Incremental dumps
If you're doing several dumps in a row, the 2nd and subsequent dumps can be sped up. Here's how:
Create the first dump
# mkdir -p <path-to-images>/1/ # criu dump --tree <pid> --images-dir <path-to-images>/1/ --leave-running --track-mem
- Images are put into the
1/
sub-directory, since we're about to create the 2nd (and more) incremental dumps and it's handy to store them in this way; - The
--leave-running
option is used to make criu not kill the tasks after dump, but let them run further; - The
--track-mem
option makes criu ask kernel to monitor memory changes to optimize the subsequent dump.
Create the second dump
# mkdir <path-to-images>/2/ # criu dump --tree <pid> --images-dir <path-to-images>/2/ --leave-running --track-mem --prev-images-dir ../1/
- Note, that the
--prev-images-dir
path is relative to the--images-dir
one; - Similarly the 3rd and all the other dumps can be created.
Create the last dump
# mkdir <path-to-images>/N/ # criu dump --tree <pid> --images-dir <path-to-images>/N/ --track-mem --prev-images-dir ../N-1/
- No
--leave-running
option will make tasks be killed after dump; - No need in memory tracking option.
Restore
Now you can restore the processes from whatever images you want
# criu restore --images-dir <path-to-images>/ANY/
Data deduplication
After creation of such stack of images some data would get duplication in dumps. If you don't want to keep duplicates there's an ability to punch duplicate data from non-top images. There are two options for this.
- Deduplication action
- The
criu dedup
command would open the image directory and punch holes in the parent images in needed places
- Automatic deduplication while dumping
- The
--auto-dedup
option would cause every write to images with process' pages to go an punch holes in respective parent images.
The latter option appies to both dump
and page-server
actions and thus is extremely useful in disk-less migration scenario.