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authorJoel Becker <joel.becker@oracle.com>2008-09-04 07:03:39 +0400
committerMark Fasheh <mfasheh@suse.com>2008-10-14 03:57:07 +0400
commit1187c968852e3c668f3b9376083851f81f6eee22 (patch)
tree23a34ab89f724cc015f9e4f6e8bc6ed0fc20ce51 /crypto/aes_generic.c
parent08413899db89d8d636c2a2d4ba5c356ab587d7ef (diff)
downloadlinux-1187c968852e3c668f3b9376083851f81f6eee22.tar.xz
ocfs2: Limit inode allocation to 32bits.
ocfs2 inode numbers are block numbers. For any filesystem with less than 2^32 blocks, this is not a problem. However, when ocfs2 starts using JDB2, it will be able to support filesystems with more than 2^32 blocks. This would result in inode numbers higher than 2^32. The problem is that stat(2) can't handle those numbers on 32bit machines. The simple solution is to have ocfs2 allocate all inodes below that boundary. The suballoc code is changed to honor an optional block limit. Only the inode suballocator sets that limit - all other allocations stay unlimited. The biggest trick is to grow the inode suballocator beneath that limit. There's no point in allocating block groups that are above the limit, then rejecting their elements later on. We want to prevent the inode allocator from ever having block groups above the limit. This involves a little gyration with the local alloc code. If the local alloc window is above the limit, it signals the caller to try the global bitmap but does not disable the local alloc file (which can be used for other allocations). [ Minor cleanup - removed an ML_NOTICE comment. --Mark ] Signed-off-by: Joel Becker <joel.becker@oracle.com> Signed-off-by: Mark Fasheh <mfasheh@suse.com>
Diffstat (limited to 'crypto/aes_generic.c')
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