my bootloader consists of two 512 byte stages. stage 1 gets loaded by the bios into the MBR area. stage1 then proceeds to load stage2 from the drive and jumps to it.

i confirmed with a hex editor that the size of final binary "program.bin" is exactly 1024 byte long and contains both "signatures" (last two bytes of each stage, 0xAA55 for stage1 (MBR signature) and 0xCC77 for stage2).

expected outputs are:

1 // stage1 started
0000 or 0080 // drive# in hex
CC77 // stage2 "signature" in hex
2 // stage2 started

this works fine in QEMU but fails in virtualbox and on hardware. it looks to me like the stage2 load fails silently (error branch doesn't get called) and i am looking to solve this for two weeks now without success.

QEMU output
QEMU output

Hardware & Virtual Box output
VBox output


global _start
extern _stage2
extern _stage2data


; init registers
    xor ax, ax
    mov es, ax
    mov gs, ax
    mov ss, ax
    mov sp, 0x7C00      ; right before MBR, counting upwards

    mov ax, 0x7C0       ; set DS to 0x7c0 so pointing at 0x0 resolves to 0x7C0:x0000 = 0x7C00
    mov ds, ax

    cld                 ; set direction flag to make string operations count forward

 ; mark start of stage 1 by printing "1"
    mov al, '1'
    call real_mode_print_char
    call real_mode_new_line

; drive# is put into DL by BIOS
    mov dh, 0x0
    mov bx, dx
    call real_mode_print_hex

    mov  al, 0x01           ; load 1 sector
    mov  bx, 0x7E00         ; destination, right after your bootloader
    mov  cx, 0x0002         ; cylinder 0, sector 2
    ; mov  dl, [BootDrv]      ; boot drive
    xor  dh, dh             ; head 0
    call read_sectors_16
    jnc execute_stage2           ; if carry flag is set, disk read failed
    jmp error

    mov bx, [_stage2data]       ; print data at _stage2data to confirm stage 2 was loaded
    call real_mode_print_hex

    jmp _stage2                 ; start execude instructions of _stage2

; print "E" if an error occurs
    mov al, 'E'
    call real_mode_print_char

; infinite loop
    jmp loop

; read_sectors_16
; Reads sectors from disk into memory using BIOS services
; input:    dl      = drive
;           ch      = cylinder[7:0]
;           cl[7:6] = cylinder[9:8]
;           dh      = head
;           cl[5:0] = sector (1-63)
;           es:bx  -> destination
;           al      = number of sectors
; output:   cf (0 = success, 1 = failure)

    push ax
    mov si, 0x02    ; maximum attempts - 1
    mov ah, 0x02    ; read sectors into memory (int 0x13, ah = 0x02)
    int 0x13
    jnc .end        ; exit if read succeeded
    dec si          ; decrement remaining attempts
    jc  .end        ; exit if maximum attempts exceeded
    xor ah, ah      ; reset disk system (int 0x13, ah = 0x00)
    int 0x13
    jnc .top        ; retry if reset succeeded, otherwise exit
    pop ax

# print a number in hex
# IN
#   bx: the number
#   al, cx
    mov cx, 4
    mov al, bh
    shr al, 4

    cmp al, 0xA
    jb .below_0xA

    add al, 'A' - 0xA - '0'
    add al, '0'

    call real_mode_print_char

    shl bx, 4
    loop .lp

    call real_mode_new_line


    mov al, 0x0D
    call real_mode_print_char
    mov al, 0x0A
    call real_mode_print_char

    push bx
    xor bx, bx              ; Attribute=0/Current Video Page=0
    mov ah, 0x0e
    int 0x10                ; Display character
    pop bx

; boot signature
TIMES 510-($-$$) db 0

dw 0xAA55


global _stage2
global _stage2data


    mov al, '2'
    call bios_print_char

    jmp loop

    push bx
    xor bx, bx              ; Attribute=0/Current Video Page=0
    mov ah, 0x0e
    int 0x10                ; Display character
    pop bx

; boot signature
TIMES 510-($-$$) db 0
dw 0xCC77

linker script "linker.ld":


  output :

i use the following commands to compile and link everything together:

nasm -f elf64 stage1.asm -o stage1.elf
nasm -f elf64 stage2.asm -o stage2.elf
ld -m elf_x86_64 -o program.bin stage2.elf stage1.elf -nostdlib -T linker.ld

i run the binary on QEMU with:

qemu-system-x86_64 -drive format=raw,file=program.bin

to run it on hardware i write the binary to a USB with:

dd if=program.bin of=/dev/sdb1 && sync
  • 1
    You may need to add a BPB. See this answer
    – Jester
    Jun 20, 2020 at 11:20
  • added a BPB section like it is descriped in the link and confirmed with hex editor that it was actually written to the binary -> same outcome, still not working
    – Oachkatzl
    Jun 20, 2020 at 11:45
  • 1
    @MichaelPetch this solved it! thank you so much for this and also for all of the other great posts you made regarding bootloaders, i learned a lot from them!
    – Oachkatzl
    Jun 20, 2020 at 12:59

1 Answer 1


Your bootloader actually looks pretty good. As @jester pointed out on real hardware if you are booting USB using Floppy Disk Emulation (FDD) then you will most likely need a BPB. There are indications in your screenshot that you are booting USB as Hard Disk Emulation (HDD) since the drive number appears to be 0x0080. If that is the case a BPB isn't necessary.

When using USB HDD emulation you may need a partition table with one partition marked active/bootable for some BIOSes to recognize the drive as bootable. Without it some BIOSes may refuse to recognize the drive as something it should boot even if it has the proper disk signature (0xaa55) in the last 2 bytes.

I believe the real problem lies in how you are writing to the USB drive. You are using:

dd if=program.bin of=/dev/sdb1 && sync 

/dev/sdb1 is actually the first partition, not the beginning of the drive. What it appears you want is to write to the beginning of the drive with:

dd if=program.bin of=/dev/sdb && sync

You may ask: how is it that the bootloader you wrote was actually running if it wasn't written to the beginning of the drive? My suspicion is that your USB drive was formatted with a Master Boot Record (MBR) that chain loaded the Volume Boot Record (VBR) bootloader in partition 1 and then started executing it. Such a chainloading MBR is very possible if the USB stick was formatted and partitioned in Windows. Windows usually formats USB as one large partition and places an MBR in the first sector of the drive that chain loads the VBR from the first sector of the first partition.

Other Observations

Since you appear to be booting everything as Hard Disk media, you may wish to consider using the Extended disk function like Int 13h/AH=42h rather than Int 13h/AH=2h. Int 13/AH=2 is very limited in what it can load with CHS addressing rather than LBA addressing when dealing with larger media (usually greater than about 8GiB).

  • I'd be curious about the downvote. Was there something I may have got wrong? If so I am more than happy to adjust the answer. Jun 20, 2020 at 13:20
  • 1
    for sure not my downvote. regarding the INT13h/AH42h: i was using it before but as i got more and more desperate i switched to the "legacy" version to rule out a mistake there.
    – Oachkatzl
    Jun 20, 2020 at 14:04

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.