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The Serverless Framework's new infrastructure provisioning technology — Build, compose, & deploy serverless apps in seconds...
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Serverless Components

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Build, compose, & deploy serverless apps in seconds with Serverless Components, the Serverless Framework's new infrastructure provisioning technology.

    • Speed - The fastest way to deploy serverless infra and apps.
    • Power - Deploy low-level infra, or higher-order use-case abstractions.
    • Re-Use - Everything you build is reusable by you, your team, and (if you want) the world.
    • Composition - Easily compose Components together in YAML or Javascript.

Here's how easy it is to use Components with Serverless Framework:

# serverless.yml
name: website

  component: '@serverless/website'
      src: ./src
      hook: npm run build

^ Watch a video guide on using a Serverless Component here.


Install the Serverless Framework via NPM:

$ npm i -g serverless

Make sure you are using Serverless Framework version 1.49 or above. Serverless Components Beta will not work with older versions.

Next, use the create --template-url command to install a Serverless Components Template, which contains Components as well as boilerplate code, to get you started quickly.

Here are a few popular templates...

Deploy A Website

AWS S3 & AWS Cloudfront powered serverless website w/ custom domain. A video guide on this can be found here

serverless create --template-url


AWS Lambda & AWS API Gateway powered serverless REST API w/ custom domain.

serverless create --template-url

Deploy A Fullstack Web Application

A React-based frontend and AWS Lambda based API fullstack application.

serverless create --template-url

Deploy A Fullstack Vue.js Web Application with Tencent Cloud Services

A Vue.js-based frontend and Serverless Cloud Function based REST API application.

serverless create --template-url

Deploy A Fullstack React.js Web Application with Tencent Cloud Services

A React.js-based frontend and Serverless Cloud Function based REST API application.

serverless create --template-url

Deploy A REST API with Tencent Cloud Services

A REST API template based on Serverless Cloud Function and API Gateway trigger.

serverless create --template-url

Deploy A GraphQL API

AWS AppSync & DynamoDB powered GraphQL API.

serverless create --template-url

Deploy Other Use-Cases

Check out all of the pre-made Templates to deploy serverless REST APIs, Websockets APIs, Websites, Scheduled Tasks, and much more! Each Template has a with clear instructions on what it does and how to get started.

Also, all Serverless Components can be found here.



Serverless Components are built around higher-order use-cases (e.g. a website, blog, payment system). Irrelevant low-level infrastructure details are abstracted away, and simpler configuration is offered instead.

For example, with minimal configuration, you can deploy...

  • A serverless website hosted on AWS S3, delivered globally and quickly w/ AWS Cloudfront, via a custom domain on AWS Route 53, secured by a free AWS ACM SSL Certificate:
# serverless.yml

  component: '@serverless/website'
      src: ./src
  • A serverless API hosted on AWS Lambda, accessible via an AWS API Gateway endpoint under a custom domain on AWS Route 53, secured by a free AWS ACM SSL Certificate:
# serverless.yml

  component: '@serverless/backend'
      src: ./src
  • A serverless real-time websockets API hosted on AWS Lambda, accessible via an AWS API Gateway Websockets endpoint:
# serverless.yml

  component: '@serverless/backend-socket'
      src: ./src


While Serverless Components can be easily composed in YAML (serverless.yml), they are written as reusable javascript libraries (serverless.js), with simple syntax inspired by component-based frameworks, like React.

// serverless.js

const { Component } = require('@serverless/core')

class MyBlog extends Component {
  async default(inputs) {
    this.context.status('Deploying a serverless blog')
    const website = await this.load('@serverless/website') // Load a component
    const outputs = await website({ code: { src: './blog-code' } }) // Deploy it
    this.state.url = outputs.url
    return outputs

module.exports = MyBlog

Anyone can build a Serverless Component and share it in our upcoming Registry.

Fast Deployments

Most Serverless Components deploy 20x faster than traditional cloud provisioning tools. Our intention is to design Serverless Components' that deploy almost instantly, removing the need to emulate cloud services locally.


Serverless Components favor cloud infrastructure with serverless qualities (shocker!). We also believe in order to deliver the best product, you must be free to use the best services.

Serverless Components are being designed entirely vendor agnostic, enabling you to easily use services from different vendors, together! Like, AWS Lambda, AWS S3, Azure Functions, Google Big Query, Twilio, Stripe, Algolia, Cloudflare Workers and more.

Vanilla Javascript

Serverless Components are written in vanilla javascript and seek to use the least amount of dependencies, making the entire project as approachable as possible to beginners (and fatigued veterans).


Serverless Components are merely Javascript libraries that provision something/anything.

They are focused primarily on back-end use-cases, and cloud infrastructure with serverless qualities, enabling you to deliver software with radically less overhead and cost. Serverless Components are to serverless back-end use-cases, what React Components are to front-end use-cases.

A Component can be designed to provision low-level infrastructure (e.g. an AWS S3 bucket). However, they can also provision higher-order outcomes — which is when they are at their best. Examples of a higher-order outcome are:

  1. A group of infrastructure with a purpose, like a type of data processing pipeline.
  2. A software feature, like user registration, comments, or a payment system.
  3. An entire application, like a blog, video streaming service, or landing page.

The syntax for writing a Serverless Component makes it trivial to load child Components and deploy them, enabling you to lean on low-level Components to handle difficult infrastructure provisioning tasks, while you rapidly create a higher-order abstraction.

Serverless Components can be used declaratively (via the Serverless Framework's serverless.yml file) or programmatically (via a serverless.js file).

Using Components declaratively is great if you want to build a serverless application as easily as possible, but not re-use it.

Using Components programmatically is also great for building serverless applications easily. And if you'd like to build a reusable Serverless Component, this is currently the only way.

In the Using Components section, we'll focus on the declarative experience (serverless.yml). In the Building Components section, we'll focus on the programmatic experience (serverless.js).

Using Components

Serverless.yml Basics

serverless.yml is the easiest way to compose Serverless Components into an application.

The syntax for using Serverless Components looks like this:

name: my-serverless-website

website: # An instance of a component is declared here.
  component: '@serverless/website@2.0.5' # This is the component you want to create an instance of.
  inputs: # These are inputs to pass into the component's "default()" function
      src: ./src

You can deploy this easily via the Serverless Framework with the $ serverless command.

$ serverless # Installs and deploys the components...

You can also watch for changes with the --watch flag

$ serverless --watch # Watches for changes and redeploy if any detected

There is nothing to install when using Serverless Components via serverless.yml. Instead, when you deploy a serverless.yml, its Components are downloaded automatically at the beginning of that deployment (if they aren't already downloaded), and stored in a central folder at the root of your machine. This effectively caches the Components in one location, so you don't clutter your project files with Component libraries and don't download duplicates.

Serverless Components are distributed via NPM. When Components are downloaded, a basic NPM installation is happening behind the scenes.

Because of this, you use the NPM name in the component: property.

website: # An instance of a component.
  component: '@serverless/website' # This is the NPM package name

You can also use the same semantic versioning strategy that NPM uses.

website: # An instance of a component.
  component: '@serverless/website@3.0.5' # This is the NPM package name and version

When you add a version, only that Component version is used. When you don't add a version, upon every deployment, the Serverless Framework will check for a newer version, and use that, if it exists.

Note: While in Beta, you cannot currently use Serverless Components within an existing Serverless Framework project file (i.e. a project file that contains functions, events, resources and plugins).


Every Serverless Component has one main function to make it deploy something. This is known as the default() function (you can learn more about it in the "Building Components" section). This default() function takes an inputs object.

When you specify inputs for a Component in serverless.yml, they are simply arguments that are being passed into that Serverless Component's default() function.

name: my-serverless-website

  component: '@serverless/website@3.0.5'
  inputs: # Inputs to pass into the component's default function
      src: ./src


When a Component function (e.g. the default() function) is finished running, it returns an outputs object.

You can reference values of this outputs object in serverless.yml to pass data into Components, like this:

  component: '@serverless/backend@1.0.2'
      src: ./src
      dbName: ${}
      dbRegion: ${database.region}

  component: '@serverless/aws-dynamodb@4.3.1'
    name: users-database

This tells the Serverless Framework to pass a few of the outputs from the database instance into the backend instance. Specifically, the name and region of the database are being added as environment variables to the backend instance, so that it can interact with that database.

This also tells the Serverless Framework what depends on what. The Framework builds a graph based on this, and deploys everything in that order. Circular references however do not work and the Framework will throw an error.


Upon deployment, whether it's a serverless.yml or serverless.js, Serverless Components' core looks for a .env file in the current working directory.

Upon deployment, if a .env file exists, Serverless Components will add the content of it as environment variables. If you use specific environment variable names that match that of a cloud infrastructure vendor's access keys/tokens, upon deployment, Serverless Components will automatically inject that into the Components that need that vendor to provision infrastructure.

These credentials will be used by any and all Components in your serverless.yml or serverless.js — as well as their child Components — if you specify the environment variables exactly as shown below.

Here are the keys that are currently supported:

AWS Credentials


Components could access these AWS credentials using This object would look like this:

  accessKeyId: '123456789',
  secretAccessKey: '123456789',
  region: 'us-east-1'

Google Credentials

# You can specify the path to the JSON credentials file that you downloaded from Google

# Or you could just provide your project id, client email & private key

Components could access these google credentials using This object would look like this:

  applicationCredentials: 'path/to/credentials/json/file',
  projectId: 'project-id-xxx',
  clientEmail: '',
  privateKey: '-----BEGIN PRIVATE KEY-----\nMIIEvAIBADANBgk...'

Environment Variables

You can reference environment variables (e.g. those that you defined in the .env file) directly in serverless.yml by referencing the ${env} object. For example, if you want to reference the TABLE environment variable, you could do that with ${env.TABLE}.

  component: '@serverless/backend'
      src: ./src
      table: ${env.TABLE}

Building Components

If you want to build reusable Serverless Components, it starts and ends with a serverless.js file.

Serverless.js Basics

In your current working directory, install the Serverless Components core (@serverless/core) as a local dependency.

npm i --save @serverless/core

Create a serverless.js file, extend the Component class and add a default method, to make a bare minimum Serverless Component, like this:

// serverless.js

const { Component } = require('@serverless/core')

class MyComponent extends Component {
  async default(inputs = {}) {
    return {}
  } // The default functionality to run/provision/update your Component

module.exports = MyComponent

default() is always required. It is where the logic resides in order for your Component to make something. Whenever you run the $ serverless command, it's always calling the default() method.

You can also any other methods to this class. A remove() method is often the next logical choice, if you want your Serverless Component to remove the things it creates.

You can add as many methods as you want. This is interesting because it enables you to ship more automation with your Component, than logic that merely deploys and removes something.

You can use the serverless --watch flag when you run any method. This would keep watching for changes in the current working directory, and rerun your method if changes are detected. So you could also do serverless remove --watch for example.

It's still early days for Serverless Components, but we are starting to work on Components that ship with their own test() function, or their own logs() and metrics() functions, or seed() for establishing initial values in a database Component. Overall, there is a lot of opportunity here to deliver outcomes that are loaded with useful automation.

All methods other than the default() method are optional. All methods take a single inputs object, not individual arguments, and return a single outputs object.

Here is what it looks like to add a remove method, as well as a custom method.

// serverless.js

const { Component } = require('@serverless/core')

class MyComponent extends Component {
   * Default (Required)
   * - The default functionality to run/provision/update your Component
   * - You can run this function by running the "$ serverless" command

  async default(inputs = {}) {
    return {}

   * Remove (Optional)
   * - If your Component removes infrastructure, this is recommended.
   * - You can run this function by running "$ serverless remove"

  async remove(inputs = {}) {
    return {}

   * Anything (Optional)
   * - If you want to ship your Component w/ extra functionality, put it in a method.
   * - You can run this function by running "$ serverless anything"

  async anything(inputs = {}) {
    return {}

module.exports = MyComponent

When inside a Component method, this comes with utilities which you can use. Here is a guide to what's available to you within the context of a Component.

// serverless.js

const { Component } = require('@serverless/core')

class MyComponent extends Component {
  async default(inputs = {}) {
    // this.context features useful information

    // Common provider credentials are identified in the environment or .env file and added to this.context.credentials
    // when you run "components", then the credentials in .env will be used
    // when you run "components --stage prod", then the credentials in will be used...etc
    // if you don't have any .env files, then global aws credentials will be used
    const dynamodb = new AWS.DynamoDB({ credentials: })

    // You can easily create a random ID to name cloud infrastructure resources with using this utility.
    const s3BucketName = `my-bucket-${this.context.resourceId()}`
    // This prevents name collisions.

    // Components have built-in state storage.
    // Here is how to save state to your Component: = 'myComponent'

    // Here is how to load a child Component.
    // This assumes you have the "@serverless/website" component in your "package.json" file and you've run "npm install"
    let website = await this.load('@serverless/website')

    // You can run the default method of a child Component two ways:
    let websiteOutputs = website({ code: { src: './src' } })
    let websiteOutputs = website.default({ code: { src: './src' } })

    // If you are deploying multiple instances of the same Component, include an instance id.
    let website1 = await this.load('@serverless/website', 'website1')
    let website2 = await this.load('@serverless/website', 'website2')

    // Child Components save their state automatically.

    // You can also load a local component that is not yet published to npm
    // just reference the root dir that contains the serverless.js file
    // You can also use similar syntax in serverless.yml to run local Components
    let localComponent = await this.load('../my-local-component')

    // Here is how you can easily remove a Component.
    let websiteRemoveOutputs = await website.remove()

    // Here is how you can call any custom method on a Component.
    let websiteRemoveOutputs = await website.test({})

    // If you want to show a status update to the CLI in an elegant way, use this.

    // If you want to show a log statement in the CLI in an elegant way, use this.
    this.context.log('this is a log statement')

    // Return your results
    return { url: websiteOutputs.url }

module.exports = MyComponent

Just run serverless in the directory that contains the serverless.js file to run your new component. You will see all the logs and outputs of your new component. Logs and outputs of any child component you use will not be shown, unless you run in debug mode: serverless --debug. You can also run any custom method/command you've defined with serverless <methodName>.

For complete real-world examples on writing components, check out our official components

Development Tips

Here are some development tips when it comes to writing Serverless Components:

Activate Watch Mode with the --watch Flag

During development, it's super helpful to keep the terminal running with serverless --watch (or with any method other than the default) while you develop your component. This way you get instant feedback and reduce friction.

Use Debug Statements and the --debug Flag

The Serverless Components CLI experience is intentionally minimal. But if you ever want to see what Components are doing behind the scenes, use the --debug flag when you run a Component. You'll see output like this:

Serverless Components Debugging

Many Serverless Components include debug statements to report what work they are doing. We recommend you add debug statements into your Component as well. Just use this:

class MyComponent extends Component {
  async default() {
    this.context.debug(`Starting MyComponent.`)
    this.context.debug(`Creating resources.`)
    this.context.debug(`Waiting for resources to be provisioned.`)
    this.context.debug(`Finished MyComponent.`)

Use Local References

When writing a Serverless Component, you can reference it locally via a serverless.yml, or another serverless.js. Keep in mind, a directory can only contain 1 serverless.yml or serverless.js. A directory cannot contain a both a serverless.yml and a serverless.js.

Here's how to reference a local Component via serverless.yml:

name: my-project

  component: ../src
    foo: bar

Here's how to reference a local Component via serverless.js:

class myFirstComponent extends Component {
  default() {
    const mySecondComponent = this.load('../components/my-second-component')

Start With The Outcome

When making a Serverless Component, it can be tempting to break it down into several levels of child Components, to maintain separation of concerns and increase the ways your work could be re-used.

However, provisioning back-end logic can be more complicated than designing a front-end React Component. We've learned over-optimizing for granular separation of concerns is a fast way to burn yourself out!

We recommend starting with a focus on your desired outcome. Create one Serverless Component that solves that problem first. After you've achieved your initial goal, then start breaking it down into child Components.

The Outcome Is Your Advantage

Provisioning infrastructure can be quite complicated. However, Serverless Components have one powerful advantage over general infrastructure provision tools that seek to enable every possible option and combination (e.g. AWS Cloudformation) — Serverless Components know the specific use-case they are trying to deliver.

One of the most important lessons we've learned about software development tools is that once you know the use-case, you can create a much better tool.

Components know their use-case. You can use that knowledge to: 1) provision infrastructure more reliably, because you have a clear provisioning path and you can program around the pitfalls. 2) provision infrastructure more quickly 3) add use-case specific automation to your Component in the form of custom methods.

Keep Most State On The Cloud Provider

Serverless Components save remarkably little state. In fact, many powerful Components have less than 10 properties in their state objects.

Components rely on the state saved within the cloud services they use as the source of truth. This prevents drift issues that break infrastructure provisioning tools. It also opens up the possibility of working with existing resources, that were not originally managed by Serverless Components.

Store State Immediately After A Successful Operation

If you do need to store state, try to store it immediately after a successful operation. This way, if anything after that operation fails, your Serverless Component can pick up where it left off, when the end user tries to deploy it again.

Optimize For Accessibility

We believe serverless infrastructure and architectures will empower more people to develop software than ever before.

Because of this, we're designing all of our projects to be as approachable as possible. Please try to use simple, vanilla Javascript. Additionally, to reduce security risks and general bloat, please try to use the least amount of NPM dependencies as possible.

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