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Using below code I'm trying to write a wrapper for calloc() so that I can keep trace of allocated heap memory by storing the size in 1st 2/4bytes of the allocated memory. When I tested this alone seems its okay. But when I replace this as my system calloc() then its creating problems.. means some times its returning NULL, even though lot of heap available.

I'm running this on ARM board using IAR compiler:

void *MyCalloc(size_t size) {
    size_t new_size = ((size + 3) & ~0x3); 
    size_t *result = calloc(1,new_size + sizeof(size_t)); 
    if ( result ) { 
        printf("MyCalloc addr: %p\n", result);
        *result = (new_size + sizeof(size_t));
        result = result + sizeof(size_t);
    } 
return result;
}

Any idea why this is causing problem?

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1  
"Is this a compiler bug?" - "No, it's your code." –  user529758 Feb 16 '13 at 18:23
2  
How are you replacing calloc ? –  cnicutar Feb 16 '13 at 18:24
    
Last line should be restult = result + 1 ? –  Luka Rahne Feb 16 '13 at 18:35
    
@LukaRahne yes, it should be. –  jszakmeister Feb 16 '13 at 18:43
    
@H2CO3 That's not very helpful. –  jszakmeister Feb 16 '13 at 18:44

2 Answers 2

up vote 4 down vote accepted

There are several problems with your code:

  1. When writing heap functions, or heap wrappers, just don't use pointer arithmetic for storing heap headers. Use structures. That's what they're for.

  2. You've introduced a number of integer overflow bugs into your code. If someone asks your calloc() for 0xfffffffe bytes, you'll return them 4 bytes. If they write more than 4 bytes to that allocation, there'll be a heap overflow.

  3. Your calloc() doesn't have the same signature as calloc(). Depending on how you're swapping out calloc(), this is likely to become a problem.

  4. calloc() and malloc() naturally return aligned pointers. In x86 they need to return a pointer to the application that is aligned to at least 8 bytes, and in x64 they need to return a pointer that is at least 16-byte aligned.

    In your code, you're using the real calloc to do the "heavy lifting" (i.e. as the "raw allocator"), which is fine and that will return an 8 or 16-byte aligned pointer, but when you return a pointer 4-bytes into that structure, your calloc ends up returning a non-aligned pointer to the caller, which is likely to cause problems to people calling your calloc replacement.

Try some code a bit more like this:

 typedef struct 
 {
    size_t cbSize;
 } MyAwesomeHeapHeader;
 // TODO: ensure that MyAwesomeHeapHeader is 8-byte aligned on x86 and 16-byte aligned on x64 (or just 16-byte aligned on both).

 void* MyAwesomeMalloc(size_t cbSize)
 {
    MyAwesomeHeapHeader* header;
    void* internalAllocatorPtr;
    size_t cbAlloc;
    // TODO: Maybe I want a heap footer as well?

    // TODO: I should really check the following for an integer overflow:
    cbAlloc = sizeof(MyAwesomeHeapHeader) + cbSize; 
    internalAllocatorPtr = MyAwesomeRawAllocator(cbAlloc); // at the moment you're using the real calloc for this, but you could use malloc or write your own raw allocator
    // TODO: Check for null

    header = (MyAwesomeHeapHeader*)internalAllocatorPtr;
    header->heapSize = cbSize;
    // TODO: other fields here.

    return (uint8_t*)(internalAllocatorPtr) + sizeof(MyAwesomeHeapHeader);
 }
share|improve this answer
    
okay, I'll use structure now. Thanks –  ashok449 Feb 16 '13 at 19:06

Your problem is this line:

result = result + sizeof(size_t);

With pointer addition the number is implicitly multiplied by the size of of the pointer. So

result = result + 1;

will move the result pointer ahead by sizeof(size_t) bytes. Which is what you want. Because

result = result + sizeof(size_t);

moves the result pointer ahead by sizeof(size_t) * sizeof(size_t) bytes.

Because of this the result pointer is not pointing the the correct location, the calling code will overflow the end of the allocated buffer corrupting the heap.

share|improve this answer
    
...multiplied by the size of WHAT the pointer POINTS TO. –  Alexey Frunze Feb 16 '13 at 18:53
    
I tried with *result++ = (new_size + sizeof(size_t)); and then return result; still doesn't work. for me when the values is 16bytes its working for once and immediate 16 bytes request returning NULL –  ashok449 Feb 16 '13 at 18:54

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