The topics in this section provide guidance on writing style, content formatting and organization, and using Hugo customizations specific to Kubernetes documentation.
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Documentation style overview
- 1: Documentation Content Guide
- 2: Documentation Style Guide
- 3: Diagram Guide
- 4: Writing a new topic
- 5: Page content types
- 6: Content organization
- 7: Custom Hugo Shortcodes
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.
More information
If you have questions about allowed content, join the Kubernetes Slack #sig-docs channel and ask!
What's next
- Read the Style guide.
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.
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.
The following examples focus on capitalization. For more information about formatting API object names, review the related guidance on Code Style.
Do | Don'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 | Don't |
---|---|
Click Fork. | Click "Fork". |
Select Other. | Select "Other". |
Use italics to define or introduce new terms
Do | Don'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 | Don'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 | Don'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 | Don't |
---|---|
The kubectl run command creates a Pod . |
The "kubectl run" command creates a pod. |
The kubelet on each node acquires a Lease … |
The 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. |
Use code style for object field names and namespaces
Do | Don'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 | Don'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 | Don'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 | Don'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 | Don'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 . |
Referring to Kubernetes API resources
This section talks about how we reference API resources in the documentation.
Clarification about "resource"
Kubernetes uses the word "resource" to refer to API resources, such as pod
, deployment
, and so on. We also use "resource" to talk about CPU and memory requests and limits. Always refer to API resources as "API resources" to avoid confusion with CPU and memory resources.
When to use Kubernetes API terminologies
The different Kubernetes API terminologies are:
- Resource type: the name used in the API URL (such as
pods
,namespaces
) - Resource: a single instance of a resource type (such as
pod
,secret
) - Object: a resource that serves as a "record of intent". An object is a desired state for a specific part of your cluster, which the Kubernetes control plane tries to maintain.
Always use "resource" or "object" when referring to an API resource in docs. For example, use "a Secret
object" over just "a Secret
".
API resource names
Always format API resource names using UpperCamelCase, also known as PascalCase, and code formatting.
For inline code in an HTML document, use the <code>
tag. In a Markdown document, use the backtick (`
).
Don't split an API object name into separate words. For example, use PodTemplateList
, not Pod Template List.
For more information about PascalCase and code formatting, please review the related guidance on Use upper camel case for API objects and Use code style for inline code, commands, and API objects.
For more information about Kubernetes API terminologies, please review the related guidance on Kubernetes API terminology.
Code snippet formatting
Don't include the command prompt
Do | Don'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.
Term | Usage |
---|---|
Kubernetes | Kubernetes should always be capitalized. |
Docker | Docker should always be capitalized. |
SIG Docs | SIG Docs rather than SIG-DOCS or other variations. |
On-premises | On-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 >}}
.
-
Surround the text with an opening and closing shortcode.
-
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:
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:
-
Use the note shortcode in a list
-
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. -
A third item in a list
-
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:
Warning
Use {{< warning >}}
to indicate danger or a piece of information that is crucial to follow.
For example:
{{< warning >}}
Beware.
{{< /warning >}}
The output is:
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.
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:
-
Preheat oven to 350˚F
-
Prepare the batter, and pour into springform pan.
Note: Grease the pan for best results. -
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 and titles
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 | Don'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 in the page body. For example, | |
Extend kubectl with plugins | Use title case for headings in the page body. For example, Extend Kubectl With Plugins |
Use title case for the page title in the front matter. For example, | |
title: Kubernetes API Server Bypass Risks |
Use sentence case for page titles |
in the front matter. For example, don't use | |
title: Kubernetes API server bypass risks |
Paragraphs
Do | Don'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. |
Links
Do | Don'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.
- Add table captions using Hugo shortcodes for tables.
Content best practices
This section contains suggested best practices for clear, concise, and consistent content.
Use present tense
Do | Don'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 | Don'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 | Don'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 | Don'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 | Don'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 | Don'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 | Don'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 | Don'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 | Don't |
---|---|
Include one command in ... | Include just one command in ... |
Run the container ... | Simply run the container ... |
You can remove ... | You can easily remove ... |
These steps ... | These simple steps ... |
What's next
- Learn about writing a new topic.
- Learn about using page templates.
- Learn about creating a pull request.
3 - Diagram Guide
This guide shows you how to create, edit and share diagrams using the Mermaid
JavaScript library. Mermaid.js allows you to generate diagrams using a simple
markdown-like syntax inside Markdown files. You can also use Mermaid to
generate .svg
or .png
image files that you can add to your documentation.
The target audience for this guide is anybody wishing to learn about Mermaid and/or how to create and add diagrams to Kubernetes documentation.
Figure 1 outlines the topics covered in this section.
Figure 1. Topics covered in this section.
All you need to begin working with Mermaid is the following:
- Basic understanding of markdown.
- Using the Mermaid live editor.
- Using Hugo shortcodes.
- Using the Hugo {{< figure >}} shortcode.
- Performing Hugo local previews.
- Familiar with the Contributing new content process.
Why you should use diagrams in documentation
Diagrams improve documentation clarity and comprehension. There are advantages for both the user and the contributor.
The user benefits include:
- Friendly landing spot. A detailed text-only greeting page could intimidate users, in particular, first-time Kubernetes users.
- Faster grasp of concepts. A diagram can help users understand the key points of a complex topic. Your diagram can serve as a visual learning guide to dive into the topic details.
- Better retention. For some, it is easier to recall pictures rather than text.
The contributor benefits include:
- Assist in developing the structure and content of your contribution. For example, you can start with a simple diagram covering the high-level points and then dive into details.
- Expand and grow the user community. Easily consumed documentation augmented with diagrams attracts new users who might previously have been reluctant to engage due to perceived complexities.
You should consider your target audience. In addition to experienced K8s users, you will have many who are new to Kubernetes. Even a simple diagram can assist new users in absorbing Kubernetes concepts. They become emboldened and more confident to further explore Kubernetes and the documentation.
Mermaid
Mermaid is an open source JavaScript library that allows you to create, edit and easily share diagrams using a simple, markdown-like syntax configured inline in Markdown files.
The following lists features of Mermaid:
- Simple code syntax.
- Includes a web-based tool allowing you to code and preview your diagrams.
- Supports multiple formats including flowchart, state and sequence.
- Easy collaboration with colleagues by sharing a per-diagram URL.
- Broad selection of shapes, lines, themes and styling.
The following lists advantages of using Mermaid:
- No need for separate, non-Mermaid diagram tools.
- Adheres to existing PR workflow. You can think of Mermaid code as just Markdown text included in your PR.
- Simple tool builds simple diagrams. You don't want to get bogged down (re)crafting an overly complex and detailed picture. Keep it simple!
Mermaid provides a simple, open and transparent method for the SIG communities to add, edit and collaborate on diagrams for new or existing documentation.
Live editor
The Mermaid live editor is a web-based tool that enables you to create, edit and review diagrams.
The following lists live editor functions:
- Displays Mermaid code and rendered diagram.
- Generates a URL for each saved diagram. The URL is displayed in the URL field of your browser. You can share the URL with colleagues who can access and modify the diagram.
- Option to download
.svg
or.png
files.
Methods for creating diagrams
Figure 2 outlines the three methods to generate and add diagrams.
Figure 2. Methods to create diagrams.
Inline
Figure 3 outlines the steps to follow for adding a diagram using the Inline method.
Figure 3. Inline Method steps.
The following lists the steps you should follow for adding a diagram using the Inline method:
- Create your diagram using the live editor.
- Store the diagram URL somewhere for later access.
- Copy the mermaid code to the location in your
.md
file where you want the diagram to appear. - Add a caption below the diagram using Markdown text.
A Hugo build runs the Mermaid code and turns it into a diagram.
.md
file that the Mermaid code is self-documenting. Contributors can
copy the Mermaid code to and from the live editor for diagram edits.
Here is a sample code snippet contained in an .md
file:
---
title: My PR
---
Figure 17 shows a simple A to B process.
some markdown text
...
{{< mermaid >}}
graph TB
A --> B
{{< /mermaid >}}
Figure 17. A to B
more text
For more details on diagram captions, see How to use captions.
The following lists advantages of the Inline method:
- Live editor tool.
- Easy to copy Mermaid code to and from the live editor and your
.md
file. - No need for separate
.svg
image file handling. - Content text, diagram code and diagram caption contained in the same
.md
file.
You should use the local and Netlify previews to verify the diagram is properly rendered.
Mermaid+SVG
Figure 4 outlines the steps to follow for adding a diagram using the Mermaid+SVG method.
Figure 4. Mermaid+SVG method steps.
The following lists the steps you should follow for adding a diagram using the Mermaid+SVG method:
- Create your diagram using the live editor.
- Store the diagram URL somewhere for later access.
- Generate an
.svg
image file for the diagram and download it to the appropriateimages/
folder. - Use the
{{< figure >}}
shortcode to reference the diagram in the.md
file. - Add a caption using the
{{< figure >}}
shortcode'scaption
parameter.
For example, use the live editor to create a diagram called boxnet
.
Store the diagram URL somewhere for later access. Generate and download a
boxnet.svg
file to the appropriate ../images/
folder.
Use the {{< figure >}}
shortcode in your PR's .md
file to reference
the .svg
image file and add a caption.
{{< figure src="/static/images/boxnet.svg" alt="Boxnet figure" class="diagram-large" caption="Figure 14. Boxnet caption" >}}
For more details on diagram captions, see How to use captions.
shortcode is the preferred method for adding .svg
image files
to your documentation. You can also use the standard markdown image syntax like so:
![my boxnet diagram](static/images/boxnet.svg)
.
And you will need to add a caption below the diagram.
You should add the live editor URL as a comment block in the .svg
image file using a text editor.
For example, you would include the following at the beginning of the .svg
image file:
<!-- To view or edit the mermaid code, use the following URL: -->
<!-- https://mermaid-js.github.io/mermaid-live-editor/edit/#eyJjb ... <remainder of the URL> -->
The following lists advantages of the Mermaid+SVG method:
- Live editor tool.
- Live editor tool supports the most current Mermaid feature set.
- Employ existing K8s/website methods for handling
.svg
image files. - Environment doesn't require Mermaid support.
Be sure to check that your diagram renders properly using the local and Netlify previews.
External tool
Figure 5 outlines the steps to follow for adding a diagram using the External Tool method.
First, use your external tool to create the diagram and save it as an .svg
or .png
image file. After that, use the same steps as the Mermaid+SVG
method for adding .svg
image files.
Figure 5. External Tool method steps
The following lists the steps you should follow for adding a diagram using the External Tool method:
- Use your external tool to create a diagram.
- Save the diagram coordinates for contributor access. For example, your tool
may offer a link to the diagram image, or you could place the source code
file, such as an
.xml
file, in a public repository for later contributor access. - Generate and save the diagram as an
.svg
or.png
image file. Download this file to the appropriate../images/
folder. - Use the
{{< figure >}}
shortcode to reference the diagram in the.md
file. - Add a caption using the
{{< figure >}}
shortcode'scaption
parameter.
Here is the {{< figure >}}
shortcode for the images/apple.svg
diagram:
{{< figure src="/static/images/apple.svg" alt="red-apple-figure" class="diagram-large" caption="Figure 9. A Big Red Apple" >}}
If your external drawing tool permits:
- You can incorporate multiple
.svg
or.png
logos, icons and images into your diagram. However, make sure you observe copyright and follow the Kubernetes documentation guidelines on the use of third party content. - You should save the diagram source coordinates for later contributor access.
For example, your tool may offer a link to the diagram image, or you could
place the source code file, such as an
.xml
file, somewhere for contributor access.
For more information on K8s and CNCF logos and images, check out CNCF Artwork.
The following lists advantages of the External Tool method:
- Contributor familiarity with external tool.
- Diagrams require more detail than what Mermaid can offer.
Don't forget to check that your diagram renders correctly using the local and Netlify previews.
Examples
This section shows several examples of Mermaid diagrams.
Example 1 - Pod topology spread constraints
Figure 6 shows the diagram appearing in the Pod topology spread constraints page.
Figure 6. Pod Topology Spread Constraints.
Code block:
graph TB
subgraph "zoneB"
n3(Node3)
n4(Node4)
end
subgraph "zoneA"
n1(Node1)
n2(Node2)
end
classDef plain fill:#ddd,stroke:#fff,stroke-width:4px,color:#000;
classDef k8s fill:#326ce5,stroke:#fff,stroke-width:4px,color:#fff;
classDef cluster fill:#fff,stroke:#bbb,stroke-width:2px,color:#326ce5;
class n1,n2,n3,n4 k8s;
class zoneA,zoneB cluster;
Example 2 - Ingress
Figure 7 shows the diagram appearing in the What is Ingress page.
Figure 7. Ingress
Code block:
graph LR;
client([client])-. Ingress-managed <br> load balancer .->ingress[Ingress];
ingress-->|routing rule|service[Service];
subgraph cluster
ingress;
service-->pod1[Pod];
service-->pod2[Pod];
end
classDef plain fill:#ddd,stroke:#fff,stroke-width:4px,color:#000;
classDef k8s fill:#326ce5,stroke:#fff,stroke-width:4px,color:#fff;
classDef cluster fill:#fff,stroke:#bbb,stroke-width:2px,color:#326ce5;
class ingress,service,pod1,pod2 k8s;
class client plain;
class cluster cluster;
Example 3 - K8s system flow
Figure 8 depicts a Mermaid sequence diagram showing the system flow between K8s components to start a container.
Code block:
%%{init:{"theme":"neutral"}}%%
sequenceDiagram
actor me
participant apiSrv as control plane<br><br>api-server
participant etcd as control plane<br><br>etcd datastore
participant cntrlMgr as control plane<br><br>controller<br>manager
participant sched as control plane<br><br>scheduler
participant kubelet as node<br><br>kubelet
participant container as node<br><br>container<br>runtime
me->>apiSrv: 1. kubectl create -f pod.yaml
apiSrv-->>etcd: 2. save new state
cntrlMgr->>apiSrv: 3. check for changes
sched->>apiSrv: 4. watch for unassigned pods(s)
apiSrv->>sched: 5. notify about pod w nodename=" "
sched->>apiSrv: 6. assign pod to node
apiSrv-->>etcd: 7. save new state
kubelet->>apiSrv: 8. look for newly assigned pod(s)
apiSrv->>kubelet: 9. bind pod to node
kubelet->>container: 10. start container
kubelet->>apiSrv: 11. update pod status
apiSrv-->>etcd: 12. save new state
How to style diagrams
You can style one or more diagram elements using well-known CSS nomenclature. You accomplish this using two types of statements in the Mermaid code.
classDef
defines a class of style attributes.class
defines one or more elements to apply the class to.
In the code for figure 7, you can see examples of both.
classDef k8s fill:#326ce5,stroke:#fff,stroke-width:4px,color:#fff; // defines style for the k8s class
class ingress,service,pod1,pod2 k8s; // k8s class is applied to elements ingress, service, pod1 and pod2.
You can include one or multiple classDef
and class
statements in your diagram.
You can also use the official K8s #326ce5
hex color code for K8s components in your diagram.
For more information on styling and classes, see Mermaid Styling and classes docs.
How to use captions
A caption is a brief description of a diagram. A title or a short description of the diagram are examples of captions. Captions aren't meant to replace explanatory text you have in your documentation. Rather, they serve as a "context link" between that text and your diagram.
The combination of some text and a diagram tied together with a caption help provide a concise representation of the information you wish to convey to the user.
Without captions, you are asking the user to scan the text above or below the diagram to figure out a meaning. This can be frustrating for the user.
Figure 9 lays out the three components for proper captioning: diagram, diagram caption and the diagram referral.
Figure 9. Caption Components.
Diagram
The Mermaid+SVG
and External Tool
methods generate .svg
image files.
Here is the {{< figure >}}
shortcode for the diagram defined in an
.svg
image file saved to /images/docs/components-of-kubernetes.svg
:
{{< figure src="/images/docs/components-of-kubernetes.svg" alt="Kubernetes pod running inside a cluster" class="diagram-large" caption="Figure 4. Kubernetes Architecture Components >}}
You should pass the src
, alt
, class
and caption
values into the
{{< figure >}}
shortcode. You can adjust the size of the diagram using
diagram-large
, diagram-medium
and diagram-small
classes.
Inline
method don't use the
shortcode. The Mermaid code defines how the diagram will render on your page.
See Methods for creating diagrams for more information on the different methods for creating diagrams.
Diagram Caption
Next, add a diagram caption.
If you define your diagram in an .svg
image file, then you should use the
{{< figure >}}
shortcode's caption
parameter.
{{< figure src="/images/docs/components-of-kubernetes.svg" alt="Kubernetes pod running inside a cluster" class="diagram-large" caption="Figure 4. Kubernetes Architecture Components" >}}
If you define your diagram using inline Mermaid code, then you should use Markdown text.
Figure 4. Kubernetes Architecture Components
The following lists several items to consider when adding diagram captions:
- Use the
{{< figure >}}
shortcode to add a diagram caption forMermaid+SVG
andExternal Tool
diagrams. - Use simple Markdown text to add a diagram caption for the
Inline
method. - Prepend your diagram caption with
Figure NUMBER.
. You must useFigure
and the number must be unique for each diagram in your documentation page. Add a period after the number. - Add your diagram caption text after the
Figure NUMBER.
on the same line. You must puncuate the caption with a period. Keep the caption text short. - Position your diagram caption BELOW your diagram.
Diagram Referral
Finally, you can add a diagram referral. This is used inside your text and
should precede the diagram itself. It allows a user to connect your text with
the associated diagram. The Figure NUMBER
in your referral and caption must
match.
You should avoid using spatial references such as ..the image below..
or
..the following figure ..
Here is an example of a diagram referral:
Figure 10 depicts the components of the Kubernetes architecture.
The control plane ...
Diagram referrals are optional and there are cases where they might not be suitable. If you are not sure, add a diagram referral to your text to see if it looks and sounds okay. When in doubt, use a diagram referral.
Complete picture
Figure 10 shows the Kubernetes Architecture diagram that includes the diagram,
diagram caption and diagram referral. The {{< figure >}}
shortcode
renders the diagram, adds the caption and includes the optional link
parameter so you can hyperlink the diagram. The diagram referral is contained
in this paragraph.
Here is the {{< figure >}}
shortcode for this diagram:
{{< figure src="/images/docs/components-of-kubernetes.svg" alt="Kubernetes pod running inside a cluster" class="diagram-large" caption="Figure 10. Kubernetes Architecture." link="https://kubernetes.io/docs/concepts/overview/components/" >}}
Tips
-
Always use the live editor to create/edit your diagram.
-
Always use Hugo local and Netlify previews to check out how the diagram appears in the documentation.
-
Include diagram source pointers such as a URL, source code location, or indicate the code is self-documenting.
-
Always use diagram captions.
-
Very helpful to include the diagram
.svg
or.png
image and/or Mermaid source code in issues and PRs. -
With the
Mermaid+SVG
andExternal Tool
methods, use.svg
image files because they stay sharp when you zoom in on the diagram. -
Best practice for
.svg
files is to load it into an SVG editing tool and use the "Convert text to paths" function. This ensures that the diagram renders the same on all systems, regardless of font availability and font rendering support. -
No Mermaid support for additional icons or artwork.
-
Hugo Mermaid shortcodes don't work in the live editor.
-
Any time you modify a diagram in the live editor, you must save it to generate a new URL for the diagram.
-
Click on the diagrams in this section to view the code and diagram rendering in the live editor.
-
Look over the source code of this page,
diagram-guide.md
, for more examples. -
Check out the Mermaid docs for explanations and examples.
Most important, Keep Diagrams Simple. This will save time for you and fellow contributors, and allow for easier reading by new and experienced users.
4 - 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:
Type | Description |
---|---|
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 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. |
Task | A 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 |
Tutorial | A 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 a RoleBinding, 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" >}}
<
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
<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
- Learn about using page content types.
- Learn about creating a pull request.
5 - 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 theinclude
. 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
- Learn about the Style guide
- Learn about the Content guide
- Learn about content organization
6 - Content organization
This site uses Hugo. In Hugo, content organization is a core concept.
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
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
_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 aResource
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
- Learn about custom Hugo shortcodes
- Learn about the Style guide
- Learn about the Content guide
7 - 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:
Kubernetes v1.25 [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:
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 the glossary directory, 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.
Links to API Reference
You can link to a page of the Kubernetes API reference using the
api-reference
shortcode, for example to the
Pod reference:
{{< api-reference page="workload-resources/pod-v1" >}}
The content of the page
parameter is the suffix of the URL of the API reference page.
You can link to a specific place into a page by specifying an anchor
parameter, for example to the
PodSpec
reference or the
environment-variables
section of the page:
{{< api-reference page="workload-resources/pod-v1" anchor="PodSpec" >}}
{{< api-reference page="workload-resources/pod-v1" anchor="environment-variables" >}}
You can change the text of the link by specifying a text
parameter, for
example by linking to the
Environment Variables
section of the page:
{{< api-reference page="workload-resources/pod-v1" anchor="environment-variables" text="Environment Variable" >}}
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.
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:
Parameter | Description | Default |
---|---|---|
timeout |
The timeout for requests | 30s |
logLevel |
The log level for log output | INFO |
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 thetab
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 theinclude
, 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 undercodelang
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.
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.
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.
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}]
}]
}
}
}
Third party content marker
Running Kubernetes requires third-party software. For example: you usually need to add a DNS server to your cluster so that name resolution works.
When we link to third-party software, or otherwise mention it, we follow the content guide and we also mark those third party items.
Using these shortcodes adds a disclaimer to any documentation page that uses them.
Lists
For a list of several third-party items, add:
{{% thirdparty-content %}}
just below the heading for the section that includes all items.
Items
If you have a list where most of the items refer to in-project software (for example: Kubernetes itself, and the separate Descheduler component), then there is a different form to use.
Add the shortcode:
{{% thirdparty-content single="true" %}}
before the item, or just below the heading for the specific item.
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
.
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:
v1.25{{< 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:
v1.25{{< latest-semver >}}
The {{< latest-semver >}}
shortcode generates the value of latest
without the "v" prefix.
Renders to:
1.25{{< 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, enterkubectl 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-1.25.mdWhat's next
- Learn about Hugo.
- Learn about writing a new topic.
- Learn about page content types.
- Learn about opening a pull request.
- Learn about advanced contributing.