בתאריך יום ב׳, 27 באפר׳ 2020, 17:15, מאת Marcin Sobczyk <
msobczyk(a)redhat.com>:
Hi,
recently I've been working on a PoC for OST that replaces the usage
of lago templates with pre-built, layered VM images packed in RPMs [2][7].
What's the motivation?
There are two big pains around OST - first one is that it's slow
and the second one is it uses lago, which is unmaintained.
How is OST working currently?
Lago launches VMs based on templates. It actually has its own mechanism
for VM
templating - you can find the ones that we currently use here [1]. How
these
templates are created? There is a multiple-page doc somewhere that
describes the process,
but few are familiar with it. These templates are nothing special really -
just a xzipped
qcow with some metadata attached. The proposition here is to replace those
templates with
RPMs with qcows inside. The RPMs themselves would be built by a CI
pipeline. An example
of a pipeline like this can be found here [2].
Why RPMs?
It ticks all the boxes really. RPMs provide:
- tried and well known mechanisms for packaging, versioning, and
distribution instead
of lago's custom ones
- dependencies which permit to layer the VM images in a controllable way
- we already install RPMs when running OST, so using the new ones is a
matter of adding
some dependencies
How the image building pipeline works? [3]
- we download a dvd iso for installation of the distro
- we use 'virt-install' with the dvd iso + kickstart file to build a
'base' layer
qcow image
- we create another qcow image that has the 'base' image as the backing
one. In this
image we use 'virt-customize' to run 'dnf upgrade'. This is our
'upgrade' layer.
- we create two more qcow images that have the 'upgrade' image as the
backing one. On one
of them we install the 'ovirt-host' package and on the other the
'ovirt-engine'. These are
our 'host-installed' and 'engine-installed' layers.
- we create 4 RPMs for these qcows:
* ost-images-base
* ost-images-upgrade
* ost-images-host-installed
* ost-images-engine-installed
- we publish the RPMs to
templates.ovirt.org/yum/ DNF repository (not
implemented yet)
Each of those RPMs holds their respective qcow image. They also have
proper dependencies
set up - since 'upgrade' layer requires 'base' layer to be functional,
it
has an RPM
requirement to that package. Same thing happens for '*-installed' packages
which depend on
'upgrade' package.
Since this is only a PoC there's still a lot of room for improvement
around the pipeline.
The 'base' RPM would be actually built very rarely, since it's a bare
distro, and the
'upgrade' and '*-installed' RPMs would be built nightly. This would
allow
us to simply
type 'dnf upgrade' on any machine and have a fresh set of VMs ready to be
used with OST.
Advantages:
- we have CI for building OST images instead of current, obscure template
creating process
- we get rid of lots of unnecessary preparations that are done during each
OST run
by moving stuff from 'deploy scripts' [4] to image-building pipeline -
this should
speed up the runs a lot
- if the nightly pipeline for building images is not successful, the RPMs
won't be
published - OST will use the older ones. This makes a nice "early error
detection"
mechanism and can partially mitigate situations where everything is
blocked because
of some, i.e. dependency issues.
- it's another step for removing responsibilities from lago
- the pre-built VM images can be used for much more than OST - functional
testing of
vdsm/engine on a VM? We have an image for that
- we can build images for multiple distros, both u/s and d/s, easily
Caveats:
- we have to download the RPMs before running OST and that takes time,
since they're big.
This can be handled by having them cached on the CI slaves though.
- current limitations of CI and lago force us to make a copy of the images
after
installation so they can be seen both by the processes in the chroot and
libvirt, which
is running outside of chroot. Right now they're placed in '/dev/shm'
(which would
actually make some sense if they could be shared among all OST runs on
the slave, but
that's another story). There are some possible workarounds around that
problem too (like
running pipelines on bare metal machines with libvirt running inside
chroot)
- multiple qcow layers can slow down the runs because there's a lot of
jumping around.
This can be handled by i.e. introducing a meta package that squashes all
the layers into
one.
- we need a way to run OST with custom-built artifacts. There are multiple
ways we can
approach it:
* use 'upgrade' layer and not '*-installed' one
* first build your artifacts, then build VM image RPMs that have your
artifacts
installed and pass those RPMs to OST run
* add 'ci build vms' that will do both ^^^ steps for you
Even here we can still benefit from using pre-built images - we can
create
a 'deps-installed' layer that sits between 'upgrade' and
'*-installed'
and contains
all vdsm's/engine's dependencies.
Some numbers
So let's take a look at two OST runs - first one that uses the old way of
working [5]
and one that uses the new pre-built VM images [6]. The hacky change that
allows us to
use the pre-built images is here [7]. Here are some running times:
- chroot init: 00:34 for the old way vs 14:03 for pre-built images
This happens because the slave didn't have the new RPMs and chroot cached,
so it took a lot
of time to download them - the RPMs are ~2GB currently. When they will be
available
in cache it will get much closer to the old-way timing.
- deployment times:
* engine 08:09 for the old way vs 03:31 for pre-built images
* host-1 05:05 for the old way vs 02:00 for pre-built images
Here we can clearly see the benefits. This is without any special fine
tuning really -
even when using pre-built images there's still some deployment done, which
can be moved
to image-creating pipeline.
Further improvements
We could probably get rid of all the funny custom repository stuff that
we're
doing right now because we can put everything that's necessary to
pre-built VM images.
We can ship the images with ssh key injected - currently lago injects an
ssh
key for root user in each run, which requires selinux relabeling, which
takes a lot
of time.
We can try creating 'ovirt-deployed' images, where the whole ovirt
solution would
be already deployed for some tests.
WDYT?
We should not reinvent packer.io. It's bad enough we're reinventing Vagrant
with Lago.