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I am using NASM on linux to write a basic assembly program that calls a function from the C libraries (printf). Unfortunately, I am incurring a segmentation fault while doing so. Commenting out the call to printf allows the program to run without error.

; Build using these commands:
;   nasm -f elf64 -g -F stabs <filename>.asm 
;   gcc <filename>.o -o <filename>

SECTION .bss    ; Section containing uninitialized data

SECTION .data   ; Section containing initialized data

  text db "hello world",10 ; 

SECTION .text   ; Section containing code

global main

extern printf



      push rbp

      mov rbp,rsp

      push rbx

      push rsi

      push rdi ;preserve registers


      ;code i wish to execute

      push text ;pushing address of text on to the stack
      ;x86-64 uses registers for first 6 args, thus should have been:
      ;mov rdi,text (place address of text in rdi)
      ;mov rax,0 (place a terminating byte at end of rdi)

      call printf ;calling printf from c-libraries

      add rsp,8 ;reseting the stack to pre "push text"


      pop rdi ;preserve registers

      pop rsi

      pop rbx

      mov rsp,rbp

      pop rbp

share|improve this question
What is the calling convention for library functions, again? My guess is that you used the wrong one. – Jan Dvorak Mar 22 '13 at 16:46
In the book I am reading (which covers 32 bit assembly, not 64 bit), it simply says to push address of the string, call the function, clean the stack pointer. I thought text would be the only argument needed since printf searches a null byte to terminate. – user2177208 Mar 22 '13 at 16:56
The text string must end with a 0 byte! If it doesn't, how will printf() know where it ends? – Alexey Frunze Mar 22 '13 at 17:00
Woops. Thanks Alexey. I forgot to include that in the posted code. – user2177208 Mar 22 '13 at 17:03
I don't think you should fix bugs in the code posted in the question. This one, for example, is one possible reason for crashes. Does the code still crash after this fix? – Alexey Frunze Mar 22 '13 at 17:05

3 Answers 3

x86_64 does not use the stack for the first 6 args. You need to load them in the proper registers. Those are:

rdi, rsi, rdx, rcx, r8, r9

The trick I use to remember the first two is to imagine the function is memcpy implemented as rep movsb,

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Thank you. My book is on 32 bit assembly which does place the arguments on the stack. – user2177208 Mar 22 '13 at 17:15
In addition, since printf is a varargs function, you need to set %al to the number of XMM registers used for arguments -- 0 here. – Chris Dodd Mar 22 '13 at 17:57

You're calling a varargs function -- printf expects a variable number of arguments and you have to account for that in the argument stack. See here:

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You need to be familiar with the calling conventions in use. Linux on AMD64 uses the System V AMD64 ABI. From that document we learn that:

  • integer arguments are passed in rdi, rsi, rdx, rcx, r8 and r9
  • floats are passed in xmm0 to xmm7
  • for varargs functions the number of SSE registers used is put in rax

So for the call

printf ("Hello World\n");

You have

.section .data
format db "Hello World", 10, 0

.section .text
mov rdi, format
mov rax, 0
call printf
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