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Can I have problems passing value of off_t to malloc() (where expect size_t)?

I'm reading a file and storing its contents into memory. The file size is obtained by the st_size member from struct stat after passed to stat() function and then passed to malloc() where I will do a call to fread() passing the memory returned my malloc() as buf and file size as nmemb.

But the question is: if the file size is really a big number that can't be held by a size_t what's the behavior of malloc() function on 32-bit/64-bit machine: integer overflow and a broken buf (not number of requested bytes was really returned) or NULL?

I know that it may really never happens, so bit probably someone use this application into e.g, supercomputer and request a biggest file to my parser... but I really like to understand the maximum possible about the things, even behavior that can never happen.

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2 Answers 2

How big do you expect your file size to be? For moderate to large files (say a few MiB, but under 2 GiB), you won't have a problem. If your file is larger than 2 GiB and you're on a 32-bit system, you'll have all sorts of problems. If your file is larger than 2 GiB but you're on a 64-bit (Unix) machine, the issue will mainly be available physical memory (to avoid thrashing). Consider using mmap() regardless.

But the question is: if the file size is really a big number that can't be held by a size_t what's the behavior of malloc() function on 32-bit/64-bit machine?

If the value in off_t is bigger than the range that can be held in size_t (perfectly plausible on a 32-bit system; implausible on a 64-bit system other than Windows 64), then malloc() will 'work' but will allocate the space needed by the low-order bits of the off_t value. This isn't what you intended. As a concrete but plausible example: if off_t is a 64-bit quantity but size_t is a 32-bit quantity, the low order bits of the off_t will be used as the size by malloc(), ignoring the high order bits. If the high order bits were all zero, that's not a problem. If any of the high order bits were set, you're going to be abusing memory that wasn't allocated.

Note that there's nothing malloc() can do to detect the problem. It is given a size_t by the compiler because the declaration in <stdlib.h> says that's the correct type. It is all about whether the compiler warns you truncation. It isn't obliged to warn you about possible problems.

At big file sizes, you have to be aware of the limits of the types you are using, and you have to be extremely careful to make sure you get the result you expect (instead of just the result you asked for, which isn't necessarily the same thing).

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YES you will have problems. Starting with the fact that by trying to first read the filesize you are essentially prohibiting your users from using e.g. pipes. Do you absolutely need random access to the data in the file? If not then try to parse your file in a stream-oriented manner. If you absolutely need it in memory then you can use stat to first validate whether the file size is larger than what can be accommodated by off_t (note that stat will fail with errno==EOVERFLOW if the filesize cannot fit in the stat struct) or than what can be accomodated by size_t (compare st_size to SIZE_MAX or ((size_t)-1)), and bail early if so (your process would not have enough bits in a pointer to address it even if you were to somehow read it into RAM), otheriwse try malloc (and check for a NULL return value) or, better perhaps, mmap (where available) your file.


@R did not like me mentioning stat64 because it is non-standard (i.e. non-POSIX.) Technically that is quite correct, though in reality stat64 is readily available (and documented) on Linux, Solaris, OSX, HP-UX, AIX, QNX, and even in Windows's MSVCRT. It is not available on OpenBSD because on OpenBSD regular stat already has large file support.

The conventional (and somewhat more standard) way of retrieving the >2GB file size is to build using _LARGEFILE_SOURCE, _LARGEFILE64_SOURCE and _FILE_OFFSET_BITS=64, which might make stat behave like stat64 (you'd still have to ascertain whether sizeof(off_t) >= 64/8 to know for sure whether you have 8TB support.)

The truth of the matter is that all of the above is, in your case, academic. You do not need to know the exact file size for that initial check, only if it is in excess of what can be accommodated by the smaller of off_t and size_t. I have updated the original answer, top, accordingly.

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Use stat, not the nonstandard stat64, with a proper programming environment where off_t is 64-bit. –  R.. Nov 18 '12 at 17:13
@R.., IIRC what you call "stat with a proper programming environment where off_t is 64-bit" is actually stat64 on most platforms that I can think of (Linux, Solaris etc., though probably not OpenBSD) with preprocessor sugar (ABI/compatibility oblige.) Since the point of the check above is to "do the right thing", as opposed to silently not doing anything because someone forgot to define the right LFS macros at compile time, I went straight for stat64 -- though yes, you could check sizeof(off_t) >= 64 instead and warn about activating LFS if supported. –  vladr Nov 18 '12 at 17:38
My point was that you should not be teaching implementation details (like stat64 or mmap2, the latter of which is not even a function name but just the internal syscall name) in place of clean, portable programming practices. –  R.. Nov 18 '12 at 18:02

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