btrfs: only copy dir index keys when logging a directory
Currently, when logging a directory, we copy both dir items and dir index items from the fs/subvolume tree to the log tree. Both items have exactly the same data (same struct btrfs_dir_item), the difference lies in the key values, where a dir index key contains the index number of a directory entry while the dir item key does not, as it's used for doing fast lookups of an entry by name, while the former is used for sorting entries when listing a directory. We can exploit that and log only the dir index items, since they contain all the information needed to correctly add, replace and delete directory entries when replaying a log tree. Logging only the dir index items is also backward and forward compatible: an unpatched kernel (without this change) can correctly replay a log tree generated by a patched kernel (with this patch), and a patched kernel can correctly replay a log tree generated by an unpatched kernel. The backward compatibility is ensured because: 1) For inserting a new dentry: a dentry is only inserted when we find a new dir index key - we can only insert if we know the dir index offset, which is encoded in the dir index key's offset; 2) For deleting dentries: during log replay, before adding or replacing dentries, we first replay dentry deletions. Whenever we find a dir item key or a dir index key in the subvolume/fs tree that is not logged in a range for which the log tree is authoritative, we do the unlink of the dentry, which removes both the existing dir item key and the dir index key. Therefore logging just dir index keys is enough to ensure dentry deletions are correctly replayed; 3) For dentry replacements: they work when we log only dir index keys and this is mostly due to a combination of 1) and 2). If we replace a dentry with name "foobar" to point from inode A to inode B, then we know the dir index key for the new dentry is different from the old one, as it has an index number (key offset) larger than the old one. This results in replaying a deletion, through replay_dir_deletes(), that causes the old dentry to be removed, both the dir item key and the dir index key, as mentioned at 2). Then when processing the new dir index key, we add the new dentry, adding both a new dir item key and a new index key pointing to inode B, as stated in 1). The forward compatibility, the ability for a patched kernel to replay a log created by an older, unpatched kernel, comes from the changes required for making sure we are able to replay a log that only contains dir index keys - we simply ignore every dir item key we find. So modify directory logging to log only dir index items, and modify the log replay process to ignore dir item keys, from log trees created by an unpatched kernel, and process only with dir index keys. This reduces the amount of logged metadata by about half, and therefore the time spent logging or fsyncing large directories (less CPU time and less IO). The following test script was used to measure this change: #!/bin/bash DEV=/dev/nvme0n1 MNT=/mnt/nvme0n1 NUM_NEW_FILES=1000000 NUM_FILE_DELETES=10000 mkfs.btrfs -f $DEV mount -o ssd $DEV $MNT mkdir $MNT/testdir for ((i = 1; i <= $NUM_NEW_FILES; i++)); do echo -n > $MNT/testdir/file_$i done start=$(date +%s%N) xfs_io -c "fsync" $MNT/testdir end=$(date +%s%N) dur=$(( (end - start) / 1000000 )) echo "dir fsync took $dur ms after adding $NUM_NEW_FILES files" # sync to force transaction commit and wipeout the log. sync del_inc=$(( $NUM_NEW_FILES / $NUM_FILE_DELETES )) for ((i = 1; i <= $NUM_NEW_FILES; i += $del_inc)); do rm -f $MNT/testdir/file_$i done start=$(date +%s%N) xfs_io -c "fsync" $MNT/testdir end=$(date +%s%N) dur=$(( (end - start) / 1000000 )) echo "dir fsync took $dur ms after deleting $NUM_FILE_DELETES files" echo umount $MNT The tests were run on a physical machine, with a non-debug kernel (Debian's default kernel config), for different values of $NUM_NEW_FILES and $NUM_FILE_DELETES, and the results were the following: ** Before patch, NUM_NEW_FILES = 1 000 000, NUM_DELETE_FILES = 10 000 ** dir fsync took 8412 ms after adding 1000000 files dir fsync took 500 ms after deleting 10000 files ** After patch, NUM_NEW_FILES = 1 000 000, NUM_DELETE_FILES = 10 000 ** dir fsync took 4252 ms after adding 1000000 files (-49.5%) dir fsync took 269 ms after deleting 10000 files (-46.2%) ** Before patch, NUM_NEW_FILES = 100 000, NUM_DELETE_FILES = 1 000 ** dir fsync took 745 ms after adding 100000 files dir fsync took 59 ms after deleting 1000 files ** After patch, NUM_NEW_FILES = 100 000, NUM_DELETE_FILES = 1 000 ** dir fsync took 404 ms after adding 100000 files (-45.8%) dir fsync took 31 ms after deleting 1000 files (-47.5%) ** Before patch, NUM_NEW_FILES = 10 000, NUM_DELETE_FILES = 1 000 ** dir fsync took 67 ms after adding 10000 files dir fsync took 9 ms after deleting 1000 files ** After patch, NUM_NEW_FILES = 10 000, NUM_DELETE_FILES = 1 000 ** dir fsync took 36 ms after adding 10000 files (-46.3%) dir fsync took 5 ms after deleting 1000 files (-44.4%) ** Before patch, NUM_NEW_FILES = 1 000, NUM_DELETE_FILES = 100 ** dir fsync took 9 ms after adding 1000 files dir fsync took 4 ms after deleting 100 files ** After patch, NUM_NEW_FILES = 1 000, NUM_DELETE_FILES = 100 ** dir fsync took 7 ms after adding 1000 files (-22.2%) dir fsync took 3 ms after deleting 100 files (-25.0%) Reviewed-by: Josef Bacik <josef@toxicpanda.com> Signed-off-by: Filipe Manana <fdmanana@suse.com> Signed-off-by: David Sterba <dsterba@suse.com>
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