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Two part question.

I'm looking at bootloader assembly in combination with C.

1) Problem is that on call from assembly to linked C object everything stops. And hang.

Even a function that only return, does nothing, hangs. Where is the issue? Compiling, linking, code ...? I have had it trough GDB with less than great success.

2) Secondly I read that one are supposed to do a long jump to align memory due to some BIOS versions using backward addressing. But - how does one compile a file with long jump that also has .code16 or 16-bit mode set? Keep getting

 (.text+0x76): relocation truncated to fit: R_386_16 against `.text'

and the like. Have tried with both as and gcc using various flags etc. But no luck.

I notice e.g. GRUB does this, as do most, – mix .code16 and ljump and other operations as well as using 32bit registers.

The base of the core assembly file is:

    .file "core.s"
    .code16            /* 16 bit mode */

.globl _start, start;

    jmp POST_BPB
    .= _start + 0x64

    cli                     /* Disable interrupts. */

    xorw %ax,%ax
    movw %ax,%ds            /* Data Segment  */
    movw %ax,%ss            /* Stack Segment */     
    movw 0x7c00, %sp        /* Stack Pointer */

    sti                     /* OK */

    movb $0x21, %al        /* Print ! */
    movb $0x0e, %ah
    int  $0x10

    movb $0x22, %al        /* Print " */
    movb $0x0e, %ah
    int  $0x10

    /* --------------------------------------------------------- */    
    /* HERE: On this call everything goes in some eternal loop.  */

    call base_test

    /* --------------------------------------------------------- */

    movb $0x25, %al        /* Print $ */
    movb $0x0e, %ah
    int  $0x10

    . = _start + 0x1fe 

    .word   0xaa55        /* MBR Signature at offset 510 */

The C file uses the same print routine:


extern void base_test()
    "movb $0x23, %al\n\t"
    "movb $0x0e, %ah\n\t"
    "int  $0x10\n\t"

Built by (among other ways):

gcc -Wall -W -m32 -nostdinc -c base_test.c
as core.s -o core.o
ld -static -nostdlib --nmagic -o boot.elf core.o base_test.o
objcopy -O binary boot.elf boot.img

And run with:

 qemu-system-i386 boot.img


OK. Typically as one ask one find. To compile 16 bit code use following flags linker flags with gcc: -Wl,-Ttext,0x7C00. (0x7C00 is base magic in memory world.)

gcc -nostdlib -Wl,-Ttext,0x7C00 -o out.o in.s
share|improve this question
Disassemble your binary as 16-bit code (using ndisasm or whatever you can get). You'll probably see wrong or truncated addresses and/or instructions that aren't supposed to be there (or at least you wouldn't expect them to be there). –  Alexey Frunze Mar 31 '13 at 16:20
@AlexeyFrunze: Yes. Thanks. I've been looking at it, had a couple of hour sleep and fell on me that well ... hmm ... the linked object is not loaded into memory; so not strange it is nop. There is quite some action, - using gdb, but that is from qemu and not the boot I guess. –  Sukminder Mar 31 '13 at 20:13

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