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

AWS CloudFormation is a service that enables developers to model and provision AWS resources using templates. The developer can use the following steps to avoid accidental database deletion in the future:

Set up AWS CodeDeploy to deploy the most recent version of the application at runtime. This will ensure that the application code is always up to date and does not depend on the AMI.

Remove any commands that perform operating system patching from the UserData script. This will reduce the time that the UserData script takes to run and speed up the instance launch process.

The requirement is to search for partial matches of email_address but scoped to a specific customer_type. In DynamoDB, efficient partial matching is performed with a Query on a sort key using the begins_with() condition. However, Query requires that the partition key be specified exactly, so we need an index where customer_type can be used as the partition key, and email_address can be used as the sort key for prefix matching.

A Global Secondary Index (GSI) can be added to an existing table without recreating it, and it can use a different partition key and sort key from the base table. Option A correctly proposes a GSI with:

Partition key: customer_type

Sort key: email_address

Then the Lambda can run a Query on the GSI like: customer_type = :ct AND begins_with(email_address, :prefix) which returns emails that start with the typed prefix for that customer type.

Option B is wrong because it keeps email_address as the partition key. That would require an exact email value (not a prefix) to Query, and you cannot do begins_with on a partition key; begins_with is for sort keys.

Options C and D are invalid because Local Secondary Indexes (LSIs) must share the same partition key as the base table (here, email_address). You cannot create an LSI with customer_type or job_title as the partition key when the table partition key is email_address.

Therefore, adding a GSI (customer_type PK, email_address SK) and querying it with begins_with is the correct solution.

When using AWS SAM local (sam local invoke, sam local start-api), the Lambda code runs in a local container on the developer’s machine. If that code uses the AWS SDK to call AWS services, it needs AWS credentials available in the local environment. The recommended way is to rely on the AWS SDK’s standard credential provider chain, which includes credentials stored by the AWS CLI in ~/.aws/credentials and selected via a named profile.

By running aws configure --profile , the developer creates a dedicated set of access keys (and optionally a session token/region) for the test account. Then, running SAM with sam local invoke --profile causes SAM to supply those credentials to the local container so the function can authenticate to AWS and make real API calls in the intended test account. This approach is clean, repeatable, and avoids hardcoding secrets into templates or source code.

Option A is insecure and not the intended use of SAM templates; templates are infrastructure definitions, not secret stores. Option C sets the Lambda execution role for deployed functions in AWS, but it does not automatically grant credentials to code running locally on a laptop. Option D misuses --parameter-overrides, which is meant for overriding template parameters at deployment/build time, not for securely injecting AWS access keys into local execution.

Therefore, the correct approach is B: configure an AWS CLI profile and run SAM local with the --profile option so the Lambda code can call AWS APIs in the test account using standard credential handling.