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@loopback/example-greeter-extension

This example project illustrates how to implement the Extension Point/extension pattern, which promotes loose coupling and offers great extensibility. There are many use cases in LoopBack 4 that fit into design pattern. For example:

  • @loopback/boot uses BootStrapper that delegates to Booters to handle different types of artifacts
  • @loopback/rest uses RequestBodyParser that finds the corresponding BodyParsers to parse request body encoded in different media types

Overview

We’ll use the following scenario to walk through important steps to organize the greet service that allows extensible languages - each of them being supported by a Greeter extension.

greeters

Various constructs from LoopBack 4, such as Context, @inject.*, and Component are used to build the service in an extensible fashion.

Define an extension point

In our scenario, we want to allow other modules to extend or customize how people are greeted in different languages. To achieve that, we declare the greeter extension point, which declares a contract as TypeScript interfaces that extensions must conform to.

Define interface for extensions

An extension point interacts with unknown number of extensions. It needs to define one or more interfaces as contracts that each extension must implement.

/**
 * Typically an extension point defines an interface as the contract for
 * extensions to implement
 */
export interface Greeter {
  language: string;
  greet(name: string): string;
}

Define class for the extension point

Typically an extension point is defined as a TypeScript class and bound to a context. In our case, we mark GreetingService as the extension point that needs to access a list of greeters.

/**
 * An extension point for greeters that can greet in different languages
 */
export class GreetingService {
  constructor(
    /**
     * Inject a getter function to fetch greeters (bindings tagged with
     * `{extensionPoint: GREETER_EXTENSION_POINT_NAME}`)
     */
    @inject.getter(
      bindingTagFilter({extensionPoint: GREETER_EXTENSION_POINT_NAME}),
    )
    private getGreeters: Getter<Greeter[]>,
  ) {}
  // ...
}

To customize metadata such as id for the extension point, we can use @extensionPoint to decorate the class, such as:

@extensionPoint(GREETER_EXTENSION_POINT_NAME)
export class GreetingService {}

Access extensions for a given extension point

To simplify access to extensions for a given extension point, we use dependency injection to receive a getter function that gives us a list of greeters.

@extensionPoint(GREETER_EXTENSION_POINT_NAME)
export class GreetingService {
  constructor(
    /**
     * Inject a getter function to fetch greeters (bindings tagged with
     * `{extensionPoint: GREETER_EXTENSION_POINT_NAME}`)
     */
    @extensions() // Sugar for @inject.getter(filterByTag({extensionPoint: GREETER_EXTENSION_POINT_NAME}))
    private getGreeters: Getter<Greeter[]>, // ...
  ) {}
}

Please note that it’s possible to add/remove greeters after the extension point is instantiated. If we use @inject to receive a list of registered greeters, the GreetingService instance is injected with a snapshot of greeters but it won’t pick up any changes afterward. With @inject.getter, LoopBack injects a getter function that will return the latest list of greeters, reflecting any changes made since the last call. For example:

// Get the latest list of greeters
const greeters = await this.getGreeters();

Implement the delegation logic

Typically, the extension point implementation will get a list of registered extensions. For example, when a person needs to be greeted in a specific language, the code iterates through all greeters to find an instance that matches the language. In this module, GreetingService implements the greet operation which uses findGreeter to find a greeter and produces a greeting for the given language.

export class GreetingService {
  // ...
  /**
   * Find a greeter that can speak the given language
   * @param language Language code for the greeting
   */
  async findGreeter(language: string): Promise<Greeter | undefined> {
    // Get the latest list of greeters
    const greeters = await this.getGreeters();
    // Find a greeter that can speak the given language
    return greeters.find(g => g.language === language);
  }

  /**
   * Greet in the given language
   * @param language Language code
   * @param name Name
   */
  async greet(language: string, name: string): Promise<string> {
    let greeting: string = '';

    const greeter = await this.findGreeter(language);
    if (greeter) {
      greeting = greeter.greet(name);
    } else {
      // Fall back to English
      greeting = `Hello, ${name}`;
    }
    if (this.options && this.options.color) {
      greeting = chalk.keyword(this.options.color)(greeting);
    }
    return greeting;
  }
}

Implement an extension

Modules that want to connect to greeter extension point must implement Greeter interface in their extension. The key attribute is that the GreetingService being extended knows nothing about the module that is connecting to it beyond the scope of that contract. This allows greeters built by different individuals or companies to interact seamlessly, even without their knowing much about one another.

import {Greeter, asGreeter} from '../types';
import {bind, inject} from '@loopback/context';

/**
 * Options for the Chinese greeter
 */
export interface ChineseGreeterOptions {
  // Name first, default to `true`
  nameFirst: boolean;
}

/**
 * A greeter implementation for Chinese
 */
@bind(asGreeter)
export class ChineseGreeter implements Greeter {
  language = 'zh';

  constructor(
    /**
     * Inject the configuration for ChineseGreeter
     */
    @inject('greeters.ChineseGreeter.options', {optional: true})
    private options: ChineseGreeterOptions = {nameFirst: true},
  ) {}

  greet(name: string) {
    if (this.options && this.options.nameFirst === false) {
      return `你好,${name}!`;
    }
    return `${name},你好!`;
  }
}

Please note we use @bind to customize how the class can be bound. In this case, asGreeter is a binding template function, which is equivalent as configuring a binding with {extensionPoint: 'greeter'} tag and in the SINGLETON scope.

/**
 * A binding template for greeter extensions
 * @param binding
 */
export const asGreeter: BindingTemplate = binding =>
  binding.inScope(BindingScope.SINGLETON).tag({extensionPoint: 'greeter'});

Register an extension point

To register an extension point, we simply bind the implementation class to a Context. For example:

app
  .bind('services.GreetingService')
  .toClass(GreetingService)
  .inScope(BindingScope.SINGLETON);

NOTE: Your extension point may choose to use a different binding scope.

The process can be automated with a component:

import {createBindingFromClass} from '@loopback/context';
import {Component} from '@loopback/core';
import {GreetingService} from './greeting-service';
import {GREETING_SERVICE} from './keys';

/**
 * Define a component to register the greeter extension point and built-in
 * extensions
 */
export class GreeterComponent implements Component {
  bindings = [
    createBindingFromClass(GreetingService, {
      key: GREETING_SERVICE,
    }),
    // ...
  ];
}

Register extensions

To connect an extension to an extension point, we just have to bind the extension to the Context and tag the binding with {extensionPoint: 'greeters'}.

app
  .bind('greeters.FrenchGreeter')
  .toClass(FrenchGreeter)
  .apply(asGreeter);

Or

app.add(createBindingFromClass(FrenchGreeter));

The registration can be done using a component too:

export class GreeterComponent implements Component {
  bindings = [
    // ...
    createBindingFromClass(EnglishGreeter),
    createBindingFromClass(ChineseGreeter),
  ];
}

Configure an extension point

Sometimes it’s desirable to make the extension point configurable. Two steps are involved to achieve that.

  1. Declare an injection for the configuration for your extension point class:
export class GreetingService {
  constructor(
    // ...
    private getGreeters: Getter<Greeter[]>,
    /**
     * An extension point should be able to receive its options via dependency
     * injection.
     */
    @configuration() // Sugar for @inject('services.GreetingService.options', {optional: true})
    public readonly options?: GreetingServiceOptions,
  ) {}
}
  1. Set configuration for the extension point
// Configure the extension point
app.bind('services.GreetingService.options').to({color: 'blue'});

Configure an extension

Some extensions also support customization. The approach is similar as how to configure an extension point.

  1. Declare an injection for the configuration in the extension class
export class ChineseGreeter implements Greeter {
  language = 'zh';

  constructor(
    /**
     * Inject the configuration for ChineseGreeter
     */
    @inject('greeters.ChineseGreeter.options', {optional: true})
    private options: ChineseGreeterOptions = {nameFirst: true},
  ) {}
}
  1. Set configuration for the extension
// Configure the ChineseGreeter
app.bind('greeters.ChineseGreeter.options').to({nameFirst: false});

Contributions

Tests

Run npm test from the root folder.

Contributors

See all contributors.

License

MIT