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Contribute to K8s docs

Kubernetes welcomes improvements from all contributors, new and experienced!

Note: To learn more about contributing to Kubernetes in general, see the contributor documentation.

This website is maintained by Kubernetes SIG Docs.

Kubernetes documentation contributors:

  • Improve existing content
  • Create new content
  • Translate the documentation
  • Manage and publish the documentation parts of the Kubernetes release cycle

Getting started

Anyone can open an issue about documentation, or contribute a change with a pull request (PR) to the kubernetes/website GitHub repository. You need to be comfortable with git and GitHub to work effectively in the Kubernetes community.

To get involved with documentation:

  1. Sign the CNCF Contributor License Agreement.
  2. Familiarize yourself with the documentation repository and the website's static site generator.
  3. Make sure you understand the basic processes for opening a pull request and reviewing changes.

Some tasks require more trust and more access in the Kubernetes organization. See Participating in SIG Docs for more details about roles and permissions.

Your first contribution

Next steps

Get involved with SIG Docs

SIG Docs is the group of contributors who publish and maintain Kubernetes documentation and the website. Getting involved with SIG Docs is a great way for Kubernetes contributors (feature development or otherwise) to have a large impact on the Kubernetes project.

SIG Docs communicates with different methods:

Other ways to contribute

1 - Suggesting content improvements

If you notice an issue with Kubernetes documentation, or have an idea for new content, then open an issue. All you need is a GitHub account and a web browser.

In most cases, new work on Kubernetes documentation begins with an issue in GitHub. Kubernetes contributors then review, categorize and tag issues as needed. Next, you or another member of the Kubernetes community open a pull request with changes to resolve the issue.

Opening an issue

If you want to suggest improvements to existing content, or notice an error, then open an issue.

  1. Click the Create an issue link on the right sidebar. This redirects you to a GitHub issue page pre-populated with some headers.
  2. Describe the issue or suggestion for improvement. Provide as many details as you can.
  3. Click Submit new issue.

After submitting, check in on your issue occasionally or turn on GitHub notifications. Reviewers and other community members might ask questions before they can take action on your issue.

Suggesting new content

If you have an idea for new content, but you aren't sure where it should go, you can still file an issue. Either:

  • Choose an existing page in the section you think the content belongs in and click Create an issue.
  • Go to GitHub and file the issue directly.

How to file great issues

Keep the following in mind when filing an issue:

  • Provide a clear issue description. Describe what specifically is missing, out of date, wrong, or needs improvement.
  • Explain the specific impact the issue has on users.
  • Limit the scope of a given issue to a reasonable unit of work. For problems with a large scope, break them down into smaller issues. For example, "Fix the security docs" is too broad, but "Add details to the 'Restricting network access' topic" is specific enough to be actionable.
  • Search the existing issues to see if there's anything related or similar to the new issue.
  • If the new issue relates to another issue or pull request, refer to it either by its full URL or by the issue or pull request number prefixed with a # character. For example, Introduced by #987654.
  • Follow the Code of Conduct. Respect your fellow contributors. For example, "The docs are terrible" is not helpful or polite feedback.

2 - Contributing new content

2.1 - Contributing new content overview

This section contains information you should know before contributing new content.

Contributing basics

  • Write Kubernetes documentation in Markdown and build the Kubernetes site using Hugo.
  • The source is in GitHub. You can find Kubernetes documentation at /content/en/docs/. Some of the reference documentation is automatically generated from scripts in the update-imported-docs/ directory.
  • Page content types describe the presentation of documentation content in Hugo.
  • In addition to the standard Hugo shortcodes, we use a number of custom Hugo shortcodes in our documentation to control the presentation of content.
  • Documentation source is available in multiple languages in /content/. Each language has its own folder with a two-letter code determined by the ISO 639-1 standard. For example, English documentation source is stored in /content/en/docs/.
  • For more information about contributing to documentation in multiple languages or starting a new translation, see localization.

Before you begin

Sign the CNCF CLA

All Kubernetes contributors must read the Contributor guide and sign the Contributor License Agreement (CLA).

Pull requests from contributors who haven't signed the CLA fail the automated tests. The name and email you provide must match those found in your git config, and your git name and email must match those used for the CNCF CLA.

Choose which Git branch to use

When opening a pull request, you need to know in advance which branch to base your work on.

ScenarioBranch
Existing or new English language content for the current releasemaster
Content for a feature change releaseThe branch which corresponds to the major and minor version the feature change is in, using the pattern dev-<version>. For example, if a feature changes in the v1.25 release, then add documentation changes to the dev-1.25 branch.
Content in other languages (localizations)Use the localization's convention. See the Localization branching strategy for more information.

If you're still not sure which branch to choose, ask in #sig-docs on Slack.

Note: If you already submitted your pull request and you know that the base branch was wrong, you (and only you, the submitter) can change it.

Languages per PR

Limit pull requests to one language per PR. If you need to make an identical change to the same code sample in multiple languages, open a separate PR for each language.

Tools for contributors

The doc contributors tools directory in the kubernetes/website repository contains tools to help your contribution journey go more smoothly.

2.2 - Opening a pull request

Note: Code developers: If you are documenting a new feature for an upcoming Kubernetes release, see Document a new feature.

To contribute new content pages or improve existing content pages, open a pull request (PR). Make sure you follow all the requirements in the Before you begin section.

If your change is small, or you're unfamiliar with git, read Changes using GitHub to learn how to edit a page.

If your changes are large, read Work from a local fork to learn how to make changes locally on your computer.

Changes using GitHub

If you're less experienced with git workflows, here's an easier method of opening a pull request.

  1. On the page where you see the issue, select the pencil icon at the top right. You can also scroll to the bottom of the page and select Edit this page.

  2. Make your changes in the GitHub markdown editor.

  3. Below the editor, fill in the Propose file change form. In the first field, give your commit message a title. In the second field, provide a description.

    Note: Do not use any GitHub Keywords in your commit message. You can add those to the pull request description later.
  4. Select Propose file change.

  5. Select Create pull request.

  6. The Open a pull request screen appears. Fill in the form:

    • The Subject field of the pull request defaults to the commit summary. You can change it if needed.
    • The Body contains your extended commit message, if you have one, and some template text. Add the details the template text asks for, then delete the extra template text.
    • Leave the Allow edits from maintainers checkbox selected.
    Note: PR descriptions are a great way to help reviewers understand your change. For more information, see Opening a PR.
  7. Select Create pull request.

Addressing feedback in GitHub

Before merging a pull request, Kubernetes community members review and approve it. The k8s-ci-robot suggests reviewers based on the nearest owner mentioned in the pages. If you have someone specific in mind, leave a comment with their GitHub username in it.

If a reviewer asks you to make changes:

  1. Go to the Files changed tab.
  2. Select the pencil (edit) icon on any files changed by the pull request.
  3. Make the changes requested.
  4. Commit the changes.

If you are waiting on a reviewer, reach out once every 7 days. You can also post a message in the #sig-docs Slack channel.

When your review is complete, a reviewer merges your PR and your changes go live a few minutes later.

Work from a local fork

If you're more experienced with git, or if your changes are larger than a few lines, work from a local fork.

Make sure you have git installed on your computer. You can also use a git UI application.

Fork the kubernetes/website repository

  1. Navigate to the kubernetes/website repository.
  2. Select Fork.

Create a local clone and set the upstream

  1. In a terminal window, clone your fork and update the Docsy Hugo theme:

    git clone git@github.com/<github_username>/website
    cd website
    git submodule update --init --recursive --depth 1
    
  2. Navigate to the new website directory. Set the kubernetes/website repository as the upstream remote:

    cd website
    
    git remote add upstream https://github.com/kubernetes/website.git
    
  3. Confirm your origin and upstream repositories:

    git remote -v
    

    Output is similar to:

    origin	git@github.com:<github_username>/website.git (fetch)
    origin	git@github.com:<github_username>/website.git (push)
    upstream	https://github.com/kubernetes/website (fetch)
    upstream	https://github.com/kubernetes/website (push)
    
  4. Fetch commits from your fork's origin/master and kubernetes/website's upstream/master:

    git fetch origin
    git fetch upstream
    

    This makes sure your local repository is up to date before you start making changes.

    Note: This workflow is different than the Kubernetes Community GitHub Workflow. You do not need to merge your local copy of master with upstream/master before pushing updates to your fork.

Create a branch

  1. Decide which branch base to your work on:
  • For improvements to existing content, use upstream/master.

  • For new content about existing features, use upstream/master.

  • For localized content, use the localization's conventions. For more information, see localizing Kubernetes documentation.

  • For new features in an upcoming Kubernetes release, use the feature branch. For more information, see documenting for a release.

  • For long-running efforts that multiple SIG Docs contributors collaborate on, like content reorganization, use a specific feature branch created for that effort.

    If you need help choosing a branch, ask in the #sig-docs Slack channel.

  1. Create a new branch based on the branch identified in step 1. This example assumes the base branch is upstream/master:

    git checkout -b <my_new_branch> upstream/master
    
  2. Make your changes using a text editor.

At any time, use the git status command to see what files you've changed.

Commit your changes

When you are ready to submit a pull request, commit your changes.

  1. In your local repository, check which files you need to commit:

    git status
    

    Output is similar to:

    On branch <my_new_branch>
    Your branch is up to date with 'origin/<my_new_branch>'.
    
    Changes not staged for commit:
    (use "git add <file>..." to update what will be committed)
    (use "git checkout -- <file>..." to discard changes in working directory)
    
    modified:   content/en/docs/contribute/new-content/contributing-content.md
    
    no changes added to commit (use "git add" and/or "git commit -a")
    
  2. Add the files listed under Changes not staged for commit to the commit:

    git add <your_file_name>
    

    Repeat this for each file.

  3. After adding all the files, create a commit:

    git commit -m "Your commit message"
    
    Note: Do not use any GitHub Keywords in your commit message. You can add those to the pull request description later.
  4. Push your local branch and its new commit to your remote fork:

    git push origin <my_new_branch>
    

Preview your changes locally

It's a good idea to preview your changes locally before pushing them or opening a pull request. A preview lets you catch build errors or markdown formatting problems.

You can either build the website's container image or run Hugo locally. Building the container image is slower but displays Hugo shortcodes, which can be useful for debugging.

Note: The commands below use Docker as default container engine. Set the CONTAINER_ENGINE environment variable to override this behaviour.
  1. Build the image locally:

    # Use docker (default)
    make container-image
    
    ### OR ###
    
    # Use podman
    CONTAINER_ENGINE=podman make container-image
    
  2. After building the kubernetes-hugo image locally, build and serve the site:

    # Use docker (default)
    make container-serve
    
    ### OR ###
    
    # Use podman
    CONTAINER_ENGINE=podman make container-serve
    
  3. In a web browser, navigate to https://localhost:1313. Hugo watches the changes and rebuilds the site as needed.

  4. To stop the local Hugo instance, go back to the terminal and type Ctrl+C, or close the terminal window.

Alternately, install and use the hugo command on your computer:

  1. Install the Hugo version specified in website/netlify.toml.

  2. If you have not updated your website repository, the website/themes/docsy directory is empty. The site cannot build without a local copy of the theme. To update the website theme, run:

    git submodule update --init --recursive --depth 1
    
  3. In a terminal, go to your Kubernetes website repository and start the Hugo server:

    cd <path_to_your_repo>/website
    hugo server --buildFuture
    
  4. In a web browser, navigate to https://localhost:1313. Hugo watches the changes and rebuilds the site as needed.

  5. To stop the local Hugo instance, go back to the terminal and type Ctrl+C, or close the terminal window.

Open a pull request from your fork to kubernetes/website

  1. In a web browser, go to the kubernetes/website repository.

  2. Select New Pull Request.

  3. Select compare across forks.

  4. From the head repository drop-down menu, select your fork.

  5. From the compare drop-down menu, select your branch.

  6. Select Create Pull Request.

  7. Add a description for your pull request:

    • Title (50 characters or less): Summarize the intent of the change.
    • Description: Describe the change in more detail.
      • If there is a related GitHub issue, include Fixes #12345 or Closes #12345 in the description. GitHub's automation closes the mentioned issue after merging the PR if used. If there are other related PRs, link those as well.
      • If you want advice on something specific, include any questions you'd like reviewers to think about in your description.
  8. Select the Create pull request button.

Congratulations! Your pull request is available in Pull requests.

After opening a PR, GitHub runs automated tests and tries to deploy a preview using Netlify.

  • If the Netlify build fails, select Details for more information.
  • If the Netlify build succeeds, select Details opens a staged version of the Kubernetes website with your changes applied. This is how reviewers check your changes.

GitHub also automatically assigns labels to a PR, to help reviewers. You can add them too, if needed. For more information, see Adding and removing issue labels.

Addressing feedback locally

  1. After making your changes, amend your previous commit:

    git commit -a --amend
    
    • -a: commits all changes
    • --amend: amends the previous commit, rather than creating a new one
  2. Update your commit message if needed.

  3. Use git push origin <my_new_branch> to push your changes and re-run the Netlify tests.

    Note: If you use git commit -m instead of amending, you must squash your commits before merging.

Changes from reviewers

Sometimes reviewers commit to your pull request. Before making any other changes, fetch those commits.

  1. Fetch commits from your remote fork and rebase your working branch:

    git fetch origin
    git rebase origin/<your-branch-name>
    
  2. After rebasing, force-push new changes to your fork:

    git push --force-with-lease origin <your-branch-name>
    

Merge conflicts and rebasing

Note: For more information, see Git Branching - Basic Branching and Merging, Advanced Merging, or ask in the #sig-docs Slack channel for help.

If another contributor commits changes to the same file in another PR, it can create a merge conflict. You must resolve all merge conflicts in your PR.

  1. Update your fork and rebase your local branch:

    git fetch origin
    git rebase origin/<your-branch-name>
    

    Then force-push the changes to your fork:

    git push --force-with-lease origin <your-branch-name>
    
  2. Fetch changes from kubernetes/website's upstream/master and rebase your branch:

    git fetch upstream
    git rebase upstream/master
    
  3. Inspect the results of the rebase:

    git status
    

This results in a number of files marked as conflicted.

  1. Open each conflicted file and look for the conflict markers: >>>, <<<, and ===. Resolve the conflict and delete the conflict marker.

    Note: For more information, see How conflicts are presented.
  2. Add the files to the changeset:

    git add <filename>
    
  3. Continue the rebase:

    git rebase --continue
    
  4. Repeat steps 2 to 5 as needed.

    After applying all commits, the git status command shows that the rebase is complete.

  5. Force-push the branch to your fork:

    git push --force-with-lease origin <your-branch-name>
    

    The pull request no longer shows any conflicts.

Squashing commits

Note: For more information, see Git Tools - Rewriting History, or ask in the #sig-docs Slack channel for help.

If your PR has multiple commits, you must squash them into a single commit before merging your PR. You can check the number of commits on your PR's Commits tab or by running the git log command locally.

Note: This topic assumes vim as the command line text editor.
  1. Start an interactive rebase:

    git rebase -i HEAD~<number_of_commits_in_branch>
    

    Squashing commits is a form of rebasing. The -i switch tells git you want to rebase interactively. HEAD~<number_of_commits_in_branch indicates how many commits to look at for the rebase.

    Output is similar to:

    pick d875112ca Original commit
    pick 4fa167b80 Address feedback 1
    pick 7d54e15ee Address feedback 2
    
    # Rebase 3d18sf680..7d54e15ee onto 3d183f680 (3 commands)
    
    ...
    
    # These lines can be re-ordered; they are executed from top to bottom.
    

    The first section of the output lists the commits in the rebase. The second section lists the options for each commit. Changing the word pick changes the status of the commit once the rebase is complete.

    For the purposes of rebasing, focus on squash and pick.

    Note: For more information, see Interactive Mode.
  2. Start editing the file.

    Change the original text:

    pick d875112ca Original commit
    pick 4fa167b80 Address feedback 1
    pick 7d54e15ee Address feedback 2
    

    To:

    pick d875112ca Original commit
    squash 4fa167b80 Address feedback 1
    squash 7d54e15ee Address feedback 2
    

    This squashes commits 4fa167b80 Address feedback 1 and 7d54e15ee Address feedback 2 into d875112ca Original commit, leaving only d875112ca Original commit as a part of the timeline.

  3. Save and exit your file.

  4. Push your squashed commit:

    git push --force-with-lease origin <branch_name>
    

Contribute to other repos

The Kubernetes project contains 50+ repositories. Many of these repositories contain documentation: user-facing help text, error messages, API references or code comments.

If you see text you'd like to improve, use GitHub to search all repositories in the Kubernetes organization. This can help you figure out where to submit your issue or PR.

Each repository has its own processes and procedures. Before you file an issue or submit a PR, read that repository's README.md, CONTRIBUTING.md, and code-of-conduct.md, if they exist.

Most repositories use issue and PR templates. Have a look through some open issues and PRs to get a feel for that team's processes. Make sure to fill out the templates with as much detail as possible when you file issues or PRs.

What's next

  • Read Reviewing to learn more about the review process.

2.3 - Documenting a feature for a release

Each major Kubernetes release introduces new features that require documentation. New releases also bring updates to existing features and documentation (such as upgrading a feature from alpha to beta).

Generally, the SIG responsible for a feature submits draft documentation of the feature as a pull request to the appropriate development branch of the kubernetes/website repository, and someone on the SIG Docs team provides editorial feedback or edits the draft directly. This section covers the branching conventions and process used during a release by both groups.

For documentation contributors

In general, documentation contributors don't write content from scratch for a release. Instead, they work with the SIG creating a new feature to refine the draft documentation and make it release ready.

After you've chosen a feature to document or assist, ask about it in the #sig-docs Slack channel, in a weekly SIG Docs meeting, or directly on the PR filed by the feature SIG. If you're given the go-ahead, you can edit into the PR using one of the techniques described in Commit into another person's PR.

Find out about upcoming features

To find out about upcoming features, attend the weekly SIG Release meeting (see the community page for upcoming meetings) and monitor the release-specific documentation in the kubernetes/sig-release repository. Each release has a sub-directory in the /sig-release/tree/master/releases/ directory. The sub-directory contains a release schedule, a draft of the release notes, and a document listing each person on the release team.

The release schedule contains links to all other documents, meetings, meeting minutes, and milestones relating to the release. It also contains information about the goals and timeline of the release, and any special processes in place for this release. Near the bottom of the document, several release-related terms are defined.

This document also contains a link to the Feature tracking sheet, which is the official way to find out about all new features scheduled to go into the release.

The release team document lists who is responsible for each release role. If it's not clear who to talk to about a specific feature or question you have, either attend the release meeting to ask your question, or contact the release lead so that they can redirect you.

The release notes draft is a good place to find out about specific features, changes, deprecations, and more about the release. The content is not finalized until late in the release cycle, so use caution.

Feature tracking sheet

The feature tracking sheet for a given Kubernetes release lists each feature that is planned for a release. Each line item includes the name of the feature, a link to the feature's main GitHub issue, its stability level (Alpha, Beta, or Stable), the SIG and individual responsible for implementing it, whether it needs docs, a draft release note for the feature, and whether it has been merged. Keep the following in mind:

  • Beta and Stable features are generally a higher documentation priority than Alpha features.
  • It's hard to test (and therefore to document) a feature that hasn't been merged, or is at least considered feature-complete in its PR.
  • Determining whether a feature needs documentation is a manual process. Even if a feature is not marked as needing docs, you may need to document the feature.

For developers or other SIG members

This section is information for members of other Kubernetes SIGs documenting new features for a release.

If you are a member of a SIG developing a new feature for Kubernetes, you need to work with SIG Docs to be sure your feature is documented in time for the release. Check the feature tracking spreadsheet or check in the #sig-release Kubernetes Slack channel to verify scheduling details and deadlines.

Open a placeholder PR

  1. Open a draft pull request against the dev-1.25 branch in the kubernetes/website repository, with a small commit that you will amend later. To create a draft pull request, use the Create Pull Request drop-down and select Create Draft Pull Request, then click Draft Pull Request.
  2. Edit the pull request description to include links to kubernetes/kubernetes PR(s) and kubernetes/enhancements issue(s).
  3. Leave a comment on the related kubernetes/enhancements issue with a link to the PR to notify the docs person managing this release that the feature docs are coming and should be tracked for the release.

If your feature does not need any documentation changes, make sure the sig-release team knows this, by mentioning it in the #sig-release Slack channel. If the feature does need documentation but the PR is not created, the feature may be removed from the milestone.

PR ready for review

When ready, populate your placeholder PR with feature documentation and change the state of the PR from draft to ready for review. To mark a pull request as ready for review, navigate to the merge box and click Ready for review.

Do your best to describe your feature and how to use it. If you need help structuring your documentation, ask in the #sig-docs slack channel.

When you complete your content, the documentation person assigned to your feature reviews it. To ensure technical accuracy, the content may also require a technical review from corresponding SIG(s). Use their suggestions to get the content to a release ready state.

If your feature is an Alpha or Beta feature and is behind a feature gate, make sure you add it to Alpha/Beta Feature gates table as part of your pull request. With new feature gates, a description of the feature gate is also required. If your feature is GA'ed or deprecated, make sure to move it from that table to Feature gates for graduated or deprecated features table with Alpha and Beta history intact.

If your feature needs documentation and the first draft content is not received, the feature may be removed from the milestone.

All PRs reviewed and ready to merge

If your PR has not yet been merged into the dev-1.25 branch by the release deadline, work with the docs person managing the release to get it in by the deadline. If your feature needs documentation and the docs are not ready, the feature may be removed from the milestone.

2.4 - Submitting blog posts and case studies

Anyone can write a blog post and submit it for review. Case studies require extensive review before they're approved.

The Kubernetes Blog

The Kubernetes blog is used by the project to communicate new features, community reports, and any news that might be relevant to the Kubernetes community. This includes end users and developers. Most of the blog's content is about things happening in the core project, but we encourage you to submit about things happening elsewhere in the ecosystem too!

Anyone can write a blog post and submit it for review.

Guidelines and expectations

  • Blog posts should not be vendor pitches.
    • Articles must contain content that applies broadly to the Kubernetes community. For example, a submission should focus on upstream Kubernetes as opposed to vendor-specific configurations. Check the Documentation style guide for what is typically allowed on Kubernetes properties.
    • Links should primarily be to the official Kubernetes documentation. When using external references, links should be diverse - For example a submission shouldn't contain only links back to a single company's blog.
    • Sometimes this is a delicate balance. The blog team is there to give guidance on whether a post is appropriate for the Kubernetes blog, so don't hesitate to reach out.
  • Blog posts are not published on specific dates.
    • Articles are reviewed by community volunteers. We'll try our best to accommodate specific timing, but we make no guarantees.
    • Many core parts of the Kubernetes projects submit blog posts during release windows, delaying publication times. Consider submitting during a quieter period of the release cycle.
    • If you are looking for greater coordination on post release dates, coordinating with CNCF marketing is a more appropriate choice than submitting a blog post.
    • Sometimes reviews can get backed up. If you feel your review isn't getting the attention it needs, you can reach out to the blog team via this slack channel to ask in real time.
  • Blog posts should be relevant to Kubernetes users.
    • Topics related to participation in or results of Kubernetes SIGs activities are always on topic (see the work in the Upstream Marketing Team for support on these posts).
    • The components of Kubernetes are purposely modular, so tools that use existing integration points like CNI and CSI are on topic.
    • Posts about other CNCF projects may or may not be on topic. We recommend asking the blog team before submitting a draft.
      • Many CNCF projects have their own blog. These are often a better choice for posts. There are times of major feature or milestone for a CNCF project that users would be interested in reading on the Kubernetes blog.
  • Blog posts should be original content
    • The official blog is not for repurposing existing content from a third party as new content.
    • The license for the blog allows commercial use of the content for commercial purposes, but not the other way around.
  • Blog posts should aim to be future proof
    • Given the development velocity of the project, we want evergreen content that won't require updates to stay accurate for the reader.
    • It can be a better choice to add a tutorial or update official documentation than to write a high level overview as a blog post.
      • Consider concentrating the long technical content as a call to action of the blog post, and focus on the problem space or why readers should care.

Technical Considerations for submitting a blog post

Submissions need to be in Markdown format to be used by the Hugo generator for the blog. There are many resources available on how to use this technology stack.

We recognize that this requirement makes the process more difficult for less-familiar folks to submit, and we're constantly looking at solutions to lower this bar. If you have ideas on how to lower the barrier, please volunteer to help out.

The SIG Docs blog subproject manages the review process for blog posts. For more information, see Submit a post.

To submit a blog post follow these directions:

  • Open a pull request with a new blog post. New blog posts go under the content/en/blog/_posts directory.

  • Ensure that your blog post follows the correct naming conventions and the following frontmatter (metadata) information:

    • The Markdown file name must follow the format YYYY-MM-DD-Your-Title-Here.md. For example, 2020-02-07-Deploying-External-OpenStack-Cloud-Provider-With-Kubeadm.md.
    • Do not include dots in the filename. A name like 2020-01-01-whats-new-in-1.19.md causes failures during a build.
    • The front matter must include the following:
    ---
    layout: blog
    title: "Your Title Here"
    date: YYYY-MM-DD
    slug: text-for-URL-link-here-no-spaces
    ---
    
    • The first or initial commit message should be a short summary of the work being done and should stand alone as a description of the blog post. Please note that subsequent edits to your blog will be squashed into this main commit, so it should be as useful as possible.
      • Examples of a good commit message:
        • Add blog post on the foo kubernetes feature
        • blog: foobar announcement
      • Examples of bad commit message:
        • Add blog post
        • .
        • initial commit
        • draft post
    • The blog team will then review your PR and give you comments on things you might need to fix. After that the bot will merge your PR and your blog post will be published.

Submit a case study

Case studies highlight how organizations are using Kubernetes to solve real-world problems. The Kubernetes marketing team and members of the CNCF collaborate with you on all case studies.

Have a look at the source for the existing case studies.

Refer to the case study guidelines and submit your request as outlined in the guidelines.

3 - Reviewing changes

This section describes how to review content.

3.1 - Reviewing pull requests

Anyone can review a documentation pull request. Visit the pull requests section in the Kubernetes website repository to see open pull requests.

Reviewing documentation pull requests is a great way to introduce yourself to the Kubernetes community. It helps you learn the code base and build trust with other contributors.

Before reviewing, it's a good idea to:

Before you begin

Before you start a review:

  • Read the CNCF Code of Conduct and ensure that you abide by it at all times.
  • Be polite, considerate, and helpful.
  • Comment on positive aspects of PRs as well as changes.
  • Be empathetic and mindful of how your review may be received.
  • Assume good intent and ask clarifying questions.
  • Experienced contributors, consider pairing with new contributors whose work requires extensive changes.

Review process

In general, review pull requests for content and style in English.

  1. Go to https://github.com/kubernetes/website/pulls. You see a list of every open pull request against the Kubernetes website and docs.

  2. Filter the open PRs using one or all of the following labels:

    • cncf-cla: yes (Recommended): PRs submitted by contributors who have not signed the CLA cannot be merged. See Sign the CLA for more information.
    • language/en (Recommended): Filters for english language PRs only.
    • size/<size>: filters for PRs of a certain size. If you're new, start with smaller PRs.

    Additionally, ensure the PR isn't marked as a work in progress. PRs using the work in progress label are not ready for review yet.

  3. Once you've selected a PR to review, understand the change by:

    • Reading the PR description to understand the changes made, and read any linked issues
    • Reading any comments by other reviewers
    • Clicking the Files changed tab to see the files and lines changed
    • Previewing the changes in the Netlify preview build by scrolling to the PR's build check section at the bottom of the Conversation tab and clicking the deploy/netlify line's Details link.
  4. Go to the Files changed tab to start your review.

    1. Click on the + symbol beside the line you want to comment on.
    2. Fill in any comments you have about the line and click either Add single comment (if you have only one comment to make) or Start a review (if you have multiple comments to make).
    3. When finished, click Review changes at the top of the page. Here, you can add add a summary of your review (and leave some positive comments for the contributor!), approve the PR, comment or request changes as needed. New contributors should always choose Comment.

Reviewing checklist

When reviewing, use the following as a starting point.

Language and grammar

  • Are there any obvious errors in language or grammar? Is there a better way to phrase something?
  • Are there any complicated or archaic words which could be replaced with a simpler word?
  • Are there any words, terms or phrases in use which could be replaced with a non-discriminatory alternative?
  • Does the word choice and its capitalization follow the style guide?
  • Are there long sentences which could be shorter or less complex?
  • Are there any long paragraphs which might work better as a list or table?

Content

  • Does similar content exist elsewhere on the Kubernetes site?
  • Does the content excessively link to off-site, individual vendor or non-open source documentation?

Website

  • Did this PR change or remove a page title, slug/alias or anchor link? If so, are there broken links as a result of this PR? Is there another option, like changing the page title without changing the slug?
  • Does the PR introduce a new page? If so:
    • Is the page using the right page content type and associated Hugo shortcodes?
    • Does the page appear correctly in the section's side navigation (or at all)?
    • Should the page appear on the Docs Home listing?
  • Do the changes show up in the Netlify preview? Be particularly vigilant about lists, code blocks, tables, notes and images.

Other

For small issues with a PR, like typos or whitespace, prefix your comments with nit:. This lets the author know the issue is non-critical.

3.2 - Reviewing for approvers and reviewers

SIG Docs Reviewers and Approvers do a few extra things when reviewing a change.

Every week a specific docs approver volunteers to triage and review pull requests. This person is the "PR Wrangler" for the week. See the PR Wrangler scheduler for more information. To become a PR Wrangler, attend the weekly SIG Docs meeting and volunteer. Even if you are not on the schedule for the current week, you can still review pull requests (PRs) that are not already under active review.

In addition to the rotation, a bot assigns reviewers and approvers for the PR based on the owners for the affected files.

Reviewing a PR

Kubernetes documentation follows the Kubernetes code review process.

Everything described in Reviewing a pull request applies, but Reviewers and Approvers should also do the following:

  • Using the /assign Prow command to assign a specific reviewer to a PR as needed. This is extra important when it comes to requesting technical review from code contributors.

    Note: Look at the reviewers field in the front-matter at the top of a Markdown file to see who can provide technical review.
  • Making sure the PR follows the Content and Style guides; link the author to the relevant part of the guide(s) if it doesn't.

  • Using the GitHub Request Changes option when applicable to suggest changes to the PR author.

  • Changing your review status in GitHub using the /approve or /lgtm Prow commands, if your suggestions are implemented.

Commit into another person's PR

Leaving PR comments is helpful, but there might be times when you need to commit into another person's PR instead.

Do not "take over" for another person unless they explicitly ask you to, or you want to resurrect a long-abandoned PR. While it may be faster in the short term, it deprives the person of the chance to contribute.

The process you use depends on whether you need to edit a file that is already in the scope of the PR, or a file that the PR has not yet touched.

You can't commit into someone else's PR if either of the following things is true:

  • If the PR author pushed their branch directly to the https://github.com/kubernetes/website/ repository. Only a reviewer with push access can commit to another user's PR.

    Note: Encourage the author to push their branch to their fork before opening the PR next time.
  • The PR author explicitly disallows edits from approvers.

Prow commands for reviewing

Prow is the Kubernetes-based CI/CD system that runs jobs against pull requests (PRs). Prow enables chatbot-style commands to handle GitHub actions across the Kubernetes organization, like adding and removing labels, closing issues, and assigning an approver. Enter Prow commands as GitHub comments using the /<command-name> format.

The most common prow commands reviewers and approvers use are:

Prow commands for reviewing
Prow CommandRole RestrictionsDescription
/lgtmAnyone, but triggers automation if a Reviewer or Approver uses itSignals that you've finished reviewing a PR and are satisfied with the changes.
/approveApproversApproves a PR for merging.
/assignReviewers or ApproversAssigns a person to review or approve a PR
/closeReviewers or ApproversCloses an issue or PR.
/holdAnyoneAdds the do-not-merge/hold label, indicating the PR cannot be automatically merged.
/hold cancelAnyoneRemoves the do-not-merge/hold label.

See the Prow command reference to see the full list of commands you can use in a PR.

Triage and categorize issues

In general, SIG Docs follows the Kubernetes issue triage process and uses the same labels.

This GitHub Issue filter finds issues that might need triage.

Triaging an issue

  1. Validate the issue
  • Make sure the issue is about website documentation. Some issues can be closed quickly by answering a question or pointing the reporter to a resource. See the Support requests or code bug reports section for details.
  • Assess whether the issue has merit.
  • Add the triage/needs-information label if the issue doesn't have enough detail to be actionable or the template is not filled out adequately.
  • Close the issue if it has both the lifecycle/stale and triage/needs-information labels.
  1. Add a priority label (the Issue Triage Guidelines define priority labels in detail)
Issue labels
LabelDescription
priority/critical-urgentDo this right now.
priority/important-soonDo this within 3 months.
priority/important-longtermDo this within 6 months.
priority/backlogDeferrable indefinitely. Do when resources are available.
priority/awaiting-more-evidencePlaceholder for a potentially good issue so it doesn't get lost.
help or good first issueSuitable for someone with very little Kubernetes or SIG Docs experience. See Help Wanted and Good First Issue Labels for more information.

At your discretion, take ownership of an issue and submit a PR for it (especially if it's quick or relates to work you're already doing).

If you have questions about triaging an issue, ask in #sig-docs on Slack or the kubernetes-sig-docs mailing list.

Adding and removing issue labels

To add a label, leave a comment in one of the following formats:

  • /<label-to-add> (for example, /good-first-issue)
  • /<label-category> <label-to-add> (for example, /triage needs-information or /language ja)

To remove a label, leave a comment in one of the following formats:

  • /remove-<label-to-remove> (for example, /remove-help)
  • /remove-<label-category> <label-to-remove> (for example, /remove-triage needs-information)`

In both cases, the label must already exist. If you try to add a label that does not exist, the command is silently ignored.

For a list of all labels, see the website repository's Labels section. Not all labels are used by SIG Docs.

Issue lifecycle labels

Issues are generally opened and closed quickly. However, sometimes an issue is inactive after its opened. Other times, an issue may need to remain open for longer than 90 days.

Issue lifecycle labels
LabelDescription
lifecycle/staleAfter 90 days with no activity, an issue is automatically labeled as stale. The issue will be automatically closed if the lifecycle is not manually reverted using the /remove-lifecycle stale command.
lifecycle/frozenAn issue with this label will not become stale after 90 days of inactivity. A user manually adds this label to issues that need to remain open for much longer than 90 days, such as those with a priority/important-longterm label.

Handling special issue types

SIG Docs encounters the following types of issues often enough to document how to handle them.

Duplicate issues

If a single problem has one or more issues open for it, combine them into a single issue. You should decide which issue to keep open (or open a new issue), then move over all relevant information and link related issues. Finally, label all other issues that describe the same problem with triage/duplicate and close them. Only having a single issue to work on reduces confusion and avoids duplicate work on the same problem.

If the dead link issue is in the API or kubectl documentation, assign them /priority critical-urgent until the problem is fully understood. Assign all other dead link issues /priority important-longterm, as they must be manually fixed.

Blog issues

We expect Kubernetes Blog entries to become outdated over time. Therefore, we only maintain blog entries less than a year old. If an issue is related to a blog entry that is more than one year old, close the issue without fixing.

Support requests or code bug reports

Some docs issues are actually issues with the underlying code, or requests for assistance when something, for example a tutorial, doesn't work. For issues unrelated to docs, close the issue with the kind/support label and a comment directing the requester to support venues (Slack, Stack Overflow) and, if relevant, the repository to file an issue for bugs with features (kubernetes/kubernetes is a great place to start).

Sample response to a request for support:

This issue sounds more like a request for support and less
like an issue specifically for docs. I encourage you to bring
your question to the `#kubernetes-users` channel in
[Kubernetes slack](https://slack.k8s.io/). You can also search
resources like
[Stack Overflow](https://stackoverflow.com/questions/tagged/kubernetes)
for answers to similar questions.

You can also open issues for Kubernetes functionality in
https://github.com/kubernetes/kubernetes.

If this is a documentation issue, please re-open this issue.

Sample code bug report response:

This sounds more like an issue with the code than an issue with
the documentation. Please open an issue at
https://github.com/kubernetes/kubernetes/issues.

If this is a documentation issue, please re-open this issue.

4 - Localizing Kubernetes documentation

This page shows you how to localize the docs for a different language.

Getting started

Because contributors can't approve their own pull requests, you need at least two contributors to begin a localization.

All localization teams must be self-sustaining with their own resources. The Kubernetes website is happy to host your work, but it's up to you to translate it.

Find your two-letter language code

First, consult the ISO 639-1 standard to find your localization's two-letter country code. For example, the two-letter code for Korean is ko.

Fork and clone the repo

First, create your own fork of the kubernetes/website repository.

Then, clone your fork and cd into it:

git clone https://github.com/<username>/website
cd website

Open a pull request

Next, open a pull request (PR) to add a localization to the kubernetes/website repository.

The PR must include all of the minimum required content before it can be approved.

For an example of adding a new localization, see the PR to enable docs in French.

Join the Kubernetes GitHub organization

Once you've opened a localization PR, you can become members of the Kubernetes GitHub organization. Each person on the team needs to create their own Organization Membership Request in the kubernetes/org repository.

Add your localization team in GitHub

Next, add your Kubernetes localization team to sig-docs/teams.yaml. For an example of adding a localization team, see the PR to add the Spanish localization team.

Members of @kubernetes/sig-docs-**-owners can approve PRs that change content within (and only within) your localization directory: /content/**/.

For each localization, The @kubernetes/sig-docs-**-reviews team automates review assignment for new PRs.

Members of @kubernetes/website-maintainers can create new localization branches to coordinate translation efforts.

Members of @kubernetes/website-milestone-maintainers can use the /milestone Prow command to assign a milestone to issues or PRs.

Configure the workflow

Next, add a GitHub label for your localization in the kubernetes/test-infra repository. A label lets you filter issues and pull requests for your specific language.

For an example of adding a label, see the PR for adding the Italian language label.

Find community

Let Kubernetes SIG Docs know you're interested in creating a localization! Join the SIG Docs Slack channel and the SIG Docs Localizations Slack channel. Other localization teams are happy to help you get started and answer any questions you have.

Please also consider participating in the SIG Docs Localization Subgroup meeting. The mission of the SIG Docs localization subgroup is to work across the SIG Docs localization teams to collaborate on defining and documenting the processes for creating localized contribution guides. In addition, the SIG Docs localization subgroup will look for opportunities for the creation and sharing of common tools across localization teams and also serve to identify new requirements to the SIG Docs Leadership team. If you have questions about this meeting, please inquire on the SIG Docs Localizations Slack channel.

You can also create a Slack channel for your localization in the kubernetes/community repository. For an example of adding a Slack channel, see the PR for adding a channel for Persian.

Minimum required content

Modify the site configuration

The Kubernetes website uses Hugo as its web framework. The website's Hugo configuration resides in the config.toml file. To support a new localization, you'll need to modify config.toml.

Add a configuration block for the new language to config.toml, under the existing [languages] block. The German block, for example, looks like:

[languages.de]
title = "Kubernetes"
description = "Produktionsreife Container-Verwaltung"
languageName = "Deutsch"
contentDir = "content/de"
weight = 3

When assigning a weight parameter for your block, find the language block with the highest weight and add 1 to that value.

For more information about Hugo's multilingual support, see "Multilingual Mode".

Add a new localization directory

Add a language-specific subdirectory to the content folder in the repository. For example, the two-letter code for German is de:

mkdir content/de

Localize the community code of conduct

Open a PR against the cncf/foundation repository to add the code of conduct in your language.

Add a localized README file

To guide other localization contributors, add a new README-**.md to the top level of k/website, where ** is the two-letter language code. For example, a German README file would be README-de.md.

Provide guidance to localization contributors in the localized README-**.md file. Include the same information contained in README.md as well as:

  • A point of contact for the localization project
  • Any information specific to the localization

After you create the localized README, add a link to the file from the main English README.md, and include contact information in English. You can provide a GitHub ID, email address, Slack channel, or other method of contact. You must also provide a link to your localized Community Code of Conduct.

Setting up the OWNERS files

To set the roles of each user contributing to the localization, create an OWNERS file inside the language-specific subdirectory with:

More information about the OWNERS file can be found at go.k8s.io/owners.

The Spanish OWNERS file, with language code es, looks like:

# See the OWNERS docs at https://go.k8s.io/owners

# This is the localization project for Spanish.
# Teams and members are visible at https://github.com/orgs/kubernetes/teams.

reviewers:
- sig-docs-es-reviews

approvers:
- sig-docs-es-owners

labels:
- language/es

After adding the language-specific OWNERS file, update the root OWNERS_ALIASES file with the new Kubernetes teams for the localization, sig-docs-**-owners and sig-docs-**-reviews.

For each team, add the list of GitHub users requested in Add your localization team in GitHub, in alphabetical order.

--- a/OWNERS_ALIASES
+++ b/OWNERS_ALIASES
@@ -48,6 +48,14 @@ aliases:
     - stewart-yu
     - xiangpengzhao
     - zhangxiaoyu-zidif
+  sig-docs-es-owners: # Admins for Spanish content
+    - alexbrand
+    - raelga
+  sig-docs-es-reviews: # PR reviews for Spanish content
+    - alexbrand
+    - electrocucaracha
+    - glo-pena
+    - raelga
   sig-docs-fr-owners: # Admins for French content
     - perriea
     - remyleone

Translating content

Localizing all of the Kubernetes documentation is an enormous task. It's okay to start small and expand over time.

At a minimum, all localizations must include:

DescriptionURLs
HomeAll heading and subheading URLs
SetupAll heading and subheading URLs
TutorialsKubernetes Basics, Hello Minikube
Site stringsAll site strings in a new localized TOML file

Translated documents must reside in their own content/**/ subdirectory, but otherwise follow the same URL path as the English source. For example, to prepare the Kubernetes Basics tutorial for translation into German, create a subfolder under the content/de/ folder and copy the English source:

mkdir -p content/de/docs/tutorials
cp content/en/docs/tutorials/kubernetes-basics.md content/de/docs/tutorials/kubernetes-basics.md

Translation tools can speed up the translation process. For example, some editors offers plugins to quickly translate text.

Caution: Machine-generated translation is insufficient on its own. Localization requires extensive human review to meet minimum standards of quality.

To ensure accuracy in grammar and meaning, members of your localization team should carefully review all machine-generated translations before publishing.

Source files

Localizations must be based on the English files from a specific release targeted by the localization team. Each localization team can decide which release to target which is referred to as the target version below.

To find source files for your target version:

  1. Navigate to the Kubernetes website repository at https://github.com/kubernetes/website.
  2. Select a branch for your target version from the following table:
    Target versionBranch
    Next versiondev-1.25
    Latest versionmaster
    Previous versionrelease-*.**

The master branch holds content for the current release v1.24. The release team will create release-1.24 branch shortly before the next release: v1.25.

Site strings in i18n

Localizations must include the contents of i18n/en.toml in a new language-specific file. Using German as an example: i18n/de.toml.

Add a new localization file to i18n/. For example, with German (de):

cp i18n/en.toml i18n/de.toml

Then translate the value of each string:

[docs_label_i_am]
other = "ICH BIN..."

Localizing site strings lets you customize site-wide text and features: for example, the legal copyright text in the footer on each page.

Language specific style guide and glossary

Some language teams have their own language-specific style guide and glossary. For example, see the Korean Localization Guide.

Branching strategy

Because localization projects are highly collaborative efforts, we encourage teams to work in shared localization branches.

To collaborate on a localization branch:

  1. A team member of @kubernetes/website-maintainers opens a localization branch from a source branch on https://github.com/kubernetes/website.

    Your team approvers joined the @kubernetes/website-maintainers team when you added your localization team to the kubernetes/org repository.

    We recommend the following branch naming scheme:

    dev-<source version>-<language code>.<team milestone>

    For example, an approver on a German localization team opens the localization branch dev-1.12-de.1 directly against the k/website repository, based on the source branch for Kubernetes v1.12.

  2. Individual contributors open feature branches based on the localization branch.

    For example, a German contributor opens a pull request with changes to kubernetes:dev-1.12-de.1 from username:local-branch-name.

  3. Approvers review and merge feature branches into the localization branch.

  4. Periodically, an approver merges the localization branch to its source branch by opening and approving a new pull request. Be sure to squash the commits before approving the pull request.

Repeat steps 1-4 as needed until the localization is complete. For example, subsequent German localization branches would be: dev-1.12-de.2, dev-1.12-de.3, etc.

Teams must merge localized content into the same branch from which the content was sourced.

For example:

  • a localization branch sourced from master must be merged into master.
  • a localization branch sourced from release-1.19 must be merged into release-1.19.
Note: If your localization branch was created from master branch but it is not merged into master before new release branch release-1.24 created, merge it into both master and new release branch release-1.24. To merge your localization branch into new release branch release-1.24, you need to switch upstream branch of your localization branch to release-1.24.

At the beginning of every team milestone, it's helpful to open an issue comparing upstream changes between the previous localization branch and the current localization branch. There are two scripts for comparing upstream changes. upstream_changes.py is useful for checking the changes made to a specific file. And diff_l10n_branches.py is useful for creating a list of outdated files for a specific localization branch.

While only approvers can open a new localization branch and merge pull requests, anyone can open a pull request for a new localization branch. No special permissions are required.

For more information about working from forks or directly from the repository, see "fork and clone the repo".

Upstream contributions

SIG Docs welcomes upstream contributions and corrections to the English source.

Help an existing localization

You can also help add or improve content to an existing localization. Join the Slack channel for the localization, and start opening PRs to help. Please limit pull requests to a single localization since pull requests that change content in multiple localizations could be difficult to review.

What's next

Once a localization meets requirements for workflow and minimum output, SIG docs will:

5 - Participating in SIG Docs

SIG Docs is one of the special interest groups within the Kubernetes project, focused on writing, updating, and maintaining the documentation for Kubernetes as a whole. See SIG Docs from the community github repo for more information about the SIG.

SIG Docs welcomes content and reviews from all contributors. Anyone can open a pull request (PR), and anyone is welcome to file issues about content or comment on pull requests in progress.

You can also become a member, reviewer, or approver. These roles require greater access and entail certain responsibilities for approving and committing changes. See community-membership for more information on how membership works within the Kubernetes community.

The rest of this document outlines some unique ways these roles function within SIG Docs, which is responsible for maintaining one of the most public-facing aspects of Kubernetes -- the Kubernetes website and documentation.

SIG Docs chairperson

Each SIG, including SIG Docs, selects one or more SIG members to act as chairpersons. These are points of contact between SIG Docs and other parts of the Kubernetes organization. They require extensive knowledge of the structure of the Kubernetes project as a whole and how SIG Docs works within it. See Leadership for the current list of chairpersons.

SIG Docs teams and automation

Automation in SIG Docs relies on two different mechanisms: GitHub teams and OWNERS files.

GitHub teams

There are two categories of SIG Docs teams on GitHub:

  • @sig-docs-{language}-owners are approvers and leads
  • @sig-docs-{language}-reviewers are reviewers

Each can be referenced with their @name in GitHub comments to communicate with everyone in that group.

Sometimes Prow and GitHub teams overlap without matching exactly. For assignment of issues, pull requests, and to support PR approvals, the automation uses information from OWNERS files.

OWNERS files and front-matter

The Kubernetes project uses an automation tool called prow for automation related to GitHub issues and pull requests. The Kubernetes website repository uses two prow plugins:

  • blunderbuss
  • approve

These two plugins use the OWNERS and OWNERS_ALIASES files in the top level of the kubernetes/website GitHub repository to control how prow works within the repository.

An OWNERS file contains a list of people who are SIG Docs reviewers and approvers. OWNERS files can also exist in subdirectories, and can override who can act as a reviewer or approver of files in that subdirectory and its descendants. For more information about OWNERS files in general, see OWNERS.

In addition, an individual Markdown file can list reviewers and approvers in its front-matter, either by listing individual GitHub usernames or GitHub groups.

The combination of OWNERS files and front-matter in Markdown files determines the advice PR owners get from automated systems about who to ask for technical and editorial review of their PR.

How merging works

When a pull request is merged to the branch used to publish content, that content is published to http://kubernetes.io. To ensure that the quality of our published content is high, we limit merging pull requests to SIG Docs approvers. Here's how it works.

  • When a pull request has both the lgtm and approve labels, has no hold labels, and all tests are passing, the pull request merges automatically.
  • Kubernetes organization members and SIG Docs approvers can add comments to prevent automatic merging of a given pull request (by adding a /hold comment or withholding a /lgtm comment).
  • Any Kubernetes member can add the lgtm label by adding a /lgtm comment.
  • Only SIG Docs approvers can merge a pull request by adding an /approve comment. Some approvers also perform additional specific roles, such as PR Wrangler or SIG Docs chairperson.

What's next

For more information about contributing to the Kubernetes documentation, see:

5.1 - Roles and responsibilities

Anyone can contribute to Kubernetes. As your contributions to SIG Docs grow, you can apply for different levels of membership in the community. These roles allow you to take on more responsibility within the community. Each role requires more time and commitment. The roles are:

  • Anyone: regular contributors to the Kubernetes documentation
  • Members: can assign and triage issues and provide non-binding review on pull requests
  • Reviewers: can lead reviews on documentation pull requests and can vouch for a change's quality
  • Approvers: can lead reviews on documentation and merge changes

Anyone

Anyone with a GitHub account can contribute to Kubernetes. SIG Docs welcomes all new contributors!

Anyone can:

After signing the CLA, anyone can also:

  • Open a pull request to improve existing content, add new content, or write a blog post or case study
  • Create diagrams, graphics assets, and embeddable screencasts and videos

For more information, see contributing new content.

Members

A member is someone who has submitted multiple pull requests to kubernetes/website. Members are a part of the Kubernetes GitHub organization.

Members can:

  • Do everything listed under Anyone

  • Use the /lgtm comment to add the LGTM (looks good to me) label to a pull request

    Note: Using /lgtm triggers automation. If you want to provide non-binding approval, commenting "LGTM" works too!
  • Use the /hold comment to block merging for a pull request

  • Use the /assign comment to assign a reviewer to a pull request

  • Provide non-binding review on pull requests

  • Use automation to triage and categorize issues

  • Document new features

Becoming a member

After submitting at least 5 substantial pull requests and meeting the other requirements:

  1. Find two reviewers or approvers to sponsor your membership.

    Ask for sponsorship in the #sig-docs channel on Slack or on the SIG Docs mailing list.

    Note: Don't send a direct email or Slack direct message to an individual SIG Docs member. You must request sponsorship before submitting your application.
  2. Open a GitHub issue in the kubernetes/org repository. Use the Organization Membership Request issue template.

  3. Let your sponsors know about the GitHub issue. You can either:

    • Mention their GitHub username in an issue (@<GitHub-username>)

    • Send them the issue link using Slack or email.

      Sponsors will approve your request with a +1 vote. Once your sponsors approve the request, a Kubernetes GitHub admin adds you as a member. Congratulations!

      If your membership request is not accepted you will receive feedback. After addressing the feedback, apply again.

  4. Accept the invitation to the Kubernetes GitHub organization in your email account.

    Note: GitHub sends the invitation to the default email address in your account.

Reviewers

Reviewers are responsible for reviewing open pull requests. Unlike member feedback, you must address reviewer feedback. Reviewers are members of the @kubernetes/sig-docs-{language}-reviews GitHub team.

Reviewers can:

  • Do everything listed under Anyone and Members

  • Review pull requests and provide binding feedback

    Note: To provide non-binding feedback, prefix your comments with a phrase like "Optionally: ".
  • Edit user-facing strings in code

  • Improve code comments

You can be a SIG Docs reviewer, or a reviewer for docs in a specific subject area.

Assigning reviewers to pull requests

Automation assigns reviewers to all pull requests. You can request a review from a specific person by commenting: /assign [@_github_handle].

If the assigned reviewer has not commented on the PR, another reviewer can step in. You can also assign technical reviewers as needed.

Using /lgtm

LGTM stands for "Looks good to me" and indicates that a pull request is technically accurate and ready to merge. All PRs need a /lgtm comment from a reviewer and a /approve comment from an approver to merge.

A /lgtm comment from reviewer is binding and triggers automation that adds the lgtm label.

Becoming a reviewer

When you meet the requirements, you can become a SIG Docs reviewer. Reviewers in other SIGs must apply separately for reviewer status in SIG Docs.

To apply:

  1. Open a pull request that adds your GitHub user name to a section of the OWNERS_ALIASES file in the kubernetes/website repository.

    Note: If you aren't sure where to add yourself, add yourself to sig-docs-en-reviews.
  2. Assign the PR to one or more SIG-Docs approvers (user names listed under sig-docs-{language}-owners).

If approved, a SIG Docs lead adds you to the appropriate GitHub team. Once added, K8s-ci-robot assigns and suggests you as a reviewer on new pull requests.

Approvers

Approvers review and approve pull requests for merging. Approvers are members of the @kubernetes/sig-docs-{language}-owners GitHub teams.

Approvers can do the following:

  • Everything listed under Anyone, Members and Reviewers
  • Publish contributor content by approving and merging pull requests using the /approve comment
  • Propose improvements to the style guide
  • Propose improvements to docs tests
  • Propose improvements to the Kubernetes website or other tooling

If the PR already has a /lgtm, or if the approver also comments with /lgtm, the PR merges automatically. A SIG Docs approver should only leave a /lgtm on a change that doesn't need additional technical review.

Approving pull requests

Approvers and SIG Docs leads are the only ones who can merge pull requests into the website repository. This comes with certain responsibilities.

  • Approvers can use the /approve command, which merges PRs into the repo.

    Warning: A careless merge can break the site, so be sure that when you merge something, you mean it.
  • Make sure that proposed changes meet the contribution guidelines.

    If you ever have a question, or you're not sure about something, feel free to call for additional review.

  • Verify that Netlify tests pass before you /approve a PR.

    Netlify tests must pass before approving

  • Visit the Netlify page preview for a PR to make sure things look good before approving.

  • Participate in the PR Wrangler rotation schedule for weekly rotations. SIG Docs expects all approvers to participate in this rotation. See PR wranglers. for more details.

Becoming an approver

When you meet the requirements, you can become a SIG Docs approver. Approvers in other SIGs must apply separately for approver status in SIG Docs.

To apply:

  1. Open a pull request adding yourself to a section of the OWNERS_ALIASES file in the kubernetes/website repository.

    Note: If you aren't sure where to add yourself, add yourself to sig-docs-en-owners.
  2. Assign the PR to one or more current SIG Docs approvers.

If approved, a SIG Docs lead adds you to the appropriate GitHub team. Once added, @k8s-ci-robot assigns and suggests you as a reviewer on new pull requests.

What's next

  • Read about PR wrangling, a role all approvers take on rotation.

5.2 - PR wranglers

SIG Docs approvers take week-long shifts managing pull requests for the repository.

This section covers the duties of a PR wrangler. For more information on giving good reviews, see Reviewing changes.

Duties

Each day in a week-long shift as PR Wrangler:

  • Triage and tag incoming issues daily. See Triage and categorize issues for guidelines on how SIG Docs uses metadata.
  • Review open pull requests for quality and adherence to the Style and Content guides.
    • Start with the smallest PRs (size/XS) first, and end with the largest (size/XXL). Review as many PRs as you can.
  • Make sure PR contributors sign the CLA.
    • Use this script to remind contributors that haven't signed the CLA to do so.
  • Provide feedback on changes and ask for technical reviews from members of other SIGs.
    • Provide inline suggestions on the PR for the proposed content changes.
    • If you need to verify content, comment on the PR and request more details.
    • Assign relevant sig/ label(s).
    • If needed, assign reviewers from the reviewers: block in the file's front matter.
  • Use the /approve comment to approve a PR for merging. Merge the PR when ready.
    • PRs should have a /lgtm comment from another member before merging.
    • Consider accepting technically accurate content that doesn't meet the style guidelines. Open a new issue with the label good first issue to address style concerns.

Helpful GitHub queries for wranglers

The following queries are helpful when wrangling. After working through these queries, the remaining list of PRs to review is usually small. These queries exclude localization PRs. All queries are against the main branch except the last one.

  • No CLA, not eligible to merge: Remind the contributor to sign the CLA. If both the bot and a human have reminded them, close the PR and remind them that they can open it after signing the CLA. Do not review PRs whose authors have not signed the CLA!
  • Needs LGTM: Lists PRs that need an LGTM from a member. If the PR needs technical review, loop in one of the reviewers suggested by the bot. If the content needs work, add suggestions and feedback in-line.
  • Has LGTM, needs docs approval: Lists PRs that need an /approve comment to merge.
  • Quick Wins: Lists PRs against the main branch with no clear blockers. (change "XS" in the size label as you work through the PRs [XS, S, M, L, XL, XXL]).
  • Not against the main branch: If the PR is against a dev- branch, it's for an upcoming release. Assign the docs release manager using: /assign @<manager's_github-username>. If the PR is against an old branch, help the author figure out whether it's targeted against the best branch.

Helpful Prow commands for wranglers

# add English label
/language en

# add squash label to PR if more than one commit
/label tide/merge-method-squash

# retitle a PR via Prow (such as a work-in-progress [WIP] or better detail of PR)
/retitle [WIP] <TITLE>

When to close Pull Requests

Reviews and approvals are one tool to keep our PR queue short and current. Another tool is closure.

Close PRs where:

  • The author hasn't signed the CLA for two weeks.

    Authors can reopen the PR after signing the CLA. This is a low-risk way to make sure nothing gets merged without a signed CLA.

  • The author has not responded to comments or feedback in 2 or more weeks.

Don't be afraid to close pull requests. Contributors can easily reopen and resume works in progress. Often a closure notice is what spurs an author to resume and finish their contribution.

To close a pull request, leave a /close comment on the PR.

Note: The fejta-bot bot marks issues as stale after 90 days of inactivity. After 30 more days it marks issues as rotten and closes them. PR wranglers should close issues after 14-30 days of inactivity.

6 - Documentation style overview

The topics in this section provide guidance on writing style, content formatting and organization, and using Hugo customizations specific to Kubernetes documentation.

6.1 - Documentation Content Guide

This page contains guidelines for Kubernetes documentation.

If you have questions about what's allowed, join the #sig-docs channel in Kubernetes Slack and ask!

You can register for Kubernetes Slack at https://slack.k8s.io/.

For information on creating new content for the Kubernetes docs, follow the style guide.

Overview

Source for the Kubernetes website, including the docs, resides in the kubernetes/website repository.

Located in the kubernetes/website/content/<language_code>/docs folder, the majority of Kubernetes documentation is specific to the Kubernetes project.

What's allowed

Kubernetes docs allow content for third-party projects only when:

  • Content documents software in the Kubernetes project
  • Content documents software that's out of project but necessary for Kubernetes to function
  • Content is canonical on kubernetes.io, or links to canonical content elsewhere

Third party content

Kubernetes documentation includes applied examples of projects in the Kubernetes project—projects that live in the kubernetes and kubernetes-sigs GitHub organizations.

Links to active content in the Kubernetes project are always allowed.

Kubernetes requires some third party content to function. Examples include container runtimes (containerd, CRI-O, Docker), networking policy (CNI plugins), Ingress controllers, and logging.

Docs can link to third-party open source software (OSS) outside the Kubernetes project only if it's necessary for Kubernetes to function.

Dual sourced content

Wherever possible, Kubernetes docs link to canonical sources instead of hosting dual-sourced content.

Dual-sourced content requires double the effort (or more!) to maintain and grows stale more quickly.

Note: If you're a maintainer for a Kubernetes project and need help hosting your own docs, ask for help in #sig-docs on Kubernetes Slack.

More information

If you have questions about allowed content, join the Kubernetes Slack #sig-docs channel and ask!

What's next

6.2 - Documentation Style Guide

This page gives writing style guidelines for the Kubernetes documentation. These are guidelines, not rules. Use your best judgment, and feel free to propose changes to this document in a pull request.

For additional information on creating new content for the Kubernetes documentation, read the Documentation Content Guide.

Changes to the style guide are made by SIG Docs as a group. To propose a change or addition, add it to the agenda for an upcoming SIG Docs meeting, and attend the meeting to participate in the discussion.

Note: Kubernetes documentation uses Goldmark Markdown Renderer with some adjustments along with a few Hugo Shortcodes to support glossary entries, tabs, and representing feature state.

Language

Kubernetes documentation has been translated into multiple languages (see Localization READMEs).

The way of localizing the docs for a different language is described in Localizing Kubernetes Documentation.

The English-language documentation uses U.S. English spelling and grammar.

Documentation formatting standards

Use upper camel case for API objects

When you refer specifically to interacting with an API object, use UpperCamelCase, also known as Pascal case. You may see different capitalization, such as "configMap", in the API Reference. When writing general documentation, it's better to use upper camel case, calling it "ConfigMap" instead.

When you are generally discussing an API object, use sentence-style capitalization.

You may use the word "resource", "API", or "object" to clarify a Kubernetes resource type in a sentence.

Don't split an API object name into separate words. For example, use PodTemplateList, not Pod Template List.

The following examples focus on capitalization. For more information about formatting API object names, review the related guidance on Code Style.

Do and Don't - Use Pascal case for API objects
DoDon't
The HorizontalPodAutoscaler resource is responsible for ...The Horizontal pod autoscaler is responsible for ...
A PodList object is a list of pods.A Pod List object is a list of pods.
The Volume object contains a hostPath field.The volume object contains a hostPath field.
Every ConfigMap object is part of a namespace.Every configMap object is part of a namespace.
For managing confidential data, consider using the Secret API.For managing confidential data, consider using the secret API.

Use angle brackets for placeholders

Use angle brackets for placeholders. Tell the reader what a placeholder represents, for example:

Display information about a pod:

kubectl describe pod <pod-name> -n <namespace>

If the namespace of the pod is default, you can omit the '-n' parameter.

Use bold for user interface elements

Do and Don't - Bold interface elements
DoDon't
Click Fork.Click "Fork".
Select Other.Select "Other".

Use italics to define or introduce new terms

Do and Don't - Use italics for new terms
DoDon't
A cluster is a set of nodes ...A "cluster" is a set of nodes ...
These components form the control plane.These components form the control plane.

Use code style for filenames, directories, and paths

Do and Don't - Use code style for filenames, directories, and paths
DoDon't
Open the envars.yaml file.Open the envars.yaml file.
Go to the /docs/tutorials directory.Go to the /docs/tutorials directory.
Open the /_data/concepts.yaml file.Open the /_data/concepts.yaml file.

Use the international standard for punctuation inside quotes

Do and Don't - Use the international standard for punctuation inside quotes
DoDon't
events are recorded with an associated "stage".events are recorded with an associated "stage."
The copy is called a "fork".The copy is called a "fork."

Inline code formatting

Use code style for inline code, commands, and API objects

For inline code in an HTML document, use the <code> tag. In a Markdown document, use the backtick (`).

Do and Don't - Use code style for inline code, commands, and API objects
DoDon't
The kubectl run command creates a Pod.The "kubectl run" command creates a pod.
The kubelet on each node acquires a LeaseThe kubelet on each node acquires a lease…
A PersistentVolume represents durable storage…A Persistent Volume represents durable storage…
For declarative management, use kubectl apply.For declarative management, use "kubectl apply".
Enclose code samples with triple backticks. (```)Enclose code samples with any other syntax.
Use single backticks to enclose inline code. For example, var example = true.Use two asterisks (**) or an underscore (_) to enclose inline code. For example, var example = true.
Use triple backticks before and after a multi-line block of code for fenced code blocks.Use multi-line blocks of code to create diagrams, flowcharts, or other illustrations.
Use meaningful variable names that have a context.Use variable names such as 'foo','bar', and 'baz' that are not meaningful and lack context.
Remove trailing spaces in the code.Add trailing spaces in the code, where these are important, because the screen reader will read out the spaces as well.
Note: The website supports syntax highlighting for code samples, but specifying a language is optional. Syntax highlighting in the code block should conform to the contrast guidelines.

Use code style for object field names and namespaces

Do and Don't - Use code style for object field names
DoDon't
Set the value of the replicas field in the configuration file.Set the value of the "replicas" field in the configuration file.
The value of the exec field is an ExecAction object.The value of the "exec" field is an ExecAction object.
Run the process as a DaemonSet in the kube-system namespace.Run the process as a DaemonSet in the kube-system namespace.

Use code style for Kubernetes command tool and component names

Do and Don't - Use code style for Kubernetes command tool and component names
DoDon't
The kubelet preserves node stability.The kubelet preserves node stability.
The kubectl handles locating and authenticating to the API server.The kubectl handles locating and authenticating to the apiserver.
Run the process with the certificate, kube-apiserver --client-ca-file=FILENAME.Run the process with the certificate, kube-apiserver --client-ca-file=FILENAME.

Starting a sentence with a component tool or component name

Do and Don't - Starting a sentence with a component tool or component name
DoDon't
The kubeadm tool bootstraps and provisions machines in a cluster.kubeadm tool bootstraps and provisions machines in a cluster.
The kube-scheduler is the default scheduler for Kubernetes.kube-scheduler is the default scheduler for Kubernetes.

Use a general descriptor over a component name

Do and Don't - Use a general descriptor over a component name
DoDon't
The Kubernetes API server offers an OpenAPI spec.The apiserver offers an OpenAPI spec.
Aggregated APIs are subordinate API servers.Aggregated APIs are subordinate APIServers.

Use normal style for string and integer field values

For field values of type string or integer, use normal style without quotation marks.

Do and Don't - Use normal style for string and integer field values
DoDon't
Set the value of imagePullPolicy to Always.Set the value of imagePullPolicy to "Always".
Set the value of image to nginx:1.16.Set the value of image to nginx:1.16.
Set the value of the replicas field to 2.Set the value of the replicas field to 2.

Code snippet formatting

Don't include the command prompt

Do and Don't - Don't include the command prompt
DoDon't
kubectl get pods$ kubectl get pods

Separate commands from output

Verify that the pod is running on your chosen node:

kubectl get pods --output=wide

The output is similar to this:

NAME     READY     STATUS    RESTARTS   AGE    IP           NODE
nginx    1/1       Running   0          13s    10.200.0.4   worker0

Versioning Kubernetes examples

Code examples and configuration examples that include version information should be consistent with the accompanying text.

If the information is version specific, the Kubernetes version needs to be defined in the prerequisites section of the Task template or the Tutorial template. Once the page is saved, the prerequisites section is shown as Before you begin.

To specify the Kubernetes version for a task or tutorial page, include min-kubernetes-server-version in the front matter of the page.

If the example YAML is in a standalone file, find and review the topics that include it as a reference. Verify that any topics using the standalone YAML have the appropriate version information defined. If a stand-alone YAML file is not referenced from any topics, consider deleting it instead of updating it.

For example, if you are writing a tutorial that is relevant to Kubernetes version 1.8, the front-matter of your markdown file should look something like:

---
title: <your tutorial title here>
min-kubernetes-server-version: v1.8
---

In code and configuration examples, do not include comments about alternative versions. Be careful to not include incorrect statements in your examples as comments, such as:

apiVersion: v1 # earlier versions use...
kind: Pod
...

Kubernetes.io word list

A list of Kubernetes-specific terms and words to be used consistently across the site.

Kubernetes.io word list
TermUsage
KubernetesKubernetes should always be capitalized.
DockerDocker should always be capitalized.
SIG DocsSIG Docs rather than SIG-DOCS or other variations.
On-premisesOn-premises or On-prem rather than On-premise or other variations.

Shortcodes

Hugo Shortcodes help create different rhetorical appeal levels. Our documentation supports three different shortcodes in this category: Note {{< note >}}, Caution {{< caution >}}, and Warning {{< warning >}}.

  1. Surround the text with an opening and closing shortcode.

  2. Use the following syntax to apply a style:

    {{< note >}}
    No need to include a prefix; the shortcode automatically provides one. (Note:, Caution:, etc.)
    {{< /note >}}
    

    The output is:

    Note: The prefix you choose is the same text for the tag.

Note

Use {{< note >}} to highlight a tip or a piece of information that may be helpful to know.

For example:

{{< note >}}
You can _still_ use Markdown inside these callouts.
{{< /note >}}

The output is:

Note: You can still use Markdown inside these callouts.

You can use a {{< note >}} in a list:

1. Use the note shortcode in a list

1. A second item with an embedded note

   {{< note >}}
   Warning, Caution, and Note shortcodes, embedded in lists, need to be indented four spaces. See [Common Shortcode Issues](#common-shortcode-issues).
   {{< /note >}}

1. A third item in a list

1. A fourth item in a list

The output is:

  1. Use the note shortcode in a list

  2. A second item with an embedded note

    Note: Warning, Caution, and Note shortcodes, embedded in lists, need to be indented four spaces. See Common Shortcode Issues.
  3. A third item in a list

  4. A fourth item in a list

Caution

Use {{< caution >}} to call attention to an important piece of information to avoid pitfalls.

For example:

{{< caution >}}
The callout style only applies to the line directly above the tag.
{{< /caution >}}

The output is:

Caution: The callout style only applies to the line directly above the tag.

Warning

Use {{< warning >}} to indicate danger or a piece of information that is crucial to follow.

For example:

{{< warning >}}
Beware.
{{< /warning >}}

The output is:

Warning: Beware.

Katacoda Embedded Live Environment

This button lets users run Minikube in their browser using the Katacoda Terminal. It lowers the barrier of entry by allowing users to use Minikube with one click instead of going through the complete Minikube and Kubectl installation process locally.

The Embedded Live Environment is configured to run minikube start and lets users complete tutorials in the same window as the documentation.

Caution: The session is limited to 15 minutes.

For example:

{{< kat-button >}}

The output is:

Common Shortcode Issues

Ordered Lists

Shortcodes will interrupt numbered lists unless you indent four spaces before the notice and the tag.

For example:

1. Preheat oven to 350˚F

1. Prepare the batter, and pour into springform pan.
   `{{< note >}}Grease the pan for best results.{{< /note >}}`

1. Bake for 20-25 minutes or until set.

The output is:

  1. Preheat oven to 350˚F

  2. Prepare the batter, and pour into springform pan.

    Note: Grease the pan for best results.
  3. Bake for 20-25 minutes or until set.

Include Statements

Shortcodes inside include statements will break the build. You must insert them in the parent document, before and after you call the include. For example:

{{< note >}}
{{< include "task-tutorial-prereqs.md" >}}
{{< /note >}}

Markdown elements

Line breaks

Use a single newline to separate block-level content like headings, lists, images, code blocks, and others. The exception is second-level headings, where it should be two newlines. Second-level headings follow the first-level (or the title) without any preceding paragraphs or texts. A two line spacing helps visualize the overall structure of content in a code editor better.

Headings

People accessing this documentation may use a screen reader or other assistive technology (AT). Screen readers are linear output devices, they output items on a page one at a time. If there is a lot of content on a page, you can use headings to give the page an internal structure. A good page structure helps all readers to easily navigate the page or filter topics of interest.

Do and Don't - Headings
DoDon't
Update the title in the front matter of the page or blog post.Use first level heading, as Hugo automatically converts the title in the front matter of the page into a first-level heading.
Use ordered headings to provide a meaningful high-level outline of your content.Use headings level 4 through 6, unless it is absolutely necessary. If your content is that detailed, it may need to be broken into separate articles.
Use pound or hash signs (#) for non-blog post content.Use underlines (--- or ===) to designate first-level headings.
Use sentence case for headings. For example, Extend kubectl with pluginsUse title case for headings. For example, Extend Kubectl With Plugins

Paragraphs

Do and Don't - Paragraphs
DoDon't
Try to keep paragraphs under 6 sentences.Indent the first paragraph with space characters. For example, ⋅⋅⋅Three spaces before a paragraph will indent it.
Use three hyphens (---) to create a horizontal rule. Use horizontal rules for breaks in paragraph content. For example, a change of scene in a story, or a shift of topic within a section.Use horizontal rules for decoration.
Do and Don't - Links
DoDon't
Write hyperlinks that give you context for the content they link to. For example: Certain ports are open on your machines. See Check required ports for more details.Use ambiguous terms such as "click here". For example: Certain ports are open on your machines. See here for more details.
Write Markdown-style links: [link text](URL). For example: [Hugo shortcodes](/docs/contribute/style/hugo-shortcodes/#table-captions) and the output is Hugo shortcodes.Write HTML-style links: <a href="/media/examples/link-element-example.css" target="_blank">Visit our tutorial!</a>, or create links that open in new tabs or windows. For example: [example website](https://example.com){target="_blank"}

Lists

Group items in a list that are related to each other and need to appear in a specific order or to indicate a correlation between multiple items. When a screen reader comes across a list—whether it is an ordered or unordered list—it will be announced to the user that there is a group of list items. The user can then use the arrow keys to move up and down between the various items in the list. Website navigation links can also be marked up as list items; after all they are nothing but a group of related links.

  • End each item in a list with a period if one or more items in the list are complete sentences. For the sake of consistency, normally either all items or none should be complete sentences.

    Note: Ordered lists that are part of an incomplete introductory sentence can be in lowercase and punctuated as if each item was a part of the introductory sentence.
  • Use the number one (1.) for ordered lists.

  • Use (+), (*), or (-) for unordered lists.

  • Leave a blank line after each list.

  • Indent nested lists with four spaces (for example, ⋅⋅⋅⋅).

  • List items may consist of multiple paragraphs. Each subsequent paragraph in a list item must be indented by either four spaces or one tab.

Tables

The semantic purpose of a data table is to present tabular data. Sighted users can quickly scan the table but a screen reader goes through line by line. A table caption is used to create a descriptive title for a data table. Assistive technologies (AT) use the HTML table caption element to identify the table contents to the user within the page structure.

Content best practices

This section contains suggested best practices for clear, concise, and consistent content.

Use present tense

Do and Don't - Use present tense
DoDon't
This command starts a proxy.This command will start a proxy.

Exception: Use future or past tense if it is required to convey the correct meaning.

Use active voice

Do and Don't - Use active voice
DoDon't
You can explore the API using a browser.The API can be explored using a browser.
The YAML file specifies the replica count.The replica count is specified in the YAML file.

Exception: Use passive voice if active voice leads to an awkward construction.

Use simple and direct language

Use simple and direct language. Avoid using unnecessary phrases, such as saying "please."

Do and Don't - Use simple and direct language
DoDon't
To create a ReplicaSet, ...In order to create a ReplicaSet, ...
See the configuration file.Please see the configuration file.
View the pods.With this next command, we'll view the pods.

Address the reader as "you"

Do and Don't - Addressing the reader
DoDon't
You can create a Deployment by ...We'll create a Deployment by ...
In the preceding output, you can see...In the preceding output, we can see ...

Avoid Latin phrases

Prefer English terms over Latin abbreviations.

Do and Don't - Avoid Latin phrases
DoDon't
For example, ...e.g., ...
That is, ...i.e., ...

Exception: Use "etc." for et cetera.

Patterns to avoid

Avoid using "we"

Using "we" in a sentence can be confusing, because the reader might not know whether they're part of the "we" you're describing.

Do and Don't - Patterns to avoid
DoDon't
Version 1.4 includes ...In version 1.4, we have added ...
Kubernetes provides a new feature for ...We provide a new feature ...
This page teaches you how to use pods.In this page, we are going to learn about pods.

Avoid jargon and idioms

Some readers speak English as a second language. Avoid jargon and idioms to help them understand better.

Do and Don't - Avoid jargon and idioms
DoDon't
Internally, ...Under the hood, ...
Create a new cluster.Turn up a new cluster.

Avoid statements about the future

Avoid making promises or giving hints about the future. If you need to talk about an alpha feature, put the text under a heading that identifies it as alpha information.

An exception to this rule is documentation about announced deprecations targeting removal in future versions. One example of documentation like this is the Deprecated API migration guide.

Avoid statements that will soon be out of date

Avoid words like "currently" and "new." A feature that is new today might not be considered new in a few months.

Do and Don't - Avoid statements that will soon be out of date
DoDon't
In version 1.4, ...In the current version, ...
The Federation feature provides ...The new Federation feature provides ...

Avoid words that assume a specific level of understanding

Avoid words such as "just", "simply", "easy", "easily", or "simple". These words do not add value.

Do and Don't - Avoid insensitive words
DoDon't
Include one command in ...Include just one command in ...
Run the container ...Simply run the container ...
You can easily remove ...You can remove ...
These simple steps ...These steps ...

What's next

6.3 - Writing a new topic

This page shows how to create a new topic for the Kubernetes docs.

Before you begin

Create a fork of the Kubernetes documentation repository as described in Open a PR.

Choosing a page type

As you prepare to write a new topic, think about the page type that would fit your content the best:

Guidelines for choosing a page type
TypeDescription
ConceptA concept page explains some aspect of Kubernetes. For example, a concept page might describe the Kubernetes Deployment object and explain the role it plays as an application while it is deployed, scaled, and updated. Typically, concept pages don't include sequences of steps, but instead provide links to tasks or tutorials. For an example of a concept topic, see Nodes.
TaskA task page shows how to do a single thing. The idea is to give readers a sequence of steps that they can actually do as they read the page. A task page can be short or long, provided it stays focused on one area. In a task page, it is OK to blend brief explanations with the steps to be performed, but if you need to provide a lengthy explanation, you should do that in a concept topic. Related task and concept topics should link to each other. For an example of a short task page, see Configure a Pod to Use a Volume for Storage. For an example of a longer task page, see Configure Liveness and Readiness Probes
TutorialA tutorial page shows how to accomplish a goal that ties together several Kubernetes features. A tutorial might provide several sequences of steps that readers can actually do as they read the page. Or it might provide explanations of related pieces of code. For example, a tutorial could provide a walkthrough of a code sample. A tutorial can include brief explanations of the Kubernetes features that are being tied together, but should link to related concept topics for deep explanations of individual features.

Creating a new page

Use a content type for each new page that you write. The docs site provides templates or Hugo archetypes to create new content pages. To create a new type of page, run hugo new with the path to the file you want to create. For example:

hugo new docs/concepts/my-first-concept.md

Choosing a title and filename

Choose a title that has the keywords you want search engines to find. Create a filename that uses the words in your title separated by hyphens. For example, the topic with title Using an HTTP Proxy to Access the Kubernetes API has filename http-proxy-access-api.md. You don't need to put "kubernetes" in the filename, because "kubernetes" is already in the URL for the topic, for example:

   /docs/tasks/extend-kubernetes/http-proxy-access-api/

Adding the topic title to the front matter

In your topic, put a title field in the front matter. The front matter is the YAML block that is between the triple-dashed lines at the top of the page. Here's an example:

---
title: Using an HTTP Proxy to Access the Kubernetes API
---

Choosing a directory

Depending on your page type, put your new file in a subdirectory of one of these:

  • /content/en/docs/tasks/
  • /content/en/docs/tutorials/
  • /content/en/docs/concepts/

You can put your file in an existing subdirectory, or you can create a new subdirectory.

Placing your topic in the table of contents

The table of contents is built dynamically using the directory structure of the documentation source. The top-level directories under /content/en/docs/ create top-level navigation, and subdirectories each have entries in the table of contents.

Each subdirectory has a file _index.md, which represents the "home" page for a given subdirectory's content. The _index.md does not need a template. It can contain overview content about the topics in the subdirectory.

Other files in a directory are sorted alphabetically by default. This is almost never the best order. To control the relative sorting of topics in a subdirectory, set the weight: front-matter key to an integer. Typically, we use multiples of 10, to account for adding topics later. For instance, a topic with weight 10 will come before one with weight 20.

Embedding code in your topic

If you want to include some code in your topic, you can embed the code in your file directly using the markdown code block syntax. This is recommended for the following cases (not an exhaustive list):

  • The code shows the output from a command such as kubectl get deploy mydeployment -o json | jq '.status'.
  • The code is not generic enough for users to try out. As an example, you can embed the YAML file for creating a Pod which depends on a specific FlexVolume implementation.
  • The code is an incomplete example because its purpose is to highlight a portion of a larger file. For example, when describing ways to customize the PodSecurityPolicy for some reasons, you can provide a short snippet directly in your topic file.
  • The code is not meant for users to try out due to other reasons. For example, when describing how a new attribute should be added to a resource using the kubectl edit command, you can provide a short example that includes only the attribute to add.

Including code from another file

Another way to include code in your topic is to create a new, complete sample file (or group of sample files) and then reference the sample from your topic. Use this method to include sample YAML files when the sample is generic and reusable, and you want the reader to try it out themselves.

When adding a new standalone sample file, such as a YAML file, place the code in one of the <LANG>/examples/ subdirectories where <LANG> is the language for the topic. In your topic file, use the codenew shortcode:

{{< codenew file="<RELPATH>/my-example-yaml>" >}}

where <RELPATH> is the path to the file to include, relative to the examples directory. The following Hugo shortcode references a YAML file located at /content/en/examples/pods/storage/gce-volume.yaml.

{{< codenew file="pods/storage/gce-volume.yaml" >}}
Note: To show raw Hugo shortcodes as in the above example and prevent Hugo from interpreting them, use C-style comments directly after the < and before the > characters. View the code for this page for an example.

Showing how to create an API object from a configuration file

If you need to demonstrate how to create an API object based on a configuration file, place the configuration file in one of the subdirectories under <LANG>/examples.

In your topic, show this command:

kubectl create -f https://k8s.io/examples/pods/storage/gce-volume.yaml
Note: When adding new YAML files to the <LANG>/examples directory, make sure the file is also included into the <LANG>/examples_test.go file. The Travis CI for the Website automatically runs this test case when PRs are submitted to ensure all examples pass the tests.

For an example of a topic that uses this technique, see Running a Single-Instance Stateful Application.

Adding images to a topic

Put image files in the /images directory. The preferred image format is SVG.

What's next

6.4 - Page content types

The Kubernetes documentation follows several types of page content:

  • Concept
  • Task
  • Tutorial
  • Reference

Content sections

Each page content type contains a number of sections defined by Markdown comments and HTML headings. You can add content headings to your page with the heading shortcode. The comments and headings help maintain the structure of the page content types.

Examples of Markdown comments defining page content sections:

<!-- overview -->
<!-- body -->

To create common headings in your content pages, use the heading shortcode with a heading string.

Examples of heading strings:

  • whatsnext
  • prerequisites
  • objectives
  • cleanup
  • synopsis
  • seealso
  • options

For example, to create a whatsnext heading, add the heading shortcode with the "whatsnext" string:

## {{% heading "whatsnext" %}}

You can declare a prerequisites heading as follows:

## {{% heading "prerequisites" %}}

The heading shortcode expects one string parameter. The heading string parameter matches the prefix of a variable in the i18n/<lang>.toml files. For example:

i18n/en.toml:

[whatsnext_heading]
other = "What's next"

i18n/ko.toml:

[whatsnext_heading]
other = "다음 내용"

Content types

Each content type informally defines its expected page structure. Create page content with the suggested page sections.

Concept

A concept page explains some aspect of Kubernetes. For example, a concept page might describe the Kubernetes Deployment object and explain the role it plays as an application once it is deployed, scaled, and updated. Typically, concept pages don't include sequences of steps, but instead provide links to tasks or tutorials.

To write a new concept page, create a Markdown file in a subdirectory of the /content/en/docs/concepts directory, with the following characteristics:

Concept pages are divided into three sections:

Page section
overview
body
whatsnext

The overview and body sections appear as comments in the concept page. You can add the whatsnext section to your page with the heading shortcode.

Fill each section with content. Follow these guidelines:

  • Organize content with H2 and H3 headings.
  • For overview, set the topic's context with a single paragraph.
  • For body, explain the concept.
  • For whatsnext, provide a bulleted list of topics (5 maximum) to learn more about the concept.

Annotations is a published example of a concept page.

Task

A task page shows how to do a single thing, typically by giving a short sequence of steps. Task pages have minimal explanation, but often provide links to conceptual topics that provide related background and knowledge.

To write a new task page, create a Markdown file in a subdirectory of the /content/en/docs/tasks directory, with the following characteristics:

Page section
overview
prerequisites
steps
discussion
whatsnext

The overview, steps, and discussion sections appear as comments in the task page. You can add the prerequisites and whatsnext sections to your page with the heading shortcode.

Within each section, write your content. Use the following guidelines:

  • Use a minimum of H2 headings (with two leading # characters). The sections themselves are titled automatically by the template.
  • For overview, use a paragraph to set context for the entire topic.
  • For prerequisites, use bullet lists when possible. Start adding additional prerequisites below the include. The default prerequisites include a running Kubernetes cluster.
  • For steps, use numbered lists.
  • For discussion, use normal content to expand upon the information covered in steps.
  • For whatsnext, give a bullet list of up to 5 topics the reader might be interested in reading next.

An example of a published task topic is Using an HTTP proxy to access the Kubernetes API.

Tutorial

A tutorial page shows how to accomplish a goal that is larger than a single task. Typically a tutorial page has several sections, each of which has a sequence of steps. For example, a tutorial might provide a walkthrough of a code sample that illustrates a certain feature of Kubernetes. Tutorials can include surface-level explanations, but should link to related concept topics for deep explanations.

To write a new tutorial page, create a Markdown file in a subdirectory of the /content/en/docs/tutorials directory, with the following characteristics:

Page section
overview
prerequisites
objectives
lessoncontent
cleanup
whatsnext

The overview, objectives, and lessoncontent sections appear as comments in the tutorial page. You can add the prerequisites, cleanup, and whatsnext sections to your page with the heading shortcode.

Within each section, write your content. Use the following guidelines:

  • Use a minimum of H2 headings (with two leading # characters). The sections themselves are titled automatically by the template.
  • For overview, use a paragraph to set context for the entire topic.
  • For prerequisites, use bullet lists when possible. Add additional prerequisites below the ones included by default.
  • For objectives, use bullet lists.
  • For lessoncontent, use a mix of numbered lists and narrative content as appropriate.
  • For cleanup, use numbered lists to describe the steps to clean up the state of the cluster after finishing the task.
  • For whatsnext, give a bullet list of up to 5 topics the reader might be interested in reading next.

An example of a published tutorial topic is Running a Stateless Application Using a Deployment.

Reference

A component tool reference page shows the description and flag options output for a Kubernetes component tool. Each page generates from scripts using the component tool commands.

A tool reference page has several possible sections:

Page section
synopsis
options
options from parent commands
examples
seealso

Examples of published tool reference pages are:

What's next

6.5 - Content organization

This site uses Hugo. In Hugo, content organization is a core concept.

Note: Hugo Tip: Start Hugo with hugo server --navigateToChanged for content edit-sessions.

Page Lists

Page Order

The documentation side menu, the documentation page browser etc. are listed using Hugo's default sort order, which sorts by weight (from 1), date (newest first), and finally by the link title.

Given that, if you want to move a page or a section up, set a weight in the page's front matter:

title: My Page
weight: 10
Note: For page weights, it can be smart not to use 1, 2, 3 ..., but some other interval, say 10, 20, 30... This allows you to insert pages where you want later.

Documentation Main Menu

The Documentation main menu is built from the sections below docs/ with the main_menu flag set in front matter of the _index.md section content file:

main_menu: true

Note that the link title is fetched from the page's linkTitle, so if you want it to be something different than the title, change it in the content file:

main_menu: true
title: Page Title
linkTitle: Title used in links
Note: The above needs to be done per language. If you don't see your section in the menu, it is probably because it is not identified as a section by Hugo. Create a _index.md content file in the section folder.

Documentation Side Menu

The documentation side-bar menu is built from the current section tree starting below docs/.

It will show all sections and their pages.

If you don't want to list a section or page, set the toc_hide flag to true in front matter:

toc_hide: true

When you navigate to a section that has content, the specific section or page (e.g. _index.md) is shown. Else, the first page inside that section is shown.

Documentation Browser

The page browser on the documentation home page is built using all the sections and pages that are directly below the docs section.

If you don't want to list a section or page, set the toc_hide flag to true in front matter:

toc_hide: true

The Main Menu

The site links in the top-right menu -- and also in the footer -- are built by page-lookups. This is to make sure that the page actually exists. So, if the case-studies section does not exist in a site (language), it will not be linked to.

Page Bundles

In addition to standalone content pages (Markdown files), Hugo supports Page Bundles.

One example is Custom Hugo Shortcodes. It is considered a leaf bundle. Everything below the directory, including the index.md, will be part of the bundle. This also includes page-relative links, images that can be processed etc.:

en/docs/home/contribute/includes
├── example1.md
├── example2.md
├── index.md
└── podtemplate.json

Another widely used example is the includes bundle. It sets headless: true in front matter, which means that it does not get its own URL. It is only used in other pages.

en/includes
├── default-storage-class-prereqs.md
├── index.md
├── partner-script.js
├── partner-style.css
├── task-tutorial-prereqs.md
├── user-guide-content-moved.md
└── user-guide-migration-notice.md

Some important notes to the files in the bundles:

  • For translated bundles, any missing non-content files will be inherited from languages above. This avoids duplication.
  • All the files in a bundle are what Hugo calls Resources and you can provide metadata per language, such as parameters and title, even if it does not supports front matter (YAML files etc.). See Page Resources Metadata.
  • The value you get from .RelPermalink of a Resource is page-relative. See Permalinks.

Styles

The SASS source of the stylesheets for this site is stored in assets/sass and is automatically built by Hugo.

What's next

6.6 - Custom Hugo Shortcodes

This page explains the custom Hugo shortcodes that can be used in Kubernetes Markdown documentation.

Read more about shortcodes in the Hugo documentation.

Feature state

In a Markdown page (.md file) on this site, you can add a shortcode to display version and state of the documented feature.

Feature state demo

Below is a demo of the feature state snippet, which displays the feature as stable in the latest Kubernetes version.

{{< feature-state state="stable" >}}

Renders to:

FEATURE STATE: Kubernetes v1.20 [stable]

The valid values for state are:

  • alpha
  • beta
  • deprecated
  • stable

Feature state code

The displayed Kubernetes version defaults to that of the page or the site. You can change the feature state version by passing the for_k8s_version shortcode parameter. For example:

{{< feature-state for_k8s_version="v1.10" state="beta" >}}

Renders to:

FEATURE STATE: Kubernetes v1.10 [beta]

Glossary

There are two glossary shortcodes: glossary_tooltip and glossary_definition.

You can reference glossary terms with an inclusion that automatically updates and replaces content with the relevant links from our glossary. When the glossary term is moused-over, the glossary entry displays a tooltip. The glossary term also displays as a link.

As well as inclusions with tooltips, you can reuse the definitions from the glossary in page content.

The raw data for glossary terms is stored at https://github.com/kubernetes/website/tree/master/content/en/docs/reference/glossary, with a content file for each glossary term.

Glossary demo

For example, the following include within the Markdown renders to cluster with a tooltip:

{{< glossary_tooltip text="cluster" term_id="cluster" >}}

Here's a short glossary definition:

{{< glossary_definition prepend="A cluster is" term_id="cluster" length="short" >}}

which renders as:

A cluster is a set of worker machines, called nodes, that run containerized applications. Every cluster has at least one worker node.

You can also include a full definition:

{{< glossary_definition term_id="cluster" length="all" >}}

which renders as:

A set of worker machines, called nodes, that run containerized applications. Every cluster has at least one worker node.

The worker node(s) host the Pods that are the components of the application workload. The control plane manages the worker nodes and the Pods in the cluster. In production environments, the control plane usually runs across multiple computers and a cluster usually runs multiple nodes, providing fault-tolerance and high availability.

Table captions

You can make tables more accessible to screen readers by adding a table caption. To add a caption to a table, enclose the table with a table shortcode and specify the caption with the caption parameter.

Note: Table captions are visible to screen readers but invisible when viewed in standard HTML.

Here's an example:

{{< table caption="Configuration parameters" >}}
Parameter | Description | Default
:---------|:------------|:-------
`timeout` | The timeout for requests | `30s`
`logLevel` | The log level for log output | `INFO`
{{< /table >}}

The rendered table looks like this:

Configuration parameters
ParameterDescriptionDefault
timeoutThe timeout for requests30s
logLevelThe log level for log outputINFO

If you inspect the HTML for the table, you should see this element immediately after the opening <table> element:

<caption style="display: none;">Configuration parameters</caption>

Tabs

In a markdown page (.md file) on this site, you can add a tab set to display multiple flavors of a given solution.

The tabs shortcode takes these parameters:

  • name: The name as shown on the tab.
  • codelang: If you provide inner content to the tab shortcode, you can tell Hugo what code language to use for highlighting.
  • include: The file to include in the tab. If the tab lives in a Hugo leaf bundle, the file -- which can be any MIME type supported by Hugo -- is looked up in the bundle itself. If not, the content page that needs to be included is looked up relative to the current page. Note that with the include, you do not have any shortcode inner content and must use the self-closing syntax. For example, {{< tab name="Content File #1" include="example1" />}}. The language needs to be specified under codelang or the language is taken based on the file name. Non-content files are code-highlighted by default.
  • If your inner content is markdown, you must use the %-delimiter to surround the tab. For example, {{% tab name="Tab 1" %}}This is **markdown**{{% /tab %}}
  • You can combine the variations mentioned above inside a tab set.

Below is a demo of the tabs shortcode.

Note: The tab name in a tabs definition must be unique within a content page.

Tabs demo: Code highlighting

{{< tabs name="tab_with_code" >}}
{{{< tab name="Tab 1" codelang="bash" >}}
echo "This is tab 1."
{{< /tab >}}
{{< tab name="Tab 2" codelang="go" >}}
println "This is tab 2."
{{< /tab >}}}
{{< /tabs >}}

Renders to:


echo "This is tab 1."


println "This is tab 2."

Tabs demo: Inline Markdown and HTML

{{< tabs name="tab_with_md" >}}
{{% tab name="Markdown" %}}
This is **some markdown.**
{{< note >}}
It can even contain shortcodes.
{{< /note >}}
{{% /tab %}}
{{< tab name="HTML" >}}
<div>
	<h3>Plain HTML</h3>
	<p>This is some <i>plain</i> HTML.</p>
</div>
{{< /tab >}}
{{< /tabs >}}

Renders to:

This is some markdown.

Note: It can even contain shortcodes.

Plain HTML

This is some plain HTML.

Tabs demo: File include

{{< tabs name="tab_with_file_include" >}}
{{< tab name="Content File #1" include="example1" />}}
{{< tab name="Content File #2" include="example2" />}}
{{< tab name="JSON File" include="podtemplate" />}}
{{< /tabs >}}

Renders to:

This is an example content file inside the includes leaf bundle.

Note: Included content files can also contain shortcodes.

This is another example content file inside the includes leaf bundle.

  {
    "apiVersion": "v1",
    "kind": "PodTemplate",
    "metadata": {
      "name": "nginx"
    },
    "template": {
      "metadata": {
        "labels": {
          "name": "nginx"
        },
        "generateName": "nginx-"
      },
      "spec": {
         "containers": [{
           "name": "nginx",
           "image": "dockerfile/nginx",
           "ports": [{"containerPort": 80}]
         }]
      }
    }
  }

Version strings

To generate a version string for inclusion in the documentation, you can choose from several version shortcodes. Each version shortcode displays a version string derived from the value of a version parameter found in the site configuration file, config.toml. The two most commonly used version parameters are latest and version.

{{< param "version" >}}

The {{< param "version" >}} shortcode generates the value of the current version of the Kubernetes documentation from the version site parameter. The param shortcode accepts the name of one site parameter, in this case: version.

Note: In previously released documentation, latest and version parameter values are not equivalent. After a new version is released, latest is incremented and the value of version for the documentation set remains unchanged. For example, a previously released version of the documentation displays version as v1.19 and latest as v1.20.

Renders to:

v1.20

{{< latest-version >}}

The {{< latest-version >}} shortcode returns the value of the latest site parameter. The latest site parameter is updated when a new version of the documentation is released. This parameter does not always match the value of version in a documentation set.

Renders to:

v1.24

{{< latest-semver >}}

The {{< latest-semver >}} shortcode generates the value of latest without the "v" prefix.

Renders to:

1.24

{{< version-check >}}

The {{< version-check >}} shortcode checks if the min-kubernetes-server-version page parameter is present and then uses this value to compare to version.

Renders to:

To check the version, enter kubectl version.

{{< latest-release-notes >}}

The {{< latest-release-notes >}} shortcode generates a version string from latest and removes the "v" prefix. The shortcode prints a new URL for the release note CHANGELOG page with the modified version string.

Renders to:

https://git.k8s.io/kubernetes/CHANGELOG/CHANGELOG-1.24.md

What's next

7 - Reference Docs Overview

The topics in this section document how to generate the Kubernetes reference guides.

To build the reference documentation, see the following guide:

7.1 - Contributing to the Upstream Kubernetes Code

This page shows how to contribute to the upstream kubernetes/kubernetes project. You can fix bugs found in the Kubernetes API documentation or the content of the Kubernetes components such as kubeadm, kube-apiserver, and kube-controller-manager.

If you instead want to regenerate the reference documentation for the Kubernetes API or the kube-* components from the upstream code, see the following instructions:

Before you begin

The big picture

The reference documentation for the Kubernetes API and the kube-* components such as kube-apiserver, kube-controller-manager are automatically generated from the source code in the upstream Kubernetes.

When you see bugs in the generated documentation, you may want to consider creating a patch to fix it in the upstream project.

Cloning the Kubernetes repository

If you don't already have the kubernetes/kubernetes repository, get it now:

mkdir $GOPATH/src
cd $GOPATH/src
go get github.com/kubernetes/kubernetes

Determine the base directory of your clone of the kubernetes/kubernetes repository. For example, if you followed the preceding step to get the repository, your base directory is $GOPATH/src/github.com/kubernetes/kubernetes. The remaining steps refer to your base directory as <k8s-base>.

Determine the base directory of your clone of the kubernetes-sigs/reference-docs repository. For example, if you followed the preceding step to get the repository, your base directory is $GOPATH/src/github.com/kubernetes-sigs/reference-docs. The remaining steps refer to your base directory as <rdocs-base>.

Editing the Kubernetes source code

The Kubernetes API reference documentation is automatically generated from an OpenAPI spec, which is generated from the Kubernetes source code. If you want to change the API reference documentation, the first step is to change one or more comments in the Kubernetes source code.

The documentation for the kube-* components is also generated from the upstream source code. You must change the code related to the component you want to fix in order to fix the generated documentation.

Making changes to the upstream source code

Note: The following steps are an example, not a general procedure. Details will be different in your situation.

Here's an example of editing a comment in the Kubernetes source code.

In your local kubernetes/kubernetes repository, check out the master branch, and make sure it is up to date:

cd <k8s-base>
git checkout master
git pull https://github.com/kubernetes/kubernetes master

Suppose this source file in the master branch has the typo "atmost":

kubernetes/kubernetes/staging/src/k8s.io/api/apps/v1/types.go

In your local environment, open types.go, and change "atmost" to "at most".

Verify that you have changed the file:

git status

The output shows that you are on the master branch, and that the types.go source file has been modified:

On branch master
...
    modified:   staging/src/k8s.io/api/apps/v1/types.go

Committing your edited file

Run git add and git commit to commit the changes you have made so far. In the next step, you will do a second commit. It is important to keep your changes separated into two commits.

Go to <k8s-base> and run these scripts:

hack/update-generated-swagger-docs.sh
hack/update-openapi-spec.sh
hack/update-generated-protobuf.sh
hack/update-api-reference-docs.sh

Run git status to see what was generated.

On branch master
...
    modified:   api/openapi-spec/swagger.json
    modified:   api/swagger-spec/apps_v1.json
    modified:   docs/api-reference/apps/v1/definitions.html
    modified:   staging/src/k8s.io/api/apps/v1/generated.proto
    modified:   staging/src/k8s.io/api/apps/v1/types.go
    modified:   staging/src/k8s.io/api/apps/v1/types_swagger_doc_generated.go

View the contents of api/openapi-spec/swagger.json to make sure the typo is fixed. For example, you could run git diff -a api/openapi-spec/swagger.json. This is important, because swagger.json is the input to the second stage of the doc generation process.

Run git add and git commit to commit your changes. Now you have two commits: one that contains the edited types.go file, and one that contains the generated OpenAPI spec and related files. Keep these two commits separate. That is, do not squash your commits.

Submit your changes as a pull request to the master branch of the kubernetes/kubernetes repository. Monitor your pull request, and respond to reviewer comments as needed. Continue to monitor your pull request until it is merged.

PR 57758 is an example of a pull request that fixes a typo in the Kubernetes source code.

Note: It can be tricky to determine the correct source file to be changed. In the preceding example, the authoritative source file is in the staging directory in the kubernetes/kubernetes repository. But in your situation,the staging directory might not be the place to find the authoritative source. For guidance, check the README files in kubernetes/kubernetes repository and in related repositories, such as kubernetes/apiserver.

Cherry picking your commit into a release branch

In the preceding section, you edited a file in the master branch and then ran scripts to generate an OpenAPI spec and related files. Then you submitted your changes in a pull request to the master branch of the kubernetes/kubernetes repository. Now suppose you want to backport your change into a release branch. For example, suppose the master branch is being used to develop Kubernetes version 1.10, and you want to backport your change into the release-1.9 branch.

Recall that your pull request has two commits: one for editing types.go and one for the files generated by scripts. The next step is to propose a cherry pick of your first commit into the release-1.9 branch. The idea is to cherry pick the commit that edited types.go, but not the commit that has the results of running the scripts. For instructions, see Propose a Cherry Pick.

Note: Proposing a cherry pick requires that you have permission to set a label and a milestone in your pull request. If you don't have those permissions, you will need to work with someone who can set the label and milestone for you.

When you have a pull request in place for cherry picking your one commit into the release-1.9 branch, the next step is to run these scripts in the release-1.9 branch of your local environment.

hack/update-generated-swagger-docs.sh
hack/update-openapi-spec.sh
hack/update-generated-protobuf.sh
hack/update-api-reference-docs.sh

Now add a commit to your cherry-pick pull request that has the recently generated OpenAPI spec and related files. Monitor your pull request until it gets merged into the release-1.9 branch.

At this point, both the master branch and the release-1.9 branch have your updated types.go file and a set of generated files that reflect the change you made to types.go. Note that the generated OpenAPI spec and other generated files in the release-1.9 branch are not necessarily the same as the generated files in the master branch. The generated files in the release-1.9 branch contain API elements only from Kubernetes 1.9. The generated files in the master branch might contain API elements that are not in 1.9, but are under development for 1.10.

Generating the published reference docs

The preceding section showed how to edit a source file and then generate several files, including api/openapi-spec/swagger.json in the kubernetes/kubernetes repository. The swagger.json file is the OpenAPI definition file to use for generating the API reference documentation.

You are now ready to follow the Generating Reference Documentation for the Kubernetes API guide to generate the published Kubernetes API reference documentation.

What's next

7.2 - Quickstart

This page shows how to use the update-imported-docs script to generate the Kubernetes reference documentation. The script automates the build setup and generates the reference documentation for a release.

Before you begin

Requirements:

  • You need a machine that is running Linux or macOS.

  • You need to have these tools installed:

  • Your PATH environment variable must include the required build tools, such as the Go binary and python.

  • You need to know how to create a pull request to a GitHub repository. This involves creating your own fork of the repository. For more information, see Work from a local clone.

Getting the docs repository

Make sure your website fork is up-to-date with the kubernetes/website master and clone your website fork.

mkdir github.com
cd github.com
git clone git@github.com:<your_github_username>/website.git

Determine the base directory of your clone. For example, if you followed the preceding step to get the repository, your base directory is github.com/website. The remaining steps refer to your base directory as <web-base>.

Note: If you want to change the content of the component tools and API reference, see the contributing upstream guide.

Overview of update-imported-docs

The update-imported-docs script is located in the <web-base>/update-imported-docs/ directory.

The script builds the following references:

  • Component and tool reference pages
  • The kubectl command reference
  • The Kubernetes API reference

The update-imported-docs script generates the Kubernetes reference documentation from the Kubernetes source code. The script creates a temporary directory under /tmp on your machine and clones the required repositories: kubernetes/kubernetes and kubernetes-sigs/reference-docs into this directory. The script sets your GOPATH to this temporary directory. Three additional environment variables are set:

  • K8S_RELEASE
  • K8S_ROOT
  • K8S_WEBROOT

The script requires two arguments to run successfully:

  • A YAML configuration file (reference.yml)
  • A release version, for example:1.17

The configuration file contains a generate-command field. The generate-command field defines a series of build instructions from kubernetes-sigs/reference-docs/Makefile. The K8S_RELEASE variable determines the version of the release.

The update-imported-docs script performs the following steps:

  1. Clones the related repositories specified in a configuration file. For the purpose of generating reference docs, the repository that is cloned by default is kubernetes-sigs/reference-docs.
  2. Runs commands under the cloned repositories to prepare the docs generator and then generates the HTML and Markdown files.
  3. Copies the generated HTML and Markdown files to a local clone of the <web-base> repository under locations specified in the configuration file.
  4. Updates kubectl command links from kubectl.md to the refer to the sections in the kubectl command reference.

When the generated files are in your local clone of the <web-base> repository, you can submit them in a pull request to <web-base>.

Configuration file format

Each configuration file may contain multiple repos that will be imported together. When necessary, you can customize the configuration file by manually editing it. You may create new config files for importing other groups of documents. The following is an example of the YAML configuration file:

repos:
- name: community
  remote: https://github.com/kubernetes/community.git
  branch: master
  files:
  - src: contributors/devel/README.md
    dst: docs/imported/community/devel.md
  - src: contributors/guide/README.md
    dst: docs/imported/community/guide.md

Single page Markdown documents, imported by the tool, must adhere to the Documentation Style Guide.

Customizing reference.yml

Open <web-base>/update-imported-docs/reference.yml for editing. Do not change the content for the generate-command field unless you understand how the command is used to build the references. You should not need to update reference.yml. At times, changes in the upstream source code, may require changes to the configuration file (for example: golang version dependencies and third-party library changes). If you encounter build issues, contact the SIG-Docs team on the #sig-docs Kubernetes Slack channel.

Note: The generate-command is an optional entry, which can be used to run a given command or a short script to generate the docs from within a repository.

In reference.yml, files contains a list of src and dst fields. The src field contains the location of a generated Markdown file in the cloned kubernetes-sigs/reference-docs build directory, and the dst field specifies where to copy this file in the cloned kubernetes/website repository. For example:

repos:
- name: reference-docs
  remote: https://github.com/kubernetes-sigs/reference-docs.git
  files:
  - src: gen-compdocs/build/kube-apiserver.md
    dst: content/en/docs/reference/command-line-tools-reference/kube-apiserver.md
  ...

Note that when there are many files to be copied from the same source directory to the same destination directory, you can use wildcards in the value given to src. You must provide the directory name as the value for dst. For example:

  files:
  - src: gen-compdocs/build/kubeadm*.md
    dst: content/en/docs/reference/setup-tools/kubeadm/generated/

Running the update-imported-docs tool

You can run the update-imported-docs tool as follows:

cd <web-base>/update-imported-docs
./update-imported-docs <configuration-file.yml> <release-version>

For example:

./update-imported-docs reference.yml 1.17

The release.yml configuration file contains instructions to fix relative links. To fix relative links within your imported files, set thegen-absolute-links property to true. You can find an example of this in release.yml.

Adding and committing changes in kubernetes/website

List the files that were generated and copied to <web-base>:

cd <web-base>
git status

The output shows the new and modified files. The generated output varies depending upon changes made to the upstream source code.

Generated component tool files

content/en/docs/reference/command-line-tools-reference/cloud-controller-manager.md
content/en/docs/reference/command-line-tools-reference/kube-apiserver.md
content/en/docs/reference/command-line-tools-reference/kube-controller-manager.md
content/en/docs/reference/command-line-tools-reference/kube-proxy.md
content/en/docs/reference/command-line-tools-reference/kube-scheduler.md
content/en/docs/reference/setup-tools/kubeadm/generated/kubeadm.md
content/en/docs/reference/kubectl/kubectl.md

Generated kubectl command reference files

static/docs/reference/generated/kubectl/kubectl-commands.html
static/docs/reference/generated/kubectl/navData.js
static/docs/reference/generated/kubectl/scroll.js
static/docs/reference/generated/kubectl/stylesheet.css
static/docs/reference/generated/kubectl/tabvisibility.js
static/docs/reference/generated/kubectl/node_modules/bootstrap/dist/css/bootstrap.min.css
static/docs/reference/generated/kubectl/node_modules/highlight.js/styles/default.css
static/docs/reference/generated/kubectl/node_modules/jquery.scrollto/jquery.scrollTo.min.js
static/docs/reference/generated/kubectl/node_modules/jquery/dist/jquery.min.js
static/docs/reference/generated/kubectl/css/font-awesome.min.css

Generated Kubernetes API reference directories and files

static/docs/reference/generated/kubernetes-api/v1.20/index.html
static/docs/reference/generated/kubernetes-api/v1.20/js/navData.js
static/docs/reference/generated/kubernetes-api/v1.20/js/scroll.js
static/docs/reference/generated/kubernetes-api/v1.20/js/query.scrollTo.min.js
static/docs/reference/generated/kubernetes-api/v1.20/css/font-awesome.min.css
static/docs/reference/generated/kubernetes-api/v1.20/css/bootstrap.min.css
static/docs/reference/generated/kubernetes-api/v1.20/css/stylesheet.css
static/docs/reference/generated/kubernetes-api/v1.20/fonts/FontAwesome.otf
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.eot
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.svg
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.ttf
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.woff
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.woff2

Run git add and git commit to commit the files.

Creating a pull request

Create a pull request to the kubernetes/website repository. Monitor your pull request, and respond to review comments as needed. Continue to monitor your pull request until it is merged.

A few minutes after your pull request is merged, your updated reference topics will be visible in the published documentation.

What's next

To generate the individual reference documentation by manually setting up the required build repositories and running the build targets, see the following guides:

7.3 - Generating Reference Documentation for the Kubernetes API

This page shows how to update the Kubernetes API reference documentation.

The Kubernetes API reference documentation is built from the Kubernetes OpenAPI spec using the kubernetes-sigs/reference-docs generation code.

If you find bugs in the generated documentation, you need to fix them upstream.

If you need only to regenerate the reference documentation from the OpenAPI spec, continue reading this page.

Before you begin

Requirements:

  • You need a machine that is running Linux or macOS.

  • You need to have these tools installed:

  • Your PATH environment variable must include the required build tools, such as the Go binary and python.

  • You need to know how to create a pull request to a GitHub repository. This involves creating your own fork of the repository. For more information, see Work from a local clone.

Setting up the local repositories

Create a local workspace and set your GOPATH.

mkdir -p $HOME/<workspace>

export GOPATH=$HOME/<workspace>

Get a local clone of the following repositories:

go get -u github.com/kubernetes-sigs/reference-docs

go get -u github.com/go-openapi/loads
go get -u github.com/go-openapi/spec

If you don't already have the kubernetes/website repository, get it now:

git clone https://github.com/<your-username>/website $GOPATH/src/github.com/<your-username>/website

Get a clone of the kubernetes/kubernetes repository as k8s.io/kubernetes:

git clone https://github.com/kubernetes/kubernetes $GOPATH/src/k8s.io/kubernetes
  • The base directory of your clone of the kubernetes/kubernetes repository is $GOPATH/src/k8s.io/kubernetes. The remaining steps refer to your base directory as <k8s-base>.

  • The base directory of your clone of the kubernetes/website repository is $GOPATH/src/github.com/<your username>/website. The remaining steps refer to your base directory as <web-base>.

  • The base directory of your clone of the kubernetes-sigs/reference-docs repository is $GOPATH/src/github.com/kubernetes-sigs/reference-docs. The remaining steps refer to your base directory as <rdocs-base>.

Generating the API reference docs

This section shows how to generate the published Kubernetes API reference documentation.

Setting build variables

  • Set K8S_ROOT to <k8s-base>.
  • Set K8S_WEBROOT to <web-base>.
  • Set K8S_RELEASE to the version of the docs you want to build. For example, if you want to build docs for Kubernetes 1.17.0, set K8S_RELEASE to 1.17.0.

For example:

export K8S_WEBROOT=$(GOPATH)/src/github.com/<your-username>/website
export K8S_ROOT=$(GOPATH)/src/k8s.io/kubernetes
export K8S_RELEASE=1.17.0

Creating versioned directory and fetching Open API spec

The updateapispec build target creates the versioned build directory. After the directory is created, the Open API spec is fetched from the <k8s-base> repository. These steps ensure that the version of the configuration files and Kubernetes Open API spec match the release version. The versioned directory name follows the pattern of v<major>_<minor>.

In the <rdocs-base> directory, run the following build target:

cd <rdocs-base>
make updateapispec

Building the API reference docs

The copyapi target builds the API reference and copies the generated files to directories in <web-base>. Run the following command in <rdocs-base>:

cd <rdocs-base>
make copyapi

Verify that these two files have been generated:

[ -e "<rdocs-base>/gen-apidocs/build/index.html" ] && echo "index.html built" || echo "no index.html"
[ -e "<rdocs-base>/gen-apidocs/build/navData.js" ] && echo "navData.js built" || echo "no navData.js"

Go to the base of your local <web-base>, and view which files have been modified:

cd <web-base>
git status

The output is similar to:

static/docs/reference/generated/kubernetes-api/v1.20/css/bootstrap.min.css
static/docs/reference/generated/kubernetes-api/v1.20/css/font-awesome.min.css
static/docs/reference/generated/kubernetes-api/v1.20/css/stylesheet.css
static/docs/reference/generated/kubernetes-api/v1.20/fonts/FontAwesome.otf
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.eot
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.svg
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.ttf
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.woff
static/docs/reference/generated/kubernetes-api/v1.20/fonts/fontawesome-webfont.woff2
static/docs/reference/generated/kubernetes-api/v1.20/index.html
static/docs/reference/generated/kubernetes-api/v1.20/js/jquery.scrollTo.min.js
static/docs/reference/generated/kubernetes-api/v1.20/js/navData.js
static/docs/reference/generated/kubernetes-api/v1.20/js/scroll.js

Updating the API reference index pages

When generating reference documentation for a new release, update the file, <web-base>/content/en/docs/reference/kubernetes-api/api-index.md with the new version number.

  • Open <web-base>/content/en/docs/reference/kubernetes-api/api-index.md for editing, and update the API reference version number. For example:

    ---
    title: v1.17
    ---
    
    [Kubernetes API v1.17](/docs/reference/generated/kubernetes-api/v1.17/)
    
  • Open <web-base>/content/en/docs/reference/_index.md for editing, and add a new link for the latest API reference. Remove the oldest API reference version. There should be five links to the most recent API references.

Locally test the API reference

Publish a local version of the API reference. Verify the local preview.

cd <web-base>
git submodule update --init --recursive --depth 1 # if not already done
make container-serve

Commit the changes

In <web-base> run git add and git commit to commit the change.

Submit your changes as a pull request to the kubernetes/website repository. Monitor your pull request, and respond to reviewer comments as needed. Continue to monitor your pull request until it has been merged.

What's next

7.4 - Generating Reference Documentation for kubectl Commands

This page shows how to generate the kubectl command reference.

Note: This topic shows how to generate reference documentation for kubectl commands like kubectl apply and kubectl taint. This topic does not show how to generate the kubectl options reference page. For instructions on how to generate the kubectl options reference page, see Generating Reference Pages for Kubernetes Components and Tools.

Before you begin

Requirements:

  • You need a machine that is running Linux or macOS.

  • You need to have these tools installed:

  • Your PATH environment variable must include the required build tools, such as the Go binary and python.

  • You need to know how to create a pull request to a GitHub repository. This involves creating your own fork of the repository. For more information, see Work from a local clone.

Setting up the local repositories

Create a local workspace and set your GOPATH.

mkdir -p $HOME/<workspace>

export GOPATH=$HOME/<workspace>

Get a local clone of the following repositories:

go get -u github.com/spf13/pflag
go get -u github.com/spf13/cobra
go get -u gopkg.in/yaml.v2
go get -u github.com/kubernetes-sigs/reference-docs

If you don't already have the kubernetes/website repository, get it now:

git clone https://github.com/<your-username>/website $GOPATH/src/github.com/<your-username>/website

Get a clone of the kubernetes/kubernetes repository as k8s.io/kubernetes:

git clone https://github.com/kubernetes/kubernetes $GOPATH/src/k8s.io/kubernetes

Remove the spf13 package from $GOPATH/src/k8s.io/kubernetes/vendor/github.com.

rm -rf $GOPATH/src/k8s.io/kubernetes/vendor/github.com/spf13

The kubernetes/kubernetes repository provides the kubectl and kustomize source code.

  • Determine the base directory of your clone of the kubernetes/kubernetes repository. For example, if you followed the preceding step to get the repository, your base directory is $GOPATH/src/k8s.io/kubernetes. The remaining steps refer to your base directory as <k8s-base>.

  • Determine the base directory of your clone of the kubernetes/website repository. For example, if you followed the preceding step to get the repository, your base directory is $GOPATH/src/github.com/<your-username>/website. The remaining steps refer to your base directory as <web-base>.

  • Determine the base directory of your clone of the kubernetes-sigs/reference-docs repository. For example, if you followed the preceding step to get the repository, your base directory is $GOPATH/src/github.com/kubernetes-sigs/reference-docs. The remaining steps refer to your base directory as <rdocs-base>.

In your local k8s.io/kubernetes repository, check out the branch of interest, and make sure it is up to date. For example, if you want to generate docs for Kubernetes 1.17, you could use these commands:

cd <k8s-base>
git checkout v1.17.0
git pull https://github.com/kubernetes/kubernetes v1.17.0

If you do not need to edit the kubectl source code, follow the instructions for Setting build variables.

Editing the kubectl source code

The kubectl command reference documentation is automatically generated from the kubectl source code. If you want to change the reference documentation, the first step is to change one or more comments in the kubectl source code. Make the change in your local kubernetes/kubernetes repository, and then submit a pull request to the master branch of github.com/kubernetes/kubernetes.

PR 56673 is an example of a pull request that fixes a typo in the kubectl source code.

Monitor your pull request, and respond to reviewer comments. Continue to monitor your pull request until it is merged into the master branch of the kubernetes/kubernetes repository.

Cherry picking your change into a release branch

Your change is now in the master branch, which is used for development of the next Kubernetes release. If you want your change to appear in the docs for a Kubernetes version that has already been released, you need to propose that your change be cherry picked into the release branch.

For example, suppose the master branch is being used to develop Kubernetes 1.10, and you want to backport your change to the release-1.15 branch. For instructions on how to do this, see Propose a Cherry Pick.

Monitor your cherry-pick pull request until it is merged into the release branch.

Note: Proposing a cherry pick requires that you have permission to set a label and a milestone in your pull request. If you don't have those permissions, you will need to work with someone who can set the label and milestone for you.

Setting build variables

Go to <rdocs-base>. On you command line, set the following environment variables.

  • Set K8S_ROOT to <k8s-base>.
  • Set K8S_WEBROOT to <web-base>.
  • Set K8S_RELEASE to the version of the docs you want to build. For example, if you want to build docs for Kubernetes 1.17, set K8S_RELEASE to 1.17.

For example:

export K8S_WEBROOT=$GOPATH/src/github.com/<your-username>/website
export K8S_ROOT=$GOPATH/src/k8s.io/kubernetes
export K8S_RELEASE=1.17

Creating a versioned directory

The createversiondirs build target creates a versioned directory and copies the kubectl reference configuration files to the versioned directory. The versioned directory name follows the pattern of v<major>_<minor>.

In the <rdocs-base> directory, run the following build target:

cd <rdocs-base>
make createversiondirs

Checking out a release tag in k8s.io/kubernetes

In your local <k8s-base> repository, checkout the branch that has the version of Kubernetes that you want to document. For example, if you want to generate docs for Kubernetes 1.17, checkout the v1.17.0 tag. Make sure you local branch is up to date.

cd <k8s-base>
git checkout v1.17.0
git pull https://github.com/kubernetes/kubernetes v1.17.0

Running the doc generation code

In your local <rdocs-base>, run the copycli build target. The command runs as root:

cd <rdocs-base>
make copycli

The copycli command cleans the temporary build directory, generates the kubectl command files, and copies the collated kubectl command reference HTML page and assets to <web-base>.

Locate the generated files

Verify that these two files have been generated:

[ -e "<rdocs-base>/gen-kubectldocs/generators/build/index.html" ] && echo "index.html built" || echo "no index.html"
[ -e "<rdocs-base>/gen-kubectldocs/generators/build/navData.js" ] && echo "navData.js built" || echo "no navData.js"

Locate the copied files

Verify that all generated files have been copied to your <web-base>:

cd <web-base>
git status

The output should include the modified files:

static/docs/reference/generated/kubectl/kubectl-commands.html
static/docs/reference/generated/kubectl/navData.js

The output may also include:

static/docs/reference/generated/kubectl/scroll.js
static/docs/reference/generated/kubectl/stylesheet.css
static/docs/reference/generated/kubectl/tabvisibility.js
static/docs/reference/generated/kubectl/node_modules/bootstrap/dist/css/bootstrap.min.css
static/docs/reference/generated/kubectl/node_modules/highlight.js/styles/default.css
static/docs/reference/generated/kubectl/node_modules/jquery.scrollto/jquery.scrollTo.min.js
static/docs/reference/generated/kubectl/node_modules/jquery/dist/jquery.min.js
static/docs/reference/generated/kubectl/node_modules/font-awesome/css/font-awesome.min.css

Locally test the documentation

Build the Kubernetes documentation in your local <web-base>.

cd <web-base>
git submodule update --init --recursive --depth 1 # if not already done
make container-serve

View the local preview.

Adding and committing changes in kubernetes/website

Run git add and git commit to commit the files.

Creating a pull request

Create a pull request to the kubernetes/website repository. Monitor your pull request, and respond to review comments as needed. Continue to monitor your pull request until it is merged.

A few minutes after your pull request is merged, your updated reference topics will be visible in the published documentation.

What's next

7.5 - Generating Reference Pages for Kubernetes Components and Tools

This page shows how to build the Kubernetes component and tool reference pages.

Before you begin

Start with the Prerequisites section in the Reference Documentation Quickstart guide.

Follow the Reference Documentation Quickstart to generate the Kubernetes component and tool reference pages.

What's next

7.6 -

Requirements:

  • You need a machine that is running Linux or macOS.

  • You need to have these tools installed:

  • Your PATH environment variable must include the required build tools, such as the Go binary and python.

  • You need to know how to create a pull request to a GitHub repository. This involves creating your own fork of the repository. For more information, see Work from a local clone.

8 - Advanced contributing

This page assumes that you understand how to contribute to new content and review others' work, and are ready to learn about more ways to contribute. You need to use the Git command line client and other tools for some of these tasks.

Propose improvements

SIG Docs members can propose improvements.

After you've been contributing to the Kubernetes documentation for a while, you may have ideas for improving the Style Guide , the Content Guide, the toolchain used to build the documentation, the website style, the processes for reviewing and merging pull requests, or other aspects of the documentation. For maximum transparency, these types of proposals need to be discussed in a SIG Docs meeting or on the kubernetes-sig-docs mailing list. In addition, it can really help to have some context about the way things currently work and why past decisions have been made before proposing sweeping changes. The quickest way to get answers to questions about how the documentation currently works is to ask in the #sig-docs Slack channel on kubernetes.slack.com

After the discussion has taken place and the SIG is in agreement about the desired outcome, you can work on the proposed changes in the way that is the most appropriate. For instance, an update to the style guide or the website's functionality might involve opening a pull request, while a change related to documentation testing might involve working with sig-testing.

Coordinate docs for a Kubernetes release

SIG Docs approvers can coordinate docs for a Kubernetes release.

Each Kubernetes release is coordinated by a team of people participating in the sig-release Special Interest Group (SIG). Others on the release team for a given release include an overall release lead, as well as representatives from sig-testing and others. To find out more about Kubernetes release processes, refer to https://github.com/kubernetes/sig-release.

The SIG Docs representative for a given release coordinates the following tasks:

  • Monitor the feature-tracking spreadsheet for new or changed features with an impact on documentation. If documentation for a given feature won't be ready for the release, the feature may not be allowed to go into the release.
  • Attend sig-release meetings regularly and give updates on the status of the docs for the release.
  • Review and copyedit feature documentation drafted by the SIG responsible for implementing the feature.
  • Merge release-related pull requests and maintain the Git feature branch for the release.
  • Mentor other SIG Docs contributors who want to learn how to do this role in the future. This is known as "shadowing".
  • Publish the documentation changes related to the release when the release artifacts are published.

Coordinating a release is typically a 3-4 month commitment, and the duty is rotated among SIG Docs approvers.

Serve as a New Contributor Ambassador

SIG Docs approvers can serve as New Contributor Ambassadors.

New Contributor Ambassadors welcome new contributors to SIG-Docs, suggest PRs to new contributors, and mentor new contributors through their first few PR submissions.

Responsibilities for New Contributor Ambassadors include:

  • Monitoring the #sig-docs Slack channel for questions from new contributors.
  • Working with PR wranglers to identify good first issues for new contributors.
  • Mentoring new contributors through their first few PRs to the docs repo.
  • Helping new contributors create the more complex PRs they need to become Kubernetes members.
  • Sponsoring contributors on their path to becoming Kubernetes members.

Current New Contributor Ambassadors are announced at each SIG-Docs meeting, and in the Kubernetes #sig-docs channel.

SIG Docs reviewers can sponsor new contributors.

After a new contributor has successfully submitted 5 substantive pull requests to one or more Kubernetes repositories, they are eligible to apply for membership in the Kubernetes organization. The contributor's membership needs to be backed by two sponsors who are already reviewers.

New docs contributors can request sponsors by asking in the #sig-docs channel on the Kubernetes Slack instance or on the SIG Docs mailing list. If you feel confident about the applicant's work, you volunteer to sponsor them. When they submit their membership application, reply to the application with a "+1" and include details about why you think the applicant is a good fit for membership in the Kubernetes organization.

Serve as a SIG Co-chair

SIG Docs approvers can serve a term as a co-chair of SIG Docs.

Prerequisites

Approvers must meet the following requirements to be a co-chair:

  • Have been a SIG Docs approver for at least 6 months
  • Have led a Kubernetes docs release or shadowed two releases
  • Understand SIG Docs workflows and tooling: git, Hugo, localization, blog subproject
  • Understand how other Kubernetes SIGs and repositories affect the SIG Docs workflow, including: teams in k/org, process in k/community, plugins in k/test-infra, and the role of SIG Architecture.
  • Commit at least 5 hours per week (and often more) to the role for a minimum of 6 months

Responsibilities

The role of co-chair is one of service: co-chairs build contributor capacity, handle process and policy, schedule and run meetings, schedule PR wranglers, advocate for docs in the Kubernetes community, make sure that docs succeed in Kubernetes release cycles, and keep SIG Docs focused on effective priorities.

Responsibilities include:

  • Keep SIG Docs focused on maximizing developer happiness through excellent documentation
  • Exemplify the community code of conduct and hold SIG members accountable to it
  • Learn and set best practices for the SIG by updating contribution guidelines
  • Schedule and run SIG meetings: weekly status updates, quarterly retro/planning sessions, and others as needed
  • Schedule and run doc sprints at KubeCon events and other conferences
  • Recruit for and advocate on behalf of SIG Docs with the CNCF and its platinum partners, including Google, Oracle, Azure, IBM, and Huawei
  • Keep the SIG running smoothly

Running effective meetings

To schedule and run effective meetings, these guidelines show what to do, how to do it, and why.

Uphold the community code of conduct:

  • Hold respectful, inclusive discussions with respectful, inclusive language.

Set a clear agenda:

  • Set a clear agenda of topics
  • Publish the agenda in advance

For weekly meetings, copypaste the previous week's notes into the "Past meetings" section of the notes

Collaborate on accurate notes:

  • Record the meeting's discussion
  • Consider delegating the role of note-taker

Assign action items clearly and accurately:

  • Record the action item, who is assigned to it, and the expected completion date

Moderate as needed:

  • If discussion strays from the agenda, refocus participants on the current topic
  • Make room for different discussion styles while keeping the discussion focused and honoring folks' time

Honor folks' time:

Begin and end meetings on time.

Use Zoom effectively:

Claiming the host role in Zoom

Recording meetings on Zoom

When you're ready to start the recording, click Record to Cloud.

When you're ready to stop recording, click Stop.

The video uploads automatically to YouTube.