1| typedef struct container{
 2|     char* abc;
 3| }container;
 6| int main(void){
 8|     container* xyz = malloc(sizeof(container));
10|     xyz->abc = malloc(10);
11|     xyz->abc = "abcdefghi\0";
13|     free(xyz->abc);
14|     free(xyz);
15| }

According to Valgrind there's a leak on line 10. which means free(xyz->abc) isn't working. How can I free this?

  • Please do not tag C++ if you aren't explicitly writing C++ code, this code is purely C. – CoryKramer May 3 '17 at 14:24
  • @CoryKramer: If it's being passed through a C++ compiler, it's C++. Only the OP can tell us which is right. – Lightness Races with Monica May 3 '17 at 14:26
  • use strcpy() . – Sniper May 3 '17 at 14:26
  • If you wanted to copy that string literal to your newly allocated memory you can use strcpy – CoryKramer May 3 '17 at 14:26
  • 1
    @CoryKramer: Ew! No! strncpy, please... – Lightness Races with Monica May 3 '17 at 14:27

You allocated 10 bytes, and stored a pointer to those bytes (xyz->abc) then you immediately replaced that pointer with a pointer to a string literal ("abcdefghi\0").

There are several problems with your program:

  1. Ten leaked bytes
  2. Excess \0 in string literal — why?
  3. free-ing something you didn't malloc (the replaced pointer)
  4. Using malloc/free in the first place (assuming the tag isn't spurious)

In C, use strdup to emplace abcdefghi into your dynamically-allocated buffer.

In C++, forget this and switch to std::string.

  • Don't use strncpy. From your linked man page: "Notes. Some programmers consider strncpy() to be inefficient and error prone." Why are strlcpy and strlcat considered insecure?. – Lundin May 3 '17 at 14:30
  • 1
    Umm no. Among veteran C programmers, strncpy is widely known to be dangerous, for the reason that people always use it incorrectly and screw up null termination. It was never intended as a bounds-checking version of strcpy, we nowadays have strcpy_s for that purpose (introduced with C11). There's a lot of brainwashed dogma around blindly replacing strcpy with strncpy. What one should do instead is of course to check the bounds before using strcpy, or alternatively use memcpy or strcpy_s. – Lundin May 3 '17 at 14:39
  • 1
    If you wanted a respectful comment, you should probably not reply with "What a load of nonsense" with no counter arguments. Here's some arguments www.google.com then type strncpy is dangerous. The 5-10 first hits all look quite relevant. As for brainwashing, Microsoft has done a lot of that with VS false positive warning for the use of strcpy. – Lundin May 3 '17 at 14:43
  • 1
    Why is strncpy insecure? – Lundin May 3 '17 at 14:45
  • 1
    As for veteran C programmers, they have already gone through all of these phases: 1) lets use strcpy 2) lets not use strcpy, random Microsoft dummies say its dangerous! Use strncpy. 3) Hmm strncpy kind of sucks I think. It is really hard to get the null termination right. 4) strncpy definitely sucks, why is this? Oh wow it wasn't intended to be used in the way I've been using it for years. Turns out it's a 1970s remain from UNIX that got included in the standard C library mostly by accident. 5) lets use strcpy. – Lundin May 3 '17 at 14:51

In your code, xyz->abc finally does not hold a pointer returned by memory allocator function, it holds the pointer to the first element of the array containing the string literal "abcdefghi\0". You don't need to free() it.

Rather, passing xyz->abc to free() in current scenario causes undefined behavior, so the answer boils down to, you must not attempt to pass a pointer to free() which is not returned by earlier malloc() and family or NULL.

Quoting C11, chapter §

[....] Otherwise, if the argument does not match a pointer earlier returned by a memory management function, or if the space has been deallocated by a call to free or realloc, the behavior is undefined.


Put strcpy( xyz->abc, "abcdefghi" ); at line 11.

With xyz->abc = "abcdefghi\0"; you redirect xyz->abc pointer to static string and lose the allocated memory address. Then free will work with wrong address and will not free the dynamically allocated block. \0 is not necessary as mentioned above by @BoundaryImposition - every double quote enclosed string is null terminated and you add extra 0.

  • No, this will cause UB by modifying a string literal. Further modifications are necessary. – Lightness Races with Monica May 3 '17 at 14:29
  • Furthermore, strcpy is dangerous and should be avoided at all times. – Lightness Races with Monica May 3 '17 at 14:29
  • @BoundaryImposition I agree, but malloc(10) (constant) is another wrong decision. With strcpy the exact example will work. – i486 May 3 '17 at 14:30
  • 2
    @BoundaryImposition Unlike strncpy, strcpy() is perfectly safe. – Lundin May 3 '17 at 14:34
  • 1
    This question is looking for an explanation, not simply for working code. Your answer provides no insight for the questioner, and may be deleted. Please edit to explain what causes the observed symptoms. – Toby Speight May 3 '17 at 14:58

The value passed to free() must be a value returned by something like malloc() or realloc(). Any other value passed to free() is invalid.

Your code allocates memory using malloc() and assigns the result to xyz->abc. But the next line then assigns the address of "abcdefghi\0" to xyz->abc.

So at this point, xyz->abc no longer holds the value returned by malloc().

And when you pass this value to free(), that is not valid, and no memory is freed. That is your leak.

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