We were checking for composer's FINISHED status only, which meant that
when a compose failed, the test ran until it timed out.
Check for failed as well. Also, always time out after 30 minutes.
Some test runners don't have nested virtualization enabled. Because
these checks are only checking that a boot works, kvm doesn't give us
that much. Disable for now.
Also remove the check for qemu-kvm. It doesn't abort the test
prematurely anyway.
A compose can change the hosts' policy, which can lead to docker
crashing if the container-selinux policy is not included. Add a
workaround and bug link.
The docker phase always failed because `-ti` was passed even though the
the output was not a terminal.
Also remove the check for /usr/bin/docker in the setup phase. It didn't
test that the daemon was running. More importantly, it didn't abort the
test anwyay (and there doesn't seem to be a good way to do this in
beakerlib).
Allows to run the tests on multiple operating systems and on the
infrastructure that the Cockpit team maintains.
`make vm` downloads one of Cockpit's test images (override which one
with TEST_OS) and installs rpms build from the local checkout of lorax.
The resulting image is placed in `test/images/$TEST_OS`.
TEST_OS can be set to any of Cockpit's supported images (default:
fedora-30).
Run `make check-vm` to run the CLI checks in the VM. The bulk of the
work is done in `test/check-cli`, which uses Cockpit's `bots` library to
start the VM and run the script in it.
Also included is a `test/run` script, which is the entrypoint for
Cockpit's test infrastructure.
To maintain consistency with the other options this changes firewall to
combine the existing settings from the image template with the settings
from the blueprint.
Also updated the docs, added a new test for it, and sorted the output
for consistency.
Add support for enabling and disabling systemd services in the
blueprint. It works like this:
[customizations.services]
enabled = ["sshd", "cockpit.socket", "httpd"]
disabled = ["postfix", "telnetd"]
They are *added* to any existing settings in the kickstart templates.
You can now open ports in the firewall, using port numbers or service
names:
[customizations.firewall]
ports = ["22:tcp", "80:tcp", "imap:tcp", "53:tcp", "53:udp"]
Or enable/disable services registered with firewalld:
[customizations.firewall.services]
enabled = ["ftp", "ntp", "dhcp"]
disabled = ["telnet"]
If the template contains firewall --disabled it cannot be overridden,
under the assumption that it is required for the image to boot in the
selected environment.
You can now set the keyboard layout and language. Eg.
[customizations.locale]
languages = ["en_CA.utf8", "en_HK.utf8"]
keyboard = "de (dvorak)"
Existing entries in the kickstart templates are replaced with the new
ones. If there are no entries then it will default to 'keyboard us' and
'lang en_US.UTF-8'
Includes tests, and leaves the existing keyboard and lang entries in the
templates with a note that they can be replaced by the blueprint.
For example:
[customizations.timezone]
timezone = "US/Samoa"
ntpservers = ["0.pool.ntp.org"]
Also includes tests.
This removes the timezone kickstart command from all of the templates
except for google.ks which needs to set it's own ntp servers and timezone.
If timezone isn't included in the blueprint, and it is not already in a
template, it will be set to 'timezone UTC' by default.
If timezone is set in a template it is left as-is, under the assumption
that the image type requires it to boot correctly.
- verify SemVer .patch number will be automatically updated when
we push the blueprint a second time without changing version
- verify show displays the content in TOML format and it matches
what is on disk. Because of that also start with empty packages
and groups fields in the initial toml. If they are missing they
will be added automatically by lorax-composer and this simplifies
the test
- verify delete works
Instances, Volumes, Snapshots, AMIs and s3 objects with the "keep_me" tag will
not be deleted automatically even if they are older then the specified time limit.
This is based on the VHD compose type, with the following differences:
* Use the vhdx format instead of vhd
* No WALinuxAgent
* Install hyperv-daemons
The hyperv-daemons are activated through udev rules, so there is no need
to add them to the services line.
If provided, round the disk image size up to a multiple of the value.
This allows for image formats with specific size-alignment requirements
(e.g., disk size must be in GiB).
Make sure that dotfiles are installed when not directly under /
Make sure / is not packaged in the rpm (it will cause a conflict with
the filesystem package).
Make sure that using destination="/" works
This allows iso builds to include the extra kernel boot parameters by
passing them to the arch-specific live/*tmpl template.
Also adds tests to make sure it is written to config.toml in the build
metadata.
Sometimes it is necessary to modify the kernel command-line of the
image, this adds support for a [customizations.kernel] section to the
blueprint:
[customizations.kernel]
append = "nosmt=force"
This will be appended to the kickstart's bootloader --append argument.
Includes tests for modifying the bootloader line, the kickstart
template, and examining the final-kickstart.ks created for a compose.
- Check final-kickstart.ks for the rpm source
- Check final-kickstart.ks for the rpm package name and version
- Make sure depsolve works
- Make sure errors from a bad repo are returned correctly
- Make sure errors from a bad reference are returned correctly
This moves _wait_for_status into a helper function so it can be shared
between the test classes.
This hooks up creation of the rpm to the build, adds it to the
kickstart, and passes the url to Anaconda. The dnf repo with the rpms is
created under the results directory so it will be included when
downloading the build's results.
This adds support, documentation, and testing for a [[repos.git]]
blueprint section that can be used to install files from a git
repository. It will create an rpm that will be added to the build,
and included in the metadata that can be downloaded. This allows you to
accurately keep track of the source of configuration files and extra
metadata that is added to the build.
The source repo and reference will be listed in the rpm's summary making
it easy to discover on the installed system.