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authorBrian Foster2021-02-23 10:22:39 -0800
committerDarrick J. Wong2021-02-25 07:58:46 -0800
commit06058bc40534530e617e5623775c53bb24f032cb (patch)
tree57cec4a3d2d6660f7b178fc022d25635836346c6 /mm
parent89e0eb8c13bb842e224b27d7e071262cd84717cb (diff)
xfs: don't reuse busy extents on extent trim
Freed extents are marked busy from the point the freeing transaction commits until the associated CIL context is checkpointed to the log. This prevents reuse and overwrite of recently freed blocks before the changes are committed to disk, which can lead to corruption after a crash. The exception to this rule is that metadata allocation is allowed to reuse busy extents because metadata changes are also logged. As of commit 97d3ac75e5e0 ("xfs: exact busy extent tracking"), XFS has allowed modification or complete invalidation of outstanding busy extents for metadata allocations. This implementation assumes that use of the associated extent is imminent, which is not always the case. For example, the trimmed extent might not satisfy the minimum length of the allocation request, or the allocation algorithm might be involved in a search for the optimal result based on locality. generic/019 reproduces a corruption caused by this scenario. First, a metadata block (usually a bmbt or symlink block) is freed from an inode. A subsequent bmbt split on an unrelated inode attempts a near mode allocation request that invalidates the busy block during the search, but does not ultimately allocate it. Due to the busy state invalidation, the block is no longer considered busy to subsequent allocation. A direct I/O write request immediately allocates the block and writes to it. Finally, the filesystem crashes while in a state where the initial metadata block free had not committed to the on-disk log. After recovery, the original metadata block is in its original location as expected, but has been corrupted by the aforementioned dio. This demonstrates that it is fundamentally unsafe to modify busy extent state for extents that are not guaranteed to be allocated. This applies to pretty much all of the code paths that currently trim busy extents for one reason or another. Therefore to address this problem, drop the reuse mechanism from the busy extent trim path. This code already knows how to return partial non-busy ranges of the targeted free extent and higher level code tracks the busy state of the allocation attempt. If a block allocation fails where one or more candidate extents is busy, we force the log and retry the allocation. Signed-off-by: Brian Foster <bfoster@redhat.com> Reviewed-by: Darrick J. Wong <djwong@kernel.org> Signed-off-by: Darrick J. Wong <djwong@kernel.org> Reviewed-by: Chandan Babu R <chandanrlinux@gmail.com> Reviewed-by: Christoph Hellwig <hch@lst.de>
Diffstat (limited to 'mm')
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