Lee Yarwood acb2475e4c ffu: Add fast-forward upgrade outputs to RoleConfig

As outlined in the spec, fast-forward upgrades aim to take an
environment from an initial release of N to a release of N>=2, beyond
that of the traditionally supported N+1 upgrade path provided today by
many OpenStack projects.

For TripleO the first phase of this upgrade will be to move the
environment to the release prior to the target release. This will be
achieved by disabling all OpenStack control plane services and then
preforming the minimum number of steps required to upgrade each service
through each release until finally reaching the target release.

This change introduces the framework for this phase of the fast-forward
upgrades by adding playbooks and task files as outputs to RoleConfig.

- fast_forward_upgrade_playbook.yaml

This is the top level play and acts as the outer loop of the process,
iterating through the required releases as set by the
FastForwardUpgradeReleases parameter for the fast-forward section of the
upgrade. This currently defaults to Ocata and Pike for Queens.

Note that this play is run against the overcloud host group and it is
currently assumed that the inventory used to run this play is provided
by the tripleo-ansible-inventory command.

- fast_forward_upgrade_release_tasks.yaml

This output simply imports the top level prep and bootstrap task files.

- fast_forward_upgrade_prep_tasks.yaml
- fast_forward_upgrade_bootstrap_tasks.yaml

These outputs act as the inner loop for the fast-forward upgrade phase,
iterating over step values while importing their associated role tasks.

As prep tasks are carried out first for each release we loop over step
values starting at 0 and ending at the defined
fast_forward_upgrade_prep_steps_max, currently 3.

Following this we then complete the bootstrap tasks for each release,
looping over steps values starting at
fast_forward_upgrade_prep_steps_max + 1 , currently 4 and ending at
fast_forward_upgrade_steps_max,currently 9.

- fast_forward_upgrade_prep_role_tasks.yaml
- fast_forward_upgrade_bootstrap_role_tasks.yaml

These outputs then finally import the fast_forward_upgrade_tasks files
generated by the FastForwardUpgradeTasks YAQL query for each role. For
prep tasks these are always included when on an Ansible host of a given
role. This differs from bootstrap tasks that are only included for the
first host associated with a given role.

This will result in the following order of task imports with their
associated value of release and step:

fast_forward_upgrade_playbook
\_fast_forward_upgrade_release_tasks
  \_fast_forward_upgrade_prep_tasks              - release=ocata
     \_fast_forward_upgrade_prep_role_tasks      - release=ocata
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=0
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=0
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=1
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=1
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=2
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=2
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=3
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=3
  \_fast_forward_upgrade_bootstrap_tasks         - release=ocata
     \_fast_forward_upgrade_bootstrap_role_tasks - release=ocata
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=4
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=4
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=5
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=5
       \_$roleA/fast_forward_upgrade_tasks       - release=ocata, step=N
       \_$roleB/fast_forward_upgrade_tasks       - release=ocata, step=N
\_fast_forward_upgrade_release_tasks
  \_fast_forward_upgrade_prep_tasks              - release=pike
     \_fast_forward_upgrade_prep_role_tasks      - release=pike
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=0
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=0
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=1
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=1
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=2
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=2
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=3
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=3
   \_fast_forward_upgrade_bootstrap_tasks        - release=pike
     \_fast_forward_upgrade_bootstrap_role_tasks - release=pike
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=4
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=4
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=5
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=5
       \_$roleA/fast_forward_upgrade_tasks       - release=pike, step=N
       \_$roleB/fast_forward_upgrade_tasks       - release=pike, step=N

bp fast-forward-upgrades
Change-Id: Ie2683fd7b81167abe724a7b9245bf85a0a87ad1d

2018-02-09 17:13:31 +01:00

6.8 KiB

Raw Blame History

Docker Services

TripleO docker services are currently built on top of the puppet services. To do this each of the docker services includes the output of the t-h-t puppet/service templates where appropriate.

In general global docker specific service settings should reside in these templates (templates in the docker/services directory.) The required and optional items are specified in the docker settings section below.

If you are adding a config setting that applies to both docker and baremetal that setting should (so long as we use puppet) go into the puppet/services templates themselves.

Building Kolla Images

TripleO currently relies on Kolla docker containers. Kolla supports container customization and we are making use of this feature within TripleO to inject puppet (our configuration tool of choice) into the Kolla base images. The undercloud nova-scheduler also requires openstack-tripleo-common to provide custom filters.

To build Kolla images for TripleO adjust your kolla config¹ to build your centos base image with puppet using the example below:

$ cat template-overrides.j2 {% extends parent_template %} {% set base_centos_binary_packages_append = ['puppet'] %} {% set nova_scheduler_packages_append = ['openstack-tripleo-common'] %}

kolla-build --base centos --template-override template-overrides.j2

Docker settings

Each service may define an output variable which returns a puppet manifest snippet that will run at each of the following steps. Earlier manifests are re-asserted when applying latter ones.

config_settings: This setting is generally inherited from the puppet/services templates and only need to be appended to on accasion if docker specific config settings are required.

kolla_config: Contains YAML that represents how to map config files into the kolla container. This config file is typically mapped into the container itself at the /var/lib/kolla/config_files/config.json location and drives how kolla's external config mechanisms work.

docker_config: Data that is passed to the docker-cmd hook to configure a container, or step of containers at each step. See the available steps below and the related docker-cmd hook documentation in the heat-agents project.

puppet_config: This section is a nested set of key value pairs that drive the creation of config files using puppet. Required parameters include:

puppet_tags: Puppet resource tag names that are used to generate config files with puppet. Only the named config resources are used to generate a config file. Any service that specifies tags will have the default tags of 'file,concat,file_line,augeas,cron' appended to the setting. Example: keystone_config

config_volume: The name of the volume (directory) where config files will be generated for this service. Use this as the location to bind mount into the running Kolla container for configuration.

config_image: The name of the docker image that will be used for generating configuration files. This is often the same container that the runtime service uses. Some services share a common set of config files which are generated in a common base container.

step_config: This setting controls the manifest that is used to create docker config files via puppet. The puppet tags below are used along with this manifest to generate a config directory for this container.

docker_puppet_tasks: This section provides data to drive the docker-puppet.py tool directly. The task is executed only once within the cluster (not on each node) and is useful for several puppet snippets we require for initialization of things like keystone endpoints, database users, etc. See docker-puppet.py for formatting.

Docker steps

Similar to baremetal docker containers are brought up in a stepwise manner. The current architecture supports bringing up baremetal services alongside of containers. For each step the baremetal puppet manifests are executed first and then any docker containers are brought up afterwards.

Steps correlate to the following:

Pre) Containers config files generated per hiera settings. 1) Load Balancer configuration baremetal a) step 1 baremetal b) step 1 containers 2) Core Services (Database/Rabbit/NTP/etc.) a) step 2 baremetal b) step 2 containers 3) Early Openstack Service setup (Ringbuilder, etc.) a) step 3 baremetal b) step 3 containers 4) General OpenStack Services a) step 4 baremetal b) step 4 containers c) Keystone containers post initialization (tenant,service,endpoint creation) 5) Service activation (Pacemaker) a) step 5 baremetal b) step 5 containers

Update steps:

All services have an associated update_tasks output that is an ansible snippet that will be run during update in an rolling update that is expected to run in a rolling update fashion (one node at a time)

For Controller (where pacemaker is running) we have the following states:

Step=1: stop the cluster on the updated node;
Step=2: Pull the latest image and retag the it pcmklatest
Step=3: yum upgrade happens on the host.
Step=4: Restart the cluster on the node
Step=5: Verification: Currently we test that the pacemaker services are running.

Then the usual deploy steps are run which pull in the latest image for all containerized services and the updated configuration if any.

Note: as pacemaker is not containerized, the points 1 and 4 happen in puppet/services/pacemaker.yaml.

Fast-forward Upgrade Steps

Each service template may optionally define a fast_forward_upgrade_tasks key, which is a list of Ansible tasks to be performed during the fast-forward upgrade process. As with Upgrade steps each task is associated to a particular step provided as a variable and used along with a release variable by a basic conditional that determines when the task should run.

Steps are broken down into two categories, prep tasks executed across all hosts and bootstrap tasks executed on a single host for a given role.

The individual steps then correspond to the following tasks during the upgrade:

Prep steps:

Step=1: Stop the cluster
Step=2: Stop the service
Step=3: Update repos

Bootstrap steps:

Step=4: DB backups
Step=5: Pre package update commands
Step=6: Package updates
Step=7: Post package update commands
Step=8: DB syncs
Step=9: Verification

See the override file which can be used to build Kolla packages that work with TripleO, and an `example build script <https://github.com/dprince/undercloud_containers/blob/master/build_kolla.sh>_.↩︎

6.8 KiB Raw Blame History