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Ibrahim Cesar for AWS Community Builders

Posted on • Originally published at ibrahimcesar.cloud

Next.js TypeScript SSR and ISR serverless deploy with AWS CDK

Incremental Static Regeneration is the Next.js superpower. We’ll deploy a Next.js webapp in AWS using Lambda@Edge and CloudFront with support for SSR and ISG. Both our Next.js webapp and our Infrastructure as Code (IaC) will use TypeScript, using the Cloud Development Kit (CDK).

When you have a highly dynamic webapp with a lot of content, your number of pages will grow and grow. Static generation is great, but more pages, more time to build. Server Side Rendering is great to solve some of these problems but takes its cut on Time To First Byte (TTFB). Also, long builds with unnecessary computation might also incur additional expenses. Ideally, your application is intelligent enough to understand which products changed and incrementally update those pages with no full rebuild. And Incremental Static Regeneration just do that in Next.js. Until now I was just able to deploy functional webapps with ISR in AWS using containers (ECS or Fargate), but now, thanks to new releases for CDK Construct we can make full serverless deployment of rich webapps on AWS with CDK.

What you need to know

Basic architecture

Serverless Architecture

From docs. Missing in this picture is an extra lambda function to handle images, for optimization.

Gotta Fetch’Em All!

Our application will fetch data from the PokéAPI — will be not much fancy, just a regular page that fetches some data and render a page server-side, and in a specific route, we’ll make a “starter build” with the first 25 Pokémons, and then regenerate on the go new Pokémons as requested.

I generated all the types, Pokedex.ts and Pokemon.ts from quicktype. Even their examples are from PokéAPI! I used their VS Code Paste JSON as Code extension. It takes the API JSON output and returns interfaces and types to better deal with our logic. The autocomplete for the nested attributes on the JSON tree of an object makes the developer experience great, this is what TypeScript was born for.

Next.js

This tutorial assumes you already know how to setup your environment and take your first steps with Next.js (install, running, create some pages). And knows what is TypeScript, which, has an excellent support on Next.js. To generate a brand new project just run your weapon of choice npm or yarn:

npx create-next-app --ts
# or
yarn create next-app --typescript
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Or read the great official documentation from Next.js team on TypeScript integration.

We’ll use the pattern to create an /src folder and place our pages and components folder there. I like to create at root level a lib and types folder and a build folder with the code to deploy our stack. After install all dependencies, dev dependencies and deploy it to AWS, your root folder for this project will look like this:

.
 public/
 lib/
 src/
 node_modules/
 build/
 types/
 cdk.out/
 cdk.json
 bin.ts
 stack.ts
 next-env.d.ts
 next.config.js
 package-lock.json
 package.json
 tsconfig.json
 README.md
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Since we don’t need build or cdk.out to be on version control, remember to place both on your .gitignore file.

TSConfig

Our tsconfig.json will work both for our CDK and our Next.js. How cool is that?

{
  "compilerOptions": {
    "alwaysStrict": true,
    "downlevelIteration": true,
    "esModuleInterop": true,
    "forceConsistentCasingInFileNames": true,
    "inlineSourceMap": true,
    "lib": [
      "es2020",
      "DOM"
    ],
    "moduleResolution": "node",
    "noEmitOnError": true,
    "noFallthroughCasesInSwitch": true,
    "noImplicitAny": true,
    "noImplicitThis": true,
    "noImplicitReturns": true,
    "noUncheckedIndexedAccess": true,
    "noUnusedLocals": true,
    "noUnusedParameters": true,
    "resolveJsonModule": true,
    "strict": true,
    "strictBindCallApply": true,
    "strictFunctionTypes": true,
    "strictNullChecks": true,
    "strictPropertyInitialization": true,
    "stripInternal": true,
    "target": "ES2020",
    "typeRoots": [
      "node_modules/@types"
    ],
    "useDefineForClassFields": true,
    "allowJs": true,
    "skipLibCheck": true,
    "noEmit": true,
    "module": "commonjs",
    "isolatedModules": true,
    "jsx": "preserve",
        "baseUrl": ".",
    "paths": {
      "@/components/*": [
        "./src/components/*"
      ],
      "@/lib/*": [
        "./lib/*"
      ],
      "@/pages/*": [
        "./src/pages/*"
      ],
      "@/types/*": [
        "./types/*"
      ]
    },
  },
  "exclude": [
    "node_modules"
  ],
  "include": [
    "src",
    "next-env.d.ts",
    "**/*.ts",
    "**/*.tsx",
    "lib"
  ]
}
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Some notes about it: compilerOptions.lib must have [‘es2020’, ‘DOM’] at least. Our application will have a life in the lambda functions in Node.js and in the browser as a JavaScript webapp. I always use absolute paths compilerOptions.paths[‘@/components/*’] per example. It makes so clean the imports and is more clear the domains. For this app we’ll follow the strict path.

CDK dependencies and configurations

All CDK dependencies are development dependencies. I will show examples in npm from now on, but feel free to use yarn or whatever please you.

npm install -D aws-cdk @aws-cdk/core @sls-next/cdk-construct @sls-next/lambda-at-edge @aws-cdk/aws-lambda ts-node
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As highlight, aside from CDK and its construct libraries, ts-node is a TypeScript execution engine and REPL for Node.js. It JIT transforms TypeScript into JavaScript, enabling you to directly execute TypeScript on Node.js without pre-compiling. This is accomplished by hooking node’s module loading APIs, enabling it to be used seamlessly alongside other Node.js tools and libraries.

And we’ll need some types for our webapp:

npm install -D @types/gtag.js @types/node @types/react
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So, we create cdk.json:

{
  "app": "npm run deploy"
}
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That will instruct CDK to run a specific script we need to add to the scripts section of the package.json along side Next.js ones:

  "scripts": {
    "dev": "next dev",
    "build": "next build",
    "start": "next start",
    "cdk": "cdk",
    "deploy": "ts-node bin.ts"
  }
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So, the deploy command will run the file bin.ts:

import * as cdk from "@aws-cdk/core";
import { Builder } from "@sls-next/lambda-at-edge";
import { NextStack } from "./stack";

const builder = new Builder(".", "./build", {args: ['build']});

builder
  .build(true)
  .then(() => {
    const app = new cdk.App();
    new NextStack(app, "NextJsPokeStack", {
      env: {
        region: 'us-east-1',
      },
      analyticsReporting: true,
      description: "Testing deploying NextJS Serverless Construct"
    });
  })
  .catch((e) => {
    console.error(e);
    process.exit(1);
  });

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That is importing the stack.ts file, with our infra declaration for the NextJSLambdaEdge:

import * as cdk from "@aws-cdk/core";
import { Duration } from "@aws-cdk/core";
import { NextJSLambdaEdge } from "@sls-next/cdk-construct";
import { Runtime } from "@aws-cdk/aws-lambda";

export class NextStack extends cdk.Stack {
  constructor(scope: cdk.Construct, id: string, props: cdk.StackProps) {
    super(scope, id, props);
    new NextJSLambdaEdge(this, "NextJsApp", {
      serverlessBuildOutDir: "./build",
      runtime: Runtime.NODEJS_12_X,
      memory: 1024,
      timeout: Duration.seconds(30),
      withLogging: true,
      name: {
        apiLambda: `${id}Api`,
        defaultLambda: `Fn${id}`,
        imageLambda: `${id}Image`,
      },
    });
  }
}
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Checkout the docs for more available props. I recommend the use of naming each one of three lambda functions created: apiLambda, defaultLambda and imageLambda. Because otherwise will create with a specific name and if you happen to deploy another stack in the same account you will get an error about the a function with that name already exists. So, rename your stacks or even better, add some randomness to names.

We will create two different renders, [ditto].tsx for Server Side Rendering (SSR), that is basically the same of static props, but in server side and because of it, dynamic by nature.

import { GetServerSideProps } from 'next'
import Head from "next/head"
import { getPokemonData } from '@/lib/fetch'
import PokemonForm from '@/components/pokemon'

import type { Pokemon } from '@/types/Pokemon'

interface PokemonApi {
  data: Pokemon
}

const Ditto = (props: PokemonApi) => {
  if (!props?.data?.name) return null;

  const pokeName = props.data.species.name.charAt(0).toUpperCase() + props.data.species.name.slice(1)

  return (
    <section className="container">
      <Head>
        <title>{pokeName} | PokéServeless - AWS Serverless Lambda@Edge</title>
        <meta property="og:title" content={`${pokeName} | PokéServeless - AWS Serverless Lambda@Edge`} key="title" />
      </Head>
      <header>
          <h1>PokéServerless  Server Side Rendering</h1>
      </header>
      <PokemonForm poke={props} />
    </section>
  )

}


export const getServerSideProps: GetServerSideProps = async (context) => {
  let data;

  const { ditto} = context.query;

  if (typeof ditto === 'string') {
    data = await getPokemonData(ditto)
  } else {
    data = {}
  }

  return { props: { data } }
}

export default Ditto

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And [porygon].tsx, to do Incremental Static Regeneration (ISR). This is an overview of the flow of ISR:

ISR flow

Its from Lee Robinson’s “A Complete Guide To Incremental Static Regeneration (ISR) With Next.js” pots and its a very fair title.

This is my code:

// Example of ISG
import { GetStaticPaths, GetStaticProps } from 'next';
import Head from "next/head"
import { useRouter } from 'next/router';
import { getPokemons, getPokemonData } from '@/lib/fetch'
import PokemonForm from '@/components/pokemon'

import type { Pokemon } from '@/types/Pokemon'
import type { Pokedex } from '@/types/Pokedex'

interface PokemonApi {
  data: Pokemon,
  date: string
}

const Porygon = (props: PokemonApi) => {
  if (!props?.data?.name) return null;
  const router = useRouter();

  if (router.isFallback) {
    return <div>Loading......I had to fetch incrementally!!</div>;
  }

  const pokeName = props.data.species.name.charAt(0).toUpperCase() + props.data.species.name.slice(1)

  return (
    <>
    <section className="container">
      <Head>
        <title>{pokeName} | PokéServerless - AWS Serverless Lambda@Edge</title>
        <meta property="og:title" content={`${pokeName} | PokéSSR - AWS Serverless Lambda@Edge`} key="title" />
      </Head>
      <header>
          <h1>PokéServerless  Incremental Static Regeneration</h1>
      </header>
      <PokemonForm poke={props} />
    </section>
    <p className="poke-center">{`Generated at ${new Date(props.date).toLocaleString()}`}</p>
    </>
  )
}

export const getStaticProps: GetStaticProps = async (context) => {
  let data

  if (context.params) {

    data = await getPokemonData(context.params.porygon as string)
  } else {
    data = {}
  }

  return {
    props: {
      data,
      date: new Date().toISOString(),
    },
    revalidate: 60 * 5
  }
};

export const getStaticPaths: GetStaticPaths<{ porygon: string }> = async () => {

  const pokemons = await getPokemons(25) as Pokedex

  const paths = pokemons.results.map((pokemon) => {
    return { params: { porygon: pokemon.name.toString() } };
  });

  return {
    fallback: true,
    paths,
  };
};

export default Porygon
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To leverage all the power of components we’ll use the same component for each strategy, which we’ll call... pokemon.ts:

import Image from 'next/image'
import Link from 'next/link'
import Button from '@/components/button'
import Spacer from '@/components/spacer'
import { Pokemon, Type } from '@/types/Pokemon'

interface PokemonInfo {
  poke: {
    data: Pokemon
  }
}

const PokemonForm = (props: PokemonInfo) => {

  const pokeImage = props.poke?.data?.sprites?.other?."official-artwork"]?.front_default ?? props.poke?.data?.sprites?.front_default;

  const number = props?.poke?.data?.order;
  const isPositive = number >= 1;
  const pokeNumber = isPositive ? number : "Max version";

 return (
    <>
    <article className="ditto">
        <Image
          src={pokeImage}
          width={240}
          height={240}
          alt={`Pokémon ${props?.poke?.data?.name}`} />

        <h1 className="poke-name">{props?.poke?.data?.name}</h1>
        <Spacer size="12" style={{marginTop: '20px'}}/>
        <p>Number: {pokeNumber}</p>
        <p>Type:</p>
        <ul className="poke-list">
          {props?.poke?.data?.types?.map((info: Type, index: number) => (
            <li key={index}> {info.type.name}</li>
          ))}
        </ul>

        <Spacer size="12" style={{marginTop: 20px}} />
        <Button />
      </article>

      <div className="poke-footer">
        <div></div>
        <div className="poke-options">
            <div>
              <Link href="/ssr">
                <a title="Server Side Rendering">
                  <Image
                    src="https://raw.githubusercontent.com/ibrahimcesar/nextjs-ssr-cdk-aws/main/public/ditto.png"
                    width="125"
                    height="112"
                  />
                  <h2>Server Side Rendering<br/>(SSR)</h2>
                </a>
              </Link>
            </div>

            <div>
              <Link href="/isr">
                <a title="Incremental Static Regeneration">
                  <Image
                    src="https://raw.githubusercontent.com/ibrahimcesar/nextjs-ssr-cdk-aws/main/public/porygon.png"
                    width="125"
                    height="112"
                  />
                  <h2>Incremental Static Regeneration<br/>(ISR)</h2>
                </a>
              </Link>
            </div>
        </div>
        <div></div>
      </div>
    </>
  )
}

export default PokemonForm
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It has do some checks, if the number is equal or bigger than one (because Dynamax and Gigamax versions doesn’t return numbers) and which image to use, and we render with the Image component from Next.js for optimization.

I also made two different “home pages” for each strategy, SSR and ISR, and you could checkout the bare-bones and ugly site for demonstration purposes only™.

Then, to deploy you just run in your root folder cdk and you should see and approve the changes and wait for ir to finish:

cdk deploy
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If you are like me and have several profiles in your AWS credentials file, as a “advice”, I would argue to always explicit use cdk deploy --profile personal or whatever you named to not mix environments, resources, stacks and accounts!

After done you’ll get a ✅ with the name of your stack, mine being NextJsPokeStack and you can search the address in the CloudFront distribution, or configure a domain in the props or output yourself this value from the process if you needed.

And... done ✅ You successfully deployed Next.js serverless in AWS with the help of AWS CDK. This is the final infra created, made by the awesome tool cdk-dia:

CDK Diagram
Click here for a full version

Earlier this year AWS launched the Amplify SSR support for Next.js but... is stuck at version 9 at the time — you can’t use the Image component and the ISR at the time. And we just made a isomorphic deployment of code AND infra with TypeScript.

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