Is there any way to "atomically" unmount an FS, make an LVM snapshot and mount it back?
It is possible to snapshot a mounted filesystem, even when the filesystem is not on an LVM volume. If the filesystem is on LVM, or it has built-in snapshot facilities (e.g. btrfs or ZFS), then use those instead.
The below instructions are fairly low-level, but they can be useful if you want the ability to snapshot a filesystem that is not on an LVM volume, and can't move it to a new LVM volume. Still, they're not for the faint-hearted: if you make a mistake, you may corrupt your filesystem. Make sure to consult the official documentation and dmsetup man page, triple-check the commands you're running, and have backups!
The Linux kernel has an awesome facility called the Device Mapper, which can do nice things such as create block devices that are "views" of other block devices, and of course snapshots. It is also what LVM uses under the hood to do the heavy lifting.
In the below examples I'll assume you want to snapshot /home, which is an ext4 filesystem located on /dev/sda2.
First, find the name of the device mapper device that the partition is mounted on:
# mount | grep home
/dev/mapper/home on /home type ext4 (rw,relatime,data=ordered)
Here, the device mapper device name is home. If the path to the block device does not start with /dev/mapper/, then you will need to create a device mapper device, and remount the filesystem to use that device instead of the HDD partition. You'll only need to do this once.
# dmsetup create home --table "0 $(blockdev --getsz /dev/sda2) linear /dev/sda2 0"
# umount /home
# mount -t ext4 /dev/mapper/home /home
Next, get the block device's device mapper table:
# dmsetup table home
home: 0 3864024960 linear 9:2 0
Your numbers will probably be different. The device target should be linear; if yours isn't, you may need to take special considerations. If the last number (start offset) is not 0, you will need to create an intermediate block device (with the same table as the current one) and use that as the base instead of /dev/sda2.
In the above example, home is using a single-entry table with the linear target. You will need to replace this table with a new one, which uses the snapshot target.
Device mapper provides three targets for snapshotting:
The snapshot target, which saves writes to the specified COW device. (Note that even though it's called a snapshot, the terminology is misleading, as the snapshot will be writable, but the underlying device will remain unchanged.)
The snapshot-origin target, which sends writes to the underlying device, but also sends the old data that the writes overwrote to the specified COW device.
Typically, you would make home a snapshot-origin target, then create some snapshot targets on top of it. This is what LVM does. However, a simpler method would be to simply create a snapshot target directly, which is what I'll show below.
Regardless of the method you choose, you must not write to the underlying device (/dev/sda2), or the snapshots will see a corrupted view of the filesystem. So, as a precaution, you should mark the underlying block device as read-only:
# blockdev --setro /dev/sda2
This won't affect device-mapper devices backed by it, so if you've already re-mounted /home on /dev/mapper/home, it should not have a noticeable effect.
Next, you will need to prepare the COW device, which will store changes since the snapshot was made. This has to be a block device, but can be backed by a sparse file. If you want to use a sparse file of e.g. 32GB:
# dd if=/dev/zero bs=1M count=0 seek=32768 of=/home_cow
# losetup --find --show /home_cow
/dev/loop0
Obviously, the sparse file shouldn't be on the filesystem you're snapshotting :)
Now you can reload the device's table and turn it into a snapshot device:
# dmsetup suspend home && \
dmsetup reload home --table \
"0 $(blockdev --getsz /dev/sda2) snapshot /dev/sda2 /dev/loop0 PO 8" && \
dmsetup resume home
If that succeeds, new writes to /home should now be recorded in the /home_cow file, instead of being written to /dev/sda2. Make sure to monitor the size of the COW file, as well as the free space on the filesystem it's on, to avoid running out of COW space.
Once you no longer need the snapshot, you can merge it (to permanently commit the changes in the COW file to the underlying device), or discard it.
To merge it:
replace the table with a snapshot-merge target instead of a snapshot target:
# dmsetup suspend home && \
dmsetup reload home --table \
"0 $(blockdev --getsz /dev/sda2) snapshot-merge /dev/sda2 /dev/loop0 P 8" && \
dmsetup resume home
Next, monitor the status of the merge until all non-metadata blocks are merged:
# watch dmsetup status home
...
0 3864024960 snapshot-merge 281688/2097152 1104
Note the 3 numbers at the end (X/Y Z). The merge is complete when X = Z.
Next, replace the table with a linear target again:
# dmsetup suspend home && \
dmsetup reload home --table \
"0 $(blockdev --getsz /dev/sda2) linear /dev/sda2 0" && \
dmsetup resume home
Now you can dismantle the loop device:
# losetup -d /dev/loop0
Finally, you can delete the COW file.
# rm /home_cow
To discard the snapshot, unmount /home, follow steps 3-5 above, and remount /home. Although Device Mapper will allow you to do this without unmounting /home, it doesn't make sense (since the running programs' state in memory won't correspond to the filesystem state any more), and it will likely corrupt your filesystem.
