Configure forced tunneling using the classic deployment model
Forced tunneling lets you redirect or "force" all Internet-bound traffic back to your on-premises location via a Site-to-Site VPN tunnel for inspection and auditing. This is a critical security requirement for most enterprise IT policies. Without forced tunneling, Internet-bound traffic from your VMs in Azure will always traverse from Azure network infrastructure directly out to the Internet, without the option to allow you to inspect or audit the traffic. Unauthorized Internet access can potentially lead to information disclosure or other types of security breaches.
Azure currently works with two deployment models: Resource Manager and classic. The two models are not completely compatible with each other. Before you begin, you need to know which model that you want to work in. For information about the deployment models, see Understanding deployment models. If you are new to Azure, we recommend that you use the Resource Manager deployment model.
This article walks you through configuring forced tunneling for virtual networks created using the classic deployment model. Forced tunneling can be configured by using PowerShell, not through the portal. If you want to configure forced tunneling for the Resource Manager deployment model, select Resource Manager article from the following dropdown list:
Requirements and considerations
Forced tunneling in Azure is configured via virtual network user-defined routes (UDR). Redirecting traffic to an on-premises site is expressed as a Default Route to the Azure VPN gateway. The following section lists the current limitation of the routing table and routes for an Azure Virtual Network:
Each virtual network subnet has a built-in, system routing table. The system routing table has the following three groups of routes:
- Local VNet routes: Directly to the destination VMs in the same virtual network.
- On-premises routes: To the Azure VPN gateway.
- Default route: Directly to the Internet. Packets destined to the private IP addresses not covered by the previous two routes will be dropped.
With the release of user-defined routes, you can create a routing table to add a default route, and then associate the routing table to your VNet subnet(s) to enable forced tunneling on those subnets.
You need to set a "default site" among the cross-premises local sites connected to the virtual network.
Forced tunneling must be associated with a VNet that has a dynamic routing VPN gateway (not a static gateway).
ExpressRoute forced tunneling is not configured via this mechanism, but instead, is enabled by advertising a default route via the ExpressRoute BGP peering sessions. Please see the ExpressRoute Documentation for more information.
In the following example, the Frontend subnet is not forced tunneled. The workloads in the Frontend subnet can continue to accept and respond to customer requests from the Internet directly. The Mid-tier and Backend subnets are forced tunneled. Any outbound connections from these two subnets to the Internet will be forced or redirected back to an on-premises site via one of the S2S VPN tunnels.
This allows you to restrict and inspect Internet access from your virtual machines or cloud services in Azure, while continuing to enable your multi-tier service architecture required. You also can apply forced tunneling to the entire virtual networks if there are no Internet-facing workloads in your virtual networks.
Before you begin
Verify that you have the following items before beginning configuration.
- An Azure subscription. If you don't already have an Azure subscription, you can activate your MSDN subscriber benefits or sign up for a free account.
- A configured virtual network.
- The latest version of the Azure PowerShell cmdlets. See How to install and configure Azure PowerShell for more information about installing the PowerShell cmdlets.
Configure forced tunneling
The following procedure will help you specify forced tunneling for a virtual network. The configuration steps correspond to the VNet network configuration file.
<VirtualNetworkSite name="MultiTier-VNet" Location="North Europe"> <AddressSpace> <AddressPrefix>10.1.0.0/16</AddressPrefix> </AddressSpace> <Subnets> <Subnet name="Frontend"> <AddressPrefix>10.1.0.0/24</AddressPrefix> </Subnet> <Subnet name="Midtier"> <AddressPrefix>10.1.1.0/24</AddressPrefix> </Subnet> <Subnet name="Backend"> <AddressPrefix>10.1.2.0/23</AddressPrefix> </Subnet> <Subnet name="GatewaySubnet"> <AddressPrefix>10.1.200.0/28</AddressPrefix> </Subnet> </Subnets> <Gateway> <ConnectionsToLocalNetwork> <LocalNetworkSiteRef name="DefaultSiteHQ"> <Connection type="IPsec" /> </LocalNetworkSiteRef> <LocalNetworkSiteRef name="Branch1"> <Connection type="IPsec" /> </LocalNetworkSiteRef> <LocalNetworkSiteRef name="Branch2"> <Connection type="IPsec" /> </LocalNetworkSiteRef> <LocalNetworkSiteRef name="Branch3"> <Connection type="IPsec" /> </LocalNetworkSiteRef> </Gateway> </VirtualNetworkSite> </VirtualNetworkSite>
In this example, the virtual network 'MultiTier-VNet' has three subnets: 'Frontend', 'Midtier', and 'Backend' subnets, with four cross premises connections: 'DefaultSiteHQ', and three Branches.
The steps will set the 'DefaultSiteHQ' as the default site connection for forced tunneling, and configure the Midtier and Backend subnets to use forced tunneling.
Create a routing table. Use the following cmdlet to create your route table.
New-AzureRouteTable –Name "MyRouteTable" –Label "Routing Table for Forced Tunneling" –Location "North Europe"
Add a default route to the routing table.
The following example adds a default route to the routing table created in Step 1. Note that the only route supported is the destination prefix of "0.0.0.0/0" to the "VPNGateway" NextHop.
Get-AzureRouteTable -Name "MyRouteTable" | Set-AzureRoute –RouteTable "MyRouteTable" –RouteName "DefaultRoute" –AddressPrefix "0.0.0.0/0" –NextHopType VPNGateway
Associate the routing table to the subnets.
After a routing table is created and a route added, use the following example to add or associate the route table to a VNet subnet. The example adds the route table "MyRouteTable" to the Midtier and Backend subnets of VNet MultiTier-VNet.
Set-AzureSubnetRouteTable -VirtualNetworkName "MultiTier-VNet" -SubnetName "Midtier" -RouteTableName "MyRouteTable" Set-AzureSubnetRouteTable -VirtualNetworkName "MultiTier-VNet" -SubnetName "Backend" -RouteTableName "MyRouteTable"
Assign a default site for forced tunneling.
In the preceding step, the sample cmdlet scripts created the routing table and associated the route table to two of the VNet subnets. The remaining step is to select a local site among the multi-site connections of the virtual network as the default site or tunnel.
$DefaultSite = @("DefaultSiteHQ") Set-AzureVNetGatewayDefaultSite –VNetName "MultiTier-VNet" –DefaultSite "DefaultSiteHQ"
Additional PowerShell cmdlets
To delete a route table
Remove-AzureRouteTable -Name <routeTableName>
To list a route table
Get-AzureRouteTable [-Name <routeTableName> [-DetailLevel <detailLevel>]]
To delete a route from a route table
Remove-AzureRouteTable –Name <routeTableName>
To remove a route from a subnet
Remove-AzureSubnetRouteTable –VirtualNetworkName <virtualNetworkName> -SubnetName <subnetName>
To list the route table associated with a subnet
Get-AzureSubnetRouteTable -VirtualNetworkName <virtualNetworkName> -SubnetName <subnetName>
To remove a default site from a VNet VPN gateway
Remove-AzureVnetGatewayDefaultSite -VNetName <virtualNetworkName>