This code appears to have been compiled with
-fPIC. PIC stands for "position-independent code", meaning it can be loaded to any address and is still able to access it's global variables.
In this case
ebx is known as the PIC register, and it's used to point to the end of the GOT (the global offset table). The GOT has offsets (from the program's base address*) to each global variable being used.
Many times, the best way to learn about these kinds of things are to compile some code yourself, and look at the output. It especially makes it easier when you have your symbols to look at.
Let's do an experiment:
global = 4;
$ gcc -v
gcc version 5.3.1 20160406 (Red Hat 5.3.1-6) (GCC)
$ gcc -m32 -Wall -Werror -fPIC -o pic pic.c
$ readelf -S pic
[Nr] Name Type Addr Off Size ES Flg Lk Inf Al
 .text PROGBITS 080482f0 0002f0 000182 00 AX 0 0 16
 .rodata PROGBITS 08048488 000488 00000c 00 A 0 0 4
 .got PROGBITS 08049ffc 000ffc 000004 04 WA 0 0 4
 .got.plt PROGBITS 0804a000 001000 000014 04 WA 0 0 4
 .data PROGBITS 0804a014 001014 000004 00 WA 0 0 1
 .bss NOBITS 0804a018 001018 000008 00 WA 0 0 4
Disassemble (Intel syntax because AT&T drives me nuts)
$ objdump -Mintel -d --no-show-raw-insn pic
80483eb: push ebp
80483ec: mov ebp,esp
80483ee: call 804840b <__x86.get_pc_thunk.ax> ; EAX = EIP + 5
80483f3: add eax,0x1c0d ; EAX = 0x804a000 (.got.plt, end of .got)
80483f8: lea eax,[eax+0x1c] ; EAX = 0x804a01C (.bss + 4)
80483fe: mov DWORD PTR [eax],0x4 ; set `global` to 4
8048404: mov eax,0x0
8048409: pop ebp
804840b: mov eax,DWORD PTR [esp]
In this case, my GCC decided to use
eax as the PIC register instead of
Also, note that the compiler (GCC 5.3.1) did something interesting here. Instead of accessing the variable via the GOT, it essentially used the GOT as an "anchor", and instead offsetted directly to the variable in the
Back to your code:
movl %esp, %ebp
pushl %ebx ; because ebx is a callee-saved register
subl $0x14,%esp ; end of typical prologue
calll 0x08048766 ; __i686_get_pc_thunk_bx
; Gets the current value of EIP after this call into EBX.
; There is no other way to do this in x86 without a call
addl $0x1a5f, %ebx ; Add the displacement to the end of the GOT.
; This displacement of course changes depending on
; where the function is.
; EBX now points to the end of the GOT.
leal -0x17b7(%ebx), %eax ; EAX = EBX - 0x17b7
movl %eax, 0(%esp) ; Put EAX on stack (arg 0 to printf)
; EAX should point to some string
In your code also, it didn't actually "use" the GOT (otherwise we would see a second memory de-reference); it used it as an anchor to the string, probably in the read-only data section (
.rodata) which also came before the GOT.
If you look at the function at
0x08048766, you'll see it looks something like this:
mov (%esp),%eax ; Put return address (pushed onto stack by call insn)
; in eax
ret ; Return