This is a sample template for layers-app - Below is a brief explanation of what we have generated for you:
.
├── README.md <-- This instructions file
├── deserialize-demo <-- Source code for a Deserialize Demo lambda function
│ ├── main.py <-- Lambda function code
├── objectpath-data-demo <-- Source code for a ObjectPath Data Demo lambda function
│ ├── main.py <-- Lambda function code
├── lambda-layers <-- Source code for a ObjectPath Data Demo lambda function
│ ├── data <-- Data folder with aws-regions.json
│ ├── python <-- Python folder with custon functions and modules
│ ├── my-lambda-layer.zip <-- Lambda layer zip file
├── template.yaml <-- SAM Template
- AWS CLI already configured with at least PowerUser permission
- Python 3 installed
- Docker installed
- Python Virtual Environment
AWS Lambda requires a flat folder with the application as well as its dependencies. When you make changes to your source code or dependency manifest, run the following command to build your project local testing and deployment:
sam build
If your dependencies contain native modules that need to be compiled specifically for the operating system running on AWS Lambda, use this command to build inside a Lambda-like Docker container instead:
sam build --use-container
By default, this command writes built artifacts to .aws-sam/build
folder.
Invoking function locally through local API Gateway
sam local start-api
If the previous command ran successfully you should now be able to hit the following local endpoint to invoke your function http://localhost:3000/hello
SAM CLI is used to emulate both Lambda and API Gateway locally and uses our template.yaml
to understand how to bootstrap this environment (runtime, where the source code is, etc.) - The following excerpt is what the CLI will read in order to initialize an API and its routes:
...
Events:
HelloWorld:
Type: Api # More info about API Event Source: https://github.com/awslabs/serverless-application-model/blob/master/versions/2016-10-31.md#api
Properties:
Path: /hello
Method: get
AWS Lambda Python runtime requires a flat folder with all dependencies including the application. SAM will use CodeUri
property to know where to look up for both application and dependencies:
...
HelloWorldFunction:
Type: AWS::Serverless::Function
Properties:
CodeUri: hello_world/
...
Firstly, we need a S3 bucket
where we can upload our Lambda functions packaged as ZIP before we deploy anything - If you don't have a S3 bucket to store code artifacts then this is a good time to create one:
aws s3 mb s3://BUCKET_NAME
Next, run the following command to package our Lambda function to S3:
sam package \
--output-template-file packaged.yaml \
--s3-bucket REPLACE_THIS_WITH_YOUR_S3_BUCKET_NAME
Next, the following command will create a Cloudformation Stack and deploy your SAM resources.
sam deploy \
--template-file packaged.yaml \
--stack-name layers-app \
--capabilities CAPABILITY_IAM
See Serverless Application Model (SAM) HOWTO Guide for more details in how to get started.
After deployment is complete you can run the following command to retrieve the API Gateway Endpoint URL:
aws cloudformation describe-stacks \
--stack-name layers-app \
--query 'Stacks[].Outputs'
We use Pytest and pytest-mock for testing our code and you can install it using pip: pip install pytest pytest-mock
Next, we run pytest
against our tests
folder to run our initial unit tests:
python -m pytest tests/ -v
NOTE: It is recommended to use a Python Virtual environment to separate your application development from your system Python installation.
In case you're new to this, python3 comes with virtualenv
library by default so you can simply run the following:
- Create a new virtual environment
- Install dependencies in the new virtual environment
python3 -m venv .venv
. .venv/bin/activate
pip install -r requirements.txt
NOTE: You can find more information about Virtual Environment at Python Official Docs here. Alternatively, you may want to look at Pipenv as the new way of setting up development workflows
AWS CLI commands to package, deploy and describe outputs defined within the cloudformation stack:
sam package \
--output-template-file packaged.yaml \
--s3-bucket REPLACE_THIS_WITH_YOUR_S3_BUCKET_NAME
sam deploy \
--template-file packaged.yaml \
--stack-name layers-app \
--capabilities CAPABILITY_IAM \
--parameter-overrides MyParameterSample=MySampleValue
aws cloudformation describe-stacks \
--stack-name layers-app --query 'Stacks[].Outputs'
Here are a few ideas that you can use to get more acquainted as to how this overall process works:
- Create an additional API resource (e.g. /hello/{proxy+}) and return the name requested through this new path
- Update unit test to capture that
- Package & Deploy
Next, you can use the following resources to know more about beyond hello world samples and how others structure their Serverless applications:
- AWS Serverless Application Repository
- Chalice Python Serverless framework
- Sample Python with 3rd party dependencies, pipenv and Makefile:
sam init --location https://github.com/aws-samples/cookiecutter-aws-sam-python