505 lines
15 KiB
Markdown
505 lines
15 KiB
Markdown
---
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stage: Configure
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group: Configure
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments
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---
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# Deploying AWS Lambda function using GitLab CI/CD **(FREE)**
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GitLab allows users to easily deploy AWS Lambda functions and create rich serverless applications.
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GitLab supports deployment of AWS Lambda functions through GitLab CI/CD using the following Serverless frameworks:
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- [Serverless Framework with AWS](#serverless-framework)
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- [AWS' Serverless Application Model (SAM)](#aws-serverless-application-model)
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## Serverless Framework
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The [Serverless Framework can deploy to AWS](https://www.serverless.com/framework/docs/providers/aws/).
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We have prepared an example with a step-by-step guide to create a simple function and deploy it on AWS.
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Additionally, in the [How To section](#how-to), you can read about different use cases like:
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- Running a function locally.
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- Working with secrets.
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- Setting up CORS.
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Alternatively, you can quickly [create a new project with a template](../../working_with_projects.md#create-a-project). The [`Serverless Framework/JS` template](https://gitlab.com/gitlab-org/project-templates/serverless-framework/) already includes all parts described below.
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### Example
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This example shows you how to:
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1. Create a basic AWS Lambda Node.js function.
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1. Link the function to an API Gateway `GET` endpoint.
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#### Steps
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The example consists of the following steps:
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1. Creating a Lambda handler function.
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1. Creating a `serverless.yml` file.
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1. Crafting the `.gitlab-ci.yml` file.
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1. Setting up your AWS credentials with your GitLab account.
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1. Deploying your function.
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1. Testing the deployed function.
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Lets take it step by step.
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#### Creating a Lambda handler function
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Your Lambda function is the primary handler of requests. In this case, create a very simple Node.js `hello` function:
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```javascript
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'use strict';
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module.exports.hello = async event => {
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return {
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statusCode: 200,
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body: JSON.stringify(
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{
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message: 'Your function executed successfully!'
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},
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null,
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2
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),
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};
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};
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```
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Place this code in the file `src/handler.js`.
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`src` is the standard location for serverless functions, but is customizable should you desire that.
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In our case, `module.exports.hello` defines the `hello` handler to reference later in the `serverless.yml`.
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You can learn more about the [AWS Lambda Node.js function handler](https://docs.aws.amazon.com/lambda/latest/dg/nodejs-prog-model-handler.html) and all its various options in its documentation.
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#### Creating a `serverless.yml` file
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In the root of your project, create a `serverless.yml` file containing configuration specifics for the Serverless Framework.
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Put the following code in the file:
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```yaml
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service: gitlab-example
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provider:
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name: aws
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runtime: nodejs14.x
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functions:
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hello:
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handler: src/handler.hello
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events:
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- http: GET hello
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```
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Our function contains a handler and a event.
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The handler definition provisions the Lambda function using the source code located `src/handler.hello`.
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The `events` declaration creates an AWS API Gateway `GET` endpoint to receive external requests and hand them over to the Lambda function via a service integration.
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You can read more about the [available properties and additional configuration possibilities](https://www.serverless.com/framework/docs/providers/aws/guide/serverless.yml/) of the Serverless Framework.
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#### Crafting the `.gitlab-ci.yml` file
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In a `.gitlab-ci.yml` file in the root of your project, place the following code:
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```yaml
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image: node:latest
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stages:
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- deploy
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production:
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stage: deploy
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before_script:
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- npm config set prefix /usr/local
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- npm install -g serverless
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script:
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- serverless deploy --stage production --verbose
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environment: production
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```
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This example code does the following:
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1. Uses the `node:latest` image for all GitLab CI/CD builds
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1. The `deploy` stage:
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- Installs the Serverless Framework.
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- Deploys the serverless function to your AWS account using the AWS credentials
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defined above.
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#### Setting up your AWS credentials with your GitLab account
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In order to interact with your AWS account, the GitLab CI/CD pipelines require both `AWS_ACCESS_KEY_ID` and `AWS_SECRET_ACCESS_KEY` to be defined in your GitLab settings under **Settings > CI/CD > Variables**.
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For more information please see [Create a custom variable in the UI](../../../../ci/variables/index.md#custom-variables-validated-by-gitlab).
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The AWS credentials you provide must include IAM policies that provision correct
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access control to AWS Lambda, API Gateway, CloudFormation, and IAM resources.
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#### Deploying your function
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`git push` the changes to your GitLab repository and the GitLab build pipeline deploys your function.
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Your GitLab deploy stage log contains output containing your AWS Lambda endpoint URL,
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with log lines similar to this:
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```plaintext
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endpoints:
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GET - https://u768nzby1j.execute-api.us-east-1.amazonaws.com/production/hello
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```
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#### Manually testing your function
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Running the following `curl` command should trigger your function.
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Your URL should be the one retrieved from the GitLab deploy stage log:
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```shell
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curl "https://u768nzby1j.execute-api.us-east-1.amazonaws.com/production/hello"
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```
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That should output:
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```json
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{
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"message": "Your function executed successfully!"
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}
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```
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Hooray! You now have a AWS Lambda function deployed via GitLab CI/CD.
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Nice work!
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### How To
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In this section, we show you how to build on the basic example to:
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- Run the function locally.
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- Set up secret variables.
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- Set up CORS.
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#### Running function locally
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The `serverless-offline` plugin allows to run your code locally. To run your code locally:
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1. Add the following to your `serverless.yml`:
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```yaml
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plugins:
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- serverless-offline
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```
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1. Start the service by running the following command:
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```shell
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serverless offline
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```
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Running the following `curl` command should trigger your function.
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```shell
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curl "http://localhost:3000/hello"
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```
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It should output:
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```json
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{
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"message": "Your function executed successfully!"
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}
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```
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#### Secret variables
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Secrets are injected into your functions using environment variables.
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By defining variables in the provider section of the `serverless.yml`, you add them to
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the environment of the deployed function:
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```yaml
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provider:
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# Other configuration omitted
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# ...
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environment:
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A_VARIABLE: ${env:A_VARIABLE}
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```
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From there, you can reference them in your functions as well.
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Remember to add `A_VARIABLE` to your GitLab CI/CD variables under **Settings > CI/CD > Variables** to be picked up and deployed with your function.
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NOTE:
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Anyone with access to the AWS environment may be able to see the values of those
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variables persisted in the lambda definition.
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#### Setting up CORS
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If you want to set up a web page that makes calls to your function, like we have done in the [template](https://gitlab.com/gitlab-org/project-templates/serverless-framework/), you need to deal with the Cross-Origin Resource Sharing (CORS).
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The quick way to do that is to add the `cors: true` flag to the HTTP endpoint in your `serverless.yml`:
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```yaml
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functions:
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hello:
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handler: src/handler.hello
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events:
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- http: # Rewrite this part to enable CORS
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path: hello
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method: get
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cors: true # <-- CORS here
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```
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You also need to return CORS specific headers in your function response:
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```javascript
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'use strict';
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module.exports.hello = async event => {
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return {
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statusCode: 200,
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headers: {
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// Uncomment the line below if you need access to cookies or authentication
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// 'Access-Control-Allow-Credentials': true,
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'Access-Control-Allow-Origin': '*'
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},
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body: JSON.stringify(
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{
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message: 'Your function executed successfully!'
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},
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null,
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2
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),
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};
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};
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```
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For more information, see the [Your CORS and API Gateway survival guide](https://www.serverless.com/blog/cors-api-gateway-survival-guide/)
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blog post written by the Serverless Framework team.
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#### Writing automated tests
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The [Serverless Framework](https://gitlab.com/gitlab-org/project-templates/serverless-framework/)
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example project shows how to use Jest, Axios, and `serverless-offline` plugin to do
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automated testing of both local and deployed serverless function.
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### Examples and template
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The example code is available:
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- As a [clonable repository](https://gitlab.com/gitlab-org/serverless/examples/serverless-framework-js).
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- In a version with [tests and secret variables](https://gitlab.com/gitlab-org/project-templates/serverless-framework/).
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You can also use a [template](../../working_with_projects.md#project-templates)
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(based on the version with tests and secret variables) from within the GitLab UI (see
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the `Serverless Framework/JS` template).
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## AWS Serverless Application Model
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AWS Serverless Application Model is an open source framework for building serverless
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applications. It makes it easier to build and deploy serverless applications. For more
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details, please take a look at AWS documentation on [AWS Serverless Application Model](https://docs.aws.amazon.com/serverless-application-model/).
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### Deploying AWS Lambda function using AWS SAM and GitLab CI/CD
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GitLab allows developers to build and deploy serverless applications using the combination of:
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- [AWS Serverless Application Model (AWS SAM)](https://aws.amazon.com/serverless/sam/).
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- GitLab CI/CD.
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### Example
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This example shows you how to:
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- Install SAM CLI.
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- Create a sample SAM application including a Lambda function and API Gateway.
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- Build and deploy the application to your AWS account using GitLab CI/CD.
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### Steps
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The example consists of the following steps:
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1. Installing SAM CLI.
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1. Creating an AWS SAM application using SAM CLI.
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1. Crafting the `.gitlab-ci.yml` file.
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1. Setting up your AWS credentials with your GitLab account.
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1. Deploying your application.
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1. Testing the deployed function.
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### Installing SAM CLI
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AWS SAM provides a CLI called AWS SAM CLI to make it easier to create and manage
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applications.
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Some steps in this documentation use SAM CLI. Follow the instructions for
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[installing SAM CLI](https://docs.aws.amazon.com/serverless-application-model/latest/developerguide/serverless-sam-cli-install.html)
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to install and configure SAM CLI.
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If you use [AWS Cloud9](https://aws.amazon.com/cloud9/) as your integrated development
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environment (IDE), the following are installed for you:
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- [AWS Command Line Interface](https://docs.aws.amazon.com/en_pv/cli/latest/userguide/cli-chap-install.html)
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- [SAM CLI](https://docs.aws.amazon.com/en_pv/serverless-application-model/latest/developerguide/serverless-sam-cli-install.html)
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- [Docker](https://docs.docker.com/install/) and necessary Docker images.
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### Creating an AWS SAM application using SAM CLI
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To create a new AWS SAM application:
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1. Create a new GitLab project.
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1. `git clone` the project into your local environment.
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1. Change to the newly cloned project and create a new SAM app using the following command:
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```shell
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sam init -r python3.8 -n gitlabpoc --app-template "hello-world"
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```
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1. `git push` the application back to the GitLab project.
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This creates a SAM app named `gitlabpoc` using the default configuration, a single
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Python 3.8 function invoked by an [Amazon API Gateway](https://aws.amazon.com/api-gateway/)
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endpoint. To see additional runtimes supported by SAM and options for `sam init`, run:
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```shell
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sam init -h
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```
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### Setting up your AWS credentials with your GitLab account
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In order to interact with your AWS account, the GitLab CI/CD pipelines require both
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`AWS_ACCESS_KEY_ID` and `AWS_SECRET_ACCESS_KEY` to be set in the project's CI/CD variables.
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To set these:
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1. Navigate to the project's **Settings > CI/CD**.
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1. Expand the **Variables** section and create entries for `AWS_ACCESS_KEY_ID` and
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`AWS_SECRET_ACCESS_KEY`.
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1. Mask the credentials so they do not show in logs using the **Masked** toggle.
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The AWS credentials you provide must include IAM policies that provision correct access
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control to AWS Lambda, API Gateway, CloudFormation, and IAM resources.
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### Crafting the `.gitlab-ci.yml` file
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In a [`.gitlab-ci.yml`](../../../../ci/yaml/index.md) file in the root of your project,
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add the following and replace `<S3_bucket_name>` with the name of the S3 bucket where you
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want to store your package:
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```yaml
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image: python:latest
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stages:
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- deploy
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production:
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stage: deploy
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before_script:
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- pip3 install awscli --upgrade
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- pip3 install aws-sam-cli --upgrade
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script:
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- sam build
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- sam package --output-template-file packaged.yaml --s3-bucket <S3_bucket_name>
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- sam deploy --template-file packaged.yaml --stack-name gitlabpoc --s3-bucket <S3_bucket_name> --capabilities CAPABILITY_IAM --region us-east-1
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environment: production
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```
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Let's examine the configuration file more closely:
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- `image` specifies the Docker image to use for this build. This is the latest Python
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image since the sample application is written in Python.
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- AWS CLI and AWS SAM CLI are installed in the `before_script` section.
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- SAM build, package, and deploy commands are used to build, package, and deploy the
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application.
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### Deploying your application
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Push changes to your GitLab repository and the GitLab build pipeline
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deploys your application. If your:
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- Build and deploy are successful, [test your deployed application](#testing-the-deployed-application).
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- Build fails, look at the build log to see why the build failed. Some common reasons
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the build might fail are:
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- Incompatible versions of software. For example, Python runtime version might be
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different from the Python on the build machine. Address this by installing the
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required versions of the software.
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- You may not be able to access your AWS account from GitLab. Check the CI/CD variables
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you set up with AWS credentials.
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- You may not have permission to deploy a serverless application. Make sure you
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provide all required permissions to deploy a serverless application.
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### Testing the deployed application
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To test the application you deployed, please go to the build log and follow the following steps:
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1. Click on "Show complete raw" on the upper right-hand corner:
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![SAM complete raw](img/sam-complete-raw.png)
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1. Look for HelloWorldApi – API Gateway endpoint similar to shown below:
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![SAM API endpoint](img/sam-api-endpoint.png)
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1. Use curl to test the API. For example:
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```shell
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curl "https://py4rg7qtlg.execute-api.us-east-1.amazonaws.com/Prod/hello/"
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```
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Output should be:
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```json
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{"message": "hello world"}
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```
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### Testing Locally
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AWS SAM provides functionality to test your applications locally. You must have AWS SAM
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CLI installed locally for you to test locally.
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First, test the function.
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SAM provides a default event in `events/event.json` that includes a message body of:
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```plaintext
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{\"message\": \"hello world\"}
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```
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If you pass that event into the `HelloWorldFunction`, it should respond with the same
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body.
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Invoke the function by running:
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```shell
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sam local invoke HelloWorldFunction -e events/event.json
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```
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Output should be:
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```json
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{"message": "hello world"}
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```
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After you confirm that Lambda function is working as expected, test the API Gateway
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using following steps.
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Start the API locally by running:
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```shell
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sam local start-api
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```
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SAM again launches a Docker container, this time with a mocked Amazon API Gateway
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listening on `localhost:3000`.
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Call the `hello` API by running:
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```shell
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curl "http://127.0.0.1:3000/hello"
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```
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Output again should be:
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```json
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{"message": "hello world"}
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```
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