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I'm reading the POSIX specification and I can't fully understand how file descriptors, file descriptions and streams interact.

FILE* f1 = fopen("a.txt", "r");
int fno = fileno(f1);
FILE* f2 = fdopen(fno, "r");

// is it true?
assert(fileno(f2) == fno);

// does it close only f1 or f2 too?
fclose(f1);
fgetc(f2); // valid?

(Question is in the comments.)

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2 Answers 2

up vote 2 down vote accepted

The C standard library gives you the opaque pointer FILE*, a file handle, which you can manipulate with fopen()/fclose(), and access with fread()/fwrite().

POSIX offers a notion of file descriptors which are integers. You can manipulate those with open()/close(), and access with read()/write().

For every open file handle FILE * fp on a POSIX system, you can get the underlying file descriptor with fileno(fp). Conversely, for an existing file descriptor n, you can open a standard file handle with fdopen(n).

In other words, the POSIX file descriptors are an operating system primitive which is used to implement the C standard io library. Note that POSIX file descriptors also serve as handles for sockets.

Your final call to fgets() is undefined because the fclose() invalidates the file handle, and consequently its underlying file descriptor. fdopen() does not duplicate the file descriptor.

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Does it imply that I can call fdopen on each file descriptor at most once? –  ybungalobill Dec 23 '11 at 23:36
1  
If the file descriptor is also in use by some other FILE *, then you cannot reliably call fdopen() even once - because you can only reliably call fclose() on one of the two FILE *; you cannot reliably use fclose() on the second. If you used dup() or perhaps dup2() before using fdopen(), you could use fdopen() as often as the O/S will let you before you run out of file descriptors. –  Jonathan Leffler Dec 23 '11 at 23:49
    
And besides freeing resources I'd anticipate puzzling influences of buffering. –  Michael Krelin - hacker Dec 24 '11 at 0:12

Yes, it's true and it closes both files as they use the same file descriptor.

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But then how the second f2 is freed (the FILE structure)? I guess I can't call fclose(f2) on it anymore, right? –  ybungalobill Dec 23 '11 at 23:33
    
Well, I don't know ;-) Probably fdopen allocates the new FILE object which is to be freed, but closing it is a bit too late. I think you'd still have to call fclose, though it may fail. I'd recommend against having to FILE objects pointing to the same descriptor. If you actually need that, duplicated the file handle. like fdopen(dup(fileno(f1)),..) –  Michael Krelin - hacker Dec 23 '11 at 23:38
    
f2 is not freed. Instead, it simply contains a stale file descriptor that has been closed. If you try to use f2 your application should <strike>crash</strike> (return an error) -- assuming you haven't opened another file with the same file descriptor yet. Never mix Standard C IO with POSIX IO on the same file, it'll lead to misery. :) –  sarnold Dec 24 '11 at 0:05
    
Yeah, stick to one. –  Michael Krelin - hacker Dec 24 '11 at 0:12

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