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

Comprehensive and Detailed Step-by-Step Explanation:

The requirement is to query records by CustomerID, which is not the current partition key (OrderID). To achieve this efficiently:

Option A: Create a GSI with CustomerID as the Partition Key:

A Global Secondary Index (GSI) allows developers to create a different partition key and optional sort key for querying the data.

By creating a GSI with CustomerID as the partition key, the developer can query the table efficiently using CustomerID as the primary lookup key.

This avoids scanning the entire table and matches the requirement.

Why Other Options Are Incorrect:

Option B: Using CustomerID as a sort key for the GSI and performing a scan operation is inefficient. Queries are optimized, but scans are not.

Option C and D: Local Secondary Indexes (LSI) are only valid when the partition key remains the same as the base table. Since OrderID is the base table’s partition key, using CustomerID as the partition key or sort key in an LSI is not valid.

This is a classic cross-account S3 access requirement: EC2 instances in Account A must read from a private S3 bucket in Account B without making the bucket public.

The correct pattern is to grant access using IAM + S3 bucket policy while keeping the bucket private. In Account B, you create an IAM role that has the necessary S3 read permissions (such as s3:GetObject and potentially s3:ListBucket depending on access needs). That is Option A.

However, permissions on the role alone are not sufficient, because the S3 bucket is in a different account and is private by default. AWS requires that the bucket owner explicitly grants access to the external principal. This is done by adding a bucket policy in Account B that allows the principal (either the role in Account A or a role session via STS) to access the bucket objects. That is Option D.

Option B is not correct in the “select two” sense because adding permissions to Account A’s instance profile role does not, by itself, grant access to a bucket owned by Account B. You still need the bucket policy or another resource-based policy from the bucket owner.

Option C violates the requirement (“without exposing the S3 bucket to anyone else”). Making the bucket public is unnecessary and insecure.

Option E is incorrect because a trust policy controls who can assume a role (sts:AssumeRole), not what S3 permissions the role has. Also, trust policies do not grant s3:Get* access.

Therefore, create an IAM role with S3 read permissions in Account B and grant access via the Account B bucket policy.

When a Lambda function is configured to run inside a VPC, it receives ENIs in the selected subnets and uses those subnets’ routing to reach other networks. If the function is placed in private subnets (common when it needs to access an RDS database in private subnets), it typically does not have a direct route to the internet. As a result, outbound calls to public external APIs will fail unless the VPC provides a controlled egress path.

The standard AWS networking pattern for private-subnet internet access is a NAT gateway (or NAT instance) deployed in a public subnet , with a route from the private subnet(s) to the NAT gateway (0.0.0.0/0 → NAT). The NAT gateway then uses an internet gateway attached to the VPC to reach the public internet while keeping the Lambda function (and the RDS database) in private address space. This resolves the connectivity issue while maintaining the security posture of private subnets.

Option A is not the solution: Lambda automatically provisions ENIs for VPC-enabled functions; manually provisioning an ENI does not provide internet access. Option C (security group outbound rules) is necessary but not sufficient—security groups control allowed traffic, but without a proper route to the internet (via NAT), the packets still cannot reach external endpoints. Option D (gateway VPC endpoint) is for AWS services like S3 and DynamoDB (gateway endpoints), not for arbitrary public internet APIs, and “in a public subnet” is not how gateway endpoints are used; they are associated with route tables.

Therefore, the correct solution is B : add a NAT gateway in a public subnet and update private subnet route tables so the new Lambda function can reach external public APIs while still accessing the private RDS database.