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Summary: T617 makes some good points about the language tags; this is my suggestion for an improvement. It requires a bit of cleverness in unregister_prefix_tags(), but the upshot is that you don't need to know to set any special tags when creating needles, a needle with no language-related tags will be considered as valid for all languages. You have to explicitly add LANGUAGE- tag(s) to a needle for the language filtering to 'kick in' in any way. If a needle has at least one LANGUAGE- tag, it will be filtered unless it has the appropriate tag for the job's specified language (default is still 'english'). With this approach, only needles which we specifically want to *only* match their tagged language(s) need the tags, so we can drop all those -ALL tags. We're using LANGUAGE- instead of ENV-LANGUAGE- now because the ENV- tag names denote tags that are treated slightly specially by openQA, and this is not one. We cannot cleanly use ENV-INSTLANG because openQA has a hardwired default of 'en_US' for that. Test Plan: Check both English and French tests still work as intended. Reviewers: jskladan, garretraziel Reviewed By: garretraziel Subscribers: tflink Differential Revision: https://phab.qadevel.cloud.fedoraproject.org/D589
157 lines
12 KiB
Markdown
157 lines
12 KiB
Markdown
openQA tests for the Fedora distribution
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========================================
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This repository contains tests and images for testing [Fedora](https://getfedora.org/) with
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[openQA](http://os-autoinst.github.io/openQA/). For additional tools, Installation Guide and
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Docker images, see [this repository](https://bitbucket.org/rajcze/openqa_fedora_tools).
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Test development
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----------------
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See official documentation [on basic concept](https://github.com/os-autoinst/openQA/blob/master/docs/GettingStarted.asciidoc),
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[test development (including API specification)](https://github.com/os-autoinst/openQA/blob/master/docs/WritingTests.asciidoc),
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[needles specification](https://github.com/os-autoinst/os-autoinst/blob/master/doc/needles.txt) and
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[supported variables for backend](https://github.com/os-autoinst/os-autoinst/blob/master/doc/backend_vars.asciidoc). See
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[this example repo](https://github.com/os-autoinst/os-autoinst-distri-example) on how tests should be structured.
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### main.pm modular architecture
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Since openQA uses only one entrypoint for all tests (main.pm), we have decided to utilize
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this feature and make tests modular. It means that basic passing through main.pm (without any variables set)
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results in most basic installation test executed. Developer can customize it with additional variables
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(for example by setting `PACKAGE_SET=minimal` to do installation only with minimal package set).
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Fedora installation (and consequently main.pm) consists of several parts:
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1. booting into Anaconda or booting live image and starting Anaconda
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Since there isn't much variation between tests in this step, we have developed universal `_boot_to_anaconda.pm`
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test that is loaded automatically each time except when `ENTRYPOINT` or `UPGRADE` is set (see VARIABLES.md).
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To customize this step, you can set following variables:
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- `GRUB` is appended to kernel line before boot. You can set for example `inst.updates` here.
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- If `KICKSTART` is set, this part of installation ends here (program doesn't wait for Anaconda to appear).
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Note that you should set `inst.ks` yourself by setting `GRUB` variable.
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- If `LIVE` is set, program waits for desktop to appear and then clicks on "Install to Hard Drive" button.
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2. customizing installation by interacting with Anaconda spokes
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Most of the differences between tests take place in this part. If you want to add another installation test,
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you will probably put your variable checking and test loading here. All tests in this part should start on
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Anaconda's main hub and after they done its part, they should go back to Anaconda's main hub so that next
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test could be executed. In this phase, universal `_software_selection.pm` test is loaded that handles
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selecting what software to install.
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To customize this step, you can set following variables:
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- Set `PACKAGE_SET` to install required package set on "Software selection spoke" - you have to provide correct needles with the
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name of `anaconda_${PACKAGE_SET}_highlighted` and `anaconda_${PACKAGE_SET}_selected`.
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- Set `ENCRYPT_PASSWORD` to encrypt disk, value of this variable is used as an actual password.
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3. installing Fedora and waiting for Fedora to reboot
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After all customizations are finished, `_do_install_and_reboot.pm` test is automatically loaded.
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It starts installation, creates user and sets root password when required, waits for installation
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to finish and reboots into installed system. Only variables that control flow in this part are these:
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- `ROOT_PASSWORD` to set root password to this value.
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- When set, `USER_LOGIN` and `USER_PASSWORD` are used to create user in Anaconda.
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4. post-install phase
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After installation is finished and installed system is fully booted, you can run additional tests
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as checks that installed system has correct attributes - that correct file system is used, that
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RAID is used etc.
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Make your test modular, so that it utilizes `_boot_to_anaconda.pm`, `_software_selection.pm` and
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`_do_install_and_reboot.pm` tests (that are loaded automatically). Break your test into smaller parts,
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each dealing with one specific feature (e. g. partitioning, user creation...) and add their loading
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into main.pm based on reasonable variable setting (so they can be used in other tests also).
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### Test inheritance
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Your test can inherit from `basetest`, `fedorabase`, `installedtest` or `anacondatest`.
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- `basetest` is basic class provided by os-autoinst - it has empty `post_fail_hook()` and doesn't set any flags.
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- `fedorabase` doesn't neither set flags nor does anything in `post_fail_hook()`, but it provides basic functions
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that will be useful during testing Fedora. It should be used when no other, more specific class can be used. It provides
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these functions:
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- `console_login()` handles logging in as a root/specified user into console. It requires TTY to
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be already displayed (handled by the `root_console()` method of subclasses). You can configure user and password
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by setting `user` and `password` arguments. If you set `check` argument to 1, this function
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dies if it fails to log in. Example usage: `$self->console_login(user => "garret", password => "weakpassword");`
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logs in as user `garret`, with password `weakpassword`.
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- `boot_to_login_screen()` handles booting from bootloader to login screen. It can take three optional arguments:
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first is the name of the login screen needle that should be displayed when system is booted, second is time how
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long still screen should be displayed until openQA decides that system is booted and third is timeout how long
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it should wait for still screen to appear. Example usage: `$self->boot_to_login_screen("graphical_login", 30);`
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will wait until screen is not moving for 30 seconds and then checks, whether `graphical_login` needle is displayed.
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- `anacondatest` should be used in tests where Anaconda is running. It uploads Anaconda logs (for example
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`anaconda.log` or `packaging.log`) in `post_fail_hook()`. It also provides these convenient methods for Anaconda:
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- `root_console()` tries to login is as a root. It decides to what TTY to switch into and then calls `console_login()`
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for root. If you set `check` argument, it dies if it fails to log in. Example usage:
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after calling `$self->root_console(check=>1);`, console should be shown with root logged in.
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- `select_disks()` handles disk selecting. It have one optional argument - number of disks to select. It should be
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run when main Anaconda hub is displayed. It enters disk selection spoke and then ensures that required number of
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disks are selected. Additionally, if `$PARTITIONING` variable (set in Web UI) starts with `custom_`, it selects
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"custom partitioning" checkbox. Example usage: after calling `$self->select_disks(2);` from Anaconda main hub,
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installation destination spoke will be displayed and two attached disks will be selected for installation.
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- `custom_scheme_select()` is used for setting custom partitioning scheme (such as LVM). It should be called when
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custom partitioning spoke is displayed. You have to pass it name of partitioning scheme and needle
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`anaconda_part_scheme_$scheme` should exist. Example usage: `$self->custom_scheme_select("btrfs");` uses
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`anaconda_part_scheme_btrfs` to set partitioning scheme to Btrfs.
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- `custom_change_type()` is used to set different device types for specified partition (e. g. RAID). It should be
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called when custom partitioning spoke is displayed. You have to pass it type of partition and name of partition
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and needles `anaconda_part_select_$part` and `anaconda_part_device_type_$type` should exist. Example usage:
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`$self->custom_change_type("raid", "root");` uses `anaconda_part_select_root` and `anaconda_part_device_type_raid`
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needles to set RAID for root partition.
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- `custom_change_fs()` is used to set different file systems for specified partition. It should be
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called when custom partitioning spoke is displayed. You have to pass it filesystem name and name of partition
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and needles `anaconda_part_select_$part` and `anaconda_part_fs_$fs` should exist. Example usage:
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`$self->custom_change_fs("ext3", "root");` uses `anaconda_part_select_root` and `anaconda_part_fs_ext3` needles
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to set ext3 file system for root partition.
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- `custom_delete_part()` is used for deletion of previously added partitions in custom partitioning spoke. It should
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be called when custom partitioning spoke is displayed. You have to pass it partition name and needle
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`anaconda_part_select_$part` should exist. Example usage: `$self->custom_delete_part('swap');` uses
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`anaconda_part_select_swap` to delete previously added swap partition.
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- `installedtest` should be used in tests that are running on installed system (either in postinstall phase
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or in upgrade tests). It uploads `/var/log` in `post_fail_hook()`. It provides these functions:
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- `root_console()` tries to login is as a root. It switches to TTY that is set as an argument (default is TTY1)
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and then calls `console_login()` for root. If you set `check` argument, it dies if it fails to log in.
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Example usage: running `$self->root_console(tty=>2, check=>0);` results in TTY2 displayed with root logged
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in.
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- `check_release()` checks whether the installed release matches a given value. E.g. `check_release(23)`
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checks whether the installed system is Fedora 23. The value can be 'Rawhide' or a Fedora release number;
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often you will want to use `get_var('VERSION')`. Expects a console prompt to be active when it is called.
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### New test development workflow
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1. Select test from [phabricator page](https://phab.qadevel.cloud.fedoraproject.org/w/openqa/tests/).
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2. Put each part of your test as a separate file into `tests/` directory, reimplementing `run()` method
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and `test_flags()` method, inheriting from one of the classes mentioned above.
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3. Set correct variables (so that all test parts you have made are executed) in [WebUI -> Test suites](https://localhost:8080/admin/test_suites).
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4. Link your newly created Test suite to medium type in [WebUI -> Job groups](https://localhost:8080/admin/groups).
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5. Run test (see [openqa_fedora_tools repository](https://bitbucket.org/rajcze/openqa_fedora_tools)).
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6. Create needles (images) by using interactive mode and needles editor in WebUI.
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7. Add new Job template and Test suite into `templates` file.
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8. Add new Test suite and Test case into [`conf_test_suites.py`](https://bitbucket.org/rajcze/openqa_fedora_tools/src/develop/tools/openqa_trigger/conf_test_suites.py)
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file in openqa_fedora_tools repository.
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9. Open differential request via phabricator, set openqa_fedora as a project and repository.
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10. Mark your test in [phabricator page](https://phab.qadevel.cloud.fedoraproject.org/w/openqa/tests/) as done.
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### Language handling
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Tests can run in different languages. To set the language which will be used for a test, set the `LANGUAGE`
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variable for the test suite. The results of this will be:
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1. The value set will be typed into the language search box in anaconda.
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2. Any needle with at least one tag that starts with `LANGUAGE` will be unregistered unless it has the tag `LANGUAGE-(LANGUAGE)` (where `(LANGUAGE)` is the value set, forced to upper-case).
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3. As a consequence, the chosen language will be selected at the anaconda Welcome screen.
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It is very important, therefore, that needles have the correct tags. Any needle which is expected to match for
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tests run in *any* language must have no `LANGUAGE` tags. Other needles must have the appropriate tag(s)
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for the languages they are expected to match. The safest option if you are unsure is to set no `LANGUAGE` tag(s).
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The only danger of this is that missing translations may not be caught.
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Note that tags of the form `ENV-INSTLANG-(anything)` are useless artefacts and should be removed. Due to
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unfortunate design in openQA, any needle created in the web UI needle editor will have a `ENV-INSTLANG-en_US`
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tag by default; this should be removed before submission.
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