Messages in this thread | | | From | (Eric W. Biederman) | Date | Tue, 25 Feb 2014 14:03:36 -0800 | Subject | Re: [PATCH 08/11] vfs: Merge check_submounts_and_drop and d_invalidate |
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"J. Bruce Fields" <bfields@fieldses.org> writes:
> On Mon, Feb 24, 2014 at 04:01:29PM -0800, Eric W. Biederman wrote: >> Miklos Szeredi <miklos@szeredi.hu> writes: >> >> > >> > You can optimize this by including the negative check within the above d_locked >> > region and calling __d_drop() instead. >> >> For this patch just moving the code and not changing it is the corret >> thing to do because it helps with review and understanding the code. >> >> There are two ways I could see going with optimizing the preamble. >> Simply dropping the d_lock from around the d_unhashed test as a pointer >> dereference should be atomic, and the test is racy against >> d_materialise_unique. > > Could you explain? What's the race, and what are the consequences?
>> (We don't always hold the parent directories inode mutex when d_invalidate is called).
d_unhashed is not a permanent condition because of d_materialise_unique, and d_splice_alias.
d_invalidate can be called on an unhashed dentry in one of two ways (either d_revalidate dropped the dentry or another routine that drops the dentry beat the current invocation of d_invalidate to the job).
There are 3 places d_revalidate is called.
Once on the rcu path with with the appropriate flag set.
Once without out the parent i_mutex held, just off of the rcu path, on that path d_invalidate is when d_revalidate fails.
Once during lookup with the parent directory i_mutex held.
Because the parent direcories i_mutex is not always held accross d_revalidate and the following d_invalidate it happens that d_invalidate is not always an atomic operation.
At worst the race results in a dentry that is dropped when it could be hashed, that we will resurrect next time someone attempts to look it up and d_materialise_unique/d_splice_alias is called.
None of that really matters for optimizing d_invalidate, but it is part of the background in which d_invalidate lives. All that is significant in d_invalidate is knowing that d_materialise_unique, and possibly d_splice_alias may run concurrently with d_invalidate. It is unlikely and essentially harmless.
After my patchset (because I removed all of the d_drop's from .d_revalidate) the only race that should remain is between two parallel calls of d_invalidate. Which probably means we can remove the test for d_unhashed altogether.
Right now I just want to make this first big step and make certain the code is solid. After that optimization is easy.
Eric
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