e72debe1d1
The goal here is to do the minimum needed to get the images setup for
use so they can have more complex customizations applied later.
I think this list is a pretty good minimal set of features without going
full kickstart.
(cherry picked from commit 95c288d829
)
Related: rhbz#1718473
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ReStructuredText
436 lines
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ReStructuredText
lorax-composer
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==============
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:Authors:
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Brian C. Lane <bcl@redhat.com>
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``lorax-composer`` is an API server that allows you to build disk images using
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`Blueprints`_ to describe the package versions to be installed into the image.
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It is compatible with the Weldr project's bdcs-api REST protocol. More
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information on Weldr can be found `on the Weldr blog <http://www.weldr.io>`_.
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Behind the scenes it uses `livemedia-creator <livemedia-creator.html>`_ and
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`Anaconda <https://anaconda-installer.readthedocs.io/en/latest/>`_ to handle the
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installation and configuration of the images.
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Important Things To Note
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------------------------
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* SELinux must be in Permissive mode. Anaconda requires SELinux be in permissive mode
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for image creation to work correctly. You can either edit the setting in the
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``/etc/sysconfig/selinux`` file, or run ``setenforce 0`` before starting lorax-composer.
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* Some output types require packages from the RHEL 7 Optional repository. See the
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`Red Hat Enterprise Linux 7 documentation <https://access.redhat.com/solutions/392003>`_
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for information on how to enable it. Otherwise you will see image creation fail to
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depsolve even if the blueprint itself is correct.
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* All image types lock the root account, except for live-iso. You will need to either
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use one of the `Customizations`_ methods for setting a ssh key/password, install a
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package that creates a user, or use something like `cloud-init` to setup access at
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boot time.
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Installation
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------------
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The best way to install ``lorax-composer`` is to use ``sudo dnf install
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lorax-composer composer-cli``, this will setup the weldr user and install the
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systemd socket activation service. You will then need to enable it with ``sudo
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systemctl enable lorax-composer.socket && sudo systemctl start
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lorax-composer.socket``. This will leave the server off until the first request
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is made. Systemd will then launch the server and it will remain running until
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the system is rebooted. This will cause some delay in responding to the first
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request from the UI or `composer-cli`.
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.. note::
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If you want lorax-composer to respond immediately to the first request you can
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start and enable `lorax-composer.service` instead of `lorax-composer.socket`
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Quickstart
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----------
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1. Create a ``weldr`` user and group by running ``useradd weldr``
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2. Remove any pre-existing socket directory with ``rm -rf /run/weldr/``
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A new directory with correct permissions will be created the first time the server runs.
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3. Enable the socket activation with ``systemctl enable lorax-composer.socket
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&& sudo systemctl start lorax-composer.socket``.
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NOTE: You can also run it directly with ``lorax-composer /path/to/blueprints``. However,
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``lorax-composer`` does not react well to being started both on the command line and via
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socket activation at the same time. It is therefore recommended that you run it directly
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on the command line only for testing or development purposes. For real use or development
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of other projects that simply use the API, you should stick to socket activation only.
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The ``/path/to/blueprints/`` directory is where the blueprints' git repo will
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be created, and all the blueprints created with the ``/api/v0/blueprints/new``
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route will be stored. If there are blueprint ``.toml`` files in the top level
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of the directory they will be imported into the blueprint git storage when
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``lorax-composer`` starts.
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Logs
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----
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Logs are stored under ``/var/log/lorax-composer/`` and include all console
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messages as well as extra debugging info and API requests.
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Security
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--------
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Some security related issues that you should be aware of before running ``lorax-composer``:
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* One of the API server threads needs to retain root privileges in order to run Anaconda.
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* SELinux must be set to Permissive or disabled to allow ``livemedia-creator`` to run Anaconda.
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* Only allow authorized users access to the ``weldr`` group and socket.
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Since Anaconda kickstarts are used there is the possibility that a user could
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inject commands into a blueprint that would result in the kickstart executing
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arbitrary code on the host. Only authorized users should be allowed to build
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images using ``lorax-composer``.
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How it Works
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------------
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The server runs as root, and as ``weldr``. Communication with it is via a unix
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domain socket (``/run/weldr/api.socket`` by default). The directory and socket
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are owned by ``root:weldr`` so that any user in the ``weldr`` group can use the API
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to control ``lorax-composer``.
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At startup the server will check for the correct permissions and
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ownership of a pre-existing directory, or it will create a new one if it
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doesn't exist. The socket path and group owner's name can be changed from the
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cmdline by passing it the ``--socket`` and ``--group`` arguments.
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It will then drop root privileges for the API thread and run as the ``weldr``
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user. The queue and compose thread still runs as root because it needs to be
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able to mount/umount files and run Anaconda.
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Composing Images
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----------------
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The `welder-web <https://github.com/weldr/welder-web/>`_ GUI project can be used to construct
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blueprints and create composes using a web browser.
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Or use the command line with `composer-cli <composer-cli.html>`_.
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Blueprints
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----------
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Blueprints are simple text files in `TOML <https://github.com/toml-lang/toml>`_ format that describe
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which packages, and what versions, to install into the image. They can also define a limited set
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of customizations to make to the final image.
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Example blueprints can be found in the ``lorax-composer`` `test suite
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<https://github.com/weldr/lorax/tree/master/tests/pylorax/blueprints/>`_, with a simple one
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looking like this::
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name = "base"
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description = "A base system with bash"
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version = "0.0.1"
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[[packages]]
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name = "bash"
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version = "4.4.*"
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The ``name`` field is the name of the blueprint. It can contain spaces, but they will be converted to ``-``
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when it is written to disk. It should be short and descriptive.
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``description`` can be a longer description of the blueprint, it is only used for display purposes.
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``version`` is a `semver compatible <https://semver.org/>`_ version number. If
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a new blueprint is uploaded with the same ``version`` the server will
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automatically bump the PATCH level of the ``version``. If the ``version``
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doesn't match it will be used as is. eg. Uploading a blueprint with ``version``
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set to ``0.1.0`` when the existing blueprint ``version`` is ``0.0.1`` will
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result in the new blueprint being stored as ``version 0.1.0``.
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[[packages]] and [[modules]]
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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These entries describe the package names and matching version glob to be installed into the image.
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The names must match the names exactly, and the versions can be an exact match
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or a filesystem-like glob of the version using ``*`` wildcards and ``?``
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character matching.
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NOTE: As of lorax-composer-29.2-1 the versions are not used for depsolving,
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that is planned for a future release. And currently there are no differences
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between ``packages`` and ``modules`` in ``lorax-composer``.
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[[groups]]
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~~~~~~~~~~
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These entries describe a group of packages to be installed into the image. Package groups are
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defined in the repository metadata. Each group has a descriptive name used primarily for display
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in user interfaces and an ID more commonly used in kickstart files. Here, the ID is the expected
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way of listing a group.
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Groups have three different ways of categorizing their packages: mandatory, default, and optional.
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For purposes of blueprints, mandatory and default packages will be installed. There is no mechanism
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for selecting optional packages.
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Customizations
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~~~~~~~~~~~~~~
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The ``[customizations]`` section can be used to configure the hostname,
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language, and timezone of the final image. eg.::
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[customizations]
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hostname = "baseimage"
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timezone = "US/Eastern"
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These are all optional and may be left out to use the defaults.
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The values supported by ``timezone`` can be listed by running ``timedatectl list-timezones``.
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[customizations.kernel]
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***********************
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This allows you to append arguments to the bootloader's kernel commandline. This will not have any
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effect on ``tar`` or ``ext4-filesystem`` images since they do not include a bootloader.
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For example::
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[customizations.kernel]
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append = "nosmt=force"
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[[customizations.sshkey]]
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*************************
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Set an existing user's ssh key in the final image::
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[[customizations.sshkey]]
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user = "root"
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key = "PUBLIC SSH KEY"
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The key will be added to the user's authorized_keys file.
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[[customizations.user]]
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***********************
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Add a user to the image, and/or set their ssh key.
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All fields for this section are optional except for the ``name``, here is a complete example::
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[[customizations.user]]
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name = "admin"
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description = "Administrator account"
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password = "$6$CHO2$3rN8eviE2t50lmVyBYihTgVRHcaecmeCk31L..."
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key = "PUBLIC SSH KEY"
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home = "/srv/widget/"
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shell = "/usr/bin/bash"
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groups = ["widget", "users", "wheel"]
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uid = 1200
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gid = 1200
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If the password starts with ``$6$``, ``$5$``, or ``$2b$`` it will be stored as
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an encrypted password. Otherwise it will be treated as a plain text password.
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[[customizations.group]]
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************************
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Add a group to the image. ``name`` is required and ``gid`` is optional::
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[[customizations.group]]
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name = "widget"
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gid = 1130
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[customizations.locale]
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*************************
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Customize the locale settings for the system::
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[[customizations.locale]]
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language = "en_US.UTF-8"
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keyboard = "us"
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The values supported by ``language`` can be listed by running ``localectl list-locales`` from
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the command line.
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The values supported by ``keyboard`` can be listed by running ``localectl list-keymaps`` from
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the command line.
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[customizations.firewall]
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*************************
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By default the firewall blocks all access except for services that enable their ports explicitly,
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like ``sshd``. This command can be used to open other ports or services. Ports are configured using
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the port:protocol format::
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[customizations.firewall.ports]
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enabled = ["80:tcp", "imap:tcp", "53:tcp", "53:udp"]
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disabled = ["23:tcp", "mysql:tcp"]
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Numeric ports, or their names from ``/etc/services`` can be used in the ``ports`` enabled/disabled lists.
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If the distribution uses ``firewalld`` you can specify services listed by ``firewall-cmd --get-services``
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in a ``customizations.firewall.services`` section::
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[customizations.firewall.services]
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enabled = ["ftp", "ntp", "dhcp"]
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Note that these are different from the names in ``/etc/services``, and only ``enabled`` is supported.
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Both are optional, if they are not used leave them out or set them to an empty list ``[]``. If you
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only want the default firewall setup this section can be omitted from the blueprint.
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[customizations.services]
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*************************
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This section can be used to control which services are enabled at boot time. Some image types
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already have services enabled or disabled in order for the image to work correctly, and cannot
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be overridden. eg. ``ami`` requires ``sshd``, ``chronyd``, and ``cloud-init``. Without them the image will
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not boot.
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The service names are systemd service units. On RHEL7 only ``.service`` units can be
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enabled or disabled. Other releases may specify any systemd unit file, eg. ``cockpit.socket``
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[customizations.services]
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enabled = ["sshd", "cockpit.socket", "httpd"]
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disabled = ["postfix", "telnetd"]
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.. warning::
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The service must be installed, otherwise systemd will fail when trying to enable or disable
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the nonexistant service.
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TODO -- Confirm this is still true and if not, on which releases
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Adding Output Types
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-------------------
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``livemedia-creator`` supports a large number of output types, and only some of
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these are currently available via ``lorax-composer``. To add a new output type to
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lorax-composer a kickstart file needs to be added to ``./share/composer/``. The
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name of the kickstart is what will be used by the ``/compose/types`` route, and the
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``compose_type`` field of the POST to start a compose. It also needs to have
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code added to the :py:func:`pylorax.api.compose.compose_args` function. The
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``_MAP`` entry in this function defines what lorax-composer will pass to
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:py:func:`pylorax.installer.novirt_install` when it runs the compose. When the
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compose is finished the output files need to be copied out of the build
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directory (``/var/lib/lorax/composer/results/<UUID>/compose/``),
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:py:func:`pylorax.api.compose.move_compose_results` handles this for each type.
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You should move them instead of copying to save space.
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If the new output type does not have support in livemedia-creator it should be
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added there first. This will make the output available to the widest number of
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users.
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Example: Add partitioned disk support
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Partitioned disk support is something that livemedia-creator already supports
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via the ``--make-disk`` cmdline argument. To add this to lorax-composer it
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needs 3 things:
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* A ``partitioned-disk.ks`` file in ``./share/composer/``
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* A new entry in the _MAP in :py:func:`pylorax.api.compose.compose_args`
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* Add a bit of code to :py:func:`pylorax.api.compose.move_compose_results` to move the disk image from
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the compose directory to the results directory.
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The ``partitioned-disk.ks`` is pretty similar to the example minimal kickstart
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in ``./docs/rhel7-minimal.ks``. You should remove the ``url`` and ``repo``
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commands, they will be added by the compose process. Make sure the bootloader
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packages are included in the ``%packages`` section at the end of the kickstart,
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and you will want to leave off the ``%end`` so that the compose can append the
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list of packages from the blueprint.
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The new ``_MAP`` entry should be a copy of one of the existing entries, but with ``make_disk`` set
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to ``True``. Make sure that none of the other ``make_*`` options are ``True``. The ``image_name`` is
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what the name of the final image will be.
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``move_compose_results()`` can be as simple as moving the output file into
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the results directory, or it could do some post-processing on it. The end of
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the function should always clean up the ``./compose/`` directory, removing any
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unneeded extra files. This is especially true for the ``live-iso`` since it produces
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the contents of the iso as well as the boot.iso itself.
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Package Sources
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---------------
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By default lorax-composer uses the host's configured repositories. It copies
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the ``*.repo`` files from ``/etc/yum.repos.d/`` into
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``/var/lib/lorax/composer/repos.d/`` at startup, these are immutable system
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repositories and cannot be deleted or changed. If you want to add additional
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repos you can put them into ``/var/lib/lorax/composer/repos.d/`` or use the
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``/api/v0/projects/source/*`` API routes to create them.
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The new source can be added by doing a POST to the ``/api/v0/projects/source/new``
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route using JSON (with `Content-Type` header set to `application/json`) or TOML
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(with it set to `text/x-toml`). The format of the source looks like this (in
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TOML)::
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name = "custom-source-1"
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url = "https://url/path/to/repository/"
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type = "yum-baseurl"
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proxy = "https://proxy-url/"
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check_ssl = true
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check_gpg = true
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gpgkey_urls = ["https://url/path/to/gpg-key"]
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The ``proxy`` and ``gpgkey_urls`` entries are optional. All of the others are required. The supported
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types for the urls are:
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* ``yum-baseurl`` is a URL to a yum repository.
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* ``yum-mirrorlist`` is a URL for a mirrorlist.
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* ``yum-metalink`` is a URL for a metalink.
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If ``check_ssl`` is true the https certificates must be valid. If they are self-signed you can either set
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this to false, or add your Certificate Authority to the host system.
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If ``check_gpg`` is true the GPG key must either be installed on the host system, or ``gpgkey_urls``
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should point to it.
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You can edit an existing source (other than system sources), by doing a POST to the ``new`` route
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with the new version of the source. It will overwrite the previous one.
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A list of existing sources is available from ``/api/v0/projects/source/list``, and detailed info
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on a source can be retrieved with the ``/api/v0/projects/source/info/<source-name>`` route. By default
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it returns JSON but it can also return TOML if ``?format=toml`` is added to the request.
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Non-system sources can be deleted by doing a ``DELETE`` request to the
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``/api/v0/projects/source/delete/<source-name>`` route.
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The documentation for the source API routes can be `found here <pylorax.api.html#api-v0-projects-source-list>`_
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The configured sources are used for all blueprint depsolve operations, and for composing images.
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When adding additional sources you must make sure that the packages in the source do not
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conflict with any other package sources, otherwise depsolving will fail.
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DVD ISO Package Source
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~~~~~~~~~~~~~~~~~~~~~~
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In some situations the system may want to *only* use a DVD iso as the package
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source, not the repos from the network. ``lorax-composer`` and ``anaconda``
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understand ``file://`` URLs so you can mount an iso on the host, and replace the
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system repo files with a configuration file pointing to the DVD.
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* Stop the ``lorax-composer.service`` if it is running
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* Move the repo files in ``/etc/yum.repos.d/`` someplace safe
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* Create a new ``iso.repo`` file in ``/etc/yum.repos.d/``::
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[iso]
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name=iso
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baseurl=file:///mnt/iso/
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enabled=1
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gpgcheck=1
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gpgkey=file:///mnt/iso/RPM-GPG-KEY-redhat-release
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* Remove all the cached repo files from ``/var/lib/lorax/composer/repos/``
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* Restart the ``lorax-composer.service``
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* Check the output of ``composer-cli status show`` for any output specific depsolve errors.
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For example, the DVD usually does not include ``grub2-efi-*-cdboot-*`` so the live-iso image
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type will not be available.
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If you want to *add* the DVD source to the existing sources you can do that by
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mounting the iso and creating a source file to point to it as described in the
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`Package Sources`_ documentation. In that case there is no need to remove the other
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sources from ``/etc/yum.repos.d/`` or clear the cached repos.
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