Lightweight boilerplate project to set up a React 17 web application on AWS Lambda using the Serverless Framework.
- Universal app; server-side rendering with dynamic configuration context passed from backend to browser.
- Self-contained; no additional setup steps necessary other than running
npx sls deploy. - Lightweight; no mandatory
redux,react-router,sass,lessor any other 3rd party dependency for full flexibility. - React "Fast Refresh" (previously known as "Hot Reloading") using the React Refresh Webpack Plugin.
- Built-in support for code splitting and tree shaking to optimize page loading times.
- Full TypeScript support using Babel 7 and Webpack 5, including custom module resolution.
- Working Jest test environment.
Looking for the plain JavaScript version of this boilerplate?
The idea is that we use AWS Lambda to serve the dynamic part of our app, the server-side logic, and perform the server-side rendering. For all static data like images, stylesheets, and even the app's index.tsx that is loaded in the browser, we use an S3 bucket for public hosting.
This combination makes our app fast and incredibly scalable. AWS will spin up new Lambda instances once your number of users increases, handling even the largest spikes fully automatically while incurring virtually no costs when your app isn't used. At the same time, S3 provides a robust and fast platform for your static content so you don't have to waste your own computing resources.
All resources, including the S3 bucket for hosting static content, are created and configured automatically when your app is deployed the first time. You can make changes to the default setup by updating your serverless.yml to your linking.
serverless-react-boilerplate/
│
├── public/ - Public assets which will retain their original file names and folder structure
│ ├── favicon.ico - Favicon
│ └── manifest.json - Web page manifest
│
├── src/
│ ├── browser/
│ │ └── ... - Client-side code running in the browser as well as during server-side rendering
│ ├── components/
│ │ └── ... - React components
│ ├── server/
│ │ └── ... - Server-side code running on AWS Lambda
│ ├── App.tsx - The web application's root component.
│ └── ... - Other files used by the application
│
├── handler.ts - AWS Lambda function handler
├── serverless.yml - Project configuration
├── babel.config.js - Babel configuration
├── jest.config.js - Jest configuration
├── webpack.browser.config.js - Webpack configuration for client-side code
├── webpack.server.config.js - Webpack configuration for the Lambda backend
└── ...
The project is based on the Serverless Framework and makes use of several plugins:
- Webpack Plugin - We use Webpack for packaging our sources.
- Offline Plugin - The Serverless Offline Plugin allows you to run Serverless applications locally as if they would be deployed on AWS. This is especially helpful for testing web applications and APIs without having to deploy them anywhere.
- Scripts Plugin - Run shell scripts as part of your Serverless workflow
- S3 Deploy Plugin - Deploy files to S3 buckets. This is used for uploading static content like images and the generated
main.js.
Though we use the same source code for both the server-side and browser rendering, the project will be packaged into two distinct bundles:
- Backend code running on AWS Lambda. The main entry point is
./src/server/render.tsx. It contains the handler function that is invoked by AWS Lambda. The packaging is controlled bywebpack.server.config.jsand optimized for Node.js 12. - Frontend code hosted in an S3 bucket and loaded by the browser. Main entry point is
./src/browser/index.tsx. It's packaged using thewebpack.browser.config.js, optimized for web browsers. The output files will have their content hash added to their names to enable long-term caching in the browser.
webpack.browser.config.js defines some default code-splitting settings that optimize browser loading times and should make sense for most projects:
- Shared components (in the
src/componentsfolder) are loaded in a separatecomponents.jschunk. - All external Node modules (in the
node_modules/folder) are loaded in thevendor.jschunk. External modules usually don't change as often as the rest of your application and this split will improve browser caching for your users. - The rest of the application is loaded in the
main.jschunk.
Update the serverless.yml with your project name and additional resources you might need. For example, you might want to create a custom domain name for your app.
The frontend, as well as the server-side code running on AWS Lambda, share a common application configuration. Currently, it is used for injecting the application name from the public/manifest.json as well as setting the public hostnames. You can extend the configuration by adding your own variables to src/server/config.tsx. They will become available in both your backend and frontend code via the useConfig hook:
import useConfig from "../components/useConfig";
export default function MyComponent() {
const config = useConfig();
return (
// ...
)
}The boilerplate comes with a preferred folder structure for your project. However, you can change it to your liking. If you decide to do so, make sure to update the respective Webpack and Serverless configurations to point to the new locations.
Generally, you shouldn't need to touch the contents of the src/browser/ and src/server/ folders, with exception of updating the configuration. Common components shared across your React site should go into the src/components/ folder. It currently contains only the ConfigContext provider and the useConfig hook implementation. Code splitting has already been configured to package these shared components separately from the rest of your application. You might want to place individual web pages or screens of your application into subfolders directly underneath src/ or next to App.tsx.
Images can be loaded directly from the src/ folder as demonstrated in App.tsx. Webpack will automatically manage your images, ensure they use a unique file name and are loaded either from S3 or get embedded directly into the generated HTML if they are small enough. The public/ folder on the other hand is used for static assets that should retain their original file names and folder structure. All content of this folder will be uploaded to S3 exactly 1:1 and served from there. It is the perfect place to put your favicon.ico, robots.txt, and similar static assets that you need to reference by a fixed unchanging URL.
I recommend creating a separate Serverless service that provides the frontend with an API and protecting it with Amazon Cognito, a custom Authorizer, or even just an API Key. Mixing React with pure backend API functions is possible and technically fine, but in my experience, it quickly becomes a hassle and you need to take special care not to leak anything to the browser that's not supposed to be known there.
The goal of this boilerplate is to offer a minimal setup that can be used as a basis for pretty much all your React needs. A lot of people love Redux, rely on React Router or need other external modules. I have intentionally left these out of the boilerplate code but it should be trivial to add them, following the standard documentation steps.
If you are interested in integrating with React Router, check out out the Added React Router example configuration Pull Request.
Similar to the statement above, I have decided against integrating with a specific framework. The boilerplate uses plain and simple CSS and integrating another system should be easy enough.
To keep this repository lightweight no ESLint rules are included. There are many different plugins and people tend to prefer different coding styles. The existing code should be easily adaptable to any style you personally prefer. I recommend using Prettier to format your code automatically and a default configuration is already part of this repository, defined in package.json. In addition, I recommend adding ESLint and Husky to your project to ensure your coding guidelines are followed.
You can test the setup locally. No direct access to AWS is needed. This allows developers to write and test code even if not everyone has full deployment access.
For local testing run the following command and open your web browser at http://localhost:3000/. Static content such as images will be served via the Webpack DevServer running on http://localhost:8080. Note that the app has to be deployed first before you will be able to run locally.
npm startTesting is set up as well, using Jest and will execute all *.test.ts and *.test.tsx files in the src/ directory:
npm testThe whole application can be deployed with a single command:
npx sls deployAnd finally to remove all AWS resources again run:
npx sls removeThis will delete all resources but the distribution S3 bucket. As it still contains the bundles you will have to delete the bucket manually for now.
- Updated dependencies to the latest versions. This includes specifically the Webpack Dev Server 4.x.
- Restructured the project structure to be more consistent.
App.tsxand related files have been moved out for thebrowserfolder directly intosrcas it is used by both the server and the browser rendering. You should rarely need to touch the contents of thebrowseror theserverfolder. - Updated the documentation (this file you're currently reading)
- Updated to React 17
- React "Fast Refresh" (previously known as "Hot Reloading") using the React Refresh Webpack Plugin.
- Built-in support for code splitting and tree shaking to optimize page loading times.
- Full TypeScript support using Babel 7 and Webpack 5, including custom module resolution.
- Handle server-side errors more gracefully. Update
handler.tsto add your own custom error handling code such as Youch. - Code cleanup and simplification