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I tried to make a bootloader the last few days and you can see the result by clicking the link below.

Now I have two questions:

  1. In line 43 I have to use a jump with an absolute adress, but I want to use the values of ES and BX. So I tried the two alternatives you can see in the comments but they did not work for me. What am I doing wrong?

  2. I am quite new to low-level programming. Are there some major or minor mistakes in my code? Are there code style conventions I did not consider?

I do not want to format the code, so here is the link to the asm file and you can read it with your favourite editor: https://www.dropbox.com/s/i3jpprf66nlmzz2/mybootloader.asm?m

Thanks a lot.

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1  
Your second question should be posted to codereview.stackexchange.com –  Tony The Lion Mar 6 '13 at 12:51
2  
2. I think using loop as a label is not a good idea, because loop is a x86 instruction and so it may cause confusion. –  nrz Mar 6 '13 at 12:58

2 Answers 2

jmp 09C0h:0000h

and

push ES
push BX
retf

should work equally well (provided, of course, ES=9C0h and BX=0 in the latter case).

And jmp ES:BX is not a valid instruction, or, at least, it's not going to do what you might be expecting from it.

Possible problems:

  • 9C0h:0 is the wrong address
  • you don't have the expected code at 9C0h:0 (the read has failed or you asked the BIOS to store the read data at a different location)
  • the code at 9C0h:0 was not compiled to begin its execution at offset 0 (remember that x86 machine code is generally not position-independent)
  • something else, perhaps a code/data corruption or uninitialized variable/register
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Sorry I forgot to mention: The second stage code that is loaded is located at the end of file! And the jump with absolute adressing works perfectly, but the retf alternative doesn't So I think they're not equal –  brauni Mar 6 '13 at 22:21
    
You may think anything, but I've used the retf method many times and it worked. You have a bug or several somewhere. –  Alexey Frunze Mar 6 '13 at 22:26
    
Okay I believe you. But where is this bug? I can´t find it =( –  brauni Mar 7 '13 at 0:19
    
There's one odd thing I'm seeing. You seem to be treating segment values as offset values, you add offset values to segment values directly (this shows up in the calculation of STACKSEG and in add BX, 512). I'm not yet sure that that causes the problem, but it's definitely not the right thing to do. Read up on segments and offsets and how a pair of them transforms into a physical address. That may help. –  Alexey Frunze Mar 7 '13 at 0:54
up vote 0 down vote accepted

I found the bug. A very silly mistake: The BX register was overwritten by the _printstring function bevor the interrupt was triggered. I fixed it and now the jump does exactly work like described by Alexey Frunze - thank you:

push ES

push BX

retf

Moreover I´ve made a mistake in segment adressing (also thanks to Alexey Frunze): I wanted to load the second stage right after the 512 byte long first stage. So referring to segment/offset adressing (physical adress = 16*segment + offset) I have to add 512/16 = 32 = 20H to 07C0. So the values have to be: ES = 07E0H and BX = 0000H

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