As of the Newton release, keystone supports two different approaches to upgrading across releases. The traditional approach requires a significant outage to be scheduled for the entire duration of the upgrade process. The more modern approach results in zero downtime, but is more complicated due to a longer upgrade procedure.
Note
The details of these steps are entirely dependent on the details of your specific deployment, such as your chosen application server and database management system. Use it only as a guide when implementing your own upgrade process.
Plan your upgrade:
keystone.conf
,
logging.conf
, policy.json
, keystone-paste.ini
, and anything else
in /etc/keystone/
, by customizing the corresponding files from the next
release.This is a high-level description of our upgrade strategy built around
keystone-manage db_sync
. It assumes that you are willing to have downtime
of your control plane during the upgrade process and presents minimal risk.
With keystone unavailable, no other OpenStack services will be able to
authenticate requests, effectively preventing the rest of the control plane
from functioning normally.
/etc/keystone/
) with those
corresponding from the latest release.keystone-manage db_sync
from any single node to upgrade both the
database schema and run any corresponding database migrations.keystone-manage doctor
to diagnose symptoms of
common deployment issues and receive instructions for resolving them.If you run a multi-node keystone cluster that uses a replicated database, like
a Galera cluster, it is possible to upgrade with minimal downtime. This method
also optimizes recovery time from a failed upgrade. This section assumes
familiarity with the base case (Upgrading with downtime) outlined above.
In these steps the nodes will be divided into first
and other
nodes.
first
node. This can be done via a
variety of mechanisms that will depend on the deployment. If you are unable
to disable a service or place a service into maintenance mode in your load
balancer, you can stop the keystone processes.other
nodes in the cluster. This
will isolate the old dataset on a single node in the cluster. In the event
of a failed update this data can be used to rebuild the cluster without
having to restore from backup.first
node.first
node. keystone is now down for your cloud.keystone-manage db_sync
on the first
node. As soon as this
finishes, keystone is now working again on a single node in the cluster.other
nodes. This entails updating configuration files and upgrading
the code. The db_sync
does not need to be run again.Using this model, the outage window is minimized because the only time
when your cluster is totally offline is between loading the newer version
of keystone and running the db_sync
command. Typically the outage with
this method can be measured in tens of seconds especially if automation is
used.
If the upgrade fails, only a single node has been affected. This makes the recovery simpler and quicker. If issues are not discovered until the entire cluster is upgraded, a full shutdown and restore from backup will be required. That will take much longer than just fixing a single node with an old copy of the database still available. This process will be dependent on your architecture and it is highly recommended that you’ve practiced this in a development environment before trying to use it for the first time.
This process should be doable in a matter of minutes and will minimize cloud downtime if it is required.
This is a high-level description of our upgrade strategy built around
additional options in keystone-manage db_sync
. Although it is much more
complex than the upgrade process described above, it assumes that you are not
willing to have downtime of your control plane during the upgrade process. With
this upgrade process, end users will still be able to authenticate to receive
tokens normally, and other OpenStack services will still be able to
authenticate requests normally.
Make a backup of your database. keystone does not support downgrading the database, so restoring from a full backup is your only option for recovery in the event of an upgrade failure.
Stop the keystone processes on the first node (or really, any arbitrary node). This node will serve to orchestrate database upgrades.
Upgrade your first node to the next release, but do not start any keystone processes.
Update your configuration files on the first node (/etc/keystone/
) with
those corresponding to the latest release.
(New in Newton) Run keystone-manage doctor
on the first node to
diagnose symptoms of common deployment issues and receive instructions for
resolving them.
(New in Newton) Run keystone-manage db_sync --expand
on the first node
to expand the database schema to a superset of what both the previous and
next release can utilize, and create triggers to facilitate the live
migration process.
Warning
For MySQL, using the keystone-manage db_sync --expand
command requires
that you either grant your keystone user SUPER
privileges, or run
set global log_bin_trust_function_creators=1;
in mysql beforehand.
At this point, new columns and tables may exist in the database, but will not all be populated in such a way that the next release will be able to function normally.
As the previous release continues to write to the old schema, database triggers will live migrate the data to the new schema so it can be read by the next release.
(New in Newton) Run keystone-manage db_sync --migrate
on the first
node to forcefully perform data migrations. This process will migrate all
data from the old schema to the new schema while the previous release
continues to operate normally.
When this process completes, all data will be available in both the new schema and the old schema, so both the previous release and the next release will be capable of operating normally.
Update your configuration files (/etc/keystone/
) on all nodes (except
the first node, which you’ve already done) with those corresponding to the
latest release.
Upgrade all keystone nodes to the next release, and restart them one at a time. During this step, you’ll have a mix of releases operating side by side, both writing to the database.
As the next release begins writing to the new schema, database triggers will also migrate the data to the old schema, keeping both data schemas in sync.
(New in Newton) Run keystone-manage db_sync --contract
to remove the
old schema and all data migration triggers.
When this process completes, the database will no longer be able to support the previous release.
In order to check the current state of your rolling upgrades, you may run the
command keystone-manage db_sync --check
. This will inform you of any
outstanding actions you have left to take as well as any possible upgrades you
can make from your current version. Here are a list of possible return codes.
0
means you are currently up to date with the latest
migration script version and all db_sync
commands are complete.1
generally means something serious is wrong with your
database and operator intervention will be required.2
means that an upgrade from your current database
version is available, your database is not currently under version control,
or the database is already under control. Your first step is to run
keystone-manage db_sync --expand
.3
means that the expansion stage is complete, and the
next step is to run keystone-manage db_sync --migrate
.4
means that the expansion and data migration stages are
complete, and the next step is to run keystone-manage db_sync --contract
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