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Here's a simplified version of a function I wrote just now:

int foobar(char * foo) {
  struct node * ptr = (struct node *) malloc (sizeof(struct node));
  memset(ptr, 0, sizeof(ptr));
  return head->id;

Here node is just a struct declared as a node in the linklist, which contains a char * and a pointer to the next node. However, I realize that the malloc() here is corrupting my input char * foo.

Why would malloc() corrupt my input char pointer? Also, how could I resolve the issue here? Now I am just copying the content of that pointer to a local array, but this is too hacky, even for my taste (which isn't the best).

Thanks for any inputs!

EDIT: Well, here's more real code:

void foobar(char * type) {
  puts(type); <-- here it's a long string about 30 char
  struct node * ptr = (struct node *) malloc (sizeof(struct node));
  puts(type); <- chopped of, 10 left with some random thing at the end

Hope the problem is clear now! Thanks!


Here's how type got initialized:

type = strdup("Some ");
tempType = strdup("things");
sprintf(type + strlen(type), "%s", tempType);


share|improve this question
Where does type come from? Is that the local array you constructed to store foo? Did your original code have calls to puts(foo); before you added type? – Dondragmer Apr 12 '12 at 1:30
You should not be casting the return value from malloc(3), as including the stdlib.h header will provide a prototype and thus the compiler will be able to perform type checking for you -- when you cast the return value, you might be papering over a warning that can indicate incorrect code. – sarnold Apr 12 '12 at 1:34
Why do you think malloc is the culprit? We don't have enough information to come to this conclusion nor to answer the question. – Aaron Dufour Apr 12 '12 at 2:01
@AaronDufour: The char pointer is fine before the malloc(), but corrupted after the malloc(). I tried to print it and it showed so, but I might be wrong. – Ziyao Wei Apr 12 '12 at 3:10
@sarnold: Thanks! Will try that. – Ziyao Wei Apr 12 '12 at 3:10
up vote 6 down vote accepted

The apparent corruption would happen because type or foo points at already freed memory which malloc() gives back to you for a different use.

Once you've released the memory, you cannot continue to use it.

You also have a problem because you allocate to ptr, then wipe ptr out with:

ptr = head;

You might have meant:

head = ptr;

but you would probably need to set ptr->next = head; before that. Of course, this is speculation since you've not shown the type definitions.

It also isn't obvious why you return head->id instead of either head or ptr. Unfortunately, we don't have enough information to say "that is wrong"; it is just not usual.

Commentary on 2nd Edit

Here's how type got initialized:

type = strdup("Some ");
tempType = strdup("things");
sprintf(type + strlen(type), "%s", tempType);

There is some of the trouble. You've gone trampling on memory that you have no business trampling on.

The first two lines are fine; you duplicate a string. Note, though, that type is a pointer to 6 bytes of memory, and tempType is a pointer to 7 bytes of memory.

The disaster strikes in the third line.

type + strlen(type) is pointing to the null byte at the end of the type string. You then write 1 byte of tempType over it more or less legitimately; you don't have a null terminated string any more, but the first byte is within bounds. The second and subsequent bytes are written in space that is not allocated to you, and that probably contains control information about memory allocation.

Writing out of the bounds of the allocated memory leads to 'undefined behaviour'. Anything can happen. On some machines, particularly with a 64-bit compilation, you might get away with it altogether. On most machines, and especially 32-bit compilations, you've wrecked your heap memory and something somewhere (typically somewhat distant from this spot) will run into trouble because of it. That is the nature of memory abuse; the place where it occurs often appears to work and it is some other innocent piece of code that suffers from the problems caused elsewhere.

So, if you want to concatenate those strings, you need to do something like:

char *type = strdup("Some ");
char *tempType = strdup("things");
char *concat = malloc(strlen(type) + strlen(tempType) + 1);
sprintf(concat, "%s%s", type, tempType);

I've omitted error checking. You should check the allocations from strdup() and malloc() to ensure that you got memory allocated. Some might argue that you should use snprintf(); it was a conscious decision not to do so since I've calculated the necessary space in the previous line and allocated sufficient space. But you should at least consider it. If you have not ensured that there is enough space available, then you should use snprintf() to avoid buffer overflows. You would also check its return value so you know whether the information was all formatted or not. (Also note that you have 3 pointers to free, or pass off to some other code so that the allocated memory is freed at an appropriate time.)

Note that on Windows, snprintf() (or _snprintf()) does not behave the way specified by the C99 standard. Frankly, that's not helpful.

share|improve this answer
can you explain how it happens? doesn't sounds rational char* foo is on the stack and malloc is on the heap. thanks – 0x90 Apr 12 '12 at 1:30
But foo could be pointing to the heap. – Sam Dufel Apr 12 '12 at 1:32
We can't see where the trouble is; it isn't in the code shown. But a standard way to get 'corruption' when data is allocated is to have a pointer that points at freed memory. Another way to cause trouble is to free a pointer that was on actually not allocated via malloc() but was pointing to the stack or even the static data areas of your program (.data and .bss segments); more usually though, that leads to a core dump than just corruption. – Jonathan Leffler Apr 12 '12 at 1:32
This was just somewhat simplified for this question here. I'll try to edit it to better show my question. – Ziyao Wei Apr 12 '12 at 3:12
@ZiyaoWei: It's always a tricky business knowing how much to remove from a bigger program to present a problem like this. The ideal is a program of about 10-40 lines that still reproduces the problem. It would be unusual to be able to get it smaller than 10 lines; you don't want to go very much bigger, though sometimes it is necessary. – Jonathan Leffler Apr 12 '12 at 3:18

I'm not sure what you're trying to do, but the comments indicate what's happening:

// This allocates enough memory for a struct node and assigns it to ptr.
struct node * ptr = (struct node *) malloc (sizeof(struct node));

// This displays the data in the (unspecified) string type,
// which must be null terminated.

// This sets the first 4 bytes of ptr to 0, assuming pointers are 4 bytes.
// You probably want memset(ptr, 0, sizeof(struct node));
memset(ptr, 0, sizeof(ptr));

// This makes ptr point to the address of head, orphaning the memory
// that was just malloc'ed to ptr.
share|improve this answer
+1 for observing that the memset() is setting the wrong amount of space. – Jonathan Leffler Apr 12 '12 at 1:45
I believe sizeof(*ptr) would be correct, as well as far clearer. – Aaron Dufour Apr 12 '12 at 1:59
Edited my question, and I hope now the problem is clear. Thanks! – Ziyao Wei Apr 12 '12 at 3:26
@AaronDufour: It might be worthwhile to write a small program to test your belief. Then post the result if you don't mind. Right or wrong, we'll all learn something! – Adam Liss Apr 12 '12 at 11:08
@AdamLiss I created a 40-byte struct node, and declared struct node *ptr;. The results for sizeof(struct node), sizeof(*ptr), and sizeof(ptr) were 40,40, and 8. So, it looks like my assumption was correct. – Aaron Dufour Apr 12 '12 at 16:25

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