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

Sensitive environment variables in Lambda should be protected using encryption helpers integrated with AWS KMS. Lambda environment variables are encrypted at rest, and when using a customer managed KMS key, teams can control the key policy, access, and rotation for their own microservices—matching the policy requirement that each team has “full control” over key rotation. AWS managed keys do not provide the same level of customer control over lifecycle and rotation decisions.

Therefore, the correct approach is to create customer managed KMS keys (one per team/service boundary or per microservice, depending on governance) and configure each Lambda function to use the relevant CMK for encrypting its environment variables. The Lambda execution role must have permission to use the key for decryption at runtime, typically requiring kms:Decrypt (and sometimes kms:DescribeKey depending on tooling). This is captured by Option B.

Option A and D use AWS managed keys, which do not satisfy the requirement for each team to control rotation. Rotation control (and policy ownership) is a key differentiator of customer managed keys.

Option C is not correct because the Lambda execution role does not need kms:CreateGrant and kms:Encrypt for decrypting environment variables at runtime. Over-permissioning increases risk. The Lambda service handles encryption of environment variables; the function runtime principally needs the ability to decrypt.

The requirements call for (1) standardized templates to define serverless infrastructure, (2) the ability to test locally before deployment, and (3) integrating deployment and infrastructure changes into an existing AWS CodePipeline workflow. AWS Serverless Application Model (AWS SAM) is designed specifically for serverless applications and extends CloudFormation with serverless-specific resources (such as AWS::Serverless::Function, APIs, event sources). SAM also provides the SAM CLI , which includes local testing capabilities (for example, sam local invoke and sam local start-api) that emulate Lambda and API Gateway behavior for rapid iteration before deployment.

Option A fits all requirements: create an AWS SAM template as the infrastructure definition and add pipeline stages that execute the necessary SAM CLI commands (commonly sam build and sam deploy, and optionally test commands) as part of the CI/CD process. This makes deployments repeatable and automated, ensures infrastructure changes are deployed in lockstep with application changes, and keeps everything governed by the existing CodePipeline.

Option D uses SAM but relies on a standalone script outside the pipeline, which conflicts with the requirement to incorporate infrastructure changes into the existing pipeline. Option C (plain CloudFormation) can define infrastructure, but it does not inherently provide the same streamlined local testing workflow that SAM CLI provides for serverless event sources and APIs. Option B is unrelated: Step Functions is an orchestration service and its definition language is not a general infrastructure templating and local-testing solution for serverless deployments.

Therefore, A is the correct strategy: use AWS SAM templates and integrate SAM CLI build/deploy steps into CodePipeline to automate deployments and support local testing while managing infrastructure as code.