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I thought that I couldn't retrieve the length of an allocated memory block like the simple .length function in Java. However, I now know that when malloc() allocates the block, it allocates extra bytes to hold an integer containing the size of the block. This integer is located at the beginning of the block; the address actually returned to the caller points to the location just past this length value. The problem is, I can't access that address to retrieve the block length.

#include <stdlib.h>
#include <stdio.h>
int main(void)
        char *str;
        str = (char*) malloc(sizeof(char)*1000);
        int *length;
        length = str-4; /*because on 32 bit system, an int is 4 bytes long*/
        printf("Length of str:%d\n", *length);

**Edit: I finally did it. The problem is, it keeps giving 0 as the length instead of the size on my system is because my Ubuntu is 64 bit. I changed str-4 to str-8, and it works now.

If I change the size to 2000, it produces 2017 as the length. However, when I change to 3000, it gives 3009. I am using GCC.

share|improve this question
What you describe is completely dependent on the specific malloc implementation storing the information in the way you describe. An implementation of malloc would not necessarily have to track how much memory was allocated (unlikely, but possible given that the API does not require this info to be exposed to the caller.) – Joe Mar 27 '11 at 18:01
@Joe: for example you could fairly easily implement a pool-based allocator in which, for example, all allocations of size 1-8 come from one pool, 9-16 from another, 17-32 from another, etc. Then instead of the size being stored before the usable memory, each allocation might instead store a pointer to its pool. Big allocations would have to be treated differently, though. – Steve Jessop Mar 27 '11 at 18:44
up vote 9 down vote accepted

What you're doing is definitely wrong. While it's almost certain that the word just before the allocated block is related to the size, even so it probably contains some additional flags or information in the unused bits. Depending on the implementation, this data might even be in the high bits, which would cause you to read the entirely wrong length. Also it's possible that small allocations (e.g. 1 to 32 bytes) are packed into special small-block pages with no headers, in which case the word before the allocated block is just part of another block and has no meaning whatsoever in relation to the size of the block you're examining.

Just stop this misguided and dangerous pursuit. If you need to know the size of a block obtained by malloc, you're doing something wrong.

share|improve this answer
I see. Thanks. That's why it has different value for each size. I just try it to see how it works, and I won't do this in real things. However, there's an exercise in a book require to implement malloc() and free() based on its explained implementation, so I just wanna give it a try. – Amumu Mar 27 '11 at 19:22
Cool, +1 for doing this as part of experimentation to "figure out how it works and try to implement" rather than for some horrible hackery. – R.. Mar 27 '11 at 19:38
Do you know the way to filter out all the additional flags it append to the block, so I get the pure memory size? However, by guessing, I think I can't alter that, and have to altered my own way then. Also, I don't know why the sizeof(int) gives 4, while my system is 64 bits? Is there a way to let sizeof know my 64 bits system? – Amumu Mar 27 '11 at 19:51
sizeof(int) is always 4 on the vast majority of unix systems, and probably always will be. Use long or better yet size_t if you want the system word size. – R.. Mar 27 '11 at 20:11
@Amumu Nothing is dangerous if you know what you are doing, and the original poster is not misguided. It depends on the implementation. If you look at the implementation in the book of C programming language by Brian Kernighan, there is a general version of malloc and free. I am not sure it is the same version for GCC (most likely not). You can look into GCC's code, and see where they put the Header, and write your own function of getting the header info. It will not be a portable solution, but if you just use it yourself on the same compiler, it would be fine. – texasbruce Oct 31 '12 at 14:26

You don't have to track it by your self!

size_t malloc_usable_size (void *ptr);

But it returns the real size of the allocated memory block! Not the size you passed to malloc!

share|improve this answer
It's important to note that this function is not part of the C standard, and is a gnulib extension – Degustaf Sep 24 '14 at 14:54
Not only gnulib extension – CAMOBAP Jan 1 '15 at 21:39
Excellent. That is just what I needed. Stepping through gdb, I need to know that I have not written beyond malloc'd memory. I am having issues with vsnprintf, and I need clues as to what is wrong. – David Elson Jul 25 '15 at 13:49

This is not Standard C. However, it is supposed to work on Windows operatings systems and might to be available on other operating systems such as Linux (msize?) or Mac (alloc_size?), as well.

size_t _msize( void *memblock );

_msize() returns the size of a memory block allocated in the heap.

See this link:

share|improve this answer

I would suggest you create your own malloc wrapper by compiling and linking a file which defines my_malloc() and then overwiting the default as follows:

// my_malloc.c

#define malloc(sz) my_malloc(sz)

typedef struct {
    size_t size;
} Metadata;

void *my_malloc(size_t sz) {
    size_t size_with_header = sz + sizeof(Metadata);
    void* pointer = malloc(size_with_header);

    // cast the header into a Metadata struct
    Metadata* header = (Metadata*)pointer;
    header->size = sz;    
    // return the address starting after the header 
    // since this is what the user needs
    return pointer + sizeof(Metadata);

then you can always retrieve the size allocated by subtracting sizeof(Metadata), casting that pointer to Metadata and doing metadata->size:

Metadata* header = (Metadata*)(ptr - sizeof(Metadata));
printf("Size allocated is:%lu", header->size); // don't quote me on the %lu ;-)
share|improve this answer
This is a good one workaround than looking into the gcc source code. – texasbruce Oct 31 '12 at 14:27
Worth noting that the memory returned by your wrapper will no longer be aligned on most architectures. I should know, I wrote the same and my code relying on alignment blew up in my face. – Thomas Jun 28 '13 at 7:53
That makes sense and this code should only be used for debug purposes under strict control conditions. – Mike M Jul 26 '13 at 9:00
FYI pointer arithmetic with void* is not allowed so this code will fail to compile on compliant compiles (for instance, GCC with -pedantic). – Michael Graczyk Jun 3 '14 at 6:40

Running this app on my (Ubuntu) system says:

Length of str:1009
share|improve this answer
For real? In my Ubuntu, it's 0. – Amumu Mar 27 '11 at 18:07
Linux 2.6.32-30-generic #59-Ubuntu SMP Tue Mar 1 21:30:21 UTC 2011 i686 GNU/Linux – karlphillip Mar 27 '11 at 18:08
Sounds like a pagesize rather than block descriptor size ;) – Oleiade Mar 27 '11 at 18:08
It's good to know that it actually works, though dependent probably. – Amumu Mar 27 '11 at 18:09
If it really worked, shouldn't it have reported 1000 instead of 1009? – karlphillip Mar 27 '11 at 18:11

You better stop trying to do what you are up to!

AFAIK the contents of the memory before the beginning of the allocated block are not defined by the C/C++ standard, so you would end up with an unportable solution. You have to track the length of the memory block yourself.

share|improve this answer
This is not a constructive answer as there are always things you can play with and learn from. – Mike M Sep 23 '14 at 15:13

Every block you're allocating is precedeed by a block descriptor. Problem is, it dependends on system architecture. Try to find the block descriptor size for you own system. Try take a look at you system malloc man page.

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Not necessarily. See my answer. – R.. Mar 27 '11 at 19:01

You're not supposed to do that. If you want to know how much memory you've allocated, you need to keep track of it yourself.

Looking outside the block of memory returned to you (before the pointer returned by malloc, or after that pointer + the number of bytes you asked for) will result in undefined behavior. It might work in practice for a given malloc implementation, but it's not a good idea to depend on that.

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This is implementation dependent

share|improve this answer
How is it dependent? – Amumu Mar 27 '11 at 17:57
@Amumu how you can do so depends on the compiler and the architecture. – Rafe Kettler Mar 27 '11 at 17:57
It depends more on the implementation of malloc() itself, not really the compiler. – metamatt Mar 27 '11 at 18:00

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