An extension for Asciidoctor.js to convert diagrams to images using Kroki!
Install the dependencies:
$ npm i asciidoctor asciidoctor-kroki
Create a file named kroki.js
with following content and run it:
const asciidoctor = require('@asciidoctor/core')()
const kroki = require('asciidoctor-kroki')
const input = 'plantuml::hello.puml[svg,role=sequence]'
kroki.register(asciidoctor.Extensions) // <1>
console.log(asciidoctor.convert(input, { safe: 'safe' }))
const registry = asciidoctor.Extensions.create()
kroki.register(registry) // <2>
console.log(asciidoctor.convert(input, { safe: 'safe', extension_registry: registry }))
<1> Register the extension in the global registry
<2> Register the extension in a dedicated registry
Install the dependencies:
$ npm i asciidoctor asciidoctor-kroki
Create a file named kroki.html
with the following content and open it in your browser:
<html lang="en">
<head>
<title>Asciidoctor x Kroki</title>
<meta charset="utf-8">
<script src="node_modules/@asciidoctor/core/dist/browser/asciidoctor.js"></script>
<script src="node_modules/asciidoctor-kroki/dist/browser/asciidoctor-kroki.js"></script>
</head>
<body>
<div id="content"></div>
<script>
const input = `Let's take an example with a _GraphViz_ "Hello World":
[graphviz]
....
digraph G {
Hello->World
}
....`
const asciidoctor = Asciidoctor()
const registry = asciidoctor.Extensions.create()
AsciidoctorKroki.register(registry) // <1>
const result = asciidoctor.convert(input, { safe: 'safe', extension_registry: registry })
document.getElementById('content').innerHTML = result
</script>
</body>
</html>
<1> Register the extension in a dedicated registry
❗ IMPORTANT:
If you want to reference a diagram file in a browser environment you will need to define the base directory using the base_dir
option.
In addition, you will also need to provide an implementation to read a binary file synchronously for a given path.
You can find an implementation based on XMLHttpRequest
in the source code: https://github.com/Mogztter/asciidoctor-kroki/blob/9585b969014a1894d0c9fb76df10e1e8c66ce2b2/test/browser/test.js#L2-L34.
Once httpGet
is defined, here's how we should configure the extension:
const registry = asciidoctor.Extensions.create()
AsciidoctorKroki.register(registry, {
vfs: {
read: (path, encoding = 'utf8') => httpGet(path, encoding),
exists: (_) => false,
add: (_) => { /* no-op */ }
}
})
const input = 'plantuml::hello.puml[svg,role=sequence]'
asciidoctor.convert(input, { safe: 'safe', base_dir: window.location.origin, extension_registry: registry })
Install the dependency:
$ gem install asciidoctor-kroki
Require the library using the --require
(or -r
) option from the Asciidoctor CLI:
$ asciidoctor -r asciidoctor-kroki doc.adoc
If you are using Antora, you can integrate Kroki in your documentation site.
-
Install the extension in your playbook project:
$ npm i asciidoctor-kroki
-
Register the extension in your playbook file:
asciidoc: extensions: - asciidoctor-kroki
https://docs.antora.org/antora/2.3/playbook/configure-asciidoc/#extensions
-
Enjoy!
💡 TIP:
You can use the kroki-fetch-diagram
option to download the images from Kroki at build time.
In other words, while viewing pages you won't rely on Kroki anymore.
However, in Antora, this is not currently compatible with inline SVG images.
asciidoc:
attributes:
kroki-fetch-diagram: true
In your AsciiDoc document, you can either write your diagram inline or, alternatively, you can make a reference to the diagram file using macro form or with the include
directive.
Here's an example where we declare a GraphViz diagram directly in our AsciiDoc document using the block syntax:
[graphviz]
....
digraph foo {
node [style=rounded]
node1 [shape=box]
node2 [fillcolor=yellow, style="rounded,filled", shape=diamond]
node3 [shape=record, label="{ a | b | c }"]
node1 -> node2 -> node3
}
....
In the example below, we are using the vegalite
macro to reference a file named chart.vlite:
vegalite::chart.vlite[svg,role=chart,opts=interactive]
Finally, we can use the include
directive to reference a diagram file:
[plantuml,alice-bob,svg,role=sequence]
....
include::alice-bob.puml[]
....
You can declare positional and named attributes when using the block or the macro form.
Positional attributes
When using the block form:
- The first positional attribute specifies the diagram type (see below for a complete list).
- The second optional positional attribute assigns a file name (i.e. target) to the generated diagram. Currently, the value of this attribute is ignored, and an auto-generated hash will be used as file name for caching purposes (see #48).
- The third optional positional attribute specifies the image format.
Example:
[mermaid,abcd-flowchart,svg]
....
graph TD;
A-->B;
A-->C;
B-->D;
C-->D;
....
In the above example,
the diagram type is mermaid
,
the file name (i.e. target) is abcd-flowchart
,
and the image format is svg
.
When using the macro form:
- The first optional positional attribute specifies the image format.
Example:
vegalite::chart.vlite[svg]
In the above example,
the diagram type is vegalite
,
the target is chart.vlite
,
and the image format is svg
.
Named attributes
You can also use both positional and named attributes. Here's an example:
.PlantUML example
[plantuml#diagAliceBob,alice-and-bob,svg,role=sequence]
....
alice -> bob
....
As you can see, we specified an id using the syntax #diagAliceBob
just after the diagram type, and we are also using a named attribute to assign a role using role=sequence
.
Here's another example using the macro form:
vegalite::chart.vlite[svg,role=chart,opts=interactive]
We are using a positional attribute to declare the image format and two named attributes to define the role
and options
.
Attributes
It's important to note that not all attributes are used in all converters. Here's a list of all attributes used in the built-in HTML 5 converter:
target
width
height
format
(defaultsvg
)fallback
link
float
align
role
Options
In addition, the following options are available when using the SVG format:
inline
interactive
none
(used for cancelling defaults)
Options can be defined using options
attribute (or opts
for short):
[blockdiag,opts=inline]
....
blockdiag {
Kroki -> generates -> "Block diagrams";
Kroki [color = "greenyellow"];
"Block diagrams" [color = "pink"];
}
....
Kroki currently supports the following diagram libraries:
- ActDiag:
actdiag
- BlockDiag:
blockdiag
- BPMN:
bpmn
- Bytefield:
bytefield
- C4 (PlantUML):
c4plantuml
- Ditaa:
ditaa
- ERD:
erd
- Excalidraw:
excalidraw
- GraphViz:
graphviz
- Mermaid:
mermaid
- Nomnoml:
nomnoml
- NwDiag:
nwdiag
- PacketDiag:
packetdiag
- Pikchr:
pikchr
- PlantUML:
plantuml
- RackDiag:
rackdiag
- SeqDiag:
seqdiag
- SVGBob:
svgbob
- UMLet:
umlet
- Vega:
vega
- Vega-Lite:
vegalite
- WaveDrom:
wavedrom
- Structurizr:
structurizr
Each diagram libraries support one or more output formats. Consult the Kroki documentation to find out which formats are supported.
Attribute name | Description | Default value |
---|---|---|
kroki-server-url |
The URL of the Kroki server (see "Using Your Own Kroki") | https://kroki.io |
kroki-fetch-diagram |
Define if we should download (and save on the disk) the images from the Kroki server. This feature is not available when running in the browser. |
false |
kroki-http-method |
Define how we should get the image from the Kroki server. Possible values:
|
adaptive |
kroki-plantuml-include |
A file that will be included at the top of all PlantUML diagrams as if !include file was used. This can be useful when you want to define a common skin for all your diagrams. The value can be a path or a URL. |
|
kroki-plantuml-include-paths |
Search path(s) that will be used to resolve !include file additionally to current diagram directory, similar to PlantUML property plantuml.include.path. Please use directory delimiter ; (Windows) or : (Unix) for multiple paths, e.g.: "c:/docu/styles;c:/docu/library" or "~/docu/styles:~/docu/library" |
|
kroki-max-uri-length |
Define the max URI length before using a POST request when using adaptive HTTP method (kroki-http-method ) |
4000 |
❗ IMPORTANT:
kroki-fetch-diagram
and kroki-plantuml-include
are only available when safe mode is server
or lower.
If you want to learn more about Asciidoctor safe modes: https://docs.asciidoctor.org/asciidoctor/latest/safe-modes/
By default, images are generated as SVG when possible.
To alter this, set the kroki-default-format
attribute:
:kroki-default-format: png
You can unset this with :kroki-default-format!:
or :kroki-default-format: svg
.
ℹ️ NOTE: An AsciiDoc attribute can be defined through the CLI or API, in the document’s header or in the document’s body. In addition, if you are using Antora, you can define AsciiDoc attributes in your playbook and/or in your component descriptor.
References:
- https://asciidoctor.org/docs/user-manual/#setting-attributes-on-a-document
- https://docs.antora.org/antora/2.3/page/attributes/#custom-attributes
For instance, in an Antora playbook or component descriptor:
asciidoc:
attributes:
kroki-default-format: png@
(the @
allows the attribute value to be reset in documents)
By default, Asciidoctor Kroki generates a link, to a Kroki server or a local file.
To change the default for SVG diagrams, set the kroki-default-options
attribute.
:kroki-default-options: inline
You can unset this with :kroki-default-options: none
or :kroki-default-options!:
or specify opts=none
in a block or macro.
Some diagram libraries allow referencing external entities by URL or accessing resources from the filesystem.
For example PlantUML allows the !import
directive to pull fragments from the filesystem or a remote URL or the standard library.
Similarly, Vega-Lite can load data from a URL using the url
property.
By default, the Kroki server is running in SECURE
mode which restrict access to files on the file system and on the network.
For ease of use and convenience, Asciidoctor Kroki will try to resolve and load external resources before sending a request to the Kroki server.
This feature is only available when Asciidoctor safe mode is server
or lower.
By default, this extension sends information and receives diagrams back from https://kroki.io.
You may choose to use your own server due to:
- Network restrictions - if Kroki is not available behind your corporate firewall
- Network latency - you are far from the European public instance
- Privacy - you don't want to send your diagrams to a remote server on the internet
This is done using the kroki-server-url
attribute.
Typically, this is at the top of the document (under the title):
:kroki-server-url: https://my-server-url:port
For instance, if you have followed the instructions to set up a self-managed server using Docker you can use the following:
:kroki-server-url: https://localhost:8080
Note that either the https://
or https://
prefix is required (the default Docker image only uses http
).
You can also set this attribute using the Javascript API, for instance:
asciidoctor.convertFile('file.adoc', { safe: 'safe', attributes: { 'kroki-server-url': 'https://my-server-url:port' } })
To build this project, you will need the latest active LTS of Node.js and npm (we recommend nvm
to manage multiple active Node.js versions).
The current latest Node LTS version is: v14.15.x
Please use latest npm version v7.x
to generate lockfile using v2 format (i.e., "lockfileVersion": 2
), see lockfileversion
npm i -g npm
-
Open PowerShell as Administrator selecting
Run as Administrator
-
Install
npm-windows-upgrade
Set-ExecutionPolicy Unrestricted -Scope CurrentUser -Force npm install --global --production npm-windows-upgrade
-
Upgrade npm
npm-windows-upgrade
Reference: npm-windows-upgrade
-
Install the dependencies:
$ npm i
-
Generate a distribution:
$ npm run dist
When working on a new feature or when fixing a bug, make sure to run the linter and the tests suite:
$ npm run lint
$ npm run test