So yeah, I am tinkering with assembly level programming...

Here is what I have so far.

global _start

section .text

    mov eax, 4      ; write
    mov ebx, 1      ; stdout
    mov ecx, msg
    mov edx, msg.len
    int 0x80        ; system call

    mov eax, 1      ; exit
    mov ebx, 0      ; exit code
    int 0x80        ; system call

section .data

    msg: db "Hello world!", 10  ; Defines the string "Hello world!\n"
    .len equ $-msg

How does the statement .len equ $-msg work? I understand this is the length of the string. I also know that equ is like #define in C. So this variable does not exist in memory, it is put in place by the assembler. (nasm)

What does the $ symbol do, and is that a subtraction occurring afterwards?

My output causes a segfault, I am hoping I will be able to fix this myself when I understand the .len equ $-msg syntax. I have fixed the fault, but still don't understand the $ notion.

EDIT Segfault caused by this being a malformed program. Fixed

  • Could you add your fix for the segmentation fault? – lurker Jul 25 '13 at 1:00
  • @mbratch Done! (: – user3728501 Jul 25 '13 at 1:09

$ represents the address of the current line. So the following:

.len  equ  $-msg

Means the current address minus the address of msg. That gives the length of the data stored between msg and .len (since the address of .len is represented by $). Thus, the symbol .len represents (equated to) that length value.

  • So the length must always be computed immediately after defining the string, on the next line? – user3728501 Jul 25 '13 at 1:10
  • Correct. Note that your tag says 64bit. What you've got there is 32-bit code. – Frank Kotler Jul 25 '13 at 1:25
  • @EdwardBird yes, in asm things are quite literal. If that were on a different line, with any instructions in between, then $ would be a different value (represent a different memory address) and then $-msg would not be the length of msg. – lurker Jul 25 '13 at 10:40
  • @FrankKotler How did you tell it was 32 bit code? What would the differences be, or was it simply because I used the 32 bit register? (And therefore intel-syntax using assemblers will infer the value to be 64 bit from the instruction operands, which in this case would be a 32 bit register, implying 32 bit value for .len ? – user3728501 Jul 25 '13 at 12:04
  • You used int 0x80, used 32-bit registers for parameters, used 32-bit system call numbers. 64-bit code uses syscall, different (64-bit) registers for parameters, and different system call numbers. Presumably, you used "-f elf64" to assemble this, which makes it 64-bit code (try push eax - it won't work in 64-bit code!). The old 32-bit int 0x80 interface still works (always? I dunno), so it's sort of a "mongrel" - I shouldn't have said "32-bit code" (unless you assembled it with "-f elf32"... or "-f elf" is an alias). 32-bit code has never heard of rax of course! – Frank Kotler Jul 26 '13 at 13:42

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