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

In DynamoDB, a ConditionalCheckFailedException occurs when an UpdateItem, PutItem, or DeleteItem operation includes a ConditionExpression that evaluates to false for the target item at the time of the write. This is expected behavior: DynamoDB uses conditional expressions for optimistic concurrency control and for enforcing business rules atomically at write time.

In this scenario, the developer wants to update only items whose status is Inactive by adding an email address. The most correct way to prevent conditional failures is to ensure the update request’s condition matches the intended target state. By adding (or correcting) a condition expression such as #st = :inactive (with expression attribute names/values), the update will proceed only when the item’s status is actually "Inactive". Items that are "Active" will be skipped by design rather than causing unexpected failures in the workflow.

Option B checks whether the email attribute exists, but that does not enforce the key business rule (“only inactive items”) and may still fail depending on whether the attribute is present or absent across items. Option C (retry on ConditionalCheckFailedException) is not appropriate: the failure is not transient like throttling; it indicates the condition was not met, and retrying will likely fail again unless the item changes state. Option D is unrelated because email format validation is not what triggers DynamoDB conditional failures; the exception is about the conditional expression not matching item state.

Therefore, the correct fix is A: update the request’s conditional expression to explicitly check that status equals "Inactive" before applying the update. This ensures only the intended items are modified and eliminates unnecessary conditional failures.

The EC2 instances are in private subnets with no public internet access, yet the CloudWatch agent must publish metrics to Amazon CloudWatch. To send metrics, the instances need: (1) network connectivity to CloudWatch APIs, and (2) IAM permissions that allow the agent to publish metrics and logs.

The most secure approach is to avoid opening outbound internet access via a NAT gateway (which increases the network attack surface) and instead use AWS PrivateLink through a VPC interface endpoint for CloudWatch. An interface endpoint provides private connectivity from the VPC to CloudWatch without traversing the public internet.

On the permissions side, AWS provides the managed IAM policy CloudWatchAgentServerPolicy, which is intended for the CloudWatch agent running on servers to publish metrics/logs. Attaching this policy to the EC2 instance profile role provides the needed permissions while keeping scope appropriate (unlike an admin policy).

Why the other options are not best:

A uses CloudWatchAgentAdminPolicy (broader permissions than needed) and a NAT gateway (public internet path). That is not “most secure.”

B is irrelevant here because the agent is already installed and running; the issue is publishing connectivity/permissions.

D grants read-only access, which cannot publish metrics, so it cannot fix the issue.

Therefore, attach CloudWatchAgentServerPolicy to the instance role and create a VPC interface endpoint for CloudWatch.

The issue occurs because the SSM Parameter Store parameters are managed by CloudFormation as stack resources. When CloudFormation performs a stack update, it will attempt to ensure the deployed resources match the template. If the template includes a parameter value, CloudFormation can overwrite the current value during updates, which explains why the application’s runtime modifications are lost.

The developer’s requirement is to continue deploying the stack (including adding resources/tags) without resetting parameter values that are modified outside CloudFormation. The lowest-effort way to do this is to prevent CloudFormation from updating those specific Parameter Store resources during stack updates.

A CloudFormation stack policy can explicitly deny update actions on selected resources (in this case, the SSM parameters). Stack policies are designed to protect critical resources from being unintentionally modified during stack updates. With an update-deny policy applied to the SSM parameter resources, CloudFormation can still update other resources (such as adding tags or creating new components), but it will not overwrite the parameter values that the application has changed.

Option A (DeletionPolicy: Retain) only affects what happens when a resource is deleted or replaced, not whether CloudFormation updates the resource in place. It will not reliably prevent stack updates from resetting values.

Options B and C are larger architecture changes and require migrating configuration storage to DynamoDB or RDS—much more development effort and operational overhead.

Therefore, applying a stack policy to deny updates on Parameter Store parameters is the best and least-effort solution.