Using Amazon API Gateway to integrate your identity provider - AWS Transfer Family

Using Amazon API Gateway to integrate your identity provider

This topic describes how to use an AWS Lambda function to back an API Gateway method. Use this option if you need a RESTful API to integrate your identity provider or if you want to use AWS WAF to leverage its capabilities for geo-blocking or rate-limiting requests.

Limitations if using an API Gateway to integrate your identity provider

  • This configuration does not support custom domains.

  • This configuration does not support a private API Gateway URL.

If you need either of these, you can use Lambda as an identity provider, without API Gateway. For details, see Using AWS Lambda to integrate your identity provider.

Authenticating using an API Gateway method

You can create an API Gateway method for use as an identity provider for Transfer Family. This approach provides a highly secure way for you to create and provide APIs. With API Gateway, you can create an HTTPS endpoint so that all incoming API operations are transmitted with greater security. For more details about the API Gateway service, see the API Gateway Developer Guide.

API Gateway offers an authorization method named AWS_IAM, which gives you the same authentication based on AWS Identity and Access Management (IAM) that AWS uses internally. If you enable authentication with AWS_IAM, only callers with explicit permissions to call an API can reach that API's API Gateway method.

To use your API Gateway method as a custom identity provider for Transfer Family, enable IAM for your API Gateway method. As part of this process, you provide an IAM role with permissions for Transfer Family to use your gateway.

Note

To improve security, you can configure a web application firewall. AWS WAF is a web application firewall that lets you monitor the HTTP and HTTPS requests that are forwarded to an Amazon API Gateway. For details, see Add a web application firewall.

To use your API Gateway method for custom authentication with Transfer Family
  1. Create an AWS CloudFormation stack. To do this:

    Note

    The stack templates have been updated to use BASE64-encoded passwords: for details, see Improvements to the AWS CloudFormation templates.

    1. Open the AWS CloudFormation console at https://console.aws.amazon.com/cloudformation.

    2. Follow the instructions for deploying an AWS CloudFormation stack from an existing template in Selecting a stack template in the AWS CloudFormation User Guide.

    3. Use one of the following basic templates to create an AWS Lambda-backed API Gateway method for use as a custom identity provider in Transfer Family.

    Deploying one of these stacks is the easiest way to integrate a custom identity provider into the Transfer Family workflow. Each stack uses the Lambda function to support your API method based on API Gateway. You can then use your API method as a custom identity provider in Transfer Family. By default, the Lambda function authenticates a single user called myuser with a password of MySuperSecretPassword. After deployment, you can edit these credentials or update the Lambda function code to do something different.

    Important

    We recommend that you edit the default user and password credentials.

    After the stack has been deployed, you can view details about it on the Outputs tab in the CloudFormation console. These details include the stack's Amazon Resource Name (ARN), the ARN of the IAM role that the stack created, and the URL for your new gateway.

    Note

    If you are using the custom identity provider option to enable password–based authentication for your users, and you enable the request and response logging provided by API Gateway, API Gateway logs your users' passwords to your Amazon CloudWatch Logs. We don't recommend using this log in your production environment. For more information, see Set up CloudWatch API logging in API Gateway in the API Gateway Developer Guide.

  2. Check the API Gateway method configuration for your server. To do this:

    1. Open the API Gateway console at https://console.aws.amazon.com/apigateway/.

    2. Choose the Transfer Custom Identity Provider basic template API that the AWS CloudFormation template generated. You might need to select your region to see your gateways.

    3. In the Resources pane, choose GET. The following screenshot shows the correct method configuration.

      API configuration details, showing the method configuration parameters for the Request Paths and the for the URL Query String.

    At this point, your API gateway is ready to be deployed.

  3. For Actions, choose Deploy API. For Deployment stage, choose prod, and then choose Deploy.

    After the API Gateway method is successfully deployed, view its performance in Stages > Stage details, as shown in the following screenshot.

    Note

    Copy the Invoke URL address that appears at the top of the screen. You might need it for the next step.

    Stage details with the Invoke URL highlighted.
  4. Open the AWS Transfer Family console at https://console.aws.amazon.com/transfer/.

  5. A Transfer Family should have been created for you, when you created the stack. If not, configure your server using these steps.

    1. Choose Create server to open the Create server page. For Choose an identity provider, choose Custom, then select Use Amazon API Gateway to connect to your identity provider, as shown in the following screenshot.

      The identity provider screen with Custom Identity Provider selected, and with the API Gateway chosen for connecting to your identity provider.
    2. In the Provide an Amazon API Gateway URL text box, paste the Invoke URL address of the API Gateway endpoint that you created in step 3 of this procedure.

    3. For Role, choose the IAM role that was created by the AWS CloudFormation template. This role allows Transfer Family to invoke your API gateway method.

      The invocation role contains the AWS CloudFormation stack name that you selected for the stack that you created in step 1. It has the following format: CloudFormation-stack-name-TransferIdentityProviderRole-ABC123DEF456GHI.

    4. Fill in the remaining boxes, and then choose Create server. For details on the remaining steps for creating a server, see Configuring an SFTP, FTPS, or FTP server endpoint.

Implementing your API Gateway method

To create a custom identity provider for Transfer Family, your API Gateway method must implement a single method that has a resource path of /servers/serverId/users/username/config. The serverId and username values come from the RESTful resource path. Also, add sourceIp and protocol as URL Query String Parameters in the Method Request, as shown in the following image.

The Resources screen of the API Gateway showing the GET method details.
Note

The username must be a minimum of 3 and a maximum of 100 characters. You can use the following characters in the username: a–z, A-Z, 0–9, underscore '_', hyphen '-', period '.' and at sign '@'. The username can't start with a hyphen '-', period '.' or at sign '@'.

If Transfer Family attempts password authentication for your user, the service supplies a Password: header field. In the absence of a Password: header, Transfer Family attempts public key authentication to authenticate your user.

When you are using an identity provider to authenticate and authorize end users, in addition to validating their credentials, you can allow or deny access requests based on the IP addresses of the clients used by your end users. You can use this feature to ensure that data stored in your S3 buckets or your Amazon EFS file system can be accessed over the supported protocols only from IP addresses that you have specified as trusted. To enable this feature, you must include sourceIp in the Query string.

If you have multiple protocols enabled for your server and want to provide access using the same username over multiple protocols, you can do so as long as the credentials specific to each protocol have been set up in your identity provider. To enable this feature, you must include the protocol value in the RESTful resource path.

Your API Gateway method should always return HTTP status code 200. Any other HTTP status code means that there was an error accessing the API.

Amazon S3 example response

The example response body is a JSON document of the following form for Amazon S3.

{ "Role": "IAM role with configured S3 permissions", "PublicKeys": [ "ssh-rsa public-key1", "ssh-rsa public-key2" ], "Policy": "STS Assume role session policy", "HomeDirectory": "/amzn-s3-demo-bucket/path/to/home/directory" }
Note

The policy is escaped JSON as a string. For example:

"Policy": "{ \"Version\": \"2012-10-17\", \"Statement\": [ {\"Condition\": {\"StringLike\": {\"s3:prefix\": [\"user/*\", \"user/\"]}}, \"Resource\": \"arn:aws:s3:::amzn-s3-demo-bucket\", \"Action\": \"s3:ListBucket\", \"Effect\": \"Allow\", \"Sid\": \"ListHomeDir\"}, {\"Resource\": \"arn:aws:s3:::*\", \"Action\": [\"s3:PutObject\", \"s3:GetObject\", \"s3:DeleteObjectVersion\", \"s3:DeleteObject\", \"s3:GetObjectVersion\", \"s3:GetObjectACL\", \"s3:PutObjectACL\"], \"Effect\": \"Allow\", \"Sid\": \"HomeDirObjectAccess\"}] }"

The following example response shows that a user has a logical home directory type.

{ "Role": "arn:aws:iam::123456789012:role/transfer-access-role-s3", "HomeDirectoryType":"LOGICAL", "HomeDirectoryDetails":"[{\"Entry\":\"/\",\"Target\":\"/amzn-s3-demo-bucket1\"}]", "PublicKeys":[""] }
Amazon EFS example response

The example response body is a JSON document of the following form for Amazon EFS.

{ "Role": "IAM role with configured EFS permissions", "PublicKeys": [ "ssh-rsa public-key1", "ssh-rsa public-key2" ], "PosixProfile": { "Uid": "POSIX user ID", "Gid": "POSIX group ID", "SecondaryGids": [Optional list of secondary Group IDs], }, "HomeDirectory": "/fs-id/path/to/home/directory" }

The Role field shows that successful authentication occurred. When doing password authentication (when you supply a Password: header), you don't need to provide SSH public keys. If a user can't be authenticated, for example, if the password is incorrect, your method should return a response without Role set. An example of such a response is an empty JSON object.

The following example response shows a user that has a logical home directory type.

{ "Role": "arn:aws:iam::123456789012:role/transfer-access-role-efs", "HomeDirectoryType": "LOGICAL", "HomeDirectoryDetails":"[{\"Entry\":\"/\",\"Target\":\"/faa1a123\"}]", "PublicKeys":[""], "PosixProfile":{"Uid":65534,"Gid":65534} }

You can include user policies in the Lambda function in JSON format. For more information about configuring user policies in Transfer Family, see Managing access controls.

Default Lambda function

To implement different authentication strategies, edit the Lambda function that your gateway uses. To help you meet your application's needs, you can use the following example Lambda functions in Node.js. For more information about Lambda, see the AWS Lambda Developer Guide or Building Lambda functions with Node.js.

The following example Lambda function takes your username, password (if you're performing password authentication), server ID, protocol, and client IP address. You can use a combination of these inputs to look up your identity provider and determine if the login should be accepted.

Note

If you have multiple protocols enabled for your server and want to provide access using the same username over multiple protocols, you can do so as long as the credentials specific to the protocol have been set up in your identity provider.

For File Transfer Protocol (FTP), we recommend maintaining separate credentials from Secure Shell (SSH) File Transfer Protocol (SFTP) and File Transfer Protocol over SSL (FTPS). We recommend maintaining separate credentials for FTP because, unlike SFTP and FTPS, FTP transmits credentials in clear text. By isolating FTP credentials from SFTP or FTPS, if FTP credentials are shared or exposed, your workloads using SFTP or FTPS remain secure.

This example function returns the role and logical home directory details, along with the public keys (if it performs public key authentication).

When you create service-managed users, you set their home directory, either logical or physical. Similarly, we need the Lambda function results to convey the desired user physical or logical directory structure. The parameters you set depend on the value for the HomeDirectoryType field.

  • HomeDirectoryType set to PATH – the HomeDirectory field must then be an absolute Amazon S3 bucket prefix or Amazon EFS absolute path that is visible to your users.

  • HomeDirectoryType set to LOGICAL – Do not set a HomeDirectory field. Instead, we set a HomeDirectoryDetails field that provides the desired Entry/Target mappings, similar to the described values in the HomeDirectoryDetails parameter for service-managed users.

The example functions are listed in Example Lambda functions.

Lambda function for use with AWS Secrets Manager

To use AWS Secrets Manager as your identity provider, you can work with the Lambda function in the sample AWS CloudFormation template. The Lambda function queries the Secrets Manager service with your credentials and, if successful, returns a designated secret. For more information about Secrets Manager, see the AWS Secrets Manager User Guide.

To download a sample AWS CloudFormation template that uses this Lambda function, go to the Amazon S3 bucket provided by AWS Transfer Family.

Improvements to the AWS CloudFormation templates

Improvements to the API Gateway interface have been made to the published CloudFormation templates. The templates now use BASE64-encoded passwords with the API Gateway. Your existing deployments continue to work without this enhancement, but don't allow for passwords with characters outside the basic US-ASCII character set.

The changes in the template that enable this capability are as follows:

  • The GetUserConfigRequest AWS::ApiGateway::Method resource has to have this RequestTemplates code (the line in italics is the updated line)

    RequestTemplates: application/json: | { "username": "$util.urlDecode($input.params('username'))", "password": "$util.escapeJavaScript($util.base64Decode($input.params('PasswordBase64'))).replaceAll("\\'","'")", "protocol": "$input.params('protocol')", "serverId": "$input.params('serverId')", "sourceIp": "$input.params('sourceIp')" }
  • The RequestParameters for the GetUserConfig resource must change to use the PasswordBase64 header (the line in italics is the updated line):

    RequestParameters: method.request.header.PasswordBase64: false method.request.querystring.protocol: false method.request.querystring.sourceIp: false
To check if the template for your stack is the latest
  1. Open the AWS CloudFormation console at https://console.aws.amazon.com/cloudformation.

  2. From the list of stacks, choose your stack.

  3. From the details panel, choose the Template tab.

  4. Look for the following:

    • Search for RequestTemplates, and make sure you have this line:

      "password": "$util.escapeJavaScript($util.base64Decode($input.params('PasswordBase64'))).replaceAll("\\'","'")",
    • Search for RequestParameters, and make sure you have this line:

      method.request.header.PasswordBase64: false

If you don't see the updated lines, edit your stack. For details on how to update your AWS CloudFormation stack, see Modifying a stack template in the AWS CloudFormation; User Guide.