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Deploy and configure Azure Firewall using Azure PowerShell

Controlling outbound network access is an important part of an overall network security plan. For example, you may want to limit access to web sites. Or, you may want to limit the outbound IP addresses and ports that can be accessed.

One way you can control outbound network access from an Azure subnet is with Azure Firewall. With Azure Firewall, you can configure:

  • Application rules that define fully qualified domain names (FQDNs) that can be accessed from a subnet.
  • Network rules that define source address, protocol, destination port, and destination address.

Network traffic is subjected to the configured firewall rules when you route your network traffic to the firewall as the subnet default gateway.

For this article, you create a simplified single VNet with three subnets for easy deployment. For production deployments, a hub and spoke model is recommended, where the firewall is in its own VNet. The workload servers are in peered VNets in the same region with one or more subnets.

  • AzureFirewallSubnet - the firewall is in this subnet.
  • Workload-SN - the workload server is in this subnet. This subnet's network traffic goes through the firewall.
  • AzureBastionSubnet - the subnet used for Azure Bastion, which is used to connect to the workload server.

For more information about Azure Bastion, see What is Azure Bastion?

Important

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.

Diagram that shows a firewall network infrastructure.

In this article, you learn how to:

  • Set up a test network environment
  • Deploy a firewall
  • Create a default route
  • Configure an application rule to allow access to www.google.com
  • Configure a network rule to allow access to external DNS servers
  • Test the firewall

If you prefer, you can complete this procedure using the Azure portal.

If you don't have an Azure subscription, create a free account before you begin.

Prerequisites

This procedure requires that you run PowerShell locally. You must have the Azure PowerShell module installed. Run Get-Module -ListAvailable Az to find the version. If you need to upgrade, see Install Azure PowerShell module. After you verify the PowerShell version, run Connect-AzAccount to create a connection with Azure.

Set up the network

First, create a resource group to contain the resources needed to deploy the firewall. Then create a VNet, subnets, and test servers.

Create a resource group

The resource group contains all the resources for the deployment.

New-AzResourceGroup -Name Test-FW-RG -Location "East US"

Create a virtual network and Azure Bastion host

This virtual network has three subnets:

Note

The size of the AzureFirewallSubnet subnet is /26. For more information about the subnet size, see Azure Firewall FAQ.

$Bastionsub = New-AzVirtualNetworkSubnetConfig -Name AzureBastionSubnet -AddressPrefix 10.0.0.0/27
$FWsub = New-AzVirtualNetworkSubnetConfig -Name AzureFirewallSubnet -AddressPrefix 10.0.1.0/26
$Worksub = New-AzVirtualNetworkSubnetConfig -Name Workload-SN -AddressPrefix 10.0.2.0/24

Now, create the virtual network:

$testVnet = New-AzVirtualNetwork -Name Test-FW-VN -ResourceGroupName Test-FW-RG `
-Location "East US" -AddressPrefix 10.0.0.0/16 -Subnet $Bastionsub, $FWsub, $Worksub

Create public IP address for Azure Bastion host

$publicip = New-AzPublicIpAddress -ResourceGroupName Test-FW-RG -Location "East US" `
   -Name Bastion-pip -AllocationMethod static -Sku standard

Create Azure Bastion host

New-AzBastion -ResourceGroupName Test-FW-RG -Name Bastion-01 -PublicIpAddress $publicip -VirtualNetwork $testVnet

Create a virtual machine

Now create the workload virtual machine, and place it in the appropriate subnet. When prompted, type a user name and password for the virtual machine.

Create a workload virtual machine. When prompted, type a user name and password for the virtual machine.

#Create the NIC
$wsn = Get-AzVirtualNetworkSubnetConfig -Name  Workload-SN -VirtualNetwork $testvnet
$NIC01 = New-AzNetworkInterface -Name Srv-Work -ResourceGroupName Test-FW-RG -Location "East us" -Subnet $wsn

#Define the virtual machine
$SecurePassword = ConvertTo-SecureString "<choose a password>" -AsPlainText -Force
$Credential = New-Object System.Management.Automation.PSCredential ("<choose a user name>", $SecurePassword);
$VirtualMachine = New-AzVMConfig -VMName Srv-Work -VMSize "Standard_DS2"
$VirtualMachine = Set-AzVMOperatingSystem -VM $VirtualMachine -Windows -ComputerName Srv-Work -ProvisionVMAgent -EnableAutoUpdate -Credential $Credential
$VirtualMachine = Add-AzVMNetworkInterface -VM $VirtualMachine -Id $NIC01.Id
$VirtualMachine = Set-AzVMSourceImage -VM $VirtualMachine -PublisherName 'MicrosoftWindowsServer' -Offer 'WindowsServer' -Skus '2019-Datacenter' -Version latest

#Create the virtual machine
New-AzVM -ResourceGroupName Test-FW-RG -Location "East US" -VM $VirtualMachine -Verbose

Note

Azure provides a default outbound access IP for VMs that either aren't assigned a public IP address or are in the backend pool of an internal basic Azure load balancer. The default outbound access IP mechanism provides an outbound IP address that isn't configurable.

The default outbound access IP is disabled when one of the following events happens:

  • A public IP address is assigned to the VM.
  • The VM is placed in the backend pool of a standard load balancer, with or without outbound rules.
  • An Azure NAT Gateway resource is assigned to the subnet of the VM.

VMs that you create by using virtual machine scale sets in flexible orchestration mode don't have default outbound access.

For more information about outbound connections in Azure, see Default outbound access in Azure and Use Source Network Address Translation (SNAT) for outbound connections.

Deploy the firewall

Now deploy the firewall into the virtual network.

# Get a Public IP for the firewall
$FWpip = New-AzPublicIpAddress -Name "fw-pip" -ResourceGroupName Test-FW-RG `
  -Location "East US" -AllocationMethod Static -Sku Standard
# Create the firewall
$Azfw = New-AzFirewall -Name Test-FW01 -ResourceGroupName Test-FW-RG -Location "East US" -VirtualNetwork $testVnet -PublicIpAddress $FWpip

#Save the firewall private IP address for future use

$AzfwPrivateIP = $Azfw.IpConfigurations.privateipaddress
$AzfwPrivateIP

Note the private IP address. You'll use it later when you create the default route.

Create a default route

Create a table, with BGP route propagation disabled

$routeTableDG = New-AzRouteTable `
  -Name Firewall-rt-table `
  -ResourceGroupName Test-FW-RG `
  -location "East US" `
  -DisableBgpRoutePropagation

#Create a route
 Add-AzRouteConfig `
  -Name "DG-Route" `
  -RouteTable $routeTableDG `
  -AddressPrefix 0.0.0.0/0 `
  -NextHopType "VirtualAppliance" `
  -NextHopIpAddress $AzfwPrivateIP `
 | Set-AzRouteTable

#Associate the route table to the subnet

Set-AzVirtualNetworkSubnetConfig `
  -VirtualNetwork $testVnet `
  -Name Workload-SN `
  -AddressPrefix 10.0.2.0/24 `
  -RouteTable $routeTableDG | Set-AzVirtualNetwork

Configure an application rule

The application rule allows outbound access to www.google.com.

$AppRule1 = New-AzFirewallApplicationRule -Name Allow-Google -SourceAddress 10.0.2.0/24 `
  -Protocol http, https -TargetFqdn www.google.com

$AppRuleCollection = New-AzFirewallApplicationRuleCollection -Name App-Coll01 `
  -Priority 200 -ActionType Allow -Rule $AppRule1

$Azfw.ApplicationRuleCollections.Add($AppRuleCollection)

Set-AzFirewall -AzureFirewall $Azfw

Azure Firewall includes a built-in rule collection for infrastructure FQDNs that are allowed by default. These FQDNs are specific for the platform and can't be used for other purposes. For more information, see Infrastructure FQDNs.

Configure a network rule

The network rule allows outbound access to two IP addresses at port 53 (DNS).

$NetRule1 = New-AzFirewallNetworkRule -Name "Allow-DNS" -Protocol UDP -SourceAddress 10.0.2.0/24 `
   -DestinationAddress 209.244.0.3,209.244.0.4 -DestinationPort 53

$NetRuleCollection = New-AzFirewallNetworkRuleCollection -Name RCNet01 -Priority 200 `
   -Rule $NetRule1 -ActionType "Allow"

$Azfw.NetworkRuleCollections.Add($NetRuleCollection)

Set-AzFirewall -AzureFirewall $Azfw

Change the primary and secondary DNS address for the Srv-Work network interface

For testing purposes in this procedure, configure the server's primary and secondary DNS addresses. This isn't a general Azure Firewall requirement.

$NIC01.DnsSettings.DnsServers.Add("209.244.0.3")
$NIC01.DnsSettings.DnsServers.Add("209.244.0.4")
$NIC01 | Set-AzNetworkInterface

Test the firewall

Now, test the firewall to confirm that it works as expected.

  1. Connect to Srv-Work virtual machine using Bastion, and sign in.

    Connect using Bastion.

  2. On Srv-Work, open a PowerShell window and run the following commands:

    nslookup www.google.com
    nslookup www.microsoft.com
    

    Both commands should return answers, showing that your DNS queries are getting through the firewall.

  3. Run the following commands:

    Invoke-WebRequest -Uri https://www.google.com
    Invoke-WebRequest -Uri https://www.google.com
    
    Invoke-WebRequest -Uri https://www.microsoft.com
    Invoke-WebRequest -Uri https://www.microsoft.com
    

    The www.google.com requests should succeed, and the www.microsoft.com requests should fail. This demonstrates that your firewall rules are operating as expected.

So now you've verified that the firewall rules are working:

  • You can resolve DNS names using the configured external DNS server.
  • You can browse to the one allowed FQDN, but not to any others.

Clean up resources

You can keep your firewall resources for the next tutorial, or if no longer needed, delete the Test-FW-RG resource group to delete all firewall-related resources:

Remove-AzResourceGroup -Name Test-FW-RG

Next steps