About Aviatrix ActiveMesh

ActiveMesh is an Aviatrix Encrypted Transit Network architecture where both primary gateways and backup gateways forward packets in a load balancing fashion. The architecture statistically doubles the network throughput. In addition, in ActiveMesh mode, multiple remotes sites can be connected to the Aviatrix Transit gateways.

ActiveMesh is enabled by default, and cannot be disabled.

The diagram below shows an ActiveMesh deployment between Spoke and Transit where each Spoke Gateway in a VPC/VNet builds two IPsec tunnels to the primary and backup transit gateways and forwards packets to both of them inside the tunnel. The load balance mechanism leverages ECMP protocol.

activemesh_spoke_transit

When Aviatrix Controller detects that an ActiveMesh gateway is down, Controller automatically starts it again. Once the gateway comes up, it participates in packet forwarding again.

Key advantages of ActiveMesh

The key benefits of ActiveMesh are improved network resiliency, failover convergence time and performance.

ActiveMesh for Transit Gateway Peering

ActiveMesh can be applied to connect two Transit GWs. There are 4 tunnels established between the Transit GWs, as shown in the diagram below.

activemesh_transit_transit

ActiveMesh Connection to VGW

Each Transit GW connecting to the VGW in ActiveMesh mode has two VPN tunnels to the VGW.

The link between two ActiveMesh gateways is used to forward packets when both tunnels are down for one of the ActiveMesh gateway.

For example, in a spoke VPC/VNet, virtual machine (EC2/GCE) traffic is forwarded to the ActiveMesh primary gateway which then forwards traffic to the AVX Transit GW. If both tunnels between the ActiveMesh spoke gateway and the Transit GW are down, the packet is forwarded by the ActiveMesh primary gateway to the backup ActiveMesh gateway.

activemesh_tunnel_failures

ActiveMesh 2.0

ActiveMesh 2.0 is a new iteration of ActiveMesh. The main advancement of ActiveMesh 2.0 is its deterministic nature of Next Hop selection.

Here is how Aviatrix Transit Gateway routing engine treats the following types of routes.

Networks Route Type Aviatrix Transit Gateway Route Propagation

Local TGW attached VPC/VNet CIDR

tgwvpc

Local

Aviatrix Spoke gateway associated VPC/VNet CIDR

vpc

Local

Azure Native Spoke associated VNet CIDR

vpc

Local

Local TGW VPN dynamically learned network CIDR

tgwedge

Advertises TGW VPN ASN and its remote peer ASN to a remote BGP peer if it’s the best route.

Local TGW DXGW learned network CIDR

tgwedge

Advertises TGW DXGW ASN and its remote peer ASN to a remote BGP peer if it’s the best route.

Remote Aviatrix Transit Gateway Peering learned routes

peer

Advertises remote Aviatrix peer’s network CIDRs to a remote BGP peer if it’s the best route.

Aviatrix Transit Gateway BGP learned from on-prem

bgp

Advertises to its remote peers by Aviatrix Transit Gateway peering if it’s the best route.

Aviatrix Transit Gateway statically learned from on-prem

static

Local

Aviatrix Transit Gateway associated VPC/VNet CIDR

linklocal

Local

Local Firewall Egress route (0.0.0.0/0)

transit

Local

Aviatrix Transit Gateway SNAT IP address

linklocal

Local

With this approach, there is more visibility on learned routes regarding what paths the routes are learned from.

The next hop best path selection follows the priorities listed below.

  1. Local

  2. Shortest number of ASN list

  3. For two identical length ASN routes, selects the next hop with the lowest Metric Value.

  4. For two identical ASN length and Metric Value routes, if ECMP is disabled (this is the default configuration), selects the current best route. If there is no current best route, the next hop IP addresses are compared, the lower integer IP address is selected.

  5. For two identical ASN length and Metric Value routes, if ECMP is enabled, traffic is distributed to both routes using ECMP.

Migrating to ActiveMesh 2.0

There are 3 scenarios:

Deployment Notes ActiveMesh 2.0 Migration

Non ActiveMesh deployment

The Aviatrix Transit Gateway in the deployment has been launched before Release 5.1 (10/1/2019)

See Migrating from Classic Aviatrix Encrypted Transit Network to Aviatrix ActiveMesh Transit Network.

ActiveMesh 1.0 deployment

The Aviatrix Transit Gateway was launched with ActiveMesh option enabled prior to Release 6.0

Migrate to ActiveMesh 2.0 by going to Settings > Maintenance > Migration > ActiveMesh 2.0 Migration, click Migrate.

ActiveMesh 2.0 deployment

The Aviatrix Transit Gateway was launched with ActiveMesh enabled after Release 6.0

ActiveMesh 2.0 is automatically enabled for brand new deployment on Controller.