/inversify-hapijs-utils

A set of utilities for using Inversify with Hapi

Primary LanguageTypeScriptMIT LicenseMIT

inversify-hapijs-utils

Some utilities for the development of hapijs application with Inversify. Based on the inversify-restify.utils. If you're starting writing restful api's then I suggest you use Restify (and the inversify-restify-utils). If you want to use hapi (or you have to) then this project can help you in the same way that inversify-restify.utils does.

Note: this project is still a work in progress and does not have any test coverage.

Installation

You can install inversify-hapijs-utils using npm:

$ npm install inversify inversify-hapijs-utils reflect-metadata --save

The inversify-hapijs-utils type definitions are included in the npm module and require TypeScript 2.0. Please refer to the InversifyJS documentation to learn more about the installation process.

The Basics

Step 1: Decorate your controllers

To use a class as a "controller" for your hapijs app, simply add the @Controller decorator to the class. Similarly, decorate methods of the class to serve as request handlers.

The following example will declare a controller that responds to `GET /foo'.

import { Request } from 'hapijs';
import { Controller, Get, interfaces } from 'inversify-hapijs-utils';
import { injectable, inject } from 'inversify';

@Controller('/foo')
@injectable()
export class FooController implements interfaces.Controller {
    
    constructor( @inject('FooService') private fooService: FooService ) {}
    
    @Get('/')
    private index(req: Request): string {
        return this.fooService.get(req.query.id);
    }
}

Note: The controller should not use the hapijs reply method to control output, but rather it should return the result directly. Any errors should return a Boom error.

Step 2: Configure container and server

Configure the inversify container in your composition root as usual.

Then, pass the container to the InversifyHapiServer constructor. This will allow it to register all controllers and their dependencies from your container and attach them to the hapi app. Then just call server.build() to prepare your app.

In order for the InversifyHapiServer to find your controllers, you must bind them to the TYPE.Controller service identifier and tag the binding with the controller's name. The Controller interface exported by inversify-hapijs-utils is empty and solely for convenience, so feel free to implement your own if you want.

import { Container } from 'inversify';
import { interfaces, InversifyHapiServer, TYPE } from 'inversify-hapijs-utils';

// set up container
let container = new Container();

// note that you *must* bind your controllers to Controller 
container.bind<interfaces.Controller>(TYPE.Controller).to(FooController).whenTargetNamed('FooController');
container.bind<FooService>('FooService').to(FooService);

// create server
let server = new InversifyHapiServer(container);

server
    .build()
    .start(
        (err) => {
            if (err) {
                console.log(err);
            }
        }
    );

hapijs ServerOptions can be provided as a second parameter to the InversifyHapiServer constructor:

let server = new InversifyHapiServer(container, { name: "my-server" });

hapijs ServerOptions can be extended with defaultRoot where one can define a default path that will be prepended to all your controllers:

let server = new InversifyHapiServer(container, { name: "my-server", defaultRoot: "/v1" });

InversifyHapiServer

A wrapper for a hapijs Application.

.setConfig(configFn)

Optional - exposes the hapijs application object for convenient loading of server-level middleware.

import * as morgan from 'morgan';
// ...
let server = new InversifyHapiServer(container);
server.setConfig((app) => {
    app.connection({port: 8080});
});

.build()

Attaches all registered controllers and middleware to the hapijs application. Returns the application instance.

// ...
let server = new InversifyHapiServer(container);
server
    .setConfig(configFn)
    .build()
    .start(err => {});

Decorators

@Controller(path, [middleware, ...])

Registers the decorated class as a controller with a root path, and optionally registers any global middleware for this controller.

@Method(method, path, [middleware, ...])

Registers the decorated controller method as a request handler for a particular path and method, where the method name is a valid hapijs routing method.

@SHORTCUT(path, [middleware, ...])

Shortcut decorators which are simply wrappers for @Method. Right now these include @Get, @Post, @Put, @Patch, @Head, @Delete, and @Options. For anything more obscure, use @Method (Or make a PR 😄).

Middleware

Middleware can be either an instance of RequestHandler or an InversifyJS service identifier. This is attached as a route 'pre' method. To stop processing you will need to return a Boom error or a javascript Error.

The simplest way to use middleware is to define a RequestHandler instance and pass that handler as decorator parameter.

// ...
const loggingHandler = (req: Request, reply: ReplyNoContinue) => {
  console.log(req);
  return reply.continue();
};

const securityHandler = (req: Request, reply: ReplyNoContinue) => {
  // Return a Boom (or any Error) if you want processing to stop
  if (!req.headers['token']) {
      return reply(Boom.unauthorized('No esi session id in request header'));
  }

  return reply.continue();
};

@Controller('/foo', loggingHandler, securityHandler)
@injectable()
export class FooController {
    
    constructor( @inject('FooService') private fooService: FooService ) {}
    
    @Get('/', loggingHandler)
    private index(req: Request): string {
        return this.fooService.get(req.query.id);
    }
}

But if you wish to take full advantage of InversifyJS you can bind the same handler to your IOC container and pass the handler's service identifier to decorators.

// ...
import { TYPES } from 'types';
// ...
const loggingHandler = (req: Request, reply: ReplyNoContinue) => {
  console.log(req);
};
container.bind<RequestHandler>(TYPES.LoggingMiddleware).toConstantValue(loggingHandler);
// ...
@Controller('/foo', TYPES.LoggingMiddleware)
@injectable()
export class FooController implements interfaces.Controller {
    
    constructor( @inject('FooService') private fooService: FooService ) {}
    
    @Get('/', TYPES.LoggingMiddleware)
    private index(req: Request): string {
        return this.fooService.get(req.query.id);
    }
}

Error Handling

HapiJs supports Boom objects.

@Controller('/foo', TYPES.LoggingMiddleware)
@injectable()
export class FooController implements interfaces.Controller {
    
    constructor( @inject('FooService') private fooService: FooService ) {}
    
    @Get('/{id}')
    private index(req: Request): string {
        if (!req.params.id) {
            return Boom.badRequest('id is required');
        }
        return this.fooService.get(req.query.id);
    }
}