Skip to content

localstack-samples/sample-lambda-neo4j

Repository files navigation

Integrating a local Lambda function with Neo4j using LocalStack

Key Value
Environment LocalStack, AWS
Services Lambda, CloudWatch
Integrations SAM
Categories Serverless; Databases
Level Beginner
GitHub Repository link

Introduction

This sample application will guide you through the process of integrating a local Lambda function with a local Neo4j database using LocalStack. We will use the Serverless Application Model (SAM) to deploy the Lambda function and spin a local Neo4j database using Docker. We will also use the AWS CLI to invoke the Lambda function and execute a sample query on the Neo4j database.

Prerequisites

Start LocalStack Pro with the LOCALSTACK_AUTH_TOKEN pre-configured:

export LOCALSTACK_AUTH_TOKEN=<your-auth-token>
docker-compose up

The Docker Compose file will start LocalStack Pro and a local Neo4j database. The LOCALSTACK_AUTH_TOKEN environment variable is required to activate the LocalStack Pro features, such as Lambda Layers in this example.

Instructions

Installing the dependencies

You can install the dependencies using the following command:

cd function
pip install --target ../package/python -r requirements.txt

Building the application

To build the SAM application, run the following command from the root directory of the application:

samlocal build

If you see a Build Succeeded message, you can proceed to the next step.

Deploying the application

To deploy the SAM application, run the following command:

samlocal deploy --guided

The above command will create a new managed S3 bucket to store the artifacts of the SAM application. If you want to use an existing S3 bucket, you can use the --s3-bucket flag to specify the bucket name. Before being deployed, the CloudFormation changeset will be displayed in the terminal. If you want to deploy the application without confirmation, you can use the --no-confirm-changeset flag.

Updating the Lambda function configuration

You need to update the Lambda function configuration to use the Neo4j environment variables. You can do this by running the following command:

export NEO4J_PASSWORD=neo4j-harsh-test
export NEO4J_URI=bolt://neo4j:7687
export NEO4J_USERNAME=neo4j
FUNCTION=$(awslocal cloudformation describe-stack-resource --stack-name sam-app --logical-resource-id function --query 'StackResourceDetail.PhysicalResourceId' --output text)
awslocal lambda update-function-configuration \
    --function-name $FUNCTION \
    --environment "Variables={NEO4J_USERNAME=$NEO4J_USERNAME,NEO4J_PASSWORD=$NEO4J_PASSWORD,NEO4J_URI=$NEO4J_URI}"

Invoking the Lambda function

You can invoke the Lambda function using the following command:

awslocal lambda invoke \
    --function-name $FUNCTION \
    --payload file://event.json \
    --cli-binary-format raw-in-base64-out out.json

The following output would be displayed in the terminal:

{
    "StatusCode": 200,
    "ExecutedVersion": "$LATEST"
}

You can see the following in the out.json file:

{"TotalCodeSize": 29662331, "FunctionCount": 1}

Cleaning up

To clean up the resources created by the SAM application, run the following command:

docker-compose down

LocalStack is ephemeral, and all the resources will be deleted once the LocalStack process is stopped.

GitHub Action

This application sample hosts an example GitHub Action workflow that starts up LocalStack, builds the Lambda functions, and deploys the infrastructure on the runner.

You can find the workflow in the .github/workflows/main.yml file. To run the workflow, you can fork this repository and push a commit to the main branch.

License

Apache 2.0