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Are unlink, fsync, and rename the only ones that are by definition atomic?

Edit: atomic means that an operation either succeeds and has an effect or has fails and has no effect; an operation must not fail and have an effect.

clearly if the kernel panics, the program can't handle the error of the operation failing but it must consider in this case that it did fail

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You should clarify the operating system, file system type and version. –  Ondrej Tucny Mar 8 '11 at 12:06
    
@OndrejTucny: If I understand correctly, he refers to a posix-style system, thus those information are not existent. –  mafu Feb 1 '12 at 13:15

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up vote 3 down vote accepted

I'm not sure fsync(2) is atomic; if a file has 100 megabytes dirty in the buffer cache, it'll take several seconds to write that data out, and the kernel may crash while the transfer to disk is in progress. Perhaps the DMA engine on board can only handle 4-megabyte writes. Perhaps there is no DMA support, and the CPU must schedule every write via 512 byte blocks.

What do you mean by 'atomic'?

mkdir is probably 'atomic', either the directory exists on disk and is linked in to a parent directory, or the directory data structure isn't yet linked into a parent directory, and is therefore unreachable --> doesn't exist.

Same might go for mount(2): it would be hard to find a mount(2) half-way complete, and if it fails, the entire mount fails: either the filesystem is mounted, or it isn't.

umount(2) is funny, it can be done lazily, but once it is unmounted, it cannot be used for open(2) or creat(2) calls.

So, I guess it comes down to, what do you mean by 'atomic'? :)

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Here's an article listing some atomic file operations:

http://rcrowley.org/2010/01/06/things-unix-can-do-atomically.html

mv, link, symlink, mkdir and some ways of opening files are atomic.

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You will probably find your answer in the POSIX specification. You have to register to read it, but other than that, I think it is free to view it online.

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