Thursday, February 17, 2011

Adding a ZFS zvol for extra swap space

ZFS sometimes truly takes the think work out of allocating and managing space on your file systems. But only sometimes.

Many operations on Solaris, OpenSolaris and Indiana will cause you to run into swap space issues. For example using the new Solaris 10 VirtualBox appliance, you will get the following message when you try to install the Recommended Patch Cluster:

Insufficient space available in /var/run to complete installation of this patch
set. On supported configurations, /var/run is a tmpfs filesystem resident in
swap. Additional free swap is required to proceed applying further patches. To
increase the available free swap, either add new storage resources to swap
pool, or reboot the system. This script may then be rerun to continue
installation of the patch set.

This is fixed easily enough by adding more swap space, like this:

# zfs create -V 1GB -b $(pagesize) rpool/swap2
# zfs set refreservation=1GB rpool/swap2
# swap -a /dev/zvol/dsk/rpool/swap2
# swap -l
swapfile             dev  swaplo blocks   free
/dev/zvol/dsk/rpool/swap 181,2       8 1048568 1048568
/dev/zvol/dsk/rpool/swap2 181,1       8 2097144 2097144

Setting the reservation is important, particularly if you plan on making the change permanent, eg by adding the new zvol as a swap entry in /etc/vfstab. ZFS does not reserve the space for swapping otherwise, so the swap system may think there is space which isn't actually there if you don't do this.

The -b option sets the volblocksize to improve swap performance by aligning the volume I/O units on disk to the size of the host architecture memory page size (4 KB on x86 systems and 8KB on SPARC, as reported by the pagesize command.)

If this is just temporary, then cleaning up afterwards is just as easy:

# swap -d /dev/zvol/dsk/rpool/swap2
# zfs destroy rpool/swap2

It is also possible to grow the existing swap volume. To do so, set a new size and refreservation for the existing volume like this:

# swap -d /dev/zvol/dsk/rpool/swap
# zfs set volsize=2g rpool/swap
# zfs set refreservation=2g rpool/swap
# swap -a /dev/zvol/dsk/rpool/swap

And finally, it is possible to do the above without unmounting/remounting the swap device, by using the following "trick":

# zfs set volsize=2g rpool/swap
# zfs set refreservation=2g rpool/swap
# swap -l | awk '/rpool.swap/ {print $3+$4}'|read OFFSET
# env NOINUSE_CHECK=1 swap -a /dev/zvol/dsk/rpool/swap $OFFSET

The above will calculate the offset in the swap device and add a new "device" to the list of swap devices. This will automatically use the added space in the zvol. The Offset will be shown as the "swaplo" value in swap -l output. Multiple swap devices on the same physical media is not ideal, but on the next reboot (or by deleting and re-adding the swap device) the system will recognise the full size of the volume.

No worries about where the space comes from. ZFS just allocates it! The flip side of the coin is that once you have quotas, reservations, allocations, indirect allocations such as from snapshots, figuring out where your space has gone can become quite tricky! I'll blog about this some time!

2 comments:

Computer Dude Sven said...

Thank you. This really helped with my Solaris 10 patching.

Trixter said...

This was the most concise explanation of how to grow swap on Sol10/ZFS that I have come across -- thank you for writing it, it really helped me out. It is a little freaky having two swap areas on the same volume, but at least I get why that works (and it's preferable, as on a reboot it will become copacetic.