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When running the following, it keeps printing the same memory address.

#include <stdio.h>

int array[5] = {2, 4, 6, 8, 10};
int *pointer;

int main()
        pointer = array;
        printf("%p:\t%d\n", pointer, *pointer);
        return 0;

I don't know whether this is a problem, but I'm still curious to know why this would be the case, when declaring it within main() would keep returning new addresses.

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"an integer pointer would keep returning new addresses" - pointer is an integer pointer, isn't it? Or do you mean something other than pointer-to-int when you say "an integer pointer"? – Steve Jessop Dec 4 '12 at 11:54
I meant not pointing to an array, but that was before I realised it was because it was global. – James Jenkinson Dec 4 '12 at 13:30
up vote 0 down vote accepted

The reason why you normally get the same address for "array" in the code you posted, but get different addresses if you declare array inside main, is that the array outside main has global scope and so is allocated in a single fixed location, whereas array if declared inside main is allocated on the stack when main is entered (and could conceivably be allocated several times if you called main from elsewhere).

The security feature of randomizing addresses that is described in other answers applies to the stack, not to variables with static duration, because common exploits work by overwriting the stack with hostile code, then jumping to it by overwriting a return address, which is also stored on the stack. Overwriting a non-stack variable with hostile code still leaves the attacker the problem of executing it, and so is a lesser security concern.

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Purely, a coincedence.
You cannot rely on the address to be same in different runs.

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Good work.. Well I understood the question only after seeing this answer.. I never knew he was saying about different runs.. – Krishnabhadra Dec 4 '12 at 9:57
I don't think it is, it has something to do with being declared globally, when the array and pointer are declared within the main function it's new every time, globally it's always 0x804a014. – James Jenkinson Dec 4 '12 at 10:11
@JamesJenkinson: No, nothing is guaranteed. – Alok Save Dec 4 '12 at 10:19
I did while [ "$i" -lt 100000 ];do ./test;i= `expr $i + 1`;done>run1.dump. It was the same each time (0x80496b8). May or not be relevant: It is the virtual address. I posted this as answer by mistake. I should get some sleep now :p . – axiom Dec 4 '12 at 10:20
@axiom: If you mark my words, they said nothing is guaranteed, which is not same as not possible. An observable behavior does not make it gauranteed behavior. – Alok Save Dec 4 '12 at 10:36

Note that on most modern desktop (and server, of course) operating systems, addresses handled by processes are virtual. This means that when the OS loads the program to run in your process, it sets up a mapping between the physical pages of RAM and the virtual pages that the process "sees".

This mapping seems to be the same for you every time you run the program, but that's strictly a coincidence. The operating system could just as well apply randomization, or any other method that makes the mapping vary.

Note that because of the virtual addresses, it's perfectly possible for any number of your programs to run at the same time (in parallel) and still see the exact same address for the array.

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Why then is it random if its declared within main, and constant when it's global? Just trying to understand what's going on here. – James Jenkinson Dec 4 '12 at 13:27

This question was a subject of much debate and has a long history.

Originally, when programs ran in physical memory, addresses of things used to depend on what was in the memory before execution.

Later on and with modern CPUs, each process would get its own address space so there is no diversity.

Then, came security people and said that deliberate randomization of program start address and code location would prevent a range of security attacks. Some of them were lynched by a mob of software engineers who said that improving consistency is important to do more useful software testing. Yet, some compilers (e.g. Visual Studio 2010) would do the randomization of code location by default.

It is still not possible and less needed for the data, in most cases. This is why you are getting the same result.

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