README.md

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🎲 Community plugins
Additional plugins maintained by community for even more features!
🧠 16personalities by @lowlighter	♟️ Chess by @lowlighter
🪙 Crypto by @dajneem23	🥠 Fortune by @lowlighter
💉 Nightscout by @legoandmars	💩 PoopMap plugin by @matievisthekat
📸 Website screenshot by @lowlighter	🦑 Splatoon by @lowlighter
💹 Stock prices by @lowlighter

📪 Creating community plugins

Plugins creation requires you to be comfortable with JavaScript, HTML, CSS and EJS.

💬 Before creating a new plugin

Be sure to read contribution guide and architecture first.

ℹ️ metrics maintainers have no obligation towards community plugins support and may redirect any help, feature or fix requests from other users to you. Of course you are not bound to work on it, but it would be great if you plan to merge a plugin in the main repository

Please respect the following guidelines:

• A plugin should be independent and should not rely on other plugins
  • 🧱 core and 🗃️ base output can be reused though
• A plugin should never edit its original arguments, as it is shared amongst other plugins and would create unattended side effects
• Use imports.metadata.plugins.{plugin-name}.inputs() to automatically type check and default user inputs through defined metadata.yml
• Plugin options should respect the "lexical field" of existing option to keep consistency
• Plugin errors should be handled gracefully by partials with error message
• New dependencies should be avoided, consider using existing imports
• Spawning sub-process should be avoided, unless absolute necessity
  • Use imports.which() to detect whether a command is available
  • Use imports.run() to run a command
    • Pass {prefixed: true} to wrap automatically command with WSL on Windows
  • It is required to work on Linux Ubuntu (as the GitHub action run on it)

💡 While the following guide intend to explain the creation process of new plugin, it may also be a good idea to see what existing plugins looks like and see if you want to embark on the adventure!

💬 Quick-start

To create a new plugin, clone and setup this repository first:

git clone https://github.com/lowlighter/metrics.git
cd metrics/
npm install

Find a cool name and an unused emoji for your new plugin and run the following:

npm run quickstart plugin <plugin_name>

⚠️ Community plugins cannot have the same name as official plugins. metrics maintainers may also reserve a plugin name for future usage and may ask you to rename it in case of conflicts

It will create a new directory in /source/plugins/community with the following file structure:

• /source/plugins/community/{plugin-name}
  • README.md
  • metadata.yml
  • examples.mjs
  • index.mjs

Plugins are auto-loaded based on their folder existence, so there's no need to register them somewhere.

💬 Filling metadata.yml

metadata.yml is a required file which describes supported account types, output formats, scopes, etc.

The default file looks like below:

name: "🧩 Plugin name"
category: community
description: Short description
examples:
  default: https://via.placeholder.com/468x60?text=No%20preview%20available
authors:
  - octocat
supports:
  - user
  - organization
  - repository
scopes: []
inputs:

  plugin_{name}:
    description: Enable {name} plugin
    type: boolean
    default: no

💡 It is important to correctly define metadata.yml because metrics will use its content for various usage

🧱 core plugin (which is always called) will automatically verify user inputs against supports and inputs values and throw an error in case of incompatibility.

name, description, scopes, examples are used to auto-generate documentation in the README.md. For community plugins, examples should be set with auto-generated examples of your own profile.

authors should contain your GitHub username

category should be set to community.

Because of GitHub Actions original limitations, only strings, numbers and boolean were actually supported by action.yml. metrics implemented its own inputs validator to circumvent this. It should be pretty simple to use.

Example: boolean type, defaults to false

  plugin_{name}_{option}:
    description: Boolean type
    type: boolean
    default: no

  plugin_{name}_{option}:
    description: String type
    type: string
    default: .user.login

💡 .user.login, .user.twitter and .user.website are special default values that will be respectively replaced by user's login, Twitter username and attached website. Note that these are not available if token: NOT_NEEDED is set by user

Example: string type, defaults to foo with foo or bar as allowed values

  plugin_{name}_{option}:
    description: Select type
    type: string
    values:
      - foo
      - bar
    default: foo

💡 values restricts what can be passed by user

Example: number type, defaults to 1 and expected to be between 0 and 100

  plugin_{name}_{option}:
    description: Number type
    type: number
    default: 1
    min: 0
    max: 100

💡 min and max restricts what can be passed by user. Omit these to respectively remove lower and upper limits.

💡 Zero may have a special behaviour (usually to disable limitations), if that's the case add a zero attribute (e.g. zero: disable) to reference this in documentation

Example: array type, with comma-separated elements

  plugin_{name}_{option}:
    description: Array type
    type: array
    format: comma-separated
    values:
      - foo
      - bar
    default: foo, bar

💡 An array can be either comma-separated or space-separated, and will split user input by mentioned separator. Each value is trimmed and lowercased.

Example: json type

  plugin_{name}_{option}:
    description: JSON type
    type: json
    default: |
      {
        "foo": "bar"
      }

💡 JSON types should be avoided when possible, as they're usually kind of unpractical to write within a YAML document

For complex inputs, pass an example that will be displayed as a placeholder on web instances.

When calling imports.metadata.plugins.{plugin-name}.inputs({data, account, q}), an object with verified user inputs and correct typing will be returned.

Any invalid input will use have the default value instead.

⚠️ Returned object will use the web syntax for options rather than the action one. It means that plugin_ prefix is dropped, and all underscores (_) are replaced by dots (.)

Example: validating user inputs

let {limit, "limit.field":limit_field} = imports.metadata.plugins.myplugin.inputs({data, account, q})
console.assert(limit === true)

💬 Filling index.mjs

Plugins use JavaScript modules.

The default exported module of index.mjs will be auto-loaded when metrics start.

Below is a breakdown of basic index.mjs content

export default async function(
  //Shared inputs
  {
    login, //GitHub username
    q, //Raw user inputs (dot notation without plugin_ prefix, don't use it directly)
    imports, //Various utilities (axios, puppeteer, fs, etc., see /source/app/metrics/utils.mjs)
    data, //Raw data from core/base plugin
    computed, //Computed data from core/base plugin
    rest, //Rest authenticated GitHub octokit
    graphql, //Graph QL authenticated GitHub octokit
    queries, //Autoloaded queries from ./queries
    account, //Account type ("user" or "organization")
  },
  //Settings and tokens
  {
    enabled = false,
    extras = false,
  } = {}) {
    //Plugin execution
    try {
      //Check if plugin is enabled and requirements are met
      if ((!q.my_plugin)||(imports.metadata.plugins.my_plugin.enabled(enabled, {extras})))
        return null

      //Automatically validate user inputs
      //An error will be thrown if `account` type is not supported
      //Inputs will have correct typing from `metadata.yml` and unset or invalid options will be set to default
      let {option} = imports.metadata.plugins.my_plugin.inputs({data, account, q})

      //Automatically template query from /source/plugins/myplugin/queries/myquery.graph ql
      const {[account]:stuff} = await graphql(queries.myplugin.myquery({login, account, option}))

      //Results
      return {stuff}
    }
    //Handle errors
    catch (error) {
      throw imports.format.error(error)
    }
}

⚠️ Remember, a plugin should never edit its original arguments, as it is shared amongst other plugins and would create unattended side effects

💬 Creating partials

Just create a new .ejs file in partials folder from templates you wish to support, and reference it into their partials/_.json.

Plugin partials should be able to handle gracefully their own state and errors.

Below is a minimal snippet of a partial:

<% if (plugins.{plugin_name}) { %>
  <% if (plugins.{plugin_name}.error) { %>
    <%= plugins.{plugin_name}.error.message %>
  <% } else { %>
    <%# content %>
  <% } %>
<% } %>

Partials should have the match the same name as plugin handles, as they're used to display plugin compatibility in auto-generated header.

EJS framework is used to template content through templating tags (``).

💬 Filling README.md

README.md is used as documentation.

Most of it will is auto-generated by metadata.yml and examples.yml content, so usually it is not required to manually edit it.

The default content looks like below:

<ǃ--header-->
<ǃ--/header-->

## ➡️ Available options

<ǃ--options-->
<ǃ--/options-->

## ℹ️ Examples workflows

<ǃ--examples-->
<ǃ--/examples-->

• <ǃ--header--> will be replaced by an auto-generated header containing plugin name, supported features and output examples based on metadata.yml
• <ǃ--options--> will be replaced by an auto-generated table containing all referenced option from metadata.yml
• <ǃ--examples--> will be replaced by workflows from examples.yml

⚠️ Do not replace these auto-generated placeholder yet! They will be built by the ci workflow and will help making your pull request easier to read

When a plugin requires a token, please add a ## 🗝️ Obtaining a {service} token section after the available options section.

Complex features may also be documented in additional sections after available options section options if required.

Try to respect current format of README.md from other plugins and use a neutral and impersonal writing style if possible.

💬 Filling examples.yml

Workflow examples from examples.yml are used as unit testing and to auto-generate documentation in the README.md.

It uses the same syntax as GitHub action and looks like below:

- name: Test name
  uses: lowlighter/metrics@latest
  with:
    filename: metrics.plugin.{name}.svg
    token: ${{ secrets.METRICS_TOKEN }}
    base: ""
    plugin_{name}: yes
  prod:
    skip: true
  test:
    timeout: 1800000
    modes:
      - action
      - web
      - placeholder

💡 Tests are executed in a mocked environment to avoid causing charges on external services. It may be required to create mock testing files.

test is usually not needed and optional but can be set to set a custom timeout (for plugins with a high execution time) and modes can be used to restrict which environment should be used.

prod should keep skip: true as you should use your own render outputs as examples.

💬 Testing locally and creating mocked data

The easiest way to test a new plugin is to setup a web instance locally (see documentation).

Once server is started, open a browser and try to generate an output with your new plugin enabled and check if it works as expected:

http://localhost:3000/username?base=0&my-plugin=1

💡 You may need to configure your server first by editing settings.json. Ensure that:

• token is correctly set when working with GitHub APIs
• plugins.default is set to true as plugins are disabled by default
  • or enable your plugins by manually in plugins.my-plugin.enabled
• debug is set to true for more verbose output

When your plugin is finalized, you may need to create mocked data if it either uses GitHub APIs or any external service.

They must be created in tests/mocks/api:

• use github directory for all related GitHub APIs data
• use axios directory for all external service that you call using imports.axios

💡 Files from these directories are auto-loaded, so it is just required to create them with faked data.

Finally /source/app/web/statics/app.placeholder.js to add mocked placeholder data to make users using the shared instance able to preview a render locally without any server computation.

💬 Submitting a pull request

If you made it until there, congratulations 🥳!

You're almost done, review the following checklist before submitting a pull request:

• I have correctly filled metadata.yml
  • name is set with an unused emoji and plugin name
  • category is set to community
  • examples contains links towards a rendered output hosted by you
  • authors contains my GitHub username
  • supports list which account type are supported
  • scopes are correctly listed with their associated names on GitHub (leave an empty array if not applicable)
  • inputs are correctly filled
• I have implemented my plugin
  • index.mjs respects the plugins guidelines
• I have tested my plugin locally
  • tests/mocks ... have been created
  • app.placeholder.js has been updated for preview from web instances
  • examples.yml contains workflows examples (at least one is required)
    • skip: true has been set for prod attribute in each test
  • npm run linter yields no errors
• I have documented my plugin
  • README.md eventually describes complex setup or options (if applicable)
• I am ready!
  • Checkout any generated files (in fact, don't run npm run build)
  • Commit and push your changes (commits are squashed, no need to rebase)
  • Open a new pull request
  • Post a screenshot or a render in the pull request so it can be previewed

💡 A pull request will need to have passing builds and an example screenshot if you want to get it merged. Maintainers may request changes in some cases

🎊 Thanks a lot for your contribution!