### [Read this on the main serverless docs site](https://www.serverless.com/framework/docs/providers/aws/events/apigateway) # API Gateway - [API Gateway](#api-gateway) - [Lambda Proxy Integration](#lambda-proxy-integration) - [Simple HTTP Endpoint](#simple-http-endpoint) - [Example "LAMBDA-PROXY" event (default)](#example-lambda-proxy-event-default) - [HTTP Endpoint with Extended Options](#http-endpoint-with-extended-options) - [Enabling CORS](#enabling-cors) - [HTTP Endpoints with `AWS_IAM` Authorizers](#http-endpoints-with-aws_iam-authorizers) - [HTTP Endpoints with Custom Authorizers](#http-endpoints-with-custom-authorizers) - [HTTP Endpoints with `operationId`](#http-endpoints-with-operationId) - [Catching Exceptions In Your Lambda Function](#catching-exceptions-in-your-lambda-function) - [Setting API keys for your Rest API](#setting-api-keys-for-your-rest-api) - [Configuring endpoint types](#configuring-endpoint-types) - [Request Parameters](#request-parameters) - [Request Schema Validators](#request-schema-validators) - [Setting source of API key for metering requests](#setting-source-of-api-key-for-metering-requests) - [Lambda Integration](#lambda-integration) - [Example "LAMBDA" event (before customization)](#example-lambda-event-before-customization) - [Request templates](#request-templates) - [Default Request Templates](#default-request-templates) - [Custom Request Templates](#custom-request-templates) - [Pass Through Behavior](#pass-through-behavior) - [Responses](#responses) - [Custom Response Headers](#custom-response-headers) - [Custom Response Templates](#custom-response-templates) - [Status Codes](#status-codes) - [Available Status Codes](#available-status-codes) - [Using Status Codes](#using-status-codes) - [Custom Status Codes](#custom-status-codes) - [Setting an HTTP Proxy on API Gateway](#setting-an-http-proxy-on-api-gateway) - [Accessing private resources using VPC Link](#accessing-private-resources-using-vpc-link) - [Mock Integration](#mock-integration) - [Share API Gateway and API Resources](#share-api-gateway-and-api-resources) - [Easiest and CI/CD friendly example of using shared API Gateway and API Resources.](#easiest-and-cicd-friendly-example-of-using-shared-api-gateway-and-api-resources) - [Manually Configuring shared API Gateway](#manually-configuring-shared-api-gateway) - [Note while using authorizers with shared API Gateway](#note-while-using-authorizers-with-shared-api-gateway) - [Share Authorizer](#share-authorizer) - [Resource Policy](#resource-policy) - [Compression](#compression) - [Binary Media Types](#binary-media-types) - [Detailed CloudWatch Metrics](#detailed-cloudwatch-metrics) - [AWS X-Ray Tracing](#aws-x-ray-tracing) - [Tags / Stack Tags](#tags--stack-tags) - [Logs](#logs) _Are you looking for tutorials on using API Gateway? Check out the following resources:_ > - [Add a custom domain for your API Gateway](https://serverless.com/blog/serverless-api-gateway-domain/) > - [Deploy multiple micro-services under the same domain](https://serverless.com/blog/api-gateway-multiple-services/) > - [Create a Node REST API with Express.js](https://serverless.com/blog/serverless-express-rest-api/) > - [Make a Serverless GraphQL API](https://serverless.com/blog/make-serverless-graphql-api-using-lambda-dynamodb/) To create HTTP endpoints as Event sources for your AWS Lambda Functions, use the Serverless Framework's easy AWS API Gateway Events syntax. There are five ways you can configure your HTTP endpoints to integrate with your AWS Lambda Functions: - `lambda-proxy` / `aws-proxy` / `aws_proxy` (Recommended) - `lambda` / `aws` - `http` - `http-proxy` / `http_proxy` - `mock` **The Framework uses the `lambda-proxy` method (i.e., everything is passed into your Lambda) by default unless another method is supplied by the user** The difference between these is `lambda-proxy` (alternative writing styles are `aws-proxy` and `aws_proxy` for compatibility with the standard AWS integration type naming) automatically passes the content of the HTTP request into your AWS Lambda function (headers, body, etc.) and allows you to configure your response (headers, status code, body) in the code of your AWS Lambda Function. Whereas, the `lambda` method makes you explicitly define headers, status codes, and more in the configuration of each API Gateway Endpoint (not in code). We highly recommend using the `lambda-proxy` method if it supports your use-case, since the `lambda` method is highly tedious. Use `http` for integrating with an HTTP back end, `http-proxy` for integrating with the HTTP proxy integration or `mock` for testing without actually invoking the back end. ## Lambda Proxy Integration ### Simple HTTP Endpoint This setup specifies that the `hello` function should be run when someone accesses the API gateway at `hello` via a `GET` request. Here's an example: ```yml # serverless.yml functions: index: handler: handler.hello events: - http: GET hello ``` ```javascript // handler.js 'use strict'; module.exports.hello = function (event, context, callback) { console.log(event); // Contains incoming request data (e.g., query params, headers and more) const response = { statusCode: 200, headers: { 'x-custom-header': 'My Header Value', }, body: JSON.stringify({ message: 'Hello World!' }), }; callback(null, response); }; ``` **Note:** When the body is a JSON-Document, you must parse it yourself: ``` JSON.parse(event.body); ``` ### Example "LAMBDA-PROXY" event (default) ```json { "resource": "/", "path": "/", "httpMethod": "POST", "headers": { "Accept": "text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,image/apng,*/*;q=0.8", "Accept-Encoding": "gzip, deflate, br", "Accept-Language": "en-GB,en-US;q=0.8,en;q=0.6,zh-CN;q=0.4", "cache-control": "max-age=0", "CloudFront-Forwarded-Proto": "https", "CloudFront-Is-Desktop-Viewer": "true", "CloudFront-Is-Mobile-Viewer": "false", "CloudFront-Is-SmartTV-Viewer": "false", "CloudFront-Is-Tablet-Viewer": "false", "CloudFront-Viewer-Country": "GB", "content-type": "application/x-www-form-urlencoded", "Host": "j3ap25j034.execute-api.eu-west-2.amazonaws.com", "origin": "https://j3ap25j034.execute-api.eu-west-2.amazonaws.com", "Referer": "https://j3ap25j034.execute-api.eu-west-2.amazonaws.com/dev/", "upgrade-insecure-requests": "1", "User-Agent": "Mozilla/5.0 (Macintosh; Intel Mac OS X 10_12_5) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/59.0.3071.115 Safari/537.36", "Via": "2.0 a3650115c5e21e2b5d133ce84464bea3.cloudfront.net (CloudFront)", "X-Amz-Cf-Id": "0nDeiXnReyHYCkv8cc150MWCFCLFPbJoTs1mexDuKe2WJwK5ANgv2A==", "X-Amzn-Trace-Id": "Root=1-597079de-75fec8453f6fd4812414a4cd", "X-Forwarded-For": "50.129.117.14, 50.112.234.94", "X-Forwarded-Port": "443", "X-Forwarded-Proto": "https" }, "queryStringParameters": null, "pathParameters": null, "stageVariables": null, "requestContext": { "path": "/dev/", "accountId": "125002137610", "resourceId": "qdolsr1yhk", "stage": "dev", "requestId": "0f2431a2-6d2f-11e7-b799-5152aa497861", "identity": { "cognitoIdentityPoolId": null, "accountId": null, "cognitoIdentityId": null, "caller": null, "apiKey": "", "sourceIp": "50.129.117.14", "accessKey": null, "cognitoAuthenticationType": null, "cognitoAuthenticationProvider": null, "userArn": null, "userAgent": "Mozilla/5.0 (Macintosh; Intel Mac OS X 10_12_5) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/59.0.3071.115 Safari/537.36", "user": null }, "resourcePath": "/", "httpMethod": "POST", "apiId": "j3azlsj0c4" }, "body": "postcode=LS17FR", "isBase64Encoded": false } ``` ### HTTP Endpoint with Extended Options Here we've defined an POST endpoint for the path `posts/create`. ```yml # serverless.yml functions: create: handler: posts.create events: - http: path: posts/create method: post ``` ### Enabling CORS To set CORS configurations for your HTTP endpoints, simply modify your event configurations as follows: ```yml # serverless.yml functions: hello: handler: handler.hello events: - http: path: hello method: get cors: true ``` Setting `cors` to `true` assumes a default configuration which is equivalent to: ```yml functions: hello: handler: handler.hello events: - http: path: hello method: get cors: origin: '*' headers: - Content-Type - X-Amz-Date - Authorization - X-Api-Key - X-Amz-Security-Token - X-Amz-User-Agent allowCredentials: false ``` To allow multiple origins, you can use the following configuration and provide an array in the `origins` or use comma separated `origin` field: ```yml functions: hello: handler: handler.hello events: - http: path: hello method: get cors: origins: - http://example.com - http://example2.com headers: - Content-Type - X-Amz-Date - Authorization - X-Api-Key - X-Amz-Security-Token - X-Amz-User-Agent allowCredentials: false ``` Wildcards are accepted. The following example will match all sub-domains of example.com over http: ```yml cors: origins: - http://*.example.com - http://example2.com ``` Please note that since you can't send multiple values for [Access-Control-Allow-Origin](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Access-Control-Allow-Origin), this configuration uses a response template to check if the request origin matches one of your provided `origins` and overrides the header with the following code: ``` #set($origin = $input.params("Origin") #if($origin == "http://example.com" || $origin == "http://*.amazonaws.com") #set($context.responseOverride.header.Access-Control-Allow-Origin = $origin) #end ``` Configuring the `cors` property sets [Access-Control-Allow-Origin](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Access-Control-Allow-Origin), [Access-Control-Allow-Headers](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Access-Control-Allow-Headers), [Access-Control-Allow-Methods](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Access-Control-Allow-Methods),[Access-Control-Allow-Credentials](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Access-Control-Allow-Credentials) headers in the CORS preflight response. If you use the lambda integration, the Access-Control-Allow-Origin and Access-Control-Allow-Credentials will also be provided to the method and integration responses. Please note that the [Access-Control-Allow-Credentials](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Access-Control-Allow-Credentials)-Header is omitted when not explicitly set to `true`. To enable the `Access-Control-Max-Age` preflight response header, set the `maxAge` property in the `cors` object: ```yml functions: hello: handler: handler.hello events: - http: path: hello method: get cors: origin: '*' maxAge: 86400 ``` If you are using CloudFront or another CDN for your API Gateway, you may want to setup a `Cache-Control` header to allow for OPTIONS request to be cached to avoid the additional hop. To enable the `Cache-Control` header on preflight response, set the `cacheControl` property in the `cors` object: ```yml functions: hello: handler: handler.hello events: - http: path: hello method: get cors: origin: '*' headers: - Content-Type - X-Amz-Date - Authorization - X-Api-Key - X-Amz-Security-Token - X-Amz-User-Agent allowCredentials: false cacheControl: 'max-age=600, s-maxage=600, proxy-revalidate' # Caches on browser and proxy for 10 minutes and doesnt allow proxy to serve out of date content ``` CORS header accepts single value too ```yml functions: hello: handler: handler.hello events: - http: path: hello method: get cors: headers: '*' ``` If you want to use CORS with the lambda-proxy integration, remember to include the `Access-Control-Allow-*` headers in your headers object, like this: ```javascript // handler.js 'use strict'; module.exports.hello = function (event, context, callback) { const response = { statusCode: 200, headers: { 'Access-Control-Allow-Origin': '*', // Required for CORS support to work 'Access-Control-Allow-Credentials': true, // Required for cookies, authorization headers with HTTPS }, body: JSON.stringify({ message: 'Hello World!' }), }; callback(null, response); }; ``` ### HTTP Endpoints with `AWS_IAM` Authorizers If you want to require that the caller submit the IAM user's access keys in order to be authenticated to invoke your Lambda Function, set the authorizer to `AWS_IAM` as shown in the following example: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: aws_iam ``` Which is the short hand notation for: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: type: aws_iam ``` ### HTTP Endpoints with Custom Authorizers Custom Authorizers allow you to run an AWS Lambda Function before your targeted AWS Lambda Function. This is useful for Microservice Architectures or when you simply want to do some Authorization before running your business logic. You can enable Custom Authorizers for your HTTP endpoint by setting the Authorizer in your `http` event to another function in the same service, as shown in the following example: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: authorizerFunc authorizerFunc: handler: handler.authorizerFunc ``` Or, if you want to configure the Authorizer with more options, you can turn the `authorizer` property into an object as shown in the following example: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: name: authorizerFunc resultTtlInSeconds: 0 identitySource: method.request.header.Authorization identityValidationExpression: someRegex type: token authorizerFunc: handler: handler.authorizerFunc ``` If the Authorizer function does not exist in your service but exists in AWS, you can provide the ARN of the Lambda function instead of the function name, as shown in the following example: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: xxx:xxx:Lambda-Name ``` Or, if you want to configure the Authorizer with more options, you can turn the `authorizer` property into an object as shown in the following example: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: arn: xxx:xxx:Lambda-Name managedExternally: false resultTtlInSeconds: 0 identitySource: method.request.header.Authorization identityValidationExpression: someRegex ``` If permissions for the Authorizer function are managed externally (for example, if the Authorizer function exists in a different AWS account), you can skip creating the permission for the function by setting `managedExternally: true`, as shown in the following example: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: arn: xxx:xxx:Lambda-Name managedExternally: true ``` **IMPORTANT NOTE**: The permission allowing the authorizer function to be called by API Gateway must exist before deploying the stack, otherwise deployment will fail. You can also use the Request Type Authorizer by setting the `type` property. In this case, your `identitySource` could contain multiple entries for your policy cache. The default `type` is 'token'. ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: arn: xxx:xxx:Lambda-Name resultTtlInSeconds: 0 identitySource: method.request.header.Authorization, context.identity.sourceIp identityValidationExpression: someRegex type: request ``` You can also configure an existing Cognito User Pool as the authorizer, as shown in the following example with optional access token allowed scopes: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post authorizer: arn: arn:aws:cognito-idp:us-east-1:xxx:userpool/us-east-1_ZZZ scopes: - my-app/read ``` If you are using the default `lambda-proxy` integration, your attributes will be exposed at `event.requestContext.authorizer.claims`. If you want more control over which attributes are exposed as claims you can switch to `integration: lambda` and add the following configuration. The claims will be exposed at `events.cognitoPoolClaims`. ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post integration: lambda authorizer: arn: arn:aws:cognito-idp:us-east-1:xxx:userpool/us-east-1_ZZZ claims: - email - nickname ``` If you are creating the Cognito User Pool in the `resources` section of the same template, you can refer to the ARN using the `Fn::GetAtt` attribute from CloudFormation. To do so, you _must_ give your authorizer a name and specify a type of `COGNITO_USER_POOLS`: ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post integration: lambda authorizer: name: MyAuthorizer type: COGNITO_USER_POOLS arn: Fn::GetAtt: - CognitoUserPool - Arn --- resources: Resources: CognitoUserPool: Type: 'AWS::Cognito::UserPool' Properties: ... ``` ### HTTP Endpoints with `operationId` Include `operationId` when you want to provide a name for the method endpoint. This will set `OperationName` inside `AWS::ApiGateway::Method` accordingly. One common use case for this is customizing method names in some code generators (e.g., swagger). ```yml functions: create: handler: users.create events: - http: path: users/create method: post operationId: createUser ``` ### Using asynchronous integration Use `async: true` when integrating a lambda function using [event invocation](https://docs.aws.amazon.com/lambda/latest/dg/API_Invoke.html#SSS-Invoke-request-InvocationType). This lets API Gateway to return immediately with a 200 status code while the lambda continues running. If not otherwise specified integration type will be `AWS`. ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post async: true # default is false ``` ### Catching Exceptions In Your Lambda Function In case an exception is thrown in your lambda function AWS will send an error message with `Process exited before completing request`. This will be caught by the regular expression for the 500 HTTP status and the 500 status will be returned. ### Setting API keys for your Rest API You can specify a list of API keys to be used by your service Rest API by adding an `apiKeys` array property to the `provider.apiGateway` object in `serverless.yml`. You'll also need to explicitly specify which endpoints are `private` and require one of the api keys to be included in the request by adding a `private` boolean property to the `http` event object you want to set as private. API Keys are created globally, so if you want to deploy your service to different stages make sure your API key contains a stage variable as defined below. When using API keys, you can optionally define usage plan quota and throttle, using `usagePlan` object. When setting the value, you need to be aware that changing value will require replacement and CloudFormation doesn't allow two API keys with the same name. It means that you need to change the name also when changing the value. If you don't care about the name of the key, it is recommended only to set the value and let CloudFormation name the key. Here's an example configuration for setting API keys for your service Rest API: ```yml service: my-service provider: name: aws apiGateway: apiKeys: - myFirstKey - ${opt:stage}-myFirstKey - ${env:MY_API_KEY} # you can hide it in a serverless variable - name: myThirdKey value: myThirdKeyValue - value: myFourthKeyValue # let cloudformation name the key (recommended when setting api key value) description: Api key description # Optional customerId: A string that will be set as the customerID for the key # Optional usagePlan: quota: limit: 5000 offset: 2 period: MONTH throttle: burstLimit: 200 rateLimit: 100 functions: hello: events: - http: path: user/create method: get private: true ``` Please note that those are the API keys names, not the actual values. Once you deploy your service, the value of those API keys will be auto generated by AWS and printed on the screen for you to use. The values can be concealed from the output with the `--conceal` deploy option. Clients connecting to this Rest API will then need to set any of these API keys values in the `x-api-key` header of their request. This is only necessary for functions where the `private` property is set to true. You can also setup multiple usage plans for your API. In this case you need to map your usage plans to your api keys. Here's an example how this might look like: ```yml service: my-service provider: name: aws apiGateway: apiKeys: - free: - myFreeKey - ${opt:stage}-myFreeKey - paid: - myPaidKey - ${opt:stage}-myPaidKey usagePlan: - free: quota: limit: 5000 offset: 2 period: MONTH throttle: burstLimit: 200 rateLimit: 100 - paid: quota: limit: 50000 offset: 1 period: MONTH throttle: burstLimit: 2000 rateLimit: 1000 functions: hello: events: - http: path: user/create method: get private: true ``` ### Configuring endpoint types API Gateway [supports regional endpoints](https://aws.amazon.com/about-aws/whats-new/2017/11/amazon-api-gateway-supports-regional-api-endpoints/) for associating your API Gateway REST APIs with a particular region. This can reduce latency if your requests originate from the same region as your REST API and can be helpful in building multi-region applications. By default, the Serverless Framework deploys your REST API using the EDGE endpoint configuration. If you would like to use the REGIONAL or PRIVATE configuration, set the `endpointType` parameter in your `provider` block. Here's an example configuration for setting the endpoint configuration for your service Rest API: ```yml service: my-service provider: name: aws endpointType: REGIONAL functions: hello: events: - http: path: user/create method: get ``` API Gateway also supports the association of VPC endpoints if you have an API Gateway REST API using the PRIVATE endpoint configuration. This feature simplifies the invocation of a private API through the generation of the following AWS Route 53 alias: ``` https://-.execute-api..amazonaws.com ``` Here's an example configuration: ```yml service: my-service provider: name: aws endpointType: PRIVATE vpcEndpointIds: - vpce-123 - vpce-456 ``` ### Request Parameters To pass optional and required parameters to your functions, so you can use them in API Gateway tests and SDK generation, marking them as `true` will make them required, `false` will make them optional. ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post request: parameters: querystrings: url: true headers: foo: false paths: bar: false ``` In order for path variables to work, API Gateway also needs them in the method path itself, like so: ```yml functions: create: handler: posts.post_detail events: - http: path: posts/{id} method: get request: parameters: paths: id: true ``` To map different values for request parameters, define the `required` and `mappedValue` properties of the request parameter. ```yml functions: create: handler: posts.post_detail events: - http: path: posts/{id} method: get request: parameters: paths: id: true headers: custom-header: required: true mappedValue: context.requestId ``` For a list of acceptable values, see the [AWS Documentation](https://docs.aws.amazon.com/apigateway/latest/developerguide/request-response-data-mappings.html) ### Request Schema Validators To use request schema validation with API gateway, add the [JSON Schema](https://json-schema.org/) for your content type. Since JSON Schema is represented in JSON, it's easier to include it from a file. ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post request: schemas: application/json: ${file(create_request.json)} ``` In addition, you can also customize created model with `name` and `description` properties. ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post request: schemas: application/json: schema: ${file(create_request.json)} name: PostCreateModel description: 'Validation model for Creating Posts' ``` To reuse the same model across different events, you can define global models on provider level. In order to define global model you need to add its configuration to `provider.apiGateway.request.schemas`. After defining a global model, you can use it in the event by referencing it by the key. Provider models are created for `application/json` content type. ```yml provider: ... apiGateway: request: schemas: post-create-model: name: PostCreateModel schema: ${file(api_schema/post_add_schema.json)} description: "A Model validation for adding posts" functions: create: handler: posts.create events: - http: path: posts/create method: post request: schemas: application/json: post-create-model ``` A sample schema contained in `create_request.json` might look something like this: ```json { "definitions": {}, "$schema": "http://json-schema.org/draft-04/schema#", "type": "object", "title": "The Root Schema", "required": ["username"], "properties": { "username": { "type": "string", "title": "The Foo Schema", "default": "", "pattern": "^[a-zA-Z0-9]+$" } } } ``` **NOTE:** schema validators are only applied to content types you specify. Other content types are not blocked. Currently, API Gateway [supports](https://docs.aws.amazon.com/apigateway/latest/developerguide/models-mappings.html) JSON Schema draft-04. ### Setting source of API key for metering requests API Gateway provide a feature for metering your API's requests and you can choice [the source of key](https://docs.aws.amazon.com/apigateway/api-reference/resource/rest-api/#apiKeySource) which is used for metering. If you want to acquire that key from the request's X-API-Key header, set option like this: ```yml service: my-service provider: name: aws apiGateway: apiKeySourceType: HEADER functions: hello: events: - http: path: hello method: get ``` Another option is AUTHORIZER. If you set this, API Gateway will acquire that key from UsageIdentifierKey which is provided by custom authorizer. ```yml service: my-service provider: name: aws apiGateway: apiKeySourceType: AUTHORIZER functions: hello: events: - http: path: hello method: get ``` ## Lambda Integration This method is more complicated and involves a lot more configuration of the `http` event syntax. ### Example "LAMBDA" event (before customization) **Refer to this only if you're using the non-default `LAMBDA` integration method** ```json { "body": {}, "method": "GET", "principalId": "", "stage": "dev", "cognitoPoolClaims": { "sub": "" }, "enhancedAuthContext": {}, "headers": { "Accept": "text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,image/apng,*/*;q=0.8", "Accept-Encoding": "gzip, deflate, br", "Accept-Language": "en-GB,en-US;q=0.8,en;q=0.6,zh-CN;q=0.4", "CloudFront-Forwarded-Proto": "https", "CloudFront-Is-Desktop-Viewer": "true", "CloudFront-Is-Mobile-Viewer": "false", "CloudFront-Is-SmartTV-Viewer": "false", "CloudFront-Is-Tablet-Viewer": "false", "CloudFront-Viewer-Country": "GB", "Host": "ec5ycylws8.execute-api.us-east-1.amazonaws.com", "upgrade-insecure-requests": "1", "User-Agent": "Mozilla/5.0 (Macintosh; Intel Mac OS X 10_12_5) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/59.0.3071.115 Safari/537.36", "Via": "2.0 f165ce34daf8c0da182681179e863c24.cloudfront.net (CloudFront)", "X-Amz-Cf-Id": "l06CAg2QsrALeQcLAUSxGXbm8lgMoMIhR2AjKa4AiKuaVnnGsOFy5g==", "X-Amzn-Trace-Id": "Root=1-5970ef20-3e249c0321b2eef14aa513ae", "X-Forwarded-For": "94.117.120.169, 116.132.62.73", "X-Forwarded-Port": "443", "X-Forwarded-Proto": "https" }, "query": {}, "path": {}, "identity": { "cognitoIdentityPoolId": "", "accountId": "", "cognitoIdentityId": "", "caller": "", "apiKey": "", "sourceIp": "94.197.120.169", "accessKey": "", "cognitoAuthenticationType": "", "cognitoAuthenticationProvider": "", "userArn": "", "userAgent": "Mozilla/5.0 (Macintosh; Intel Mac OS X 10_12_5) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/59.0.3071.115 Safari/537.36", "user": "" }, "stageVariables": {}, "requestPath": "/request/path" } ``` ### Request templates #### Default Request Templates Serverless ships with the following default request templates you can use out of the box: 1. `application/json` 2. `application/x-www-form-urlencoded` Both templates give you access to the following properties you can access with the help of the `event` object: - body - method - principalId - stage - headers - queryStringParameters - path - identity - stageVariables - requestPath #### Custom Request Templates However you can define and use your own request templates as follows (you can even overwrite the default request templates by defining a new request template for an existing content type): ```yml functions: create: handler: posts.create events: - http: method: get path: whatever integration: lambda request: template: text/xhtml: '{ "stage" : "$context.stage" }' application/json: '{ "httpMethod" : "$context.httpMethod" }' ``` **Note:** The templates are defined as plain text here. However you can also reference an external file with the help of the `${file(templatefile)}` syntax. **Note 2:** In .yml, strings containing `:`, `{`, `}`, `[`, `]`, `,`, `&`, `*`, `#`, `?`, `|`, `-`, `<`, `>`, `=`, `!`, `%`, `@`, `` ` `` must be quoted. If you want to map querystrings to the event object, you can use the `$input.params('hub.challenge')` syntax from API Gateway, as follows: ```yml functions: create: handler: posts.create events: - http: method: get path: whatever integration: lambda request: template: application/json: '{ "foo" : "$input.params(''bar'')" }' ``` **Note:** Notice when using single-quoted strings, any single quote `'` inside its contents must be doubled (`''`) to escape it. You can then access the query string `https://example.com/dev/whatever?bar=123` by `event.foo` in the lambda function. If you want to spread a string into multiple lines, you can use the `>` or `|` syntax, but the following strings have to be all indented with the same amount, [read more about `>` syntax](http://stackoverflow.com/questions/3790454/in-yaml-how-do-i-break-a-string-over-multiple-lines). In order to remove one of the default request templates you just need to pass it as null, as follows: ```yml functions: create: handler: posts.create events: - http: method: get path: whatever integration: lambda request: template: application/x-www-form-urlencoded: null ``` #### Pass Through Behavior [API Gateway](https://serverless.com/amazon-api-gateway/) provides multiple ways to handle requests where the Content-Type header does not match any of the specified mapping templates. When this happens, the request payload will either be passed through the integration request _without transformation_ or rejected with a `415 - Unsupported Media Type`, depending on the configuration. You can define this behaviour as follows (if not specified, a value of **NEVER** will be used): ```yml functions: create: handler: posts.create events: - http: method: get path: whatever integration: lambda request: passThrough: NEVER ``` There are 3 available options: | Value | Passed Through When | Rejected When | | ----------------- | -------------------------------------------- | ---------------------------------------------------------------------- | | NEVER | Never | No templates defined or Content-Type does not match a defined template | | WHEN_NO_MATCH | Content-Type does not match defined template | Never | | WHEN_NO_TEMPLATES | No templates were defined | One or more templates defined, but Content-Type does not match | See the [api gateway documentation](https://docs.aws.amazon.com/apigateway/latest/developerguide/integration-passthrough-behaviors.html) for detailed descriptions of these options. **Notes:** - A missing/empty request Content-Type is considered to be the API Gateway default (`application/json`) - API Gateway docs refer to "WHEN_NO_TEMPLATE" (singular), but this will fail during creation as the actual value should be "WHEN_NO_TEMPLATES" (plural) ### Responses Serverless lets you setup custom headers and a response template for your `http` event. #### Custom Response Headers Here's an example which shows you how you can setup a custom response header: ```yml functions: create: handler: posts.create events: - http: method: get path: whatever integration: lambda response: headers: Content-Type: integration.response.header.Content-Type Cache-Control: "'max-age=120'" ``` **Note:** You're able to use the [integration response variables](http://docs.aws.amazon.com/apigateway/latest/developerguide/request-response-data-mappings.html#mapping-response-parameters) for your header values. Headers are passed to API Gateway exactly like you define them. Passing the `Cache-Control` header as `"'max-age=120'"` means API Gateway will receive the value as `'max-age=120'` (enclosed with single quotes). #### Custom Response Templates Sometimes you'll want to define a custom response template API Gateway should use to transform your lambdas output. Here's an example which will transform the return value of your lambda so that the browser renders it as HTML: ```yml functions: create: handler: posts.create events: - http: method: get path: whatever integration: lambda response: headers: Content-Type: "'text/html'" template: $input.path('$') ``` **Note:** The template is defined as plain text here. However you can also reference an external file with the help of the `${file(templatefile)}` syntax. ### Status Codes Serverless ships with default status codes you can use to e.g. signal that a resource could not be found (404) or that the user is not authorized to perform the action (401). Those status codes are regex definitions that will be added to your API Gateway configuration. **_Note:_** Status codes as documented in this chapter relate to `lambda` integration method (as documented at the top of this page). If using default integration method `lambda-proxy` object with status code and message should be returned as in the example below: ```javascript module.exports.hello = (event, context, callback) => { callback(null, { statusCode: 404, body: 'Not found', headers: { 'Content-Type': 'text/plain' } }); }; ``` #### Available Status Codes | Status Code | Meaning | | ----------- | --------------------- | | 400 | Bad Request | | 401 | Unauthorized | | 403 | Forbidden | | 404 | Not Found | | 422 | Unprocessable Entity | | 500 | Internal Server Error | | 502 | Bad Gateway | | 504 | Gateway Timeout | #### Using Status Codes To return a given status code you simply need to add square brackets with the status code of your choice to your returned message like this: `[401] You are not authorized to access this resource!`. Here's an example which shows you how you can raise a 404 HTTP status from within your lambda function. ```javascript module.exports.hello = (event, context, callback) => { callback(new Error('[404] Not found')); }; ``` #### Custom Status Codes You can override the defaults status codes supplied by Serverless. You can use this to change the default status code, add/remove status codes, or change the templates and headers used for each status code. Use the pattern key to change the selection process that dictates what code is returned. If you specify a status code with a pattern of '' that will become the default response code. See below on how to change the default to 201 for post requests. If you omit any default status code. A standard default 200 status code will be generated for you. ```yml functions: create: handler: posts.create events: - http: method: post path: whatever integration: lambda response: headers: Content-Type: "'text/html'" template: $input.path('$') statusCodes: 201: pattern: '' # Default response method 409: pattern: '.*"statusCode":409,.*' # JSON response template: $input.path("$.errorMessage") # JSON return object headers: Content-Type: "'application/json+hal'" ``` You can also create varying response templates for each code and content type by creating an object with the key as the content type ```yml functions: create: handler: posts.create events: - http: method: post path: whatever integration: lambda response: headers: Content-Type: "'text/html'" template: $input.path('$') statusCodes: 201: pattern: '' # Default response method 409: pattern: '.*"statusCode":409,.*' # JSON response template: application/json: $input.path("$.errorMessage") # JSON return object application/xml: $input.path("$.body.errorMessage") # XML return object headers: Content-Type: "'application/json+hal'" ``` ## Setting an HTTP Proxy on API Gateway To set up an HTTP proxy, you'll need two CloudFormation templates, one for the endpoint (known as resource in CF), and one for method. These two templates will work together to construct your proxy. So if you want to set `your-app.com/serverless` as a proxy for `serverless.com`, you'll need the following two templates in your `serverless.yml`: ```yml service: service-name provider: aws functions: ... resources: Resources: ProxyResource: Type: AWS::ApiGateway::Resource Properties: ParentId: Fn::GetAtt: - ApiGatewayRestApi # our default Rest API logical ID - RootResourceId PathPart: serverless # the endpoint in your API that is set as proxy RestApiId: Ref: ApiGatewayRestApi ProxyMethod: Type: AWS::ApiGateway::Method Properties: ResourceId: Ref: ProxyResource RestApiId: Ref: ApiGatewayRestApi HttpMethod: GET # the method of your proxy. Is it GET or POST or ... ? MethodResponses: - StatusCode: 200 Integration: IntegrationHttpMethod: POST Type: HTTP Uri: http://serverless.com # the URL you want to set a proxy to IntegrationResponses: - StatusCode: 200 ``` There's a lot going on in these two templates, but all you need to know to set up a simple proxy is setting the method & endpoint of your proxy, and the URI you want to set a proxy to. Now that you have these two CloudFormation templates defined in your `serverless.yml` file, you can simply run `serverless deploy` and that will deploy these custom resources for you along with your service and set up a proxy on your Rest API. ## Accessing private resources using VPC Link If you have an Edge Optimized or Regional API Gateway, you can access the internal VPC resources using VPC Link. Please refer [AWS documentation](https://docs.aws.amazon.com/apigateway/latest/developerguide/set-up-private-integration.html) to know more about API Gateway private integration. We can use following configuration to have an http-proxy vpc-link integration. ```yml - http: path: v1/repository method: get integration: http-proxy connectionType: vpc-link connectionId: '{your-vpc-link-id}' cors: true request: uri: http://www.github.com/v1/repository method: get ``` ## Mock Integration Mocks allow developers to offer simulated methods for an API, with this, responses can be defined directly, without the need for a integration backend. A simple mock response example is provided below: ```yml functions: hello: handler: handler.hello events: - http: path: hello cors: true method: get integration: mock request: template: application/json: '{"statusCode": 200}' response: template: $input.path('$') statusCodes: 201: pattern: '' ``` ## Share API Gateway and API Resources As your application grows, you will likely need to break it out into multiple, smaller services. By default, each Serverless project generates a new API Gateway. However, you can share the same API Gateway between multiple projects by referencing its REST API ID and Root Resource ID in `serverless.yml` as follows: ```yml service: service-name provider: name: aws apiGateway: restApiId: xxxxxxxxxx # REST API resource ID. Default is generated by the framework restApiRootResourceId: xxxxxxxxxx # Root resource, represent as / path websocketApiId: xxxxxxxxxx # Websocket API resource ID. Default is generated by the framework description: Some Description # optional - description of deployment history functions: ... ``` If your application has many nested paths, you might also want to break them out into smaller services. ```yml service: service-a provider: apiGateway: restApiId: xxxxxxxxxx restApiRootResourceId: xxxxxxxxxx websocketApiId: xxxxxxxxxx description: Some Description functions: create: handler: posts.create events: - http: method: post path: /posts ``` ```yml service: service-b provider: apiGateway: restApiId: xxxxxxxxxx restApiRootResourceId: xxxxxxxxxx websocketApiId: xxxxxxxxxx description: Some Description functions: create: handler: posts.createComment events: - http: method: post path: /posts/{id}/comments ``` The above example services both reference the same parent path `/posts`. However, Cloudformation will throw an error if we try to generate an existing path resource. To avoid that, we reference the resource ID of `/posts`: ```yml service: service-a provider: apiGateway: restApiId: xxxxxxxxxx restApiRootResourceId: xxxxxxxxxx websocketApiId: xxxxxxxxxx description: Some Description restApiResources: posts: xxxxxxxxxx functions: ... ``` ```yml service: service-b provider: apiGateway: restApiId: xxxxxxxxxx restApiRootResourceId: xxxxxxxxxx websocketApiId: xxxxxxxxxx description: Some Description restApiResources: /posts: xxxxxxxxxx functions: ... ``` You can define more than one path resource, but by default, Serverless will generate them from the root resource. `restApiRootResourceId` is optional if a path resource isn't required for the root (`/`). ```yml service: service-a provider: apiGateway: restApiId: xxxxxxxxxx # restApiRootResourceId: xxxxxxxxxx # Optional websocketApiId: xxxxxxxxxx description: Some Description restApiResources: /posts: xxxxxxxxxx /categories: xxxxxxxxx functions: listPosts: handler: posts.list events: - http: method: get path: /posts listCategories: handler: categories.list events: - http: method: get path: /categories ``` ### Easiest and CI/CD friendly example of using shared API Gateway and API Resources. You can define your API Gateway resource in its own service and export the `restApiId`, `restApiRootResourceId` and `websocketApiId` using cloudformation cross-stack references. ```yml service: my-api provider: name: aws runtime: nodejs12.x stage: dev region: eu-west-2 resources: Resources: MyApiGW: Type: AWS::ApiGateway::RestApi Properties: Name: MyApiGW MyWebsocketApi: Type: AWS::ApiGatewayV2::Api Properties: Name: MyWebsocketApi ProtocolType: WEBSOCKET RouteSelectionExpression: '$request.body.action' Outputs: apiGatewayRestApiId: Value: Ref: MyApiGW Export: Name: MyApiGateway-restApiId apiGatewayRestApiRootResourceId: Value: Fn::GetAtt: - MyApiGW - RootResourceId Export: Name: MyApiGateway-rootResourceId websocketApiId: Value: Ref: MyWebsocketApi Export: Name: MyApiGateway-websocketApiId ``` This creates API gateway and then exports the `restApiId`, `rootResourceId` and `websocketApiId` values using cloudformation cross stack output. We will import this and reference in future services. ```yml service: service-a provider: apiGateway: restApiId: 'Fn::ImportValue': MyApiGateway-restApiId restApiRootResourceId: 'Fn::ImportValue': MyApiGateway-rootResourceId websocketApiId: 'Fn::ImportValue': MyApiGateway-websocketApiId functions: service-a-functions ``` ```yml service: service-b provider: apiGateway: restApiId: 'Fn::ImportValue': MyApiGateway-restApiId restApiRootResourceId: 'Fn::ImportValue': MyApiGateway-rootResourceId websocketApiId: 'Fn::ImportValue': MyApiGateway-websocketApiId functions: service-b-functions ``` You can use this method to share your API Gateway across services in same region. Read about this limitation [here](https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/intrinsic-function-reference-importvalue.html). **Note:** We've noticed you can't use provider.tags together with `Fn::ImportValue` for `restApiId` and `restApiRootResourceId`. Doing so won't resolve the imported value, and therefore returns an error. ### Manually Configuring shared API Gateway Use AWS console on browser, navigate to the API Gateway console. Select your already existing API Gateway. Top Navbar should look like this ``` APIs>apigateway-Name (xxxxxxxxxx)>Resources>/ (yyyyyyyyyy) ``` Here xxxxxxxxx is your restApiId and yyyyyyyyyy the restApiRootResourceId. #### Note while using authorizers with shared API Gateway AWS API Gateway allows only 1 Authorizer for 1 ARN, This is okay when you use conventional serverless setup, because each stage and service will create different API Gateway. But this can cause problem when using authorizers with shared API Gateway. If we use the same authorizer directly in different services like this. ```yml service: service-c provider: apiGateway: restApiId: 'Fn::ImportValue': apiGateway-restApiId restApiRootResourceId: 'Fn::ImportValue': apiGateway-rootResourceId functions: deleteUser: events: - http: path: /users/{userId} authorizer: arn: xxxxxxxxxxxxxxxxx #cognito/custom authorizer arn ``` ```yml service: service-d provider: apiGateway: restApiId: 'Fn::ImportValue': apiGateway-restApiId restApiRootResourceId: 'Fn::ImportValue': apiGateway-rootResourceId functions: deleteProject: events: - http: path: /project/{projectId} authorizer: arn: xxxxxxxxxxxxxxxxx #cognito/custom authorizer arn ``` we encounter error from cloudformation as reported [here](https://github.com/serverless/serverless/issues/4711). A proper fix for this is work is using [Share Authorizer](#share-authorizer) or you can add a unique `name` attribute to `authorizer` in each function. This creates different API Gateway authorizer for each function, bound to the same API Gateway. However, there is a limit of 10 authorizers per RestApi, and they are forced to contact AWS to request a limit increase to unblock development. ## Share Authorizer Auto-created Authorizer is convenient for conventional setup. However, when you need to define your custom Authorizer, or use `COGNITO_USER_POOLS` authorizer with shared API Gateway, it is painful because of AWS limitation. Sharing Authorizer is a better way to do. ```yml functions: createUser: ... events: - http: path: /users ... authorizer: # Provide both type and authorizerId type: COGNITO_USER_POOLS # TOKEN or REQUEST or COGNITO_USER_POOLS, same as AWS Cloudformation documentation authorizerId: Ref: ApiGatewayAuthorizer # or hard-code Authorizer ID scopes: # Optional - List of Oauth2 scopes when type is COGNITO_USER_POOLS - myapp/myscope deleteUser: ... events: - http: path: /users/{userId} ... # Provide both type and authorizerId type: COGNITO_USER_POOLS # TOKEN or REQUEST or COGNITO_USER_POOLS, same as AWS Cloudformation documentation authorizerId: Ref: ApiGatewayAuthorizer # or hard-code Authorizer ID resources: Resources: ApiGatewayAuthorizer: Type: AWS::ApiGateway::Authorizer Properties: AuthorizerResultTtlInSeconds: 300 IdentitySource: method.request.header.Authorization Name: Cognito RestApiId: Ref: YourApiGatewayName Type: COGNITO_USER_POOLS ProviderARNs: - arn:aws:cognito-idp:${self:provider.region}:xxxxxx:userpool/abcdef ``` ## Resource Policy Resource policies are policy documents that are used to control the invocation of the API. Find more use cases from the [Apigateway Resource Policies](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-resource-policies.html) documentation. ```yml provider: name: aws runtime: nodejs12.x resourcePolicy: - Effect: Allow Principal: '*' Action: execute-api:Invoke Resource: - execute-api:/*/*/* Condition: IpAddress: aws:SourceIp: - '123.123.123.123' ``` ## Compression API Gateway allows for clients to receive [compressed payloads](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-gzip-compression-decompression.html), and supports various [content encodings](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-enable-compression.html#api-gateway-supported-content-encodings). ```yml provider: name: aws apiGateway: minimumCompressionSize: 1024 ``` ## Binary Media Types API Gateway makes it possible to return binary media such as images or files as responses. Configuring API Gateway to return binary media can be done via the `binaryMediaTypes` config: ```yml provider: apiGateway: binaryMediaTypes: - '*/*' ``` In your Lambda function you need to ensure that the correct `content-type` header is set. Furthermore you might want to return the response body in base64 format. To convert the request or response payload, you can set the [contentHandling](https://docs.aws.amazon.com/apigateway/latest/developerguide/api-gateway-payload-encodings-workflow.html) property (if set, the response contentHandling property will be passed to integration responses with 2XXs method response statuses). ```yml functions: create: handler: posts.create events: - http: path: posts/create method: post request: contentHandling: CONVERT_TO_TEXT response: contentHandling: CONVERT_TO_TEXT ``` ## Detailed CloudWatch Metrics Use the following configuration to enable detailed CloudWatch Metrics: ```yml provider: apiGateway: metrics: true ``` ## AWS X-Ray Tracing API Gateway supports a form of out of the box distributed tracing via [AWS X-Ray](https://aws.amazon.com/xray/) though enabling [active tracing](https://docs.aws.amazon.com/apigateway/latest/developerguide/apigateway-xray.html). To enable this feature for your serverless application's API Gateway add the following to your `serverless.yml` ```yml # serverless.yml provider: name: aws tracing: apiGateway: true ``` **Note:** If external API Gateway resource is used and imported via `provider.apiGateway.restApiId` setting, `provider.tracing.apiGateway` setting will be ignored. ## Tags / Stack Tags API Gateway stages will be tagged with the `tags` and `stackTags` values defined at the `provider` level: ```yml # serverless.yml provider: name: aws stackTags: stackTagKey: stackTagValue tags: tagKey: tagValue ``` ## Logs Use the following configuration to enable API Gateway logs: ```yml # serverless.yml provider: name: aws logs: restApi: true ``` The log streams will be generated in a dedicated log group which follows the naming schema `/aws/api-gateway/{service}-{stage}`. **Note:** If external API Gateway resource is used and imported via `provider.apiGateway.restApiId` setting, `provider.logs.restApi` setting will be ignored. To be able to write logs, API Gateway [needs a CloudWatch role configured](https://docs.aws.amazon.com/apigateway/latest/developerguide/set-up-logging.html). This setting is per region, shared by all the APIs. There are three approaches for handling it: - Let Serverless create and assign an IAM role for you (default behavior). Note that since this is a shared setting, this role is not removed when you remove the deployment. - Let Serverless assign an existing IAM role that you created before the deployment, if not already assigned: ```yml # serverless.yml provider: logs: restApi: role: arn:aws:iam::123456:role ``` - Do not let Serverless manage the CloudWatch role configuration. In this case, you would create and assign the IAM role yourself, e.g. in a separate "account setup" deployment: ```yml provider: logs: restApi: roleManagedExternally: true # disables automatic role creation/checks done by Serverless ``` **Note:** Serverless configures the API Gateway CloudWatch role setting using a custom resource lambda function. If you're using `iam.deploymentRole` to specify a limited-access IAM role for your serverless deployment, the custom resource lambda will assume this role during execution. By default, API Gateway access logs will use the following format: ``` 'requestId: $context.requestId, ip: $context.identity.sourceIp, caller: $context.identity.caller, user: $context.identity.user, requestTime: $context.requestTime, httpMethod: $context.httpMethod, resourcePath: $context.resourcePath, status: $context.status, protocol: $context.protocol, responseLength: $context.responseLength' ``` You can specify your own [format for API Gateway Access Logs](https://docs.aws.amazon.com/apigateway/latest/developerguide/set-up-logging.html#apigateway-cloudwatch-log-formats) by including your preferred string in the `format` property: ```yml # serverless.yml provider: name: aws logs: restApi: format: '{ "requestId":"$context.requestId", "ip": "$context.identity.sourceIp" }' ``` The default API Gateway log level will be INFO. You can change this to error with the following: ```yml # serverless.yml provider: name: aws logs: restApi: level: ERROR ``` Valid values are INFO, ERROR. The existence of the `logs` property enables both access and execution logging. If you want to disable one or both of them, you can do so with the following: ```yml # serverless.yml provider: name: aws logs: restApi: accessLogging: false executionLogging: false ``` By default, the full requests and responses data will be logged. If you want to disable like so: ```yml # serverless.yml provider: name: aws logs: restApi: fullExecutionData: false ``` Websockets have the same configuration options as the the REST API. Example: ```yml # serverless.yml provider: name: aws logs: websocket: level: INFO fullExecutionData: false ``` ## Disable Default Endpoint By default, clients can invoke your API with the default https://{api_id}.execute-api.{region}.amazonaws.com endpoint. To require that clients use a custom domain name to invoke your API, disable the default endpoint. ```yml provider: apiGateway: disableDefaultEndpoint: true ```