Building Container Images¶
Firstly, ensure kolla
is installed.
python3 -m pip install kolla
Then, the kolla-build command is available for building Docker images.
Building kolla images¶
In general, images are built like this:
kolla-build
By default, the above command would build all images based on a CentOS Stream image.
The operator can change the base distro with the -b
option:
kolla-build -b ubuntu
There are following distros (bases) available for building images:
centos
debian
ubuntu
See the support matrix for information on supported base image distribution versions and supported images on each distribution.
It is possible to build only a subset of images by specifying them on the command line:
kolla-build keystone
In this case, the build script builds all images whose name contains the
keystone
string, along with their parents.
Multiple names may be specified on the command line:
kolla-build keystone nova
Each string is actually a regular expression so one can do:
kolla-build ^nova-
kolla-build
can be configured via an INI file, canonically named
kolla-build.conf
and placed in /etc/kolla
. A custom path to it can be
set via the --config-file
argument. Most CLI arguments can be set via this
config file. Remember to convert the names from hyphenated to underscored.
Run kolla-build --help
to see all available options.
The set of images to build can be defined as a profile in the profiles
section of kolla-build.conf
.
Then, profile can be specified by --profile
CLI argument or profile
option in kolla-build.conf
.
For example, since Magnum requires Heat, one could add the following profile to
profiles
section in kolla-build.conf
:
[profiles]
magnum = magnum,heat
These images could then be built using command line:
kolla-build --profile magnum
Or putting the following line in the DEFAULT
section in
kolla-build.conf
file:
[DEFAULT]
profile = magnum
The kolla-build uses kolla
as default Docker namespace. This is
controlled with the -n
command line option. To push images to a Dockerhub
repository named mykollarepo
:
kolla-build -n mykollarepo --push
To push images to a local registry, use the --registry
flag:
kolla-build --registry 172.22.2.81:4000 --push
Build OpenStack from source¶
When building images, there are two methods of the OpenStack install. One is
binary
. Another is source
. The binary
means that OpenStack will be
installed from apt/dnf. And the source
means that OpenStack will be
installed from upstream sources. The default method of the OpenStack install is
source
. It can be changed to binary
using the -t
option:
kolla-build -t binary
Note
Building of binary images is deprecated in Yoga. Please switch to source ones.
The locations of OpenStack source code are written in kolla-build.conf
.
The source’s type
supports url
, git
and local
. The
location
of the local
source type can point to either a directory
containing the source code or to a tarball of the source. The local
source
type permits to make the best use of the Docker cache. A source may be
disabled by setting enabled
to False
.
The kolla-build.conf
file could look like this:
[horizon]
type = url
location = https://tarballs.openstack.org/horizon/horizon-master.tar.gz
[keystone-base]
type = git
location = https://opendev.org/openstack/keystone
reference = stable/mitaka
[heat-base]
type = local
location = /home/kolla/src/heat
[ironic-base]
type = local
location = /tmp/ironic.tar.gz
enabled = False
Note
Note that the name of the section should exactly match the image name you are trying to change source location for.
Dockerfile customisation¶
The kolla-build
tool provides a Jinja2-based
mechanism which allows operators to customise the Dockerfiles used to generate
Kolla images.
This offers a lot of flexibility on how images are built, for example: installing extra packages as part of the build, tweaking settings or installing plugins. Examples of these are described in more detail below.
Note
The Docker file Jinja2 template for each image is found in subdirectories
of the docker
directory included in the kolla
package.
Using a different base image¶
Base image can be specified using --base-image
:
kolla-build --base-image <image-identifier>
The image-identifier
accepts any format that Docker accepts when
referencing an image.
Generic customisation¶
Kolla templates are designed such that each Docker file has logical sections
represented by Jinja2’s named block
section directives. These can be
overridden at will by Kolla users.
The following is an example of how an operator would modify the setup steps
within the Horizon Dockerfile.
First, create a file to contain the customisations, for example:
template-overrides.j2
. Fill it with the following contents:
{% extends parent_template %}
# Horizon
{% block horizon_redhat_binary_setup %}
RUN useradd --user-group myuser
{% endblock %}
Then rebuild the horizon
image, passing the --template-override
argument:
kolla-build --template-override template-overrides.j2 ^horizon$
Note
The above example will replace all contents of the original block. Hence, one may want to copy the original contents of the block before and modify it. Do note it makes the customisations ignore changes in Kolla upstream.
We recommend users use more specific customisation functionalities, such as removing/appending entries for packages. These other customisations are described in the following sections.
Two block series are of particular interest and are safe to override as they
are empty by design.
The top of each Dockerfile includes <image_name>_header
block which can
be used for early customisations, such as RHN registration described later.
The bottom of each Dockerfile includes <image_name>_footer
block which
is intended for image-specific modifications.
Do note to use the underscored name of the image, i.e., replace dashes with
underscores.
All leaf Dockerfiles, i.e. those meant for direct consumption, additionally
have a footer
block which is then guaranteed to exist once at the very
end of the image recipe chain.
Packages customisation¶
Packages installed as part of an image build can be overridden, appended to, and deleted. Taking the Horizon example, the following packages are installed as part of a binary install type build (among others):
openstack-dashboard
openstack-magnum-ui
To add a package to this list, say, iproute
, first create a file,
for example, template-overrides.j2
. In it place the following:
{% extends parent_template %}
# Horizon
{% set horizon_packages_append = ['iproute'] %}
Then rebuild the horizon
image, passing the --template-override
argument:
kolla-build --template-override template-overrides.j2 ^horizon$
Alternatively template_override
can be set in kolla-build.conf
.
The append
suffix in the above example carries special significance. It
indicates the operation taken on the package list. The following is a complete
list of operations available:
- override
Replace the default packages with a custom list.
- append
Add a package to the default list.
- remove
Remove a package from the default list.
To remove a package from that list, say openstack-magnum-ui
, one would do:
{% extends parent_template %}
# Horizon
{% set horizon_packages_remove = ['openstack-magnum-ui'] %}
Python packages build options¶
The block base_pip_conf
in the base
Dockerfile can be used to provide
the PyPI build customisation options via the standard environment variables
like PIP_INDEX_URL
, PIP_TRUSTED_HOST
, etc. Also here can be provided
the standard environment variable UPPER_CONSTRAINTS_FILE
used for building
the bifrost_deploy
container when PyPI upper-constraints needs to be
overridden. Also this variable would be used in the kolla-toolbox
if
provided instead of the defaults.
Plugin functionality¶
The Dockerfile customisation mechanism is useful for adding/installing plugins to services. An example of this is Neutron’s third party L2 drivers.
For example, to add the networking-cisco
plugin to the neutron_server
image, one may be tempted to add the following to the template-override
file:
Warning
Do NOT do the below. Read on for why.
{% extends parent_template %}
{% block neutron_server_footer %}
RUN git clone https://opendev.org/x/networking-cisco \
&& python3 -m pip --no-cache-dir install networking-cisco
{% endblock %}
Some readers may notice there is one problem with this, however. Assuming
nothing else in the Dockerfile changes for a period of time, the above RUN
statement will be cached by Docker, meaning new commits added to the Git
repository may be missed on subsequent builds. To solve this, the
kolla-build
tool also supports cloning additional repositories at build
time, which will be automatically made available to the build, within an
archive named plugins-archive
.
Note
The following is available for source build types only.
To use this, add a section to kolla-build.conf
in the following format:
[<image-name>-plugin-<plugin-name>]
Where <image-name>
is the hyphenated name of the image that the plugin
should be installed into, and <plugin-name>
is the chosen plugin
identifier.
Continuing with the above example, one could add the following to
kolla-build.conf
:
[neutron-server-plugin-networking-cisco]
type = git
location = https://opendev.org/x/networking-cisco
reference = master
The build will clone the repository, resulting in the following archive structure:
plugins-archive.tar
|__ plugins
|__networking-cisco
The template now becomes:
{% block neutron_server_footer %}
ADD plugins-archive /
python3 -m pip --no-cache-dir install /plugins/*
{% endblock %}
Some plugins are installed by default. For images with default plugins, the
Dockerfiles already copy the plugins-archive
to the image and install
available plugins at build time. These default plugins may be disabled by
setting enabled
to False
in the relevant plugin source configuration
section in kolla-build.conf
.
Neutron plugins¶
One example of a service with many available plugins is Neutron.
The neutron-base
image Dockerfile has plugins archive copying and
installation enabled already.
In the contrib
directory of Kolla (as available in the repository,
the tarball or the share
directory of the installation target), there
is a neutron-plugins
directory with examples of Neutron plugins
definitions.
Some of these plugins used to be enabled by default but, due to
their release characteristic, have been excluded from the default builds.
Please read the included README.rst
to learn how to apply them.
Additions functionality¶
The Dockerfile customisation mechanism is useful for adding/installing additions into images. An example of this is adding your jenkins job build metadata (say, formatted into a jenkins.json file) into the image.
Similarly to the plugins mechanism, the Kolla build tool also supports cloning
additional repositories at build time, which will be automatically made
available to the build, within an archive named additions-archive
. The main
difference between plugins-archive
and additions-archive
is that
plugins-archive
is automatically copied in many images and processed to
install available plugins while additions-archive
processing is left solely
to the Kolla user.
Note
The following is available for source build types only.
To use this, add a section to kolla-build.conf
in the following format:
[<image>-additions-<additions-name>]
Where <image-name>
is the hyphenated name of the image that the additions
should be copied into, and <additions-name>
is the chosen additions
identifier.
For example, one could add the following to kolla-build.conf
file:
[neutron-server-additions-jenkins]
type = local
location = /path/to/your/jenkins/data
The build will copy the directory, resulting in the following archive structure:
additions-archive.tar
|__ additions
|__jenkins
Alternatively, it is also possible to create an additions-archive.tar
file
yourself bypasssing kolla-build.conf
in order to work with binary build
type.
The template becomes now:
{% block neutron_server_footer %}
ADD additions-archive /
RUN cp /additions/jenkins/jenkins.json /jenkins.json
{% endblock %}
Custom repos¶
Red Hat¶
Kolla allows the operator to build containers using custom repos.
The repos are accepted as a list of comma separated values and can be in the
form of .repo
, .rpm
, or a url. See examples below.
To use current RDO packages (aka Delorean or DLRN), update rpm_setup_config
in kolla-build.conf
:
rpm_setup_config = https://trunk.rdoproject.org/centos8/current/delorean.repo,https://trunk.rdoproject.org/centos8/delorean-deps.repo
If specifying a .repo
file, each .repo
file will need to exist in the
same directory as the base Dockerfile (kolla/docker/base
):
rpm_setup_config = epel.repo,delorean.repo,delorean-deps.repo
Debian / Ubuntu¶
For Debian based images, additional apt sources may be added to the build as follows:
apt_sources_list = custom.list
Building behind a proxy¶
We can insert http_proxy settings into the images to fetch packages during build, and then unset them at the end to avoid having them carry through to the environment of the final images. Note, however, it’s not possible to drop the info completely using this method; it will still be visible in the layers of the image.
To set the proxy settings, we can add this to the template’s header block:
ENV http_proxy=https://evil.corp.proxy:80
ENV https_proxy=https://evil.corp.proxy:80
To unset the proxy settings, we can add this to the template’s footer block:
ENV http_proxy=""
ENV https_proxy=""
Besides this configuration options, the script will automatically read these environment variables. If the host system proxy parameters match the ones going to be used, no other input parameters will be needed. These are the variables that will be picked up from the user env:
HTTP_PROXY, http_proxy, HTTPS_PROXY, https_proxy, FTP_PROXY,
ftp_proxy, NO_PROXY, no_proxy
Also these variables could be overwritten using --build-args
, which have
precedence.
Known issues¶
Mirrors are unreliable.
Some of the mirrors Kolla uses can be unreliable. As a result occasionally some containers fail to build. To rectify build problems, the build tool will automatically attempt three retries of a build operation if the first one fails. The retry count is modified with the
--retries
option.