Amazon Web Services DVA-C02 Exam With Confidence Using Practice Dumps

This solution meets the requirements because it uses a PostgreSQL-compatible database that can secure and regularly rotate database credentials without requiring additional programming overhead. Amazon Aurora PostgreSQL is a relational database service that is compatible with PostgreSQL and offers high performance, availability, and scalability. AWS Secrets Manager is a service that helps you protect secrets needed to access your applications, services, and IT resources. You can store database credentials in AWS Secrets Manager and use them to access your Aurora PostgreSQL database. You can also enable automatic rotation of your secrets according to a schedule or an event. AWS Secrets Manager handles the complexity of rotating secrets for you, such as generating new passwords and updating your database with the new credentials. Using Amazon DynamoDB for the database will not meet the requirements because it is a NoSQL database that is not compatible with PostgreSQL. Using AWS Systems Manager Parameter Store for storing and rotating database credentials will require additional programming overhead to integrate with your database.

AWS Secrets Manager is a service that allows you to store and manage secrets, such as database credentials, API keys, and passwords, in a secure and centralized way. It also provides features such as automatic secret rotation, auditing, and monitoring1. By using AWS Secrets Manager, you can avoid hardcoding credentials in your code, which is a bad security practice and makes it difficult to update them. You can also replicate your secrets to another Region, which is useful for disaster recovery purposes2. To access your secrets from your application, you can use the ARN of the secret, which is a unique identifier that includes the Region name. This way, your application can use the appropriate secret based on the Region where it is deployed3.

AWS Secrets Manager

Replicating and sharing secrets

Using your own encryption keys

AWS Secrets Manager supports multi-Region secret replication, which is designed specifically for redundancy, disaster recovery, and multi-Region applications. With this feature, the primary secret resides in one Region (here, us-west-1) and Secrets Manager automatically maintains a replica in another Region (us-east-1). This provides local read access and resilience if one Region is impaired.

Option A accurately describes the standard configuration: enable secret replication and add us-east-1 as the replica Region. Because encryption keys are Region-scoped, the replica secret in us-east-1 should be encrypted with a KMS key in us-east-1 (either the default Secrets Manager key for that Region or a customer managed key), satisfying encryption requirements and proper key locality.

Option B is incorrect because you don’t configure replication “from the destination.” Replication is configured on the primary secret, and the replica uses a KMS key in the replica Region, not in the source Region.

Option C is not how Secrets Manager replication works. Replication is not only during rotation; it maintains replicas continuously. The “replication rule during rotation” framing is not the standard mechanism.

Option D is inappropriate and insecure/operationally complex: exporting secrets to S3 for replication is not the recommended pattern and introduces unnecessary exposure.

Therefore, enable Secrets Manager multi-Region replication and encrypt replicas with a KMS key in the destination Region.