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I am interposing the memcpy() function in C because the target application uses it to concatenate strings and I want to find out which strings are being created. The code is:

void * my_memcpy ( void * destination, const void * source, size_t num )
    void *ret = memcpy(destination, source, num);
    // printf ("[MEMCPY] = %s \n", ret);
    return ret;

The function gets called succesfully but the first parameter can be whatever and I only want to trace it if the result is a string or array. I would have to ask if it is array or string. I know this can't be done straightforward: is there anyway to find out what RET points to?

I am working under MACOSX and interpositioning with DYLD.

Thank you very much.

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Do you have access to a map file? If so, you could find where your string literals are placed and have some info from that. Same for global arrays. –  Michael Dorgan Sep 30 '10 at 18:04
You should not call printf in your function, since printf is very complicated and may itself call memcpy again. Instead, I would go for a simple write or writev. Or you may add some thread-safe activation counter that only does the printf part if isn't already active. –  Roland Illig Sep 30 '10 at 19:45

4 Answers 4

up vote 1 down vote accepted

As void* represents a raw block of memory, there is no way to determine what actual data lies there.

However, you can make a "string-like" memory dump on every operation, just give the resulting output some sort of the "upper output limit".

This could be implemented the following way:

const size_t kUpperLimit = 32;

void output_memory_dump(void* memory) {
   std::cout.write(reinterpret_cast<char*>(memory), kUpperLimit);

For non-string like data the output would be hardly interpretable, but otherwise you'd get what you were searching for.

You could attempt to apply some guess-based approach like iterating through reinterpret_cast<void*>(memory) and making is_alphanumeric && is_space checks to every symbol, but this approach doesn't seem very stable (who knows what could actually lie in that void*...).

Anyway, for some situations that might be fine.

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What if memory region is less than 32 bytes? Or less than 5? How do you know what upper limit to use? Well, at least you can use num for that, but this number might be less than actual memory region size. –  user405725 Sep 30 '10 at 17:58
@Vlad Ok, we'll have a dump of 5 actual bytes and everything that goes after it. I'm almost sure this can't lead to access faults in debug mode and so on. It's also obvious, that you can't have a "good-enough" approach if you only have void* pointer and nothing else, but why not give it a try... –  Yippie-Ki-Yay Sep 30 '10 at 18:03
@HardCoder1986: Oh yes it can SEGFAULT your program easily due to accessing protected memory. –  user405725 Sep 30 '10 at 18:05
@Vlad Oh, I doubt that. Speaking this way, debuggers that receive pointer to non-null-terminated char sequence should also segfault. –  Yippie-Ki-Yay Sep 30 '10 at 18:09
You can try peeking into the heap to find the size of the allocated block. Try checking ((long *)source)[-1] and see what the value is. –  TMN Sep 30 '10 at 19:02

You can first apply some heuristics to the copied memory and based on that you can decide whether you want to print it.

static int maybe_string(const void *data, size_t n) {
  const unsigned char *p;
  size_t i;

  p = data;
  for (i = 0; i < n; i++) {
    int c = p[i];
    if (c == '\n' || c == '\r' || c == '\t')
    if (1 <= c && c < 32)
      return 0; /* unusual ASCII control character */
    if (c == '\0' && i > 5)
      return 1; /* null-terminated and more than a few characters long */

  return 0; /* not null-terminated, so it isn't a string */

This heuristic is not perfect. For example, it fails for the following pattern:

const char *str = "hello, world";
size_t len = strlen(str);
char *buf = malloc(1024);
memcpy(buf, str, len);
buf[len] = '\0';

If you want to catch that too, you will have to change the above function.

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Considering that he is interposing the standard memcpy function, this will slow down a system a lot. Not to mention that memory can contain any binary data including all bytes in ASCII range which does not mean it is string. –  user405725 Sep 30 '10 at 18:00
You're right: When every byte is in ASCII range (and not \0), the memory doesn't contain a string. That's what the return 0 in the last line is for. But otherwise the original poster sounded more like doing this out of curiosity and not for production use, so the slowdown is probably acceptable. I don't think printing a few extra "strings" hurts, I just wanted to make sure the terminal doesn't get confused by accidental control characters. Therefore the check for unusual ASCII control characters. –  Roland Illig Sep 30 '10 at 19:39

ret is equal to the destination pointer. But it's not possible to determine whether it's an array or a string, unless you know more information about the array or string (for instance, that the string is of a certain length and is null-terminated).

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No, you cannot figure this out from a pointer of void type. Plus, you don't know the size of source or destination, so the heuristic approach will not work. It will not work due to other reasons as well, for example, binary data stored in memory region pointed by void* can really have zero byte at the end, but that doesn't mean that it is string.

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