl ;al = lba / 18
cbw ;ax = lba / 18
mov bl, [headsPerCylinder]
div bl ;al = lba / 18 / 2; ah = lba / 18 % 2
mov byte [cilinder_number], ah
mov byte [head_number], al
ret
times 510-($-$$) db 0
dw 0xAA55
我在qemu上运行此代码,来自Ubuntu,并使用
进行编译nasm -f bin -o ptiaos.bin ptiaboot.asm
nasm -f bin -o BSTAGE2.SYS blstage2.asm
mkdir floppy
dd status=noxfer conv=notrunc if=ptiaos.bin of=ptiaos.flp
sudo mount -o loop ptiaos.flp floppy
sudo cp BSTAGE2.SYS floppy
sleep 0.1
sudo umount floppy
rm BSTAGE2.SYS
rm ptiaos.bin
rmdir floppy
答案 0 :(得分:2)
我会建议修复,但有一个假设。似乎 lba_to_chs 设计用于较小的磁盘大小,其中柱面数量不超过0xff(255)。这对于传统的软盘大小来说很好,因为气缸的数量通常比这少得多。
首先,此代码中存在一个错误:
mov ax, cx
mov bl, [sectorsPerTrack]
div bl ;al = lba / 18
cbw ;ax = lba / 18
mov bl, [headsPerCylinder]
div bl ;al = lba / 18 / 2; ah = lba / 18 % 2
mov byte [cilinder_number], ah
mov byte [head_number], al
在最后一个分区中, AL 应包含柱面编号, AH 应包含头编号。在你的代码中,你已经扭转了这些。最后两行应该是:
mov byte [cilinder_number], al
mov byte [head_number], ah
假设有关气瓶不超过255的假设,可以稍微修改 read_sector 代码。 INT 13h AH=02h要求以这种方式将柱面编号和扇区编号放在 CX 中:
CX = ---CH--- ---CL--- cylinder : 76543210 98 sector : 543210
他们也为位操作提供了这个等式:
CX:=((柱面和255)shl 8)或((柱面和768)shr 2)或扇区;
由于我们的气瓶不会超过255,因此等式降低到:
CX:=((柱面和255)shl 8)或扇区;
这与简单地将气缸存储在 CH 和 CL 中的扇区相同。因此,用于设置 CX ( CL 和 CH )的代码显示为:
mov ah, 0x02 ;function 0x02, interrupt 0x13: read sectors
;al (the number of sectors to read), es:bx (destination) are set as arguments
xor cx, cx
mov cl, [cylinder_number]
shl cl, 6
or cl, [sector_number]
mov dh, [head_number]
mov dl, 0
int 0x13
看起来像:
mov ah, 0x02 ;function 0x02, interrupt 0x13: read sectors
;al (the number of sectors to read), es:bx (destination) are set as arguments mov ch, [cilinder_number]
mov ch, [cilinder_number]
mov cl, [sector_number]
mov dl, 0
mov dh, [head_number]
int 0x13
上面的代码有另一个缺陷,那就是 DL 寄存器被设置为0.这是从中读取扇区的驱动器号。这应设置为当BIOS跳转到内存地址0x07c00时,BIOS在 DL 中传递到引导加载程序的驱动器号。我们应该在启动时保存该值,然后在读取扇区时将其复制到 DL 。这允许我们从可能不是第一个启动软盘(磁盘号0x00)的驱动器启动。
可以通过在数据区域添加 boot_drive 变量来修改代码:
boot_drive db 0
初始化段寄存器后,保存传递给引导加载程序的 DL (引导驱动器):
mov [boot_drive], dl
然后在 load_sector 中更改:
mov dl, 0
为:
mov dl, [boot_drive]
上述所有建议的修复和更改后的最终代码可能类似于:
bits 16
org 0
GLOBAL main
main:
start: jmp load
nop
OEM: DB "ptiaOS "
bytesPerSector: DW 512
sectorsPerCluster: DB 1
reservedSectors: DW 1
numberOfFATs: DB 2
rootEntries: DW 224
totalSectors: DW 2880
media: DB 0xf8
sectorsPerFAT: DW 9
sectorsPerTrack: DW 18
headsPerCylinder: DW 2
hiddenSectors: DD 0
totalSectorsBig: DD 0
driveNumber: DB 0
unused: DB 0
extBootSignature: DB 0x29
serialNumber: DD 0xa0a1a2a3
volumeLabel: DB "PTIAOS FLP "
fileSystem: DB "FAT12 "
load:
;The bootloader is loaded at the address 0x7C00 and is 0x200 (512) bytes long
cli
mov ax, 0x07C0 ; setup registers to point to our segment
mov ds, ax
mov es, ax
mov fs, ax
mov gs, ax
sti
mov [boot_drive], dl
mov si, hello_string
call prints
mov si, try_string
call prints
mov ax, 18
call lba_to_chs
mov al, 1
mov bx, 0x200
call read_sectors
mov si, success_string
call prints
mov si, 0x200
call prints
cli
hlt ;halt
;--------DATA--------
boot_drive db 0
hello_string db `Hi, bootloader of ptiaOS here\n\r`, 0
success_string db `Successfully loaded from floppy\n\r`, 0
try_string db `Loading more data from floppy...\n\r`, 0
;CHS position of the sector to read
sector_number db 0 ;1 is the first (they're 18 per track)
cilinder_number db 0 ;track number: 0 is the first (they're 80 per side)
head_number db 0 ;0 is the first (the're 2)
;---SOTTOPROGRAMMI---
;print a 0-terminated string pointed by ds:si
prints:
mov ah, 0x0E ;dico all'interrupt del BIOS video di eseguire la funzione di stampa [al: carattere, bh: pagina]
.prints_printchar:
lodsb ;al = *(si++)
cmp al, 0
je .prints_end ;if(al == 0) goto print_string_end
int 0x10 ;chiamo l'interrupt di i/o dello schermo, con ah = 0x0E per stampare il carattere in al
jmp .prints_printchar
.prints_end:
ret
;Read sectors from floppy at the address specified by CHS variables, and load them in es:bx
read_sectors:
mov ah, 0x02 ;function 0x02, interrupt 0x13: read sectors
;al (the number of sectors to read), es:bx (destination) are set as arguments mov ch, [cilinder_number]
mov ch, [cilinder_number]
mov cl, [sector_number]
mov dl, [boot_drive]
mov dh, [head_number]
int 0x13
jnc .sectors_read_successfully ;CF = 0 if no errors, 1 otherwise
;if errors occured, try to reset floppy
.flp_reset:
mov ah, 0 ;function 0, interrupt 0x13: reset disk
mov dl, 0 ;disk to reset: 0=floppy
int 0x13
jc .flp_reset ;CF = 0 if no errors, 1 otherwise
jmp read_sectors
.sectors_read_successfully:
ret
lba_to_chs:
mov cx, ax
mov bl, [sectorsPerTrack]
div bl
inc ah ;ah = lba % 18 + 1
mov byte [sector_number], ah
mov ax, cx
mov bl, [sectorsPerTrack]
div bl ;al = lba / 18
cbw ;ax = lba / 18
mov bl, [headsPerCylinder]
div bl ;al = lba / 18 / 2; ah = lba / 18 % 2
mov byte [cilinder_number], al
mov byte [head_number], ah
ret
times 510-($-$$) db 0
dw 0xAA55