. .SH NOTES . This previous command syntax would perform two different operations: .br \fBlvconvert --thinpool\fP \fILV1\fP \fB--poolmetadata\fP \fILV2\fP .br If LV1 was not a thin pool, the command would convert LV1 to a thin pool, optionally using a specified LV for metadata. But, if LV1 was already a thin pool, the command would swap the current metadata LV with LV2 (for repair purposes.) .P In the same way, this previous command syntax would perform two different operations: .br \fBlvconvert --cachepool\fP \fILV1\fP \fB--poolmetadata\fP \fILV2\fP .br If LV1 was not a cache pool, the command would convert LV1 to a cache pool, optionally using a specified LV for metadata. But, if LV1 was already a cache pool, the command would swap the current metadata LV with LV2 (for repair purposes.) . .SH EXAMPLES . Convert a linear LV to a two-way mirror LV. .br .B lvconvert --type mirror --mirrors 1 vg/lvol1 .P Convert a linear LV to a two-way RAID1 LV. .br .B lvconvert --type raid1 --mirrors 1 vg/lvol1 .P Convert a mirror LV to use an in-memory log. .br .B lvconvert --mirrorlog core vg/lvol1 .P Convert a mirror LV to use a disk log. .br .B lvconvert --mirrorlog disk vg/lvol1 .P Convert a mirror or raid1 LV to a linear LV. .br .B lvconvert --type linear vg/lvol1 .P Convert a mirror LV to a raid1 LV with the same number of images. .br .B lvconvert --type raid1 vg/lvol1 .P Convert a linear LV to a two-way mirror LV, allocating new extents from specific PV ranges. .br .B lvconvert --mirrors 1 vg/lvol1 /dev/sda:0-15 /dev/sdb:0-15 .P Convert a mirror LV to a linear LV, freeing physical extents from a specific PV. .br .B lvconvert --type linear vg/lvol1 /dev/sda .P Split one image from a mirror or raid1 LV, making it a new LV. .br .B lvconvert --splitmirrors 1 --name lv_split vg/lvol1 .P Split one image from a raid1 LV, and track changes made to the raid1 LV while the split image remains detached. .br .B lvconvert --splitmirrors 1 --trackchanges vg/lvol1 .P Merge an image (that was previously created with --splitmirrors and --trackchanges) back into the original raid1 LV. .br .B lvconvert --mergemirrors vg/lvol1_rimage_1 .P Replace PV /dev/sdb1 with PV /dev/sdf1 in a raid1/4/5/6/10 LV. .br .B lvconvert --replace /dev/sdb1 vg/lvol1 /dev/sdf1 .P Replace 3 PVs /dev/sd[b-d]1 with PVs /dev/sd[f-h]1 in a raid1 LV. .br .B lvconvert --replace /dev/sdb1 --replace /dev/sdc1 --replace /dev/sdd1 .RS .B vg/lvol1 /dev/sd[fgh]1 .RE .P Replace the maximum of 2 PVs /dev/sd[bc]1 with PVs /dev/sd[gh]1 in a raid6 LV. .br .B lvconvert --replace /dev/sdb1 --replace /dev/sdc1 vg/lvol1 /dev/sd[gh]1 .P Convert a thick LV into a thin-pool data volume and continue using this LV through thinLV and for the conversion set the pool metadata size to 1GiB. .br .B lvconvert --type thin --poolmetadatasize 1G vg/lvol1 .P Convert an LV into a thin-pool with VDO deduplication and compression for storing its data. .br .B lvconvert --type thin-pool --pooldatavdo y vg/lvol1 .P Convert an LV into a thin LV in the specified thin pool. The existing LV is used as an external read-only origin for the new thin LV. .br .B lvconvert --type thin --thinpool vg/tpool1 vg/lvol1 .P Convert an LV into a thin LV in the specified thin pool. The existing LV is used as an external read-only origin for the new thin LV, and is renamed "external". .br .B lvconvert --type thin --thinpool vg/tpool1 .RS .B --originname external vg/lvol1 .RE .P Convert an LV to a cache pool LV using another specified LV for cache pool metadata. .br .B lvconvert --type cache-pool --poolmetadata vg/poolmeta1 vg/lvol1 .P Convert an LV to a cache LV using the specified cache pool and chunk size. .br .B lvconvert --type cache --cachepool vg/cpool1 -c 128 vg/lvol1 .P Detach and keep the cache pool from a cache LV. .br .B lvconvert --splitcache vg/lvol1 .P Detach and remove the cache pool from a cache LV. .br .B lvconvert --uncache vg/lvol1