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

AWS SAM provides built-in tooling to generate realistic event payloads that match the structure of events produced by AWS services (such as S3, SNS, SQS, API Gateway, EventBridge, and others). The command designed specifically for this purpose is sam local generate-event. It produces sample event JSON that mirrors the format AWS services deliver to Lambda, which meets the requirement that payload structures match real service events.

This approach also requires the least development effort because the developer does not need to manually craft and maintain JSON payload files. Instead, the developer can generate the appropriate event type with SAM, optionally tweak values (bucket name, object key, request parameters), and then run sam local invoke using the generated payload. This significantly reduces mistakes and saves time, especially when testing multiple event sources.

Why other options are less suitable:

A (shareable test events) is vague and typically still requires manual creation/maintenance.

B requires manually creating payloads, which is error-prone and higher effort.

C adds unnecessary operational overhead (S3 storage) and still relies on manual payload creation.

Therefore, using sam local generate-event is the quickest and lowest-effort way to generate accurate AWS-service-like test payloads for local Lambda testing.

Understand the Problem: The existing DynamoDB table has email_address as the partition key. Searching by customer_type requires a different data access pattern. We need an efficient way to query for partial matches on email_address based on customer_type.

Why Global Secondary Index (GSI):

GSIs allow you to define a different partition key and sort key from the main table, enabling new query patterns.

In this case, having customer_type as the GSI ' s partition key lets you group all emails with the same customer type together.

Using email_address as the sort key allows ordering within each customer type, facilitating the partial matching.

Querying the GSI:

You ' ll perform a query operation on the GSI, not the original table.

Use the begins_with key condition expression on the GSI ' s sort key (email_address) to find partial matches as the user types in the customer_type field.

The most secure solution is A because AWS Secrets Manager is purpose-built for storing, retrieving, and managing secrets such as database credentials, API keys, and tokens. In AWS guidance, Secrets Manager is recommended when applications need secure secret storage with controlled access, encryption, and integration with runtime retrieval patterns. By storing the credentials as a secret and passing only the secret ARN through an environment variable, the Lambda function avoids exposing the actual username and password in plaintext configuration.

The AWS Parameters and Secrets Lambda Extension is specifically designed to let Lambda functions retrieve secrets securely at invocation time. This reduces the risk of accidental exposure in code, deployment artifacts, or function configuration. Secrets Manager also supports automatic rotation , which is a major security advantage for database credentials and is one of the main reasons AWS recommends it over hardcoded or manually managed values.

Option B is incorrect because base64 is only encoding, not encryption, and embedding credentials in source code is insecure. Option C is less appropriate because a string type parameter in Systems Manager Parameter Store is not the secure choice for sensitive credentials; secure storage there would require SecureString , but even then Secrets Manager is the stronger AWS-recommended service for database secrets. Option D only masks values in CloudFormation outputs and logs with NoEcho ; it does not provide secure runtime secret retrieval or secret lifecycle management.

Therefore, A is the best and most secure answer according to AWS security best practices for Lambda applications handling database credentials.