a first look at graphQL helix

GraphQL Helix is a framework and runtime agnostic collection of utility functions for building your own GraphQL HTTP server. Instead of providing a complete HTTP server or middleware plugin function, GraphQL Helix only provides a handful of functions f…


This content originally appeared on DEV Community and was authored by anthony-campolo

GraphQL Helix is a framework and runtime agnostic collection of utility functions for building your own GraphQL HTTP server. Instead of providing a complete HTTP server or middleware plugin function, GraphQL Helix only provides a handful of functions for turning an HTTP request into a GraphQL execution result. You decide how to send back the response.

Outline

Motivations and API

Daniel Rearden listed the following reasons pushing him to create Helix, believing that these factors were absent from popular solutions like Apollo Server, express-graphql and Mercurius:

  • Wanted bleeding-edge GraphQL features like @defer, @stream and @live directives.
  • Wanted to not be tied down to a specific framework or runtime environment.
  • Wanted control over how server features like persisted queries were implemented.
  • Wanted something other than WebSockets (i.e. SSE) for subscriptions.

renderGraphiQL and shouldRenderGraphiQL

renderGraphiQL returns the HTML to render a GraphiQL instance. shouldRenderGraphiQL uses the method and headers in the request to determine whether a GraphiQL instance should be returned instead of processing an API request.

getGraphQLParameters

getGraphQLParameters extracts the GraphQL parameters from the request including the query, variables and operationName values.

processRequest

processRequest takes the schema, request, query, variables, operationName and a number of other optional parameters and returns one of three kinds of results, depending on how the server should respond:

  1. RESPONSE - regular JSON payload
  2. MULTIPART RESPONSE - multipart response (when @stream or @defer directives are used)
  3. PUSH - stream of events to push back down the client for a subscription

Serve GraphQL Helix Locally

mkdir ajcwebdev-graphql-helix
cd ajcwebdev-graphql-helix
yarn init -y
yarn add express graphql-helix graphql
touch index.js
echo 'node_modules\n.DS_Store' > .gitignore

index.js

// index.js

const express = require("express")
const {
  getGraphQLParameters,
  processRequest,
  renderGraphiQL,
  shouldRenderGraphiQL,
} = require("graphql-helix")
const {
  GraphQLObjectType,
  GraphQLSchema,
  GraphQLString,
} = require("graphql")

const schema = new GraphQLSchema({
  query: new GraphQLObjectType({
    name: "Query",
    fields: () => ({
      hello: {
        type: GraphQLString,
        resolve: () => "Hello from GraphQL Helix!",
      }
    }),
  }),
})

const app = express()

app.use(express.json())

app.use("/graphql", async (req, res) => {
  const request = {
    body: req.body,
    headers: req.headers,
    method: req.method,
    query: req.query,
  }

  if (shouldRenderGraphiQL(request)) {
    res.send(renderGraphiQL())
  }

  else {
    const {
      operationName,
      query,
      variables
    } = getGraphQLParameters(request)

    const result = await processRequest({
      operationName,
      query,
      variables,
      request,
      schema,
    })

    if (result.type === "RESPONSE") {
      result.headers.forEach((
        { name, value }
      ) => res.setHeader(name, value))
      res.status(result.status)
      res.json(result.payload)
    }
  }
})

const port = process.env.PORT || 4000

app.listen(port, () => {
  console.log(`GraphQL server is running on port ${port}.`)
})

Run test queries on GraphQL Helix Locally

Start the server with node index.js.

node index.js

Open localhost:4000/graphql and send a hello query.

query HELLO_QUERY { hello }

01-graphql-helix-localhost-4000

curl --request POST \
  --url http://localhost:4000/graphql \
  --header 'content-type: application/json' \
  --data '{"query":"{ hello }"}'

GraphQL Helix Final Project Structure

├── .gitignore
├── index.js
└── package.json

Deploy GraphQL Helix with Serverless Framework

The Serverless Framework is an open source framework for building applications on AWS Lambda. It provides a CLI for developing and deploying AWS Lambda functions, along with the AWS infrastructure resources they require.

mkdir graphql-helix-serverless
cd graphql-helix-serverless
yarn init -y
yarn add express graphql-helix graphql serverless-http
touch index.js serverless.yml
echo 'node_modules\n.DS_Store\n.serverless' > .gitignore

index.js

The serverless-http package is a piece of middleware that handles the interface between Node applications and the specifics of API Gateway. It allows you to wrap your API for serverless use without needing an HTTP server, port, or socket.

// index.js

const serverless = require('serverless-http')
const express = require("express")
const {
  getGraphQLParameters,
  processRequest,
  renderGraphiQL,
  shouldRenderGraphiQL,
} = require("graphql-helix")
const {
  GraphQLObjectType,
  GraphQLSchema,
  GraphQLString,
} = require("graphql")

const schema = new GraphQLSchema({
  query: new GraphQLObjectType({
    name: "Query",
    fields: () => ({
      hello: {
        type: GraphQLString,
        resolve: () => "Hello from GraphQL Helix on Serverless!",
      }
    }),
  }),
})

const app = express()

app.use(express.json())

app.use("/graphql", async (req, res) => {
  const request = {
    body: req.body,
    headers: req.headers,
    method: req.method,
    query: req.query,
  }

  if (shouldRenderGraphiQL(request)) {
    res.send(renderGraphiQL())
  }

  else {
    const {
      operationName,
      query,
      variables
    } = getGraphQLParameters(request)

    const result = await processRequest({
      operationName,
      query,
      variables,
      request,
      schema,
    })

    if (result.type === "RESPONSE") {
      result.headers.forEach((
        { name, value }
      ) => res.setHeader(name, value))
      res.status(result.status)
      res.json(result.payload)
    }
  }
})

const handler = serverless(app)

module.exports.start = async (event, context) => {
  const result = await handler(event, context)

  return result
}

serverless.yml

The resources and functions are defined in a file called serverless.yml which includes:

  • The provider for the Node runtime and AWS region
  • The handler and events for your functions.
# serverless.yml

service: ajcwebdev-graphql-helix-express
frameworkVersion: '2'

provider:
  name: aws
  stage: dev
  runtime: nodejs14.x
  versionFunctions: false
  lambdaHashingVersion: 20201221

  httpApi:
    cors:
      allowedOrigins:
        - '*'
      allowedMethods:
        - GET
        - POST
        - HEAD
      allowedHeaders:
        - Accept
        - Authorization
        - Content-Type

functions:
  endpoint:
    handler: index.start
    events:
      - httpApi:
          path: '*'
          method: '*'

The handler is named index.start because it is formatted as <FILENAME>.<HANDLER>.

Upload to AWS with sls deploy

Once the project is defined in code it can be deployed with the sls deploy command. This command creates a CloudFormation stack defining any necessary resources such as API gateways or S3 buckets.

sls deploy --verbose
service: ajcwebdev-graphql-helix-express
stage: dev
region: us-east-1
stack: ajcwebdev-graphql-helix-express-dev
resources: 10
api keys:
  None
endpoints:
  ANY - https://cuml5hnx0b.execute-api.us-east-1.amazonaws.com
functions:
  endpoint: ajcwebdev-graphql-helix-express-dev-endpoint
layers:
  None

Run test queries on GraphQL Helix Serverless

Open cuml5hnx0b.execute-api.us-east-1.amazonaws.com/graphql and send a hello query.

query HELLO_QUERY { hello }

02-graphql-helix-serverless-framework

curl --request POST \
  --url https://cuml5hnx0b.execute-api.us-east-1.amazonaws.com/graphql \
  --header 'content-type: application/json' \
  --data '{"query":"{ hello }"}'

GraphQL Helix Serverless Final Project Structure

├── .gitignore
├── index.js
├── package.json
├── serverless.yml
└── yarn.lock

Deploy GraphQL Helix with Amplify

AWS Amplify is a set of tools and services to help frontend web and mobile developers build fullstack applications with AWS infrastructure. It includes a CLI for creating and deploying CloudFormation stacks along with a Console and Admin UI for managing frontend web apps, backend environments, CI/CD, and user data.

mkdir graphql-helix-amplify
cd graphql-helix-amplify
amplify init

The amplify init command creates a boilerplate project that is setup for generating CloudFormation templates.

? Enter a name for the project ajcwebdevhelix
The following configuration will be applied:

Project information
| Name: ajcwebdevhelix
| Environment: dev
| Default editor: Visual Studio Code
| App type: javascript
| Javascript framework: none
| Source Directory Path: src
| Distribution Directory Path: dist
| Build Command: npm run-script build
| Start Command: npm run-script start

? Initialize the project with the above configuration? Yes
Using default provider  awscloudformation
? Select the authentication method you want to use: AWS profile

For more information on AWS Profiles, see:
https://docs.aws.amazon.com/cli/latest/userguide/cli-configure-profiles.html

? Please choose the profile you want to use default

Create backend with amplify add api

amplify add api configures a Lambda handler and API gateway to serve the function.

amplify add api
? Please select from one of the below mentioned services: REST
? Provide a friendly name for your resource to be used as a label for this category in the project: helixresource
? Provide a path (e.g., /items): /graphql
? Choose a Lambda source: Create a new Lambda function
? Provide the AWS Lambda function name: helixfunction
? Choose the function runtime that you want to use: NodeJS
? Choose the function template that you want to use: Hello World
? Do you want to access other resources created in this project from your Lambda function? N
? Do you want to edit the local lambda function now? N
? Restrict API access: N
? Do you want to add another path? N
cd amplify/backend/function/helixfunction/src
yarn add graphql-helix graphql express serverless-http
cd ../../../../../

index.js

// amplify/backend/function/helixfunction/src/index.js

const serverless = require('serverless-http')
const express = require("express")
const {
  getGraphQLParameters,
  processRequest,
  renderGraphiQL,
  shouldRenderGraphiQL,
} = require("graphql-helix")
const {
  GraphQLObjectType,
  GraphQLSchema,
  GraphQLString,
} = require("graphql")

const schema = new GraphQLSchema({
  query: new GraphQLObjectType({
    name: "Query",
    fields: () => ({
      hello: {
        type: GraphQLString,
        resolve: () => "Hello from GraphQL Helix on Amplify!",
      }
    }),
  }),
})

const app = express()

app.use(express.json())

app.use("/graphql", async (req, res) => {
  const request = {
    body: req.body,
    headers: req.headers,
    method: req.method,
    query: req.query,
  }

  if (shouldRenderGraphiQL(request)) {
    res.send(renderGraphiQL())
  }

  else {
    const {
      operationName,
      query,
      variables
    } = getGraphQLParameters(request)

    const result = await processRequest({
      operationName,
      query,
      variables,
      request,
      schema,
    })

    if (result.type === "RESPONSE") {
      result.headers.forEach((
        { name, value }
      ) => res.setHeader(name, value))
      res.status(result.status)
      res.json(result.payload)
    }
  }
})

module.exports.handler = serverless(app)

Upload to AWS with amplify push

amplify push uploads the stack templates to an S3 bucket and calls the CloudFormation API to create or update resources in the cloud.

amplify push
✔ Successfully pulled backend environment dev from the cloud.

    Current Environment: dev

┌──────────┬───────────────┬───────────┬───────────────────┐
│ Category │ Resource name │ Operation │ Provider plugin   │
├──────────┼───────────────┼───────────┼───────────────────┤
│ Function │ helixfunction │ Create    │ awscloudformation │
├──────────┼───────────────┼───────────┼───────────────────┤
│ Api      │ helixresource │ Create    │ awscloudformation │
└──────────┴───────────────┴───────────┴───────────────────┘

? Are you sure you want to continue? Yes

REST API endpoint: https://acj63jadzb.execute-api.us-west-1.amazonaws.com/dev

Run test queries on GraphQL Helix Amplify

Open acj63jadzb.execute-api.us-west-1.amazonaws.com/dev/graphql and send a hello query.

query HELLO_QUERY { hello }

03-graphql-helix-amplify

curl --request POST \
  --url https://acj63jadzb.execute-api.us-west-1.amazonaws.com/dev/graphql \
  --header 'content-type: application/json' \
  --data '{"query":"{ hello }"}'

GraphQL Helix Amplify Final Project Structure

├── .gitignore
└── amplify
    └── backend
        ├── api
        │   └── helixresource
        │       ├── api-params.json
        │       ├── helixresource-cloudformation-template.json
        │       └── parameters.json
        └── function
            └── helixfunction
                ├── function-parameters.json
                ├── helixfunction-cloudformation-template.json
                └── src
                    ├── event.json
                    ├── index.js
                    ├── package.json
                    └── yarn.lock

Deploy GraphQL Helix with Docker and Fly

Fly is a platform for full stack applications and databases that need to run globally. Fly executes your code close to users and scales compute in cities where your app is busiest. You can run arbitrary Docker containers and host popular databases like Postgres.

mkdir graphql-helix-docker
cd graphql-helix-docker
npm init -y
npm i express graphql-helix graphql
touch index.js Dockerfile .dockerignore docker-compose.yml
echo 'node_modules\n.DS_Store' > .gitignore

index.js

// index.js

const express = require("express")
const {
  getGraphQLParameters,
  processRequest,
  renderGraphiQL,
  shouldRenderGraphiQL,
} = require("graphql-helix")
const {
  GraphQLObjectType,
  GraphQLSchema,
  GraphQLString,
} = require("graphql")

const schema = new GraphQLSchema({
  query: new GraphQLObjectType({
    name: "Query",
    fields: () => ({
      hello: {
        type: GraphQLString,
        resolve: () => "Hello from GraphQL Helix on Docker!",
      }
    }),
  }),
})

const app = express()

app.use(express.json())

app.use("/graphql", async (req, res) => {
  const request = {
    body: req.body,
    headers: req.headers,
    method: req.method,
    query: req.query,
  }

  if (shouldRenderGraphiQL(request)) {
    res.send(renderGraphiQL())
  }

  else {
    const {
      operationName,
      query,
      variables
    } = getGraphQLParameters(request)

    const result = await processRequest({
      operationName,
      query,
      variables,
      request,
      schema,
    })

    if (result.type === "RESPONSE") {
      result.headers.forEach((
        { name, value }
      ) => res.setHeader(name, value))
      res.status(result.status)
      res.json(result.payload)
    }
  }
})

const port = process.env.PORT || 8080

app.listen(port, () => {
  console.log(`GraphQL server is running on port ${port}.`)
})

Dockerfile

Docker can build images automatically by reading the instructions from a Dockerfile. A Dockerfile is a text document that contains all the commands a user could call on the command line to assemble an image.

FROM node:14-alpine
LABEL org.opencontainers.image.source https://github.com/ajcwebdev/graphql-helix-docker
WORKDIR /usr/src/app
COPY package*.json ./
RUN npm i
COPY . ./
EXPOSE 8080
CMD [ "node", "index.js" ]

For a more in depth explanation of these commands, see my previous article, A First Look at Docker.

.dockerignore

Before the docker CLI sends the context to the docker daemon, it looks for a file named .dockerignore in the root directory of the context.

node_modules
Dockerfile
.dockerignore
.git
.gitignore
npm-debug.log

If this file exists, the CLI modifies the context to exclude files and directories that match patterns in it. This helps avoid sending large or sensitive files and directories to the daemon.

docker-compose.yml

Compose is a tool for defining and running multi-container Docker applications. After configuring your application’s services with a YAML file, you can create and start all your services with a single command.

version: "3.9"
services:
  web:
    build: .
    ports:
      - "49160:8080"

Run test queries on GraphQL Helix Docker

The docker compose up command aggregates the output of each container. It builds, (re)creates, starts, and attaches to containers for a service.

docker compose up
Attaching to web_1
web_1  | GraphQL server is running on port 8080.

To test your app, get the port of your app that Docker mapped:

docker ps

Docker mapped the 8080 port inside of the container to the port 49160 on your machine.

CONTAINER ID
50935f5f4ae6

IMAGE
graphql-helix-docker_web

COMMAND
"docker-entrypoint.s…"

CREATED
47 seconds ago

STATUS
Up 46 seconds

PORTS
0.0.0.0:49160->8080/tcp, :::49160->8080/tcp

NAMES
graphql-helix-docker_web_1

Open localhost:49160/graphql and send a hello query.

query HELLO_QUERY { hello }

04-graphql-helix-docker

curl --request POST \
  --url http://localhost:49160/graphql \
  --header 'content-type: application/json' \
  --data '{"query":"{ hello }"}'

Launch app on Fly with fly launch

Run fly launch in the directory with your source code to configure your app for deployment.

fly launch \
  --name graphql-helix-docker \
  --region sjc

This will create and configure a fly app by inspecting your source code and prompting you to deploy.

Creating app in /Users/ajcwebdev/graphql-helix-docker
Scanning source code
Detected Dockerfile app
Automatically selected personal organization: Anthony Campolo
Created app graphql-helix-docker in organization personal
Wrote config file fly.toml
Your app is ready. Deploy with `flyctl deploy`
? Would you like to deploy now? No

Open fly.toml and add the following PORT number under env.

[env]
  PORT = 8080

Deploy application with fly deploy

fly deploy
Image: registry.fly.io/graphql-helix-docker:deployment-1631689218
Image size: 124 MB

==> Creating release
Release v2 created

You can detach the terminal anytime without stopping the deployment
Monitoring Deployment

1 desired, 1 placed, 1 healthy, 0 unhealthy [health checks: 1 total, 1 passing]
--> v0 deployed successfully

Check the application's status with fly status.

fly status
App
  Name     = graphql-helix-docker          
  Owner    = personal                      
  Version  = 0                             
  Status   = running                       
  Hostname = graphql-helix-docker.fly.dev  

Deployment Status
  ID          = 47cb82b9-aaf1-5ee8-df1b-b4f10e389f16         
  Version     = v0                                           
  Status      = successful                                   
  Description = Deployment completed successfully            
  Instances   = 1 desired, 1 placed, 1 healthy, 0 unhealthy  

Instances
ID       TASK VERSION REGION DESIRED STATUS  HEALTH CHECKS      RESTARTS CREATED   
a8d02b87 app  0       sjc    run     running 1 total, 1 passing 0        4m28s ago

Run test queries on GraphQL Helix Docker Fly

Open graphql-helix-docker.fly.dev/graphql and send a hello query.

query HELLO_QUERY { hello }

05-graphql-helix-docker-fly

curl --request POST \
  --url https://graphql-helix-docker.fly.dev/graphql \
  --header 'content-type: application/json' \
  --data '{"query":"{ hello }"}'

GraphQL Helix Docker Final Project Structure

├── .dockerignore
├── .gitignore
├── docker-compose.yml
├── Dockerfile
├── fly.toml
├── index.js
└── package.json

Resources

Building a GraphQL server with GraphQL Helix provides a comprehensive description of GraphQL Helix's implementation. The examples folder in the graphql-helix repo also includes example applications such as:


This content originally appeared on DEV Community and was authored by anthony-campolo


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