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External key providers in SQL Server Big Data Clusters

Important

The Microsoft SQL Server 2019 Big Data Clusters add-on will be retired. Support for SQL Server 2019 Big Data Clusters will end on February 28, 2025. All existing users of SQL Server 2019 with Software Assurance will be fully supported on the platform and the software will continue to be maintained through SQL Server cumulative updates until that time. For more information, see the announcement blog post and Big data options on the Microsoft SQL Server platform.

This article provides details for how to configure external key providers in SQL Server Big Data Clusters for key management.

To learn more about how key versions are used on SQL Server Big Data Clusters, see: Key Versions in SQL Server Big Data Clusters.

For information on configuring and using encryption at rest see the following guides:

Prerequisites

Root key encryption using external providers

With the capability to bring in external keys in SQL Server Big Data Clusters, the main encryption key fetches the public key using the application that the customer deploys. When HDFS keys are rotated and used, the calls to decrypt the HDFS keys are sent to the control plane, and then redirected to the application using the key identifier provided by the customer. For SQL Server, the requests to encrypt are sent and fulfilled by the control plane, since it has the public key. The requests to decrypt the Data Encryption Key (DEK) from SQL Server are sent to control plane as well, and then are redirected to the application that interfaces with the external provider, such as a Hardware Security Module (HSM).

Diagram represents the situation after Customer Key is installed.

The following diagram explains the interactions while configuring external keys in control plane:

Diagram explains the interactions while configuring external keys in control plane.

After the key is installed, the encryption and decryption of different payloads are protected by the main encryption key. This protection is similar to system-managed keys, except that the decryption calls routed to control plane are then routed to the key management service (KMS) plugin app. The KMS plugin app routes the request to appropriate location, such as an HSM, Hashicorp Vault, or another product.

Configuration

The provided template application is the plugin used to interface with the external key provider. This application needs to be customized and deployed into Big Data Clusters to serve as an integration point with the chosen external key provider.

In the template application, there are examples on how to integrate with external provider implementations using the standard PKCS11 protocol using SoftHSM. There are also examples using Azure Key Vault and Hashicorp Vault. The template applications are provided as-is as reference implementations.

The following sections provide the steps required to configure an external key provider to serve as the root key of encryption for SQL Server databases and HDFS encryption zones.

Create an RSA 2048 key in your external key provider

Create a PEM file with a 2048-bit RSA key and upload it to the key value store in your external key provider.

For example, the key file might be added to the KV store in Hashicorp Vault at path bdc-encryption-secret and the name of the secret can be rsa2048.

Customize and deploy the integration application on Big Data Clusters

  1. In your local machine, navigate to the folder that contains kms_plugin_app, the Big Data Clusters AppDeploy template applications.

  2. Customize the application by choosing one of the templates and adjusting it to your scenario:

    • File custom_softhsm.py contains a reference implementation using SoftHSM
    • File custom_akv.py contains an Azure Key Vault example
    • File custom_hcv.py contains a HashiCorp Vault example

    Caution

    Don't change the function contracts or signatures, which are the integration points. Change only the function implementations, if needed.

  3. Name the file you're creating from the template above accordingly. For example, save custom_softhsm.py as my_custom_integration_v1.py and then perform your customizations. This approach is important for the next step.

  4. app.py is the entry point that will load the application. In this file, you're required to change line 11 to point to the custom file name without the .py extension from the previous step. Per the example above, change:

    ...
    import utils
    from json_objects import EncryptDecryptRequest
    import custom_softhsm as custom
    
    def handler(operation, payload, pin, key_attributes, version):
    ...
    

    to the following value:

    ...
    import utils
    from json_objects import EncryptDecryptRequest
    import my_custom_integration_v1 as custom
    
    def handler(operation, payload, pin, key_attributes, version):
    ...
    
  5. From the folder that has the spec.yaml, deploy the application to Big Data Clusters by using this command:

    azdata app create -s
    
  6. Wait for the application deployment to complete and the ready status can be checked using this command:

    azdata app list
    

Configure Big Data Clusters to use the external key provider

  1. Set the AZDATA_EXTERNAL_KEY_PIN environment variable to provide the token that allows access to the external key provider:

    export AZDATA_EXTERNAL_KEY_PIN=<your PIN/token here>
    

    Note

    The integration application deployment process uses the token to access your external key provider. However the AZDATA_EXTERNAL_KEY_PIN variable is saved encrypted in Big Data Clusters control plane so that it can be interpreted by the application. A different authentication mechanism can be used too, but the application needs to be changed. Check the custom*.py python application for the complete integration logic that's being used.

  2. Configure the key in Big Data Clusters using the following azdata command structure. Change the required parameters to your specific implementation. The following example uses a HashiCorp Vault structure as provided by custom2.py.

    azdata bdc kms update --app-name <YOUR-APP-NAME> --app-version <YOUR-APP-VERSION> \
    --key-attributes keypath=<YOUR-KEY-PATH>,vaulturl=http://<YOUR-IP>:<YOUR-PORT>,keyname=<YOUR-KEY-NAME> \
    --provider External
    

    The --provider External parameter value configures Big Data Clusters KMS to use the integration application as the endpoint for key operations.

  3. Verify the root encryption key as the externally managed one by using the following command.

    azdata bdc kms show
    

Encrypt your databases and encryption zones with the new keys

After the configuration, SQL Server databases and HDFS encryption zones are still encrypted by the previous key hierarchy. You need to explicitly encrypt using the externally managed keys.

In SQL Server, a new asymmetric key based on the externally managed key is installed. Use that to encrypt your databases.

The asymmetric key can be seen using the following T-SQL query, with the sys.asymmetric_keys system catalog view.

USE master;
select * from sys.asymmetric_keys;

The asymmetric key appears with the naming convention tde_asymmetric_key_<version>. The SQL Server administrator can then change the protector of the DEK to the asymmetric key using ALTER DATABASE ENCRYPTION KEY. For example, use the following T-SQL command:

USE db1;
ALTER DATABASE ENCRYPTION KEY ENCRYPTION BY SERVER ASYMMETRIC KEY tde_asymmetric_key_0;
  1. Run the following command to check the current encryption key:

    azdata bdc hdfs key describe
    
  2. Get information about the version of the key protecting the encryption zone key:

    azdata bdc hdfs key describe --name <key name>
    
  3. Roll your key to the new external managed key:

    azdata bdc hdfs key roll --name <new key name>
    
  4. Start encryption by using this command:

    azdata bdc hdfs encryption-zone reencrypt –-path <your EZ path> --action start
    
  5. Verify the key hierarchy using the following commands:

    azdata bdc kms show
    azdata bdc hdfs key describe
    

Next steps