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Note: Please read to the end before marking this as duplicate. While it's similar, the scope of what I'm looking for in an answer extends beyond what the previous question was asking for.

Widespread practice, which I tend to agree with, tends to be treating close purely as a resource-deallocation function for file descriptors rather than a potential IO operation with meaningful failure cases. And indeed, prior to the resolution of issue 529, POSIX left the state of the file descriptor (i.e. whether it was still allocated or not) unspecified after errors, making it impossible to respond portably to errors in any meaningful way.

However, a lot of GNU software goes to great lengths to check for errors from close, and the Linux man page for close calls failure to do so "a common but nevertheless serious programming error". NFS and quotas are cited as circumstances under which close might produce an error but does not give details.

What are the situations under which close might fail, on real-world systems, and are they relevant today? I'm particularly interested in knowing whether there are any modern systems where close fails for any non-NFS, non-device-node-specific reasons, and as for NFS or device-related failures, under what conditions (e.g. configurations) they might be seen.

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Perhaps this question is similar to the one it's marked as a duplicate of, but the other question does not have sufficient answers that address the specifics I asked for at the end of this one, and does not seem to be asking for such specifics. So I think there's at least some difference. If this question is to remain closed, how should I go about getting more-acceptable answers to the question it's a "duplicate" of? –  R.. Jun 29 at 16:41
@NominalAnimal: What does "written correctly, but not in long-term storage yet" mean, though? I can't pull out the nerdstick/shut off the NFS server as soon as close returns successfully---I have to wait for a sync---so what does close-checking add, exactly, in terms of guarantees? Is it just a canary that makes some noise if you've got a kernel bug?) –  tmyklebu Jun 29 at 19:11
@NominalAnimal: My impression -- and this may be wrong, that's what I'm trying to ascertain -- is that checking close provides absolutely no information about failure to commit the file to storage, either due to physical device failures or logical failures (corrupted filesystem). So in a sense, the only usefulness of checking close seems to be attempting to provide a stronger data-consistency guarantee for NFS-with-caching than what you provide for local files. And that strikes me as dubious. If you care about consistency you should care about both, and use fsync. –  R.. Jun 29 at 19:39
@tmyklebu, R..: Canary is probably the best term to describe how I think of it. No "stronger" guarantees, I just don't want to miss a problem detected by the kernel/nfsd/userspace components of fuse. Bugs in corrupted fs handling, delegation issues with NFSv4 on spotty connections, bad error handling in fuse filesystems, are what I am thinking about -- human errors. You seem to assume/assert close() will never fail in any meaningful way. Based on what? Trust? Hope? Standards? I treat close() just like I would a read() or write(). I may be wrong, but I want to err on the safe side. –  Nominal Animal Jun 29 at 20:11
@NominalAnimal: It's not that I assume close will never fail in a meaningful way. It's that, if it does, I have no idea how to recover since I have no clear mental model of why it would fail. So I print a message to stderr and bomb out instead of trying to handle it. Error paths that are only triggered under conditions I don't understand give me the willies. (If it really is just a canary for buggy fs implementations, this is all fine.) –  tmyklebu Jun 29 at 20:17

2 Answers 2

Once upon a time (24 march, 2007), Eric Sosman had the following tale to share in the comp.lang.c newsgroup:

(Let me begin by confessing to a little white lie: It wasn't fclose() whose failure went undetected, but the POSIX close() function; this part of the application used POSIX I/O. The lie is harmless, though, because the C I/O facilities would have failed in exactly the same way, and an undetected failure would have had the same consequences. I'll describe what happened in terms of C's I/O to avoid dwelling on POSIX too much.)

The situation was very much as Richard Tobin described. The application was a document management system that loaded a document file into memory, applied the user's edits to the in- memory copy, and then wrote everything to a new file when told to save the edits. It also maintained a one-level "old version" backup for safety's sake: the Save operation wrote to a temp file, and then if that was successful it deleted the old backup, renamed the old document file to the backup name, and renamed the temp file to the document. bak -> trash, doc -> bak, tmp -> doc.

The write-to-temp-file step checked almost everything. The fopen(), obviously, but also all the fwrite()s and even a final fflush() were checked for error indications -- but the fclose() was not. And on one system it happened that the last few disk blocks weren't actually allocated until fclose() -- the I/O system sat atop VMS' lower-level file access machinery, and a little bit of asynchrony was inherent in the arrangement.

The customer's system had disk quotas enabled, and the victim was right up close to his limit. He opened a document, edited for a while, saved his work thus far, and exceeded his quota -- which went undetected because the error didn't appear until the unchecked fclose(). Thinking that the save succeeded, the application discarded the old backup, renamed the original document to become the backup, and renamed the truncated temp file to be the new document. The user worked a little longer and saved again -- same thing, except you'll note that this time the only surviving complete file got deleted, and both the backup and the master document file are truncated. Result: the whole document file became trash, not just the latest session of work but everything that had gone before.

As Murphy would have it, the victim was the boss of the department that had purchased several hundred licenses for our software, and I got the privilege of flying to St. Louis to be thrown to the lions.


In this case, the failure of fclose() would (if detected) have stopped the delete-and-rename sequence. The user would have been told "Hey, there was a problem saving the document; do something about it and try again. Meanwhile, nothing has changed on disk." Even if he'd been unable to save his latest batch of work, he would at least not have lost everything that went before.

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My question contained the phrase "on real-world systems, and are they relevant today" and was tagged posix and linux. So an anecdote related to VMS does not really apply. Are quotas on any modern systems implemented that nonsensical way (checking on flush-to-physical-media rather than on logical write)? –  R.. Jun 29 at 20:07
Part of the reason the distinction is relevant is that POSIX places certain fairly strong requirements on file operations on regular files: they're atomic with respect to each other, and immediately visible to other processes. So if write succeeds, the data actually has to be committed to the logical file (so other processes accessing the file can see it); the only question is whether it's on the physical media, which only matters in case power fails. And for the latter, only fsync, not close checking, will tell you the answer. –  R.. Jun 29 at 20:09
@R..: I think it's still an interesting tale to tell to those who wonder why you should check the return value of (f)close(), but I'll be happy to delete it if it is irrelevant. –  Nisse Engström Jun 29 at 20:14
@R..: A fuse filesystem is allowed to cache the logical file, since all processes accessing it will see the same cached state. It is not required to flush the cache to say an underlining file system at any point; if it does a final flush at close time, that is a perfectly valid point of reporting a write error (originating from the underlying storage filesystem, not at the logical level). Nisse Engström: fuse filesystems are not that different than that VMS filesystem, so in my humble opinion, the anecdote is valid and useful. –  Nominal Animal Jun 29 at 20:18
The bit about fflush appears to be a red herring here. fflush does not, to my knowledge, cause a fsync. All the anecdote seems to be getting at is that write calls can succeed when a subsequent close would fail. –  tmyklebu Jun 29 at 20:23

Consider the inverse of your question: "Under what situations can we guarantee that close will succeed?" The answer is:

  • when you call it correctly, and
  • when you know that the file system the file is on does not return errors from close in this OS and Kernel version

If you are convinced that you program doesn't have any logic errors and you have complete control over the Kernel and file system, then you don't need to check the return value of close.

Otherwise, you have to ask yourself how much you care about diagnosing problems with close. I think there is value in checking and logging the error for diagnostic purposes:

  • If a coder makes a logic error and passes an invalid fd to close, then you'll be able to quickly track it down. This may help to catch a bug early before it causes problems.
  • If a user runs the program in an environment where close does return an error when (for example) data was not flushed, then you'll be able to quickly diagnose why the data got corrupted. It's an easy red flag because you know the error should not occur.
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Passing an invalid fd to close is not catchable; more-likely, the fd is valid but belongs to another part of the code, and by closing it, you trigger catastrophic file corruption or information leak. So I don't think there's any value in trying to catch EBADF. You just need to ensure that it can't happen (and possibly use assert at debug time if you're having trouble doing that). In any case, EBADF is outside the scope of what I intended to ask about. –  R.. Jun 29 at 19:34
As for the second case, close does not flush data for ordinary local files. Aside from deallocating the fd and resources associated with the open file description (if this was the last fd referring to this open file description) it's essentially a no-op. So I can't see how checking for errors from close does anything but give you some (still weak) consistency guarantees for unusual (NFS-with-caching, strange devices, fuse, ...?) files that you would not have for ordinary local files. It seems like if you really need consistency you have to use fsync. And if not, why bother? –  R.. Jun 29 at 19:42
@R..: fuse filesystems do have a filesystem-specific file_operations->flush handler, called at close time, and this is the only point where an error can occur. So, your assertion that "close does not flush data for ordinary local files" is incorrect for fuse filesystems. Exactly what that ->flush entails, is completely up to the filesystem -- I have no idea -- but I for one do not wish to assume it cannot fail, and I have yet to see any reason why it should never fail. (Other than lots of applications not checking for close() errors.) –  Nominal Animal Jun 29 at 21:01
@NominalAnimal: Are you saying that fuse doesn't provide any way to report errors at write time? That perhaps makes the issue more interesting. –  R.. Jun 30 at 6:35
@R..: No, I mean there may be fuse file systems that can detect an error at close time they could not detect during the last write, even if they are sane and useful otherwise. For example, consider a fuse filesystem that commits the file to revision control at close time, but with current user revoked access between the last write and close. –  Nominal Animal Jun 30 at 9:16

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