Documentation/device-mapper/snapshot.txt - kernel/msm - Gitiles

 Device-mapper snapshot support
 ==============================

 Device-mapper allows you, without massive data copying:

 *) To create snapshots of any block device i.e. mountable, saved states of
 the block device which are also writable without interfering with the
 original content;
 *) To create device "forks", i.e. multiple different versions of the
 same data stream.


 In both cases, dm copies only the chunks of data that get changed and
 uses a separate copy-on-write (COW) block device for storage.


 There are two dm targets available: snapshot and snapshot-origin.

 *) snapshot-origin <origin>

 which will normally have one or more snapshots based on it.
 Reads will be mapped directly to the backing device. For each write, the
 original data will be saved in the <COW device> of each snapshot to keep
 its visible content unchanged, at least until the <COW device> fills up.


 *) snapshot <origin> <COW device> <persistent?> <chunksize>

 A snapshot of the <origin> block device is created. Changed chunks of
 <chunksize> sectors will be stored on the <COW device>.  Writes will
 only go to the <COW device>.  Reads will come from the <COW device> or
 from <origin> for unchanged data.  <COW device> will often be
 smaller than the origin and if it fills up the snapshot will become
 useless and be disabled, returning errors.  So it is important to monitor
 the amount of free space and expand the <COW device> before it fills up.

 <persistent?> is P (Persistent) or N (Not persistent - will not survive
 after reboot).
 The difference is that for transient snapshots less metadata must be
 saved on disk - they can be kept in memory by the kernel.


 How this is used by LVM2
 ========================
 When you create the first LVM2 snapshot of a volume, four dm devices are used:

 1) a device containing the original mapping table of the source volume;
 2) a device used as the <COW device>;
 3) a "snapshot" device, combining #1 and #2, which is the visible snapshot
    volume;
 4) the "original" volume (which uses the device number used by the original
    source volume), whose table is replaced by a "snapshot-origin" mapping
    from device #1.

 A fixed naming scheme is used, so with the following commands:

 lvcreate -L 1G -n base volumeGroup
 lvcreate -L 100M --snapshot -n snap volumeGroup/base

 we'll have this situation (with volumes in above order):

 # dmsetup table|grep volumeGroup

 volumeGroup-base-real: 0 2097152 linear 8:19 384
 volumeGroup-snap-cow: 0 204800 linear 8:19 2097536
 volumeGroup-snap: 0 2097152 snapshot 254:11 254:12 P 16
 volumeGroup-base: 0 2097152 snapshot-origin 254:11

 # ls -lL /dev/mapper/volumeGroup-*
 brw-------  1 root root 254, 11 29 ago 18:15 /dev/mapper/volumeGroup-base-real
 brw-------  1 root root 254, 12 29 ago 18:15 /dev/mapper/volumeGroup-snap-cow
 brw-------  1 root root 254, 13 29 ago 18:15 /dev/mapper/volumeGroup-snap
 brw-------  1 root root 254, 10 29 ago 18:14 /dev/mapper/volumeGroup-base
	Device-mapper snapshot support
	==============================

	Device-mapper allows you, without massive data copying:

	*) To create snapshots of any block device i.e. mountable, saved states of
	the block device which are also writable without interfering with the
	original content;
	*) To create device "forks", i.e. multiple different versions of the
	same data stream.


	In both cases, dm copies only the chunks of data that get changed and
	uses a separate copy-on-write (COW) block device for storage.


	There are two dm targets available: snapshot and snapshot-origin.

	*) snapshot-origin <origin>

	which will normally have one or more snapshots based on it.
	Reads will be mapped directly to the backing device. For each write, the
	original data will be saved in the <COW device> of each snapshot to keep
	its visible content unchanged, at least until the <COW device> fills up.


	*) snapshot <origin> <COW device> <persistent?> <chunksize>

	A snapshot of the <origin> block device is created. Changed chunks of
	<chunksize> sectors will be stored on the <COW device>. Writes will
	only go to the <COW device>. Reads will come from the <COW device> or
	from <origin> for unchanged data. <COW device> will often be
	smaller than the origin and if it fills up the snapshot will become
	useless and be disabled, returning errors. So it is important to monitor
	the amount of free space and expand the <COW device> before it fills up.

	<persistent?> is P (Persistent) or N (Not persistent - will not survive
	after reboot).
	The difference is that for transient snapshots less metadata must be
	saved on disk - they can be kept in memory by the kernel.


	How this is used by LVM2
	========================
	When you create the first LVM2 snapshot of a volume, four dm devices are used:

	1) a device containing the original mapping table of the source volume;
	2) a device used as the <COW device>;
	3) a "snapshot" device, combining #1 and #2, which is the visible snapshot
	volume;
	4) the "original" volume (which uses the device number used by the original
	source volume), whose table is replaced by a "snapshot-origin" mapping
	from device #1.

	A fixed naming scheme is used, so with the following commands:

	lvcreate -L 1G -n base volumeGroup
	lvcreate -L 100M --snapshot -n snap volumeGroup/base

	we'll have this situation (with volumes in above order):

	# dmsetup table\|grep volumeGroup

	volumeGroup-base-real: 0 2097152 linear 8:19 384
	volumeGroup-snap-cow: 0 204800 linear 8:19 2097536
	volumeGroup-snap: 0 2097152 snapshot 254:11 254:12 P 16
	volumeGroup-base: 0 2097152 snapshot-origin 254:11

	# ls -lL /dev/mapper/volumeGroup-*
	brw------- 1 root root 254, 11 29 ago 18:15 /dev/mapper/volumeGroup-base-real
	brw------- 1 root root 254, 12 29 ago 18:15 /dev/mapper/volumeGroup-snap-cow
	brw------- 1 root root 254, 13 29 ago 18:15 /dev/mapper/volumeGroup-snap
	brw------- 1 root root 254, 10 29 ago 18:14 /dev/mapper/volumeGroup-base