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Tutorial: Use a NAT gateway with a hub and spoke network

A hub and spoke network is one of the building blocks of a highly available multiple location network infrastructure. The most common deployment of a hub and spoke network is done with the intention of routing all inter-spoke and outbound internet traffic through the central hub. The purpose is to inspect all of the traffic traversing the network with a Network Virtual Appliance (NVA) for security scanning and packet inspection.

For outbound traffic to the internet, the network virtual appliance would typically have one network interface with an assigned public IP address. The NVA after inspecting the outbound traffic forwards the traffic out the public interface and to the internet. Azure NAT Gateway eliminates the need for the public IP address assigned to the NVA. Associating a NAT gateway with the public subnet of the NVA changes the routing for the public interface to route all outbound internet traffic through the NAT gateway. The elimination of the public IP address increases security and allows for the scaling of outbound source network address translation (SNAT) with multiple public IP addresses and or public IP prefixes.

Important

The NVA used in this article is for demonstration purposes only and is simulated with an Ubuntu virtual machine. The solution doesn't include a load balancer for high availability of the NVA deployment. Replace the Ubuntu virtual machine in this article with an NVA of your choice. Consult the vendor of the chosen NVA for routing and configuration instructions. A load balancer and availability zones is recommended for a highly available NVA infrastructure.

In this tutorial, you learn how to:

  • Create a NAT gateway.
  • Create a hub and spoke virtual network.
  • Create a simulated Network Virtual Appliance (NVA).
  • Force all traffic from the spokes through the hub.
  • Force all internet traffic in the hub and the spokes out the NAT gateway.
  • Test the NAT gateway and inter-spoke routing.

Prerequisites

Create a NAT gateway

All outbound internet traffic traverses the NAT gateway to the internet. Use the following example to create a NAT gateway for the hub and spoke network.

  1. Sign in to the Azure portal.

  2. In the search box at the top of the portal, enter NAT gateway. Select NAT gateways in the search results.

  3. Select + Create.

  4. In the Basics tab of Create network address translation (NAT) gateway enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select Create new.
    Enter test-rg in Name.
    Select OK.
    Instance details
    NAT gateway name Enter nat-gateway.
    Region Select East US 2.
    Availability zone Select a Zone or No zone.
    TCP idle timeout (minutes) Leave the default of 4.
  5. Select Next: Outbound IP.

  6. In Outbound IP in Public IP addresses, select Create a new public IP address.

  7. Enter public-ip-nat in Name.

  8. Select OK.

  9. Select Review + create.

  10. Select Create.

Create hub virtual network

The hub virtual network is the central network of the solution. The hub network contains the NVA appliance and a public and private subnet. The NAT gateway is assigned to the public subnet during the creation of the virtual network. An Azure Bastion host is configured as part of the following example. The bastion host is used to securely connect to the NVA virtual machine and the test virtual machines deployed in the spokes later in the article.

  1. In the search box at the top of the portal, enter Virtual network. Select Virtual networks in the search results.

  2. Select + Create.

  3. In the Basics tab of Create virtual network, enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Name Enter vnet-hub.
    Region Select East US 2.
  4. Select Next to proceed to the Security tab.

  5. Select Enable Azure Bastion in the Azure Bastion section of the Security tab.

    Azure Bastion uses your browser to connect to VMs in your virtual network over secure shell (SSH) or remote desktop protocol (RDP) by using their private IP addresses. The VMs don't need public IP addresses, client software, or special configuration. For more information about Azure Bastion, see Azure Bastion

    Note

    Hourly pricing starts from the moment that Bastion is deployed, regardless of outbound data usage. For more information, see Pricing and SKUs. If you're deploying Bastion as part of a tutorial or test, we recommend that you delete this resource after you finish using it.

  6. Enter or select the following information in Azure Bastion:

    Setting Value
    Azure Bastion host name Enter bastion.
    Azure Bastion public IP address Select Create a public IP address.
    Enter public-ip-bastion in Name.
    Select OK.
  7. Select Next to proceed to the IP Addresses tab.

  8. In the address space box in Subnets, select the default subnet.

  9. In Edit subnet, enter or select the following information:

    Setting Value
    Subnet purpose Leave the default Default.
    Name Enter subnet-private.
    IPv4
    IPv4 address range Leave the default of 10.0.0.0/16.
    Starting address Leave the default of 10.0.0.0.
    Size Leave the default of /24(256 addresses).
  10. Select Save.

  11. Select + Add a subnet.

  12. In Add subnet, enter or select the following information:

    Setting Value
    Subnet purpose Leave the default Default.
    Name Enter subnet-public.
    IPv4
    IPv4 address range Leave the default of 10.0.0.0/16.
    Starting address Enter 10.0.253.0.
    Size Select /28(16 addresses).
    Security
    NAT gateway Select nat-gateway.
  13. Select Add.

  14. Select Review + create.

  15. Select Create.

It takes a few minutes for the bastion host to deploy. When the virtual network is created as part of the deployment, you can proceed to the next steps.

Create simulated NVA virtual machine

The simulated NVA acts as a virtual appliance to route all traffic between the spokes and hub and traffic outbound to the internet. An Ubuntu virtual machine is used for the simulated NVA. Use the following example to create the simulated NVA and configure the network interfaces.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select + Create then Azure virtual machine.

  3. In Create a virtual machine enter or select the following information in the Basics tab:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Virtual machine name Enter vm-nva.
    Region Select (US) East US 2.
    Availability options Select No infrastructure redundancy required.
    Security type Select Standard.
    Image Select Ubuntu Server 24.04 LTS - x64 Gen2.
    VM architecture Leave the default of x64.
    Size Select a size.
    Administrator account
    Authentication type Select Password.
    Username Enter a username.
    Password Enter a password.
    Confirm password Reenter password.
    Inbound port rules
    Public inbound ports Select None.
  4. Select Next: Disks then Next: Networking.

  5. In the Networking tab, enter or select the following information:

    Setting Value
    Network interface
    Virtual network Select vnet-hub.
    Subnet Select subnet-public (10.0.253.0/28).
    Public IP Select None.
    NIC network security group Select Advanced.
    Configure network security group Select Create new.
    In Name enter nsg-nva.
    Select OK.
  6. Leave the rest of the options at the defaults and select Review + create.

  7. Select Create.

Configure virtual machine network interfaces

The IP configuration of the primary network interface of the virtual machine is set to dynamic by default. Use the following example to change the primary network interface IP configuration to static and add a secondary network interface for the private interface of the NVA.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select vm-nva.

  3. In the Overview select Stop if the virtual machine is running.

  4. Expand Networking then select Network settings.

  5. In Network settings select the network interface name next to Network Interface:. The interface name is the virtual machine name and random numbers and letters. In this example, the interface name is vm-nva271.

  6. In the network interface properties, select IP configurations in Settings.

  7. Select the box next to Enable IP forwarding.

  8. Select Apply.

  9. When the apply action completes, select ipconfig1.

  10. In Private IP address settings in ipconfig1 select Static.

  11. In Private IP address enter 10.0.253.10.

  12. Select Save.

  13. When the save action completes, return to the networking configuration for vm-nva.

  14. In Network settings of vm-nva select Attach network interface.

  15. Select Create and attach network interface.

  16. In Create network interface enter or select the following information:

    Setting Value
    Project details
    Resource group Select test-rg.
    Network interface
    Name Enter nic-private.
    Subnet Select subnet-private (10.0.0.0/24).
    NIC network security group Select Advanced.
    Configure network security group Select nsg-nva.
    Private IP address assignment Select Static.
    Private IP address Enter 10.0.0.10.
  17. Select Create.

Configure virtual machine software

The routing for the simulated NVA uses IP tables and internal NAT in the Ubuntu virtual machine. Connect to the NVA virtual machine with Azure Bastion to configure IP tables and the routing configuration.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select vm-nva.

  3. Start vm-nva.

  4. When the virtual machine is completed booting, continue with the next steps.

  5. In the Overview section, select Connect, then select Connect via Bastion.

  6. Enter the username and password you entered when the virtual machine was created.

  7. Select Connect.

  8. Enter the following information at the prompt of the virtual machine to enable IP forwarding:

    sudo vim /etc/sysctl.conf
    
  9. In the Vim editor, remove the # from the line net.ipv4.ip_forward=1:

    Press the Insert key.

    # Uncomment the next line to enable packet forwarding for IPv4
    net.ipv4.ip_forward=1
    

    Press the Esc key.

    Enter :wq and press Enter.

  10. Enter the following information to enable internal NAT in the virtual machine:

    sudo iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
    sudo apt-get update
    sudo apt install iptables-persistent
    

    Select Yes twice.

    sudo su
    iptables-save > /etc/iptables/rules.v4
    exit
    
  11. Use Vim to edit the configuration with the following information:

    sudo vim /etc/rc.local
    

    Press the Insert key.

    Add the following line to the configuration file:

    /sbin/iptables-restore < /etc/iptables/rules.v4
    

    Press the Esc key.

    Enter :wq and press Enter.

  12. Reboot the virtual machine:

    sudo reboot
    

Create hub network route table

Route tables are used to overwrite Azure's default routing. Create a route table to force all traffic within the hub private subnet through the simulated NVA.

  1. In the search box at the top of the portal, enter Route table. Select Route tables in the search results.

  2. Select + Create.

  3. In Create Route table enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Region Select East US 2.
    Name Enter route-table-nat-hub.
    Propagate gateway routes Leave the default of Yes.
  4. Select Review + create.

  5. Select Create.

  6. In the search box at the top of the portal, enter Route table. Select Route tables in the search results.

  7. Select route-table-nat-hub.

  8. Expand Settings then select Routes.

  9. Select + Add in Routes.

  10. Enter or select the following information in Add route:

    Setting Value
    Route name Enter default-via-nat-hub.
    Destination type Select IP Addresses.
    Destination IP addresses/CIDR ranges Enter 0.0.0.0/0.
    Next hop type Select Virtual appliance.
    Next hop address Enter 10.0.0.10.
    This is the IP address you added to the private interface of the NVA in the previous steps..
  11. Select Add.

  12. Select Subnets in Settings.

  13. Select + Associate.

  14. Enter or select the following information in Associate subnet:

    Setting Value
    Virtual network Select vnet-hub (test-rg).
    Subnet Select subnet-private.
  15. Select OK.

Create spoke one virtual network

Create another virtual network in a different region for the first spoke of the hub and spoke network.

  1. In the search box at the top of the portal, enter Virtual network. Select Virtual networks in the search results.

  2. Select + Create.

  3. In the Basics tab of Create virtual network, enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Name Enter vnet-spoke-1.
    Region Select (US) South Central US.
  4. Select Next to proceed to the Security tab.

  5. Select Next to proceed to the IP addresses tab.

  6. In the IP Addresses tab in IPv4 address space, select Delete address space to delete the address space that is auto populated.

  7. Select Add IPv4 address space.

  8. In IPv4 address space enter 10.1.0.0. Leave the default of /16 (65,536 addresses) in the mask selection.

  9. Select + Add a subnet.

  10. In Add a subnet enter or select the following information:

    Setting Value
    Subnet purpose Leave the default Default.
    Name Enter subnet-private.
    IPv4
    IPv4 address range Leave the default of 10.1.0.0/16.
    Starting address Leave the default of 10.1.0.0.
    Size Leave the default of /24(256 addresses).
  11. Select Add.

  12. Select Review + create.

  13. Select Create.

Create peering between hub and spoke one

A virtual network peering is used to connect the hub to spoke one and spoke one to the hub. Use the following example to create a two-way network peering between the hub and spoke one.

  1. In the search box at the top of the portal, enter Virtual network. Select Virtual networks in the search results.

  2. Select vnet-hub.

  3. Select Peerings in Settings.

  4. Select + Add.

  5. Enter or select the following information in Add peering:

    Setting Value
    Remote virtual network summary
    Peering link name Enter vnet-spoke-1-to-vnet-hub.
    Virtual network deployment model Leave the default of Resource manager.
    Subscription Select your subscription.
    Virtual network Select vnet-spoke-1 (test-rg).
    Remote virtual network peering settings
    Allow 'vnet-spoke-1' to access 'vnet-hub' Leave the default of Selected.
    Allow 'vnet-spoke-1' to receive forwarded traffic from 'vnet-hub' Select the checkbox.
    Allow gateway or route server in 'vnet-spoke-1' to forward traffic to 'vnet-hub' Leave the default of Unselected.
    Enable 'vnet-spoke-1' to use 'vnet-hub's' remote gateway or route server Leave the default of Unselected.
    Local virtual network summary
    Peering link name Enter vnet-hub-to-vnet-spoke-1.
    Local virtual network peering settings
    Allow 'vnet-hub' to access 'vnet-spoke-1' Leave the default of Selected.
    Allow 'vnet-hub' to receive forwarded traffic from 'vnet-spoke-1' Select the checkbox.
    Allow gateway or route server in 'vnet-hub' to forward traffic to 'vnet-spoke-1' Leave the default of Unselected.
    Enable 'vnet-hub' to use 'vnet-spoke-1's' remote gateway or route server Leave the default of Unselected.
  6. Select Add.

  7. Select Refresh and verify Peering status is Connected.

Create spoke one network route table

Create a route table to force all inter-spoke and internet egress traffic through the simulated NVA in the hub virtual network.

  1. In the search box at the top of the portal, enter Route table. Select Route tables in the search results.

  2. Select + Create.

  3. In Create Route table enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Region Select South Central US.
    Name Enter route-table-nat-spoke-1.
    Propagate gateway routes Leave the default of Yes.
  4. Select Review + create.

  5. Select Create.

  6. In the search box at the top of the portal, enter Route table. Select Route tables in the search results.

  7. Select route-table-nat-spoke-1.

  8. In Settings select Routes.

  9. Select + Add in Routes.

  10. Enter or select the following information in Add route:

    Setting Value
    Route name Enter default-via-nat-spoke-1.
    Destination type Select IP Addresses.
    Destination IP addresses/CIDR ranges Enter 0.0.0.0/0.
    Next hop type Select Virtual appliance.
    Next hop address Enter 10.0.0.10.
    This is the IP address you added to the private interface of the NVA in the previous steps..
  11. Select Add.

  12. Select Subnets in Settings.

  13. Select + Associate.

  14. Enter or select the following information in Associate subnet:

    Setting Value
    Virtual network Select vnet-spoke-1 (test-rg).
    Subnet Select subnet-private.
  15. Select OK.

Create spoke one test virtual machine

A Windows Server 2022 virtual machine is used to test the outbound internet traffic through the NAT gateway and inter-spoke traffic in the hub and spoke network. Use the following example to create a Windows Server 2022 virtual machine.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select + Create then Azure virtual machine.

  3. In Create a virtual machine enter or select the following information in the Basics tab:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Virtual machine name Enter vm-spoke-1.
    Region Select (US) South Central US.
    Availability options Select No infrastructure redundancy required.
    Security type Select Standard.
    Image Select Windows Server 2022 Datacenter - x64 Gen2.
    VM architecture Leave the default of x64.
    Size Select a size.
    Administrator account
    Authentication type Select Password.
    Username Enter a username.
    Password Enter a password.
    Confirm password Reenter password.
    Inbound port rules
    Public inbound ports Select None.
  4. Select Next: Disks then Next: Networking.

  5. In the Networking tab, enter or select the following information:

    Setting Value
    Network interface
    Virtual network Select vnet-spoke-1.
    Subnet Select subnet-private (10.1.0.0/24).
    Public IP Select None.
    NIC network security group Select Advanced.
    Configure network security group Select Create new.
    Enter nsg-spoke-1.
    Inbound rules Select + Add an inbound rule.
    Select HTTP in Service.
    Select Add.
    Select OK.
  6. Select OK.

  7. Leave the rest of the options at the defaults and select Review + create.

  8. Select Create.

Wait for the virtual machine to finishing deploying before continuing to the next steps.

Install IIS on spoke one test virtual machine

IIS is installed on the Windows Server 2022 virtual machine to test outbound internet traffic through the NAT gateway and inter-spoke traffic in the hub and spoke network.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select vm-spoke-1.

  3. Expand Operations then select Run command.

  4. Select RunPowerShellScript.

  5. Enter the following script in Run Command Script:

    # Install IIS server role
    Install-WindowsFeature -name Web-Server -IncludeManagementTools
    
    # Remove default htm file
    Remove-Item  C:\inetpub\wwwroot\iisstart.htm
    
    # Add a new htm file that displays server name
    Add-Content -Path "C:\inetpub\wwwroot\iisstart.htm" -Value $("Hello World from " + $env:computername)
    
  6. Select Run.

  7. Wait for the script to complete before continuing to the next step. It can take a few minutes for the script to complete.

  8. When the script completes, the Output displays the following:

    Success Restart Needed Exit Code      Feature Result                               
    ------- -------------- ---------      --------------                               
    True    No             Success        {Common HTTP Features, Default Document, D...
    

Create the second spoke virtual network

Create the second virtual network for the second spoke of the hub and spoke network.

  1. In the search box at the top of the portal, enter Virtual network. Select Virtual networks in the search results.

  2. Select + Create.

  3. In the Basics tab of Create virtual network, enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Name Enter vnet-spoke-2.
    Region Select (US) West US 2.
  4. Select Next to proceed to the Security tab.

  5. Select Next to proceed to the IP addresses tab.

  6. In the IP Addresses tab in IPv4 address space, select Delete address space to delete the address space that is auto populated.

  7. Select Add IPv4 address space.

  8. In IPv4 address space enter 10.2.0.0. Leave the default of /16 (65,536 addresses) in the mask selection.

  9. Select + Add a subnet.

  10. In Add a subnet enter or select the following information:

    Setting Value
    Subnet purpose Leave the default Default.
    Name Enter subnet-private.
    IPv4
    IPv4 address range Leave the default of 10.2.0.0/16.
    Starting address Leave the default of 10.2.0.0.
    Size Leave the default of /24(256 addresses).
  11. Select Add.

  12. Select Review + create.

  13. Select Create.

Create peering between hub and spoke two

Create a two-way virtual network peer between the hub and spoke two.

  1. In the search box at the top of the portal, enter Virtual network. Select Virtual networks in the search results.

  2. Select vnet-hub.

  3. Select Peerings in Settings.

  4. Select + Add.

  5. In the search box at the top of the portal, enter Virtual network. Select Virtual networks in the search results.

  6. Select vnet-hub.

  7. Select Peerings in Settings.

  8. Select + Add.

  9. Enter or select the following information in Add peering:

    Setting Value
    Remote virtual network summary
    Peering link name Enter vnet-spoke-2-to-vnet-hub.
    Virtual network deployment model Leave the default of Resource manager.
    Subscription Select your subscription.
    Virtual network Select vnet-spoke-2 (test-rg).
    Remote virtual network peering settings
    Allow 'vnet-spoke-2' to access 'vnet-hub' Leave the default of Selected.
    Allow 'vnet-spoke-2' to receive forwarded traffic from 'vnet-hub' Select the checkbox.
    Allow gateway or route server in 'vnet-spoke-2' to forward traffic to 'vnet-hub' Leave the default of Unselected.
    Enable 'vnet-spoke-2' to use 'vnet-hub's' remote gateway or route server Leave the default of Unselected.
    Local virtual network summary
    Peering link name Enter vnet-hub-to-vnet-spoke-2.
    Local virtual network peering settings
    Allow 'vnet-hub' to access 'vnet-spoke-2' Leave the default of Selected.
    Allow 'vnet-hub' to receive forwarded traffic from 'vnet-spoke-2' Select the checkbox.
    Allow gateway or route server in 'vnet-hub' to forward traffic to 'vnet-spoke-2' Leave the default of Unselected.
    Enable 'vnet-hub' to use 'vnet-spoke-2's' remote gateway or route server Leave the default of Unselected.
  10. Select Add.

  11. Select Refresh and verify Peering status is Connected.

Create spoke two network route table

Create a route table to force all outbound internet and inter-spoke traffic through the simulated NVA in the hub virtual network.

  1. In the search box at the top of the portal, enter Route table. Select Route tables in the search results.

  2. Select + Create.

  3. In Create Route table enter or select the following information:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Region Select West US 2.
    Name Enter route-table-nat-spoke-2.
    Propagate gateway routes Leave the default of Yes.
  4. Select Review + create.

  5. Select Create.

  6. In the search box at the top of the portal, enter Route table. Select Route tables in the search results.

  7. Select route-table-nat-spoke-2.

  8. In Settings select Routes.

  9. Select + Add in Routes.

  10. Enter or select the following information in Add route:

    Setting Value
    Route name Enter default-via-nat-spoke-2.
    Destination type Select IP Addresses.
    Destination IP addresses/CIDR ranges Enter 0.0.0.0/0.
    Next hop type Select Virtual appliance.
    Next hop address Enter 10.0.0.10.
    This is the IP address you added to the private interface of the NVA in the previous steps..
  11. Select Add.

  12. Select Subnets in Settings.

  13. Select + Associate.

  14. Enter or select the following information in Associate subnet:

    Setting Value
    Virtual network Select vnet-spoke-2 (test-rg).
    Subnet Select subnet-private.
  15. Select OK.

Create spoke two test virtual machine

Create a Windows Server 2022 virtual machine for the test virtual machine in spoke two.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select + Create then Azure virtual machine.

  3. In Create a virtual machine enter or select the following information in the Basics tab:

    Setting Value
    Project details
    Subscription Select your subscription.
    Resource group Select test-rg.
    Instance details
    Virtual machine name Enter vm-spoke-2.
    Region Select (US) West US 2.
    Availability options Select No infrastructure redundancy required.
    Security type Select Standard.
    Image Select Windows Server 2022 Datacenter - x64 Gen2.
    VM architecture Leave the default of x64.
    Size Select a size.
    Administrator account
    Authentication type Select Password.
    Username Enter a username.
    Password Enter a password.
    Confirm password Reenter password.
    Inbound port rules
    Public inbound ports Select None.
  4. Select Next: Disks then Next: Networking.

  5. In the Networking tab, enter or select the following information:

    Setting Value
    Network interface
    Virtual network Select vnet-spoke-2.
    Subnet Select subnet-private (10.2.0.0/24).
    Public IP Select None.
    NIC network security group Select Advanced.
    Configure network security group Select Create new.
    Enter nsg-spoke-2.
    Inbound rules Select + Add an inbound rule.
    Select HTTP in Service.
    Select Add.
    Select OK.
  6. Leave the rest of the options at the defaults and select Review + create.

  7. Select Create.

Wait for the virtual machine to finish deploying before continuing to the next steps.

Install IIS on spoke two test virtual machine

IIS is installed on the Windows Server 2022 virtual machine to test outbound internet traffic through the NAT gateway and inter-spoke traffic in the hub and spoke network.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select vm-spoke-2.

  3. In Operations, select Run command.

  4. Select RunPowerShellScript.

  5. Enter the following script in Run Command Script:

    # Install IIS server role
    Install-WindowsFeature -name Web-Server -IncludeManagementTools
    
    # Remove default htm file
    Remove-Item  C:\inetpub\wwwroot\iisstart.htm
    
    # Add a new htm file that displays server name
    Add-Content -Path "C:\inetpub\wwwroot\iisstart.htm" -Value $("Hello World from " + $env:computername)
    
  6. Select Run.

  7. Wait for the script to complete before continuing to the next step. It can take a few minutes for the script to complete.

  8. When the script completes, the Output* displays the following:

    Success Restart Needed Exit Code      Feature Result                               
    ------- -------------- ---------      --------------                               
    True    No             Success        {Common HTTP Features, Default Document, D...
    

Test NAT gateway

Connect to the Windows Server 2022 virtual machines you created in the previous steps to verify that the outbound internet traffic is leaving the NAT gateway.

Obtain NAT gateway public IP address

Obtain the NAT gateway public IP address for verification of the steps later in the article.

  1. In the search box at the top of the portal, enter Public IP. Select Public IP addresses in the search results.

  2. Select public-ip-nat.

  3. Make note of value in IP address. The example used in this article is 52.153.224.79.

Test NAT gateway from spoke one

Use Microsoft Edge on the Windows Server 2022 virtual machine to connect to https://whatsmyip.com to verify the functionality of the NAT gateway.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select vm-spoke-1.

  3. In Overview, select Connect then Connect via Bastion.

  4. Enter the username and password you entered when the virtual machine was created.

  5. Select Connect.

  6. Open Microsoft Edge when the desktop finishes loading.

  7. In the address bar, enter https://whatsmyip.com.

  8. Verify the outbound IP address displayed is the same as the IP of the NAT gateway you obtained previously.

    Screenshot of outbound IP address.

  9. Leave the bastion connection open to vm-spoke-1.

Test NAT gateway from spoke two

Use Microsoft Edge on the Windows Server 2022 virtual machine to connect to https://whatsmyip.com to verify the functionality of the NAT gateway.

  1. In the search box at the top of the portal, enter Virtual machine. Select Virtual machines in the search results.

  2. Select vm-spoke-2.

  3. In Overview, select Connect then Connect via Bastion.

  4. Enter the username and password you entered when the virtual machine was created.

  5. Select Connect.

  6. Open Microsoft Edge when the desktop finishes loading.

  7. In the address bar, enter https://whatsmyip.com.

  8. Verify the outbound IP address displayed is the same as the IP of the NAT gateway you obtained previously.

    Screenshot of outbound IP address.

  9. Leave the bastion connection open to vm-spoke-2.

Test routing between the spokes

Traffic from spoke one to spoke two and spoke two to spoke one route through the simulated NVA in the hub virtual network. Use the following examples to verify the routing between spokes of the hub and spoke network.

Test routing from spoke one to spoke two

Use Microsoft Edge to connect to the web server on vm-spoke-2 you installed in the previous steps.

  1. Return to the open bastion connection to vm-spoke-1.

  2. Open Microsoft Edge if it's not open.

  3. In the address bar, enter 10.2.0.4.

  4. Verify the IIS page is displayed from vm-spoke-2.

    Screenshot of default IIS page on vm-spoke-1.

  5. Close the bastion connection to vm-spoke-1.

Test routing from spoke two to spoke one

Use Microsoft Edge to connect to the web server on vm-spoke-1 you installed in the previous steps.

  1. Return to the open bastion connection to vm-spoke-2.

  2. Open Microsoft Edge if it's not open.

  3. In the address bar, enter 10.1.0.4.

  4. Verify the IIS page is displayed from vm-spoke-1.

    Screenshot of default IIS page on vm-spoke-2.

  5. Close the bastion connection to vm-spoke-1.

When you finish using the resources that you created, you can delete the resource group and all its resources.

  1. In the Azure portal, search for and select Resource groups.

  2. On the Resource groups page, select the test-rg resource group.

  3. On the test-rg page, select Delete resource group.

  4. Enter test-rg in Enter resource group name to confirm deletion, and then select Delete.

Next steps

Advance to the next article to learn how to use an Azure Gateway Load Balancer for highly available network virtual appliances: