A company needs to allow its remote users to access company resources in the AWS Cloud. The company has two VPCs that are connected through VPC peering. The remote users must be able to access resources in both VPCs by using secure connections from their laptop computers. The company does not want to implement an access management solution that requires additional costs or effort.
Which solution meets these requirements?
A. Deploy an AWS Client VPN endpoint in one VPC, associate a subnet, and define a target network. Add a rule to authorize client access to the target VPC, and add a rule to authorize client access to the peered VPC. Update resource security groups in both VPCs to allow traffic from the security group for the subnet association. Instruct the users to sign in to the AWS Management Console and navigate to Client VPN to connect to the Client VPN endpoint.
B. Deploy an AWS Client VPN endpoint in both VPCs, associate subnets, and define a target network. Add a rule to authorize client access to each target VPC. Update resource security groups in both VPCs to allow traffic from the security groups of each VPC for the subnet associations. Securely send the users the configuration options, and instruct the users to install Client VPN on their laptops. Instruct the users to connect to both Client VPN endpoints at the same time to gain access to the resources.
C. Deploy a Network Load Balancer in front of the company resources. Set up security groups that contain the IP addresses of each of the user laptops. Instruct the users to connect to the application securely over TCP.
D. Deploy an AWS Client VPN endpoint in one VPC, associate a subnet, and define a target network. Add a rule to authorize client access to the target VPC, and add a rule to authorize client access to the peered VPC. Update resource security groups in both VPCs to allow traffic from the security group for the subnet association. Securely send the users the configuration options, and instruct the users to install Client VPN on their laptops. Instruct the users to connect to the Client VPN endpoint to gain access to the resources.
Which solution meets these requirements?
A. Deploy an AWS Client VPN endpoint in one VPC, associate a subnet, and define a target network. Add a rule to authorize client access to the target VPC, and add a rule to authorize client access to the peered VPC. Update resource security groups in both VPCs to allow traffic from the security group for the subnet association. Instruct the users to sign in to the AWS Management Console and navigate to Client VPN to connect to the Client VPN endpoint.
B. Deploy an AWS Client VPN endpoint in both VPCs, associate subnets, and define a target network. Add a rule to authorize client access to each target VPC. Update resource security groups in both VPCs to allow traffic from the security groups of each VPC for the subnet associations. Securely send the users the configuration options, and instruct the users to install Client VPN on their laptops. Instruct the users to connect to both Client VPN endpoints at the same time to gain access to the resources.
C. Deploy a Network Load Balancer in front of the company resources. Set up security groups that contain the IP addresses of each of the user laptops. Instruct the users to connect to the application securely over TCP.
D. Deploy an AWS Client VPN endpoint in one VPC, associate a subnet, and define a target network. Add a rule to authorize client access to the target VPC, and add a rule to authorize client access to the peered VPC. Update resource security groups in both VPCs to allow traffic from the security group for the subnet association. Securely send the users the configuration options, and instruct the users to install Client VPN on their laptops. Instruct the users to connect to the Client VPN endpoint to gain access to the resources.