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Introduce a new target that is meant for file system developers to test file system integrity at particular points in the life of a file system. We capture all write requests and associated data and log them to a separate device for later replay. There is a userspace utility to do this replay. The idea behind this is to give file system developers a tool to verify that the file system is always consistent. Signed-off-by: Josef Bacik <jbacik@fb.com> Reviewed-by: Zach Brown <zab@zabbo.net> Signed-off-by: Mike Snitzer <snitzer@redhat.com>
141 lines
4.7 KiB
Plaintext
141 lines
4.7 KiB
Plaintext
dm-log-writes
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=============
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This target takes 2 devices, one to pass all IO to normally, and one to log all
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of the write operations to. This is intended for file system developers wishing
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to verify the integrity of metadata or data as the file system is written to.
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There is a log_write_entry written for every WRITE request and the target is
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able to take arbitrary data from userspace to insert into the log. The data
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that is in the WRITE requests is copied into the log to make the replay happen
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exactly as it happened originally.
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Log Ordering
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============
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We log things in order of completion once we are sure the write is no longer in
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cache. This means that normal WRITE requests are not actually logged until the
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next REQ_FLUSH request. This is to make it easier for userspace to replay the
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log in a way that correlates to what is on disk and not what is in cache, to
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make it easier to detect improper waiting/flushing.
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This works by attaching all WRITE requests to a list once the write completes.
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Once we see a REQ_FLUSH request we splice this list onto the request and once
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the FLUSH request completes we log all of the WRITEs and then the FLUSH. Only
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completed WRITEs, at the time the REQ_FLUSH is issued, are added in order to
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simulate the worst case scenario with regard to power failures. Consider the
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following example (W means write, C means complete):
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W1,W2,W3,C3,C2,Wflush,C1,Cflush
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The log would show the following
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W3,W2,flush,W1....
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Again this is to simulate what is actually on disk, this allows us to detect
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cases where a power failure at a particular point in time would create an
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inconsistent file system.
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Any REQ_FUA requests bypass this flushing mechanism and are logged as soon as
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they complete as those requests will obviously bypass the device cache.
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Any REQ_DISCARD requests are treated like WRITE requests. Otherwise we would
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have all the DISCARD requests, and then the WRITE requests and then the FLUSH
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request. Consider the following example:
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WRITE block 1, DISCARD block 1, FLUSH
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If we logged DISCARD when it completed, the replay would look like this
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DISCARD 1, WRITE 1, FLUSH
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which isn't quite what happened and wouldn't be caught during the log replay.
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Target interface
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================
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i) Constructor
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log-writes <dev_path> <log_dev_path>
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dev_path : Device that all of the IO will go to normally.
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log_dev_path : Device where the log entries are written to.
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ii) Status
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<#logged entries> <highest allocated sector>
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#logged entries : Number of logged entries
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highest allocated sector : Highest allocated sector
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iii) Messages
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mark <description>
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You can use a dmsetup message to set an arbitrary mark in a log.
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For example say you want to fsck a file system after every
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write, but first you need to replay up to the mkfs to make sure
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we're fsck'ing something reasonable, you would do something like
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this:
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mkfs.btrfs -f /dev/mapper/log
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dmsetup message log 0 mark mkfs
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<run test>
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This would allow you to replay the log up to the mkfs mark and
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then replay from that point on doing the fsck check in the
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interval that you want.
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Every log has a mark at the end labeled "dm-log-writes-end".
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Userspace component
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===================
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There is a userspace tool that will replay the log for you in various ways.
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It can be found here: https://github.com/josefbacik/log-writes
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Example usage
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=============
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Say you want to test fsync on your file system. You would do something like
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this:
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TABLE="0 $(blockdev --getsz /dev/sdb) log-writes /dev/sdb /dev/sdc"
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dmsetup create log --table "$TABLE"
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mkfs.btrfs -f /dev/mapper/log
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dmsetup message log 0 mark mkfs
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mount /dev/mapper/log /mnt/btrfs-test
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<some test that does fsync at the end>
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dmsetup message log 0 mark fsync
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md5sum /mnt/btrfs-test/foo
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umount /mnt/btrfs-test
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dmsetup remove log
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replay-log --log /dev/sdc --replay /dev/sdb --end-mark fsync
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mount /dev/sdb /mnt/btrfs-test
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md5sum /mnt/btrfs-test/foo
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<verify md5sum's are correct>
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Another option is to do a complicated file system operation and verify the file
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system is consistent during the entire operation. You could do this with:
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TABLE="0 $(blockdev --getsz /dev/sdb) log-writes /dev/sdb /dev/sdc"
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dmsetup create log --table "$TABLE"
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mkfs.btrfs -f /dev/mapper/log
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dmsetup message log 0 mark mkfs
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mount /dev/mapper/log /mnt/btrfs-test
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<fsstress to dirty the fs>
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btrfs filesystem balance /mnt/btrfs-test
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umount /mnt/btrfs-test
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dmsetup remove log
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replay-log --log /dev/sdc --replay /dev/sdb --end-mark mkfs
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btrfsck /dev/sdb
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replay-log --log /dev/sdc --replay /dev/sdb --start-mark mkfs \
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--fsck "btrfsck /dev/sdb" --check fua
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And that will replay the log until it sees a FUA request, run the fsck command
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and if the fsck passes it will replay to the next FUA, until it is completed or
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the fsck command exists abnormally.
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