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I'm quite new to C so please bear with my incompetence. I want to read an whole EXEcutable file into a buffer:

#include <stdlib.h>
FILE *file = fopen(argv[1], "rb");
long lSize;

fseek(file, 0, SEEK_END);
lSize = ftell(file);
fseek(file, 0, SEEK_SET);

char *buffer = (char*) malloc(sizeof(char)*lSize);
fread(buffer, 1, lSize, file);

The file has 6144 bytes (stored correctly in lSize) but the size of my buffer is only 4 bytes, therefore only the MZ signature is stored in the buffer.

Why does malloc only allocate 4 bytes in this case?

Edit: Probably the char buffer is terminated by the first 0 in the MZ header of the PE file. If I set the buffer to a certain value however, the whole file will be stored. If I set the buffer to int (= 4 bytes), the buffer won't be terminated but will be of course larger (vs. char = 1 byte). I just want to copy the file byte for byte with the null bytes as well.

Edit 2: The buffer of course contains everything it should but if I try to write it to a new file with fwrite, it only wrote up to the first \0 (which is 4 bytes). I just got fwrite wrong. Fixed this. Sorry, the problem wasn't well defined enough.

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Why do you think, that malloca allocates 4 bytes only? – Kiril Kirov Oct 15 '11 at 11:26
How do you know it's allocating only 4 bytes (it should not, and I see no error in your code). How are you determining that only 4 bytes have been read/stored? – Mat Oct 15 '11 at 11:27
You don't have to use sizeof to learn the size of char. sizeof(char) is always 1. In C, "char" and "byte" are synonymous. – tiftik Oct 15 '11 at 11:32
sizeof(char) == 1 by definition. If the buffer only contains 4 bytes it is because lSize == 4. – David Heffernan Oct 15 '11 at 11:35
The code looks correct. Is it possible that you're watching the contents of buffer in the debugger, as a null-terminated string, and seeing only 4 bytes because the fifth one is a null byte? Try examining the contents of buffer in a memory window before and after calling fread. – Dabbler Oct 15 '11 at 11:35
up vote 7 down vote accepted

If lSize really does equal 6144 then your code will indeed allocate 6144 bytes and then read the entire contents of the file. If you believe that only 4 bytes are being read it is probably because the 5th byte is a zero. Thus when buffer is interpreted as a zero terminated string, it terminates at that point.

You can inspect the rest of your buffer by looking at buffer[4], buffer[5], etc.

As an aside, you don't need to cast the return from malloc, and sizeof(char) == 1 by definition. Best practice is to write the malloc like this:

char *buffer = malloc(lSize);

But that will not change your results.

share|improve this answer
I think you might be correct. The DOS Header is \MZ220 and therefore terminated. But if I manually set the buffer to a large number, e.g. buffer[16000] the buffer will contain the whole file regardless of the 0. – Laughingman Oct 15 '11 at 11:50
I'd bet that you are looking at buffer as a null-terminated string in the debugger. Using printf will stop at the 0. If only 4 bytes were allocated you'd probably seg fault on the fread. Run a for loop and print buffer char by char, printf("%c\n", buffer[i]); – David Heffernan Oct 15 '11 at 11:55
I don't understand your edit. Your existing code reads the entire file into buffer. It is already all there. But you can't treat it as a null-terminated string. – David Heffernan Oct 15 '11 at 12:17

Why does malloc only allocate 4 bytes in this case?

Because you failed to #include <stdlib.h> (and cast the return value of malloc()).

Do not forget to #include <stdlib.h> so that the compiler knows malloc returns a value of type void* (rather than assuming it returns an int) and takes an argument of size_t type (rather than asuuming it is an int)

Also do not cast the return value of malloc. A value of type void* can be assigned to an object of pointer (to any type) type. Casting the return value makes the compiler silently convert int (assumed when <stdlib.h> was not included) to the type in the cast. Note the compiler would complain without the cast letting you know you had forgotten the include.

The real error is not malloc allocating the wrong amount (I believe it will allocate the correct amount anyway). The real error is assuming malloc returns an int when it returns a void*. int and void* can be passed differently (one in a register, the other on the stack for instance) or they have different representations (two's complement for int and segmented address for void*) or any other thing (most probably sizeof (int) != sizeof (void*)).

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Huh? Are you sure about that? – Kiril Kirov Oct 15 '11 at 11:28
Sure casting the return value of malloc is bad practice, but an error? I doubt this, as I've done this a one hundred thousand times (being from a C++ background, where it is not converted implicitly). – Christian Rau Oct 15 '11 at 11:29
why casting should be a problem? – akappa Oct 15 '11 at 11:30
I understand you jumping on this opportunity to make a point about casting the result of malloc(), but if this is the cause, then the error is to fail to include stdlib.h and the cast only hides a useful warning. EDIT: after reading the other comments: see? Putting it this way confuses people. – Pascal Cuoq Oct 15 '11 at 11:30
As per the comments, the real error is the failure to include the correct header. The cast to the return value is a way to make the compiler silently accept the error. – pmg Oct 15 '11 at 11:33

how are you checking for the size of buffer, are you doing a sizeof(buffer)? In that case you are only seeing the size of a pointer to int which is 4 bytes. You cannot get the size of a buffer out of it's pointer. You must store it separately as you have done (in lSize).

If malloc() did not return NULL then your buffer is fine and the size is correct.

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