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

The simplest and most efficient way to avoid hardcoding configuration such as a DynamoDB table name is to use Lambda environment variables. Environment variables are designed for runtime configuration and allow changing values without updating application code logic. The developer can store the table name in an environment variable (for example, TABLE_NAME) and read it from the runtime environment using the standard language method (such as os.environ in Python, process.env in Node.js, etc.).

This approach has very low operational overhead: updating the table name becomes a configuration change (in the Lambda console, IaC templates, or CI/CD pipeline) rather than a code change. It also keeps deployment packages stable and avoids unnecessary dependencies.

Option B is not suitable because /tmp is ephemeral storage that can be cleared between invocations and is not intended for configuration management.

Option C is heavier than necessary. Lambda layers are great for shared libraries and dependencies, but using a layer to store a single changing table name is awkward and forces a layer update and function reconfiguration when the value changes.

Option D does not solve the problem because a global variable is still set in the code. If the table name changes, the code must still be modified and redeployed.

Therefore, storing the table name in a Lambda environment variable is the most efficient solution.

The correct policy condition ensures that:

The LeadingKeys condition restricts operations to the authenticated user ' s user_id.

The Attributes condition limits the updatable attributes to user_name.

Explanation of Choices:

Option A: Correctly enforces both the key restriction (dynamodb:LeadingKeys) and ensures only the user_name attribute can be updated.

Option B, C, D: Use incorrect conditions, such as referencing user_name in the LeadingKeys or including other attributes like user_id in updatable fields.

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.