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

Requirement Summary:

Trigger an AWS Step Functions state machine (test execution)

Only when a specific AWS CloudFormation stack is deployed

Option A: Create a Lambda function to invoke the state machine

Valid approach: Lambda can be used as an intermediary trigger for Step Functions using the SDK (e.g., StartExecution API).

Offers flexibility (custom filtering, additional logic).

Option B: Create EventBridge rule filtering on UPDATE_IN_PROGRESS

Incorrect: UPDATE_IN_PROGRESS triggers before the stack is fully deployed.

You need to trigger after deployment, such as UPDATE_COMPLETE or CREATE_COMPLETE.

Option C: EventBridge Pipes with Lambda target filtering on UPDATE_IN_PROGRESS

Incorrect for same reason as B (wrong timing).

Also, EventBridge Pipes are not necessary here if you ' re using rules directly.

Option D: Pipe with EventBridge Rule as source and Step Functions as target

Invalid setup: EventBridge Pipes use event sources, not rules, as input.

This configuration is unsupported.

Option E: Add the state machine as a target of the EventBridge rule

Direct and low-overhead approach.

EventBridge natively supports Step Functions as a target.

You can trigger the state machine without a Lambda if the filter matches (e.g., ResourceStatus = CREATE_COMPLETE, with the correct StackId).

Step Functions as EventBridge target:

EventBridge CloudFormation events:

StartExecution API:

This solution will ensure that all orders and updates are stored to Amazon S3 with the least development effort because it uses DynamoDB Streams to capture changes in the DynamoDB table and trigger a Lambda function to write those changes to the S3 bucket. This way, the original Lambda function and API Gateway API endpoint do not need to be modified, and no additional services are required. Option A is not optimal because it will require more development effort to create a new Lambda function and a new API Gateway API endpoint, and to modify the original Lambda function to post updates to the new API endpoint. Option B is not optimal because it will introduce additional costs and complexity to use Amazon Kinesis Data Streams to create a new data stream, and to modify the Lambda function to publish orders to the data stream. Option D is not optimal because it will require more development effort to modify the Lambda function to publish to a new Amazon SNS topic, and to create and subscribe a new Lambda function to the topic.

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.