Infrastructure/Continuous Integration System: Difference between revisions
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These are currently the most common builds among the provided templates. | |||
Note: The old way to include templates by using raw links to the template files will fail for some of the templates because they include shared base templates with local includes. You'll get an error like | |||
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Unable to create pipeline | |||
* Local file `gitlab-templates/craft-android-base.yml` does not have project! | |||
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=== Special cases and job artifacts === | === Special cases and job artifacts === |
Revision as of 13:47, 26 October 2023
Continuous Integration (CI) is a process that allows developers to ensure their code is properly tested, follows quality standards and compiles correctly, while Continuous Delivery (CD) is a process that allows to automate the generation of binaries or packages for end users.
KDE ensures the quality of its code with the help of Gitlab CI/CD. The Gitlab CI/CD system consists mostly of compiling software projects inside CI images, usually Docker containers or virtual machines that have their environment prepared for building and testing.
Runners and Jobs
We call a job when software is run inside of a CI image, and in standard Gitlab CI/CD we describe jobs using a .gitlab-ci.yml file. Jobs can be configured to run only under certain circumstances by using rules, so that they can run when making a Merge Request, once a given amount of time has passed, if a certain file exists in the repository, or whenever new code is merged into the main branch.
Additionally, KDE has some additional tooling used to describe the dependency information required by a project, and includes certain options to modify jobs for building KDE projects. These modifications are described in a .kde-ci.yml
file, and an example configuration showing all available options can be found in sysadmin/ci-utilities/config-template.yml. A custom dependency-generator is run on these files to update dependency information stored in sysadmin/repo-metadata/dependencies, which is then used for kdesrc-build to determine the order in which to build projects, among other things.
A runner on the other hand is a process that runs jobs. It does not run those jobs in Gitlab itself; it requires additional software to be running in addition to Gitlab. By default, this software is Gitlab Runner which as mentioned before uses a .gitlab-ci.yml
file written in YAML. While it is possible to integrate other runner software like Drone CI or Jenkins, these are not used or supported under KDE infrastructure.
System administrators and project maintainers are allowed to create runners, while users without these roles cannot. When runners are created from the system administration interface, they are called shared runners, which all KDE projects can use. These are general use and should meet the needs of most KDE projects. When runners are created from a project's Settings, they are called project runners, and they should only be used when a project has special needs that cannot be met with shared runners.
System administrators, project maintainers and users without these roles are allowed to run jobs.
If you are completely new to Gitlab CI/CD, then you may create your own projects on Invent or create a fork of an existing project to make your own runners and jobs. It is recommended that you use the CI images mentioned below so that your jobs consume less resources from KDE infrastructure.
CI images
As mentioned before, jobs are run on top of CI images. You can find a list of CI images in https://invent.kde.org/sysadmin/ci-images. To use them in a .gitlab-ci.yml
file, you can replace https://invent.kde.org
with invent-registry.kde.org
and add the container tag at the end if applicable (usually :latest
), for example: invent-registry.kde.org/sysadmin/ci-images/suse-qt65:latest
.
Some of the provided CI images are very large (even up to 6 GB of disk space), but because CI images are cached, their size does not pose a problem. Additionally, since they already come preconfigured for you, they will have less instructions to run and will consume much less resources from KDE infrastructure.
Including CI templates
Instead of writing your own custom .gitlab-ci.yml
files yourself, to make life easier for KDE developers, Gitlab CI templates are provided in sysadmin/ci-utilities/gitlab-templates.
Your typical Gitlab CI file for a KDE project will likely just use the include: command to add these template files whenever you need to enable a new job, for example, for building with Qt6, for checking whether your project follows our REUSE guidelines, or for generating flatpak bundles built from the main branch.
This is the preferred way to include templates in your CI file:
include: - project: sysadmin/ci-utilities file: - /gitlab-templates/reuse-lint.yml - /gitlab-templates/linux.yml - /gitlab-templates/freebsd.yml - /gitlab-templates/windows.yml - /gitlab-templates/android.yml - /gitlab-templates/linux-qt6.yml - /gitlab-templates/freebsd-qt6.yml - /gitlab-templates/windows-qt6.yml - /gitlab-templates/android-qt6.yml - /gitlab-templates/flatpak.yml
These are currently the most common builds among the provided templates.
Note: The old way to include templates by using raw links to the template files will fail for some of the templates because they include shared base templates with local includes. You'll get an error like
Unable to create pipeline
- Local file `gitlab-templates/craft-android-base.yml` does not have project!
Special cases and job artifacts
Most CI images and templates for KDE software are primarily designed for continuous integration instead of continuous delivery, but they still generate job artifacts, files or compressed files that can be accessed outside a job, and that can be transferred from one job to the other. All of the final job artifacts generated for those CI images can be seen in teams/ci-artifacts/packages.
A few templates, such as craft-appimage, flatpak and website-hugo, are designed for continuous delivery instead of continuous integration. The first two generate .appimage
and .flatpak
files, which are job artifacts. The last one is used to publish websites.
Currently, all flatpak and website jobs are listed under the only remaining Jenkins instance, https://binary-factory.kde.org, and can be seen under the Flatpak job tab and the Websites job tab. This is prone to change as more and more of the old infrastructure is deprecated in favor of Gitlab CI.
Other templates, such as reuse-lint and json-validation, consist of small tools used to perform specific tasks on the repository and report the results back if unsuccessful. These do not generate job artifacts.
You can read more about what each template is for in the gitlab-templates readme.
The .kde-ci.yml file
As mentioned before, .kde-ci.yml
files contain dependency information and instructions that modify jobs to suit the needs of a project.
The purpose of this file is to centralize settings accross multiple jobs while having control over each individual job, all without needing to write your own custom .gitlab-ci.yml
files.
It has three main settings:
- Dependencies: a listing of build dependencies that vary according to the platform and builds.
- Environment: a listing of variables that can be used inside a job.
- Options: a listing of additional options that can be passed to jobs to ensure their code quality.
Here is an example copied verbatim from the config-template.yml:
Dependencies: - 'on': ['Linux', 'FreeBSD', 'Windows', 'Android'] 'require': 'frameworks/*': '@stable' 'kde/workspace/kdecoration': '@stable' Environment: Variable: SOMEVALUE Options: in-source-build: False cmake-options: '' test-before-installing: False run-tests: True tests-load-sensitive: False per-test-timeout: 60 setup-x-environment: True setup-dbus-session: True force-inject-asan: False ctest-arguments: '' # a list of platforms on which unit test failures are considered fatal require-passing-tests-on: [] run-cppcheck: True cppcheck-arguments: '--enable=warning,style,performance' cppcheck-ignore-files: - src/3rdparty/ run-gcovr: True gcovr-arguments: '' # add json files to ignore when using json-validation pipeline json-validate-ignore: [] # add files to validate when using json-validation pipeline (for example, to add json files that do not explicitely has a ".json" suffix) json-validate-include: []
Dependencies
Dependencies is the most volatile of all settings, because it will need to be updated every time a new build dependency is added to the project.
The on
section allows you to select which platforms the project will be built for and can be repeated as many times as needed using different combinations of platforms. The available platforms are:
- Linux
- FreeBSD
- Windows
- macOS
- Android
- @all
The platform names are case sensitive. The @all
platform serves as a shorthand for all platforms (instead of typing them all).
The require
section allows you to mention the dependency and its version. The dependency name can be found under sysadmin/repo-metadata/dependencies, and it matches the project path on Invent. You can state each dependency version as:
- @same: point to the same branch name as the current project's
- @stable or @latest: point to the branches specified in sysadmin/repo-metadata/branch-rules.yml
- any other version mentioned in branch-rules.yml, such as @latest-kf6
You should only include projects that you explicitly depend on.
Options
Options is less volatile and is rarely changed.
Additional attention should be paid to it: you should NOT copy all options from the template file. Only add options as needed.
The available options are:
- in-source-build: whether to build the project in its own separate
build/
folder (out-of-source build) or on the source project root (in-source build) - cmake-options: options that can be passed to CMake during build
- test-before-installing: whether to run tests before installing the project (using CTest provided by the ECM KDECMakeSettings module)
- run-tests: whether to run tests (using CTest provided by the ECM KDECMakeSettings module)
- tests-load-sensitive: whether to make tests run only when the load of a CI worker is low, needed for fragile tests that can fail under high load conditions
- per-test-timeout: timeout in seconds per test
- setup-x-environment: whether to run a graphical session
- setup-dbus-session: whether to run a D-Bus session
- force-inject-asan: whether to use LD_PRELOAD to force inject AddressSanitizer in a project (useful for non-KDE libraries that need to load KDE plugins/libraries, sometimes needed in QML applications)
- ctest-arguments: options that can be passed to ctest during tests
- require-passing-tests-on: in which platform tests must pass for the job to be successful (same platforms as in Dependencies)
- run-cppcheck: whether to run cppcheck linting for static analysis
- cppcheck-arguments: options that can be passed to cppcheck
- cppcheck-ignore-files: which directories/files cppcheck should ignore
- run-gcovr: whether to run gcovr for checking code coverage
- gcovr-arguments: options that can be passed to gcovr
- json-validate-ignore: which directories/files json-validation should ignore
- json-validate-include: which directories/files validate-json-files should include that do not have the
.json
file extension
Examples
All platforms
Here is an example copied from Okular, which is built for all platforms available:
# SPDX-FileCopyrightText: None # SPDX-License-Identifier: CC0-1.0 Dependencies: - 'on': ['@all'] 'require': 'frameworks/kbookmarks': '@stable' 'frameworks/threadweaver': '@stable' 'frameworks/ki18n': '@stable' 'frameworks/kio': '@stable' 'frameworks/karchive': '@stable' 'libraries/phonon': '@stable' 'graphics/kdegraphics-mobipocket': '@same' - 'on': ['Linux', 'FreeBSD', 'Windows'] 'require': 'frameworks/khtml': '@stable' 'frameworks/purpose': '@stable' 'frameworks/breeze-icons': '@stable' 'graphics/libkexiv2': '@same' - 'on': ['Linux', 'FreeBSD'] 'require': 'frameworks/kactivities': '@stable' 'frameworks/kpty': '@stable' - 'on': ['Android'] 'require': 'frameworks/kirigami': '@stable' Options: cppcheck-arguments: '--enable=warning,style,performance -DOKULAR_EXPORT_PLUGIN' cppcheck-ignore-files: - autotests
KF5 + KF6
And an example copied from Konsole, which at this moment builds against KF5 and KF6:
# SPDX-FileCopyrightText: None # SPDX-License-Identifier: CC0-1.0 Dependencies: - 'on': ['Linux/Qt5', 'FreeBSD/Qt5', 'Windows/Qt5'] 'require': 'frameworks/extra-cmake-modules': '@stable' 'frameworks/kconfig': '@stable' 'frameworks/knotifications': '@stable' 'frameworks/ki18n': '@stable' 'frameworks/kcoreaddons': '@stable' 'frameworks/kdbusaddons': '@stable' 'frameworks/kbookmarks': '@stable' 'frameworks/kconfigwidgets': '@stable' 'frameworks/kcrash': '@stable' 'frameworks/kguiaddons': '@stable' 'frameworks/kiconthemes': '@stable' 'frameworks/kio': '@stable' 'frameworks/knewstuff': '@stable' 'frameworks/knotifyconfig': '@stable' 'frameworks/kparts': '@stable' 'frameworks/kservice': '@stable' 'frameworks/ktextwidgets': '@stable' 'frameworks/kwidgetsaddons': '@stable' 'frameworks/kwindowsystem': '@stable' 'frameworks/kxmlgui': '@stable' 'frameworks/kdoctools': '@stable' - 'on': ['Linux/Qt6', 'FreeBSD/Qt6', 'Windows/Qt6'] 'require': 'frameworks/extra-cmake-modules': '@latest-kf6' 'frameworks/kconfig': '@latest-kf6' 'frameworks/knotifications': '@latest-kf6' 'frameworks/ki18n': '@latest-kf6' 'frameworks/kcoreaddons': '@latest-kf6' 'frameworks/kdbusaddons': '@latest-kf6' 'frameworks/kbookmarks': '@latest-kf6' 'frameworks/kconfigwidgets': '@latest-kf6' 'frameworks/kcrash': '@latest-kf6' 'frameworks/kguiaddons': '@latest-kf6' 'frameworks/kiconthemes': '@latest-kf6' 'frameworks/kio': '@latest-kf6' 'frameworks/knewstuff': '@latest-kf6' 'frameworks/knotifyconfig': '@latest-kf6' 'frameworks/kparts': '@latest-kf6' 'frameworks/kservice': '@latest-kf6' 'frameworks/ktextwidgets': '@latest-kf6' 'frameworks/kwidgetsaddons': '@latest-kf6' 'frameworks/kwindowsystem': '@latest-kf6' 'frameworks/kxmlgui': '@latest-kf6' 'frameworks/kdoctools': '@latest-kf6' - 'on': ['Linux/Qt5', 'FreeBSD/Qt5'] 'require': 'frameworks/kpty': '@stable' 'frameworks/kglobalaccel': '@stable' - 'on': ['Linux/Qt6', 'FreeBSD/Qt6'] 'require': 'frameworks/kpty': '@latest-kf6' 'frameworks/kglobalaccel': '@latest-kf6' Options: require-passing-tests-on: [ 'Linux', 'FreeBSD/Qt6' ]
Warning free code
Options: cmake-options: '-DCMAKE_COMPILE_WARNING_AS_ERROR=ON'
History for archiving reasons
- Until 2020, KDE used Jenkins for its infrastructure, namely over https://build.kde.org and https://binary-factory.kde.org, as described in the previous history of this page.
- KDE migrated to Gitlab in 2020.
- The KDE system administration starts integrating the Gitlab CI workflow with repo-metadata by adding .kde-ci.yml files to KDE Frameworks in September 2021.
- In October of the same year, it's officially rolled out for all projects, with only Linux builds currently available.
- https://build.kde.org is retired in September 2022.
- In October of the same year, there was some clarification on the roles of CI and CD under KDE infrastructure in the mailing lists.