Amazon Web Services SAA-C03 Exam With Confidence Using Practice Dumps

To ensure container images are secure and to notify administrators about vulnerabilities, the solution needs (1) a vulnerability scanning capability for container images and (2) a notification mechanism that alerts when findings occur. Amazon Inspector provides automated security assessments and can scan container images stored in Amazon ECR to identify software vulnerabilities and unintended network exposure patterns, producing findings that can be acted upon. Therefore, D addresses the core requirement of detecting vulnerabilities in container images.

To notify administrators with minimal custom work, AWS Config can help by evaluating resources against desired configurations and integrating with notifications through AWS services (for example, via Amazon SNS using Config rules/conformance packs). Using the AWS Config conformance pack for Amazon ECS helps establish a managed set of compliance checks aligned to ECS-related best practices. While Inspector is the system that detects vulnerabilities, Config can be used to enforce and monitor governance controls around the container environment and can trigger notifications when noncompliance is detected. In exam patterns, pairing an Inspector detection capability with a managed governance/notification framework like Config is a common “two-part” answer.

The other options do not meet the requirement: A (privileged mode) can increase risk rather than improve image security; logging does not equal vulnerability detection. C is unrelated because AWS WAF protects web applications at the edge and does not scan container images for CVEs. E is incorrect because Parameter Store stores configuration data and secrets; it does not encrypt container images (ECR encryption at rest is handled by AWS-managed mechanisms and KMS integration, not Parameter Store).

So D provides scanning and B supports managed compliance/notification controls with low operational overhead.

Amazon Kinesis Data Streams in on-demand mode is purpose-built for real-time ingestion of streaming data and scales automatically with traffic, which is ideal for fluctuating workloads like clickstream data.

Combined with AWS Lambda, which scales concurrently based on incoming events, this setup ensures efficient, real-time processing with minimal configuration and cost overhead.

Option B involves Firehose, which is not optimal for low-latency processing. Option C is incorrect as Kinesis Video Streams is designed for video data, not clickstream. Option D introduces Flink, which adds unnecessary complexity when Lambda suffices.

The IAM policy includes two statements:

1️⃣ Allow ec2:TerminateInstances on all resources

2️⃣ Deny ec2:TerminateInstances if the request does NOT come from:

192.0.2.0/24

203.0.113.0/24

AWS IAM policy evaluation rules state:

Explicit Deny always overrides Allow.

A request must meet all applicable conditions in the policy to be granted.

aws:SourceIp condition applies when IAM actions are invoked via the public AWS APIs.

In this scenario, the administrator is not originating the request from one of the allowed CIDR blocks, so the Deny condition is triggered, overriding the Allow statement.

Therefore, the operation is blocked with:

403 AccessDenied: explicit deny

This matches the behavior described in the AWS IAM Policy Evaluation Logic used in the Security Pillar of the Well-Architected Framework:

Explicit Deny > Allow > Default Deny

IP-based Conditions restrict API calls originating outside approved network ranges

Options A/B/C do not accurately reflect this explicit Deny condition behavior.