I'm trying to figure out why the address of a static uint64_t arr[] changes when it's defined in the global scope inside the main executable. It changes from 0x201060 (defined by the linker?) to 0x555555755060 at runtime, and I have no idea why.

Why does this happen, and is there a way I can prevent this behavior?

I have a precompiled binary that does not exhibit this behavior, and I am trying to emulate it.

$ gdb a.out   # compiled from test.c
GNU gdb (GDB) 8.0.1...
Reading symbols from a.out...done.
(gdb) x/x arr
0x201060 <arr>: 0x00000024
(gdb) b main
Breakpoint 1 at 0x6e9: file test.c, line 116.
(gdb) run
Starting program: ... 
Breakpoint 1, main (argc=1, argv=0x7fffffffdb28) at test.c:116
116     if(argc != 2) {
(gdb) x/x arr
0x555555755060 <arr>:   0x00000024

test.c was compiled with the following options: -g -fno-stack-protector -z execstack.

I compiled and ran test.c without ASLR (sudo bash -c 'echo 0 > /proc/sys/kernel/randomize_va_space'), but the result was the same.

The relevant parts of test.c are:

#include <stdint.h>

extern int func(uint64_t[]);

static uint64_t arr[] = {
    0x00000024, 0x00201060,
    0x00201080, 0x00000000,
    0x00000008, 0x002010e0,
    0x002010a0, 0x00000000,
    0x00000032, 0x002010c0,
    0x00201100, 0x00000000

int main(int argc, char** argv) {
     return 0;
  • 1
    Why do you want to prevent this behavior? Jan 28 '18 at 0:23
  • 1
    This could be address space layout randomization. It could also be from being mapped to a virtual memory space at runtime Jan 28 '18 at 0:23
  • 1
    @chux yes. Virtual memory will deal with memory conflicts by mapping the addresses of each of the processes into two different areas in physical memory. Jan 28 '18 at 0:24
  • 2
    When you have trouble understanding how some code works, always create a Minimal, Complete, and Verifiable Example to show us. For example, what is arr? Jan 28 '18 at 0:25
  • 1
    Please post the output of gcc -###. Your compiler was probably built to generate PIE executables by default. Jan 28 '18 at 14:37

I figured it out :)

It turns out my gcc was outputting PIE executables by default, and passing -no-pie did what I needed. I made the array static in an attempt to keep the address the same, but I suppose that static only keeps the address the same during runtime.

Thank you to Mark Plotnick for your suggestion in the comments!

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