Skip to content

WilliamRagstad/Knight

Folders and files

NameName
Last commit message
Last commit date

Latest commit

Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 
Β 

Repository files navigation

Knight

A MVC REST framework for Deno πŸ¦• built on Oak and inspired by Spring.
Build scalable controller-based CRUD APIs with ease.

GitHub Workflow Status All Contributors GitHub release Deno

About

This framework allows you to create a rich REST API with just a few lines of code. The web server is powered by Oak and utilizes Deno’s native HTTP server and builds upon the existing middleware and routing stack, to allow for automatic endpoint generation.

Focus on what you want to do, and the framework will take care of the rest.

Documentation

Getting Started

You can use the knight framework in three different ways, start by importing the latest version of the Knight module. Now either let Knight create a new server instance, or use an existing Oak application. In the example below we will use the former.


Project Structure

We suggest that the project structure is as follows:

/
β”œβ”€β”€ controller/
β”‚   └── UserController.ts
β”œβ”€β”€ model/
β”‚   └── User.ts
β”œβ”€β”€ service/
β”‚   └── LoggingService.ts
β”œβ”€β”€ index.ts

All files named *Controller.ts are automatically found and used by the framework.


/index.ts

import { Knight } from "https://deno.land/x/knight/mod.ts";

const app = await Knight.build();

console.log("Server ready on http://localhost:8000");
await app.listen({ port: 8000 });

In this introduction, the Knight.build() function will find and use the UserController class from an example below.


Now let's create the UserController class. By default the framework provides a IController class, which is a base class for all controllers and provides a set of overloadable methods that are common to all controllers. Such methods include get, getById, post, delete and put. Though you can easily define your own custom endpoints using the @Endpoint decorator.


/controller/UserController.ts

import {
  bodyMappingJSON,
  Context,
  Controller,
  created,
  Endpoint,
  IController,
  ok,
  Params,
} from "https://deno.land/x/knight/mod.ts";

import User from "../model/User.ts";

@Controller("/user")
export default class UserController extends IController {
  async post({ request, response }: Context): Promise<void> {
    const user = await bodyMappingJSON(request, User);
    created(response, `User ${user.firstName} was successfully created`);
  }

  @Endpoint("GET", "/:id/email")
  getByEmail({ id }: Params, { response }: Context): void {
    const email = id + "@example.com";
    ok(response, `User with email ${email} was successfully found`);
  }
}

The controller class is responsible for handling all requests to the endpoint. Knight comes with a set of built-in mapping functions that can be used to handle request of different DTO classes. One of these functions is bodyMappingJSON. This function takes a request and a class and returns the parsed body as an instance of the class. In the example above, the request body is parsed as a JSON object and returned as an instance of the User class.

Creating a model class is as easy as defining a regular class. Mark nullable, or optional properties with the ? symbol and the @Optional decorator to signify that the property is optional to body mapping functions.


/model/User.ts

import { Optional } from "https://deno.land/x/knight/mod.ts";

export default class User {
  firstName: string;
  lastName: string;
  email: string;
  @Optional()
  country: string;
  @Optional()
  city?: string;
  @Optional()
  phone?: number;

  constructor(
    firstName: string,
    lastName: string,
    email: string,
    country: string,
    city?: string,
    phone?: number,
  ) {
    this.firstName = firstName;
    this.lastName = lastName;
    this.email = email;
    this.country = country;
    this.city = city;
    this.phone = phone;
  }
}

View the source code for this example code on GitHub.

Example

Run the example project by running the following command in the project root:

> deno run -A --unstable example/index.ts

Endpoints

As described in the previous section, the framework provides a set of overloadable methods that are commonly used through the IController class. These methods are:

  • get(ctx: Context): void | Promise<void>
  • getById(id: string, ctx: Context): void | Promise<void>
  • post(ctx: Context): void | Promise<void>
  • delete(id: string, ctx: Context): void | Promise<void>
  • put(id: string, ctx: Context): void | Promise<void>

All of these methods are overloaded to accept a Context object, which is a type provided by Knight to allow for easy access to the request and response objects. As well as the Params object for custom @Endpoint methods, which contains the parameters passed to the endpoint.

All of these have full support for asynchronous alternatives, which means that you can use async/await and return a Promise from the controller method and the framework will adapt the response accordingly.

Services

If we in the UserController class above, would like to use a service. We can create a service class and inject it into the controller as seen below.

Let's create a logging service.

service/LoggingService.ts

import {
  ConsoleSink,
  FileSink,
  Logger,
  LoggingLevel,
  Service,
} from "https://deno.land/x/knight/mod.ts";

export default Service(
  class LoggingService {
    public logger: Logger;
    constructor() {
      this.logger = new Logger()
        .attach(new ConsoleSink())
        .attach(
          new FileSink("./example/logs/log.txt").fromRange(
            LoggingLevel.Success,
          ),
        );
    }
  },
);

And now we can use the service in our controller.

controller/UserController.ts

import LoggingService from "../service/LoggingService.ts";

export default class UserController extends IController {
  private log: Logger = LoggingService.instance().logger;
  // ...
}





Consider contributing! πŸš€

All contributions are welcome! Create an issue or pull request on GitHub to help us improve the framework.


Contributors ✨

Thanks goes to these wonderful people (emoji key):


William RΓ₯gstad

πŸ’» πŸš‡ ⚠️ πŸ“– βœ… 🎨 πŸ’‘ πŸ€” πŸ“¦ πŸ”Œ πŸ–‹

This project follows the all-contributors specification. Contributions of any kind welcome!