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Rest Endpoint using Deno & Oak

What is Deno?

An anagram for Node and a JavaScript/Typescript runtime by Ryan Dahl (creator of Node). The runtime is trying to overcome the shortcomings of Node, but it is not the second coming of Node.

It has a ton of advantages: secure by default, supports TypeScript, ships as a single file (no dependencies) and import of ES modules from URL (like a browser would).

The runtime matured to version 1 in May of 2020. Read the blog post from the creators to understand where it is now, what they plan to do in the future and how they are planning to mitigate issues that Node brought with it.

What am I doing?

Everyone is talking about the runtime, and I wanted to try it out. I wanted to see what the fuss is about, and I tried to subside my curiosity. I picked up the runtime today for the very first time. I created an endpoint (that implements the age-old Fizz Buzz challenge) and documented it. That is what I am going to share today!

Problem statement

We will be building an endpoint that takes in a number as route parameter and returns status 200 with a message of either "Fizz", "Buzz" or "FizzBuzz". If you do not know the Fizz Buzz challenge, here is the problem statement.

Create an endpoint that takes a number.
If the number is a multiple of 3, return "Fizz".
If the number is a multiple of 5, return "Buzz".
For number which is a multiple of both 3 and 5, return "FizzBuzz".
If it is not any of these cases, return the original number.

Assume that the input will always be a number.

Source code

The full source code is available on my GitHub. If you can think of ways to make it better, shoot a PR. I am relatively new to this so I can use some feedback.

Solution

We will first create server.ts. The file is the main entry point for our server. It is a typescript file that defines the port, event listener, and import routes (from our declared route map). I have divided the solution into three files: server.ts, routes.ts and controller.ts. You could have a ton of additional files in a real-world server.

Server

import { Application } from "https://deno.land/x/oak/mod.ts";
import { bold, green } from "https://deno.land/std@0.53.0/fmt/colors.ts";
import router from "./routes.ts";
const port = 8000;
const app = new Application();

app.use(router.routes());
app.use(router.allowedMethods());

app.addEventListener("listen", ({ secure, hostname, port }) => {
  const protocol = secure ? "https://" : "http://";
  const url = `${protocol}${hostname ?? "localhost"}:${port}`;
  console.log(`${bold("server is listening on :")} ${green(url)}`);
});

await app.listen({ port });

To help us in setting up REST API endpoint quickly, I have utilized Oak. If you are familiar with Express, you will feel right at home.

Oak initializes the application using Application. You can add routes to the application instance, attach middleware for authentication, version check, and so on.

You can see how easy it was to import the dependency using the fully qualified URL. I did the same with the colors dependency. It is used to display the local server URL.

  1. I have imported routes from a routes.ts file. We will go over it next.
  2. I have also established the post as 8000. You can, for the most part, use any port (besides reserved ports).
  3. The Application class has two methods use and listen. use allows me to use the routes defined for the current instance of the application.
  4. allowMethods tells Deno to allow all methods for the imported routes like GET, POST, PUT, DELETE. We only use GET in this application.
  5. Once the server starts, before it starts processing requests, the application fires a "listen" event. We will be listening to it using the addEventListener. I use this to display a fully qualified URL in the console. This URL is where our Deno server is running.

Routing

import { Router } from "https://deno.land/x/oak/mod.ts";
import { helloWorld, calculateFizzBuzz } from "./controller.ts";

const router = new Router();

router
    .get("/", helloWorld)
    .get("/fizzbuzz/:id", calculateFizzBuzz);

export default router;

This file defines the routes of endpoints that are available in my application. I have imported Router from Oak and created a new instance of it as router.

There are also two methods that I have imported from controller.ts. One method (helloWorld) simply displays a message of "Hello World" and the other (calculateFizzBuzz) solves our problem statement above.

The instance of Router is chained to define two GET routes. You can mix route verbs. So if you have POST, PUT or DELETE, you can chain them with GET. It takes two parameters, a path, and a function. The path is what the user will hit and the function is what will serve the logic for that path.

For our problem, I have used the path /fizzbuzz. You will see that I have suffixed the path with /:id. Express used the same technique to pass dynamic parameters. I can use this id param later to do operation on it. This id is how a user will give me the number they would like to analyze.

Controller

export const helloWorld = ({ response }: { response: any }) => {
  response.body = {
    message: "Hello World!",
  };
};

export const calculateFizzBuzz = ({ params, response }: { params: { id: string }, response: any }) => {
    let message = "";
    const input = parseInt(params.id);

    if(input % 15 === 0) {
        message = "FizzBuzz";
    } else if(input % 3 === 0) {
        message = "Fizz";
    } else if(input % 5 === 0) {
        message = "Buzz";
    } else {
        message = input.toString();
    }

    response.body = {
        message
    }
}

I have put both the functions, serving two routes in the same controller. It is okay for application as small as this one but maybe for an enterprise application you would want them separate.

The helloWorld function simply returns a response body with a hardcoded object containing the message "Hello World". Nothing to see there.

The calculateFizzBuzz also returns a response body with an Object, but the message is dynamic in this case. We have access to the params Object which provides us with the id (or number) given by the user. We apply the logic to find if the number is divisible by 3, 5 or both and update the message accordingly. If it does not fall into any of those, I simply return the number.

Running the application

You can clone my GitHub repo or copy-paste data from this blog post. Change directory into the directory with the source code and execute it.

deno run --allow-net server.ts

🚨 Make sure Deno is installed on your system before executing the above command. Here are the installation instructions.

Remember, I mentioned that Deno is secure by default? It does not allow any file, network, or environment access unless explicitly enabled. If you want your Deno application accessible on the port specified, you have to use the flag --allow-net between run and file name.

Once executed, you will see this on the terminal:

Check file:///Users/Parwinder/Workspace/deno-oak-fizz-buzz-api/server.ts
server is listening on : http://localhost:8000

You are ready to roll! Hit the endpoints to test the application. Use your favorite REST Client like Postman or execute a cURL command in the terminal.

Testing endpoints

Going to 127.0.0.1:8000/ should give you a 200 status with the body:

{
    "message": "Hello World!"
}

Going to 127.0.0.1:8000/fizzbuzz/9 should give you a 200 status with the body:

{
    "message": "Fizz"
}

Going to 127.0.0.1:8000/fizzbuzz/50 should give you a 200 status with the body:

{
    "message": "Buzz"
}

Going to 127.0.0.1:8000/fizzbuzz/90 should give you a 200 status with the body:

{
    "message": "FizzBuzz"
}

I hope the article helps you to kickstart development with Deno, and as always, I am open to feedback. ❀️

Happy coding πŸ‘‹πŸΌ

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