Overview of Aviatrix Site2Cloud

Problem: Long Latency or Unstable Internet Connectivity

Traditionally enterprises host their IT applications in their own data center or at a co-location. Remote sites typically connect to the data center via an Internet-based IPsec VPN tunnel or MPLS based private network. Such a hub and spoke architecture has been prevalent in the last 15 years.

A problem with this deployment architecture is long latency or unstable Internet connectivity suffered by remote sites, especially between those in different continents. This can cause application time out, resulting in lost productivity and an unhappy user experience. The solution to this pain point has been to deploy some form of WAN optimization in both the remote sites and data center to reduce application latency and reduce data bandwidth. These gears are complex, expensive and not every enterprise can afford them, and in some cases, they don’t always work well.

Solution: Bring Application to User

With the many regions in the world available brought by public cloud providers, such as AWS and Azure, the application latency issue can now be solved in a brand-new way. By placing applications in a region of public cloud that your remote sites are closer to than to the data center, the long latency issue is eliminated altogether. In addition, by moving servers to the cloud, you can reduce remote sites' footprint and the amount of hardware to manage, thus reducing cost for ongoing maintenance.

The comparison between the two deployment architectures is described below:

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In the diagram above, remote sites or branch offices connect to the headquarters' data center via IPsec tunnels. International sites across continents can experience hundreds or more milliseconds in latency and in some countries, connectivity to headquarters is unstable at times.

The first step in deploying an application close to the user is to build a new network architecture as shown on the right side of the diagram above. A remote site now connects via an IPsec tunnel to the closest Aviatrix Gateway in a VPC or VNet in a region closest to the site. Different remote sites may connect to different Aviatrix Gateways. For example, sites in China connect to Aviatrix Gateways in the Azure China region and sites in Europe connect to an Aviatrix Gateway in a VPC in the AWS eu-west-1 region.

After the new network is deployed, you can now replicate Active Directory to VPC/VNet and deploy applications such as ERP in the cloud too. The AD authentication latency and application latency can be reduced to tens of milliseconds. In addition, the remotes are simpler with fewer hardware equipment to manage.

For how to set up Site2Cloud, see Site2Cloud Configuration Workflow.

Use Cases for Site2Cloud

Here are common use cases:

  • SaaS provider to its customer: site If you need to move data continuously and securely from customer or partner sites to your SaaS service hosted in AWS, Azure, or Google, building an encrypted tunnel between the customer site and your SaaS service is required.

  • Branch offices to cloud: If you have branch offices that need to access applications hosted in AWS or Azure, using Site2Cloud is the most economical way to build a secure tunnel. You can use your existing Internet connection and not have to pay extra to SD-WAN vendors to go through their cloud.

The Aviatrix Site2Cloud solution solves these problems:

  • Overlapping IP addresses We run a SaaS operation, the CIDR blocks at your customer sites are not controlled by us. If a customer CIDR block overlaps with our operation VPC/VNet CIDR, we have to find a way to NAT the address. The cloud provider native solution is not usable in this case. For solutions to solving overlapping IP addresses, see Configuring Overlapping Networks with Customized SNAT and DNAT.

  • Traffic Black Hole When the tunnel on the primary gateway is down, VPC/VNet route entry still points to the primary gateway, it does not point to the backup gateway.

  • AWS VPN Gateway Limitation AWS VPN gateway supports 10 connections per VPC. I have more than 10 sites, the native solution is not usable.

  • Azure VPN Gateway Limitation Azure VPN gateway supports only 1 VPN connection for IKEv1. My office firewall device only supports IKEv1.

  • No Visibility Cloud provider’s VPN gateway is a black box, there is no visibility for troubleshooting.

  • No Manual I have to configure and manage hundreds or thousands of IPsec tunnels, the manual way by using traditional vendors such as Cisco ASA and CSR is not possible. For configuration to external devices, see Site2Cloud Configurations with External Devices.

  • Encryption Algorithm Mismatch As SaaS operators, we cannot control what VPN device a customer wishes to use. My end of VPN termination needs to have the flexibility to interoperate with customer equipment. The native solution does not have that flexibility.

  • Too Slow to Onboard a Customer VPN runs on UDP port 500/4500, my customers have to request corporate firewall ports to open, is there a way to run IPsec tunnel on TCP 443?

  • Traffic Direction Problem My SaaS service requires traffic to be initiated from the cloud to the customer site, AWS VPN gateway cannot support this traffic pattern. We have to set up a separate machine to constantly ping to keep the tunnel up!

  • Downtime Problem Some appliances force all IPsec tunnels to reset and go down when a new tunnel is being established, which affects business continuity and is not acceptable when the number of sites go beyond 10.

  • Skill Problem We don’t have a team of CCIEs to handle the load.

In addition, Aviatrix provides a simple point-and-click user interface for you to build and manage a large deployment.

To learn how to set up Aviatrix Site2Cloud, see Site2Cloud Configuration Workflow.

Site2Cloud Frequently Asked Questions

Does Site2Cloud support HA?

You can enable high-availability when you configure a Site2Cloud connection.

What are the encryption algorithms supported?

Type Value

Phase 1 Authentication

SHA-1, SHA-512, SHA-384, SHA-256

Phase 1 DH Groups

1, 2, 5, 14, 15, 16, 17, 18, 19, 20, 21 (20 & 21 IKEv2 Only)

Phase 1 Encryption

AES-256-CBC, AES-256-GCM-64, AES-256-GCM-96, AES-256-GCM-128, AES-192-CBC, AES-128-CBC, AES-128-GCM-64, AES-128-GCM-96, AES-128-GCM-128, 3DES

Phase 2 Authentication

HMAC-SHA-1, HMAC-SHA-512, HMAC-SHA-384, HMAC-SHA-256, NO-AUTH

Phase 2 DH Groups

1, 2, 5, 14, 15, 16, 17, 18, 19, 20, 21 (20 & 21 IKEv2 Only)

Phase 2 Encryption

AES-128-CBC, AES-192-CBC, AES-256-CBC, AES-256-GCM-64, AES-256-GCM-96, AES-256-GCM-128, AES-128-GCM-64, AES-128-GCM-96, AES-128-GCM-128, 3DES, NULL-ENCR

Is IKEv2 supported?

IKEv1 and IKEv2 are supported.

If you already have a Transit to External Device connection using IKEv1, you can create another one using IKEv2.

For IKEv2, you need to create the first Transit to External Device connection with IKEv2 enabled. If your current Transit gateway already has a connection using IKEv1 either is created by attaching the Spoke Gateway or is built in Multi-Cloud Transit > Attach/Detach tab, you need to delete it first before creating the Transit to External Device connection with IKEv2.

For more information, see About External Device Connection Settings.

How frequently are keys rotated?

Re-key for IKE phase 1 is every 8 hours. Re-key for IKE phase 2 is every hour.

How to troubleshoot Site2Cloud connection with IKEv2?

Can you configure a Site2Cloud connection using the same public IP address for the remote gateway and the remote subnet?

In a Site2Cloud connection, the same IP address in the remote gateway peer and the remote subnet is supported. This is useful when configuring a Site2Cloud connection to a third-party environment where only one public IP is exposed.

This feature is supported only for policy-based unmapped Site2Cloud connections in AWS and GCP for standalone gateways, not ActiveMesh gateways.