Guest clustering in a virtual network
Applies to: Windows Server 2022, Windows Server 2019, Windows Server 2016, Azure Stack HCI, versions 21H2 and 20H2
Virtual machines connected to a virtual network are only permitted to use the IP addresses that Network Controller has assigned to communicate on the network. Clustering technologies that require a floating IP address, such as Microsoft Failover Clustering, require some extra steps to function correctly.
The method for making the floating IP reachable is to use a Software Load Balancer (SLB) virtual IP (VIP). The software load balancer must be configured with a health probe on a port on that IP so that SLB directs traffic to the machine that currently has that IP.
Example: Load balancer configuration
This example assumes that you've already created the VMs that will become cluster nodes, and attached them to a Virtual Network. For guidance, refer to Create a VM and Connect to a Tenant Virtual Network or VLAN.
In this example, you will create a virtual IP address (192.168.2.100) to represent the floating IP address of the cluster, and configure a health probe to monitor TCP port 59999 to determine which node is the active one.
Select the VIP.
Prepare by assigning a VIP IP address, which can be any unused or reserved address in the same subnet as the cluster nodes. The VIP must match the floating address of the cluster.
$VIP = "192.168.2.100" $subnet = "Subnet2" $VirtualNetwork = "MyNetwork" $ResourceId = "MyNetwork_InternalVIP"
Create the load balancer properties object.
$LoadBalancerProperties = new-object Microsoft.Windows.NetworkController.LoadBalancerProperties
Create a front-end IP address.
$LoadBalancerProperties.frontendipconfigurations += $FrontEnd = new-object Microsoft.Windows.NetworkController.LoadBalancerFrontendIpConfiguration $FrontEnd.properties = new-object Microsoft.Windows.NetworkController.LoadBalancerFrontendIpConfigurationProperties $FrontEnd.resourceId = "Frontend1" $FrontEnd.resourceRef = "/loadBalancers/$ResourceId/frontendIPConfigurations/$($FrontEnd.resourceId)" $FrontEnd.properties.subnet = new-object Microsoft.Windows.NetworkController.Subnet $FrontEnd.properties.subnet.ResourceRef = "/VirtualNetworks/MyNetwork/Subnets/Subnet2" $FrontEnd.properties.privateIPAddress = $VIP $FrontEnd.properties.privateIPAllocationMethod = "Static"
Create a back-end pool to contain the cluster nodes.
$BackEnd = new-object Microsoft.Windows.NetworkController.LoadBalancerBackendAddressPool $BackEnd.properties = new-object Microsoft.Windows.NetworkController.LoadBalancerBackendAddressPoolProperties $BackEnd.resourceId = "Backend1" $BackEnd.resourceRef = "/loadBalancers/$ResourceId/backendAddressPools/$($BackEnd.resourceId)" $LoadBalancerProperties.backendAddressPools += $BackEnd
Add a probe to detect which cluster node the floating address is currently active on.
Note
The probe query against the VM's permanent address at the port defined below. The port must only respond on the active node.
$LoadBalancerProperties.probes += $lbprobe = new-object Microsoft.Windows.NetworkController.LoadBalancerProbe $lbprobe.properties = new-object Microsoft.Windows.NetworkController.LoadBalancerProbeProperties $lbprobe.ResourceId = "Probe1" $lbprobe.resourceRef = "/loadBalancers/$ResourceId/Probes/$($lbprobe.resourceId)" $lbprobe.properties.protocol = "TCP" $lbprobe.properties.port = "59999" $lbprobe.properties.IntervalInSeconds = 5 $lbprobe.properties.NumberOfProbes = 11
Add the load balancing rules for TCP port 1433.
You can modify the protocol and port as needed. You can also repeat this step multiple times for other ports and protocols on this VIP. It is important that EnableFloatingIP is set to $true because this tells the load balancer to send the packet to the node with the original VIP in place.
$LoadBalancerProperties.loadbalancingRules += $lbrule = new-object Microsoft.Windows.NetworkController.LoadBalancingRule $lbrule.properties = new-object Microsoft.Windows.NetworkController.LoadBalancingRuleProperties $lbrule.ResourceId = "Rules1" $lbrule.properties.frontendipconfigurations += $FrontEnd $lbrule.properties.backendaddresspool = $BackEnd $lbrule.properties.protocol = "TCP" $lbrule.properties.frontendPort = $lbrule.properties.backendPort = 1433 $lbrule.properties.IdleTimeoutInMinutes = 4 $lbrule.properties.EnableFloatingIP = $true $lbrule.properties.Probe = $lbprobe
Create the load balancer in Network Controller.
$lb = New-NetworkControllerLoadBalancer -ConnectionUri $URI -ResourceId $ResourceId -Properties $LoadBalancerProperties -Force
Add the cluster nodes to the backend pool.
You can add as many nodes to the pool as you require for the cluster.
# Cluster Node 1 $nic = get-networkcontrollernetworkinterface -connectionuri $uri -resourceid "ClusterNode1_Network-Adapter" $nic.properties.IpConfigurations[0].properties.LoadBalancerBackendAddressPools += $lb.properties.backendaddresspools[0] $nic = new-networkcontrollernetworkinterface -connectionuri $uri -resourceid $nic.resourceid -properties $nic.properties -force # Cluster Node 2 $nic = get-networkcontrollernetworkinterface -connectionuri $uri -resourceid "ClusterNode2_Network-Adapter" $nic.properties.IpConfigurations[0].properties.LoadBalancerBackendAddressPools += $lb.properties.backendaddresspools[0] $nic = new-networkcontrollernetworkinterface -connectionuri $uri -resourceid $nic.resourceid -properties $nic.properties -force
Once you've created the load balancer and added the network interfaces to the backend pool, you are ready to configure the cluster.
(Optional) If you are using a Microsoft Failover Cluster, continue with the next example.
Example 2: Configuring a Microsoft failover cluster
You can use the following steps to configure a failover cluster.
Install and configure properties for a failover cluster.
add-windowsfeature failover-clustering -IncludeManagementTools Import-module failoverclusters $ClusterName = "MyCluster" $ClusterNetworkName = "Cluster Network 1" $IPResourceName = $ILBIP = "192.168.2.100" $nodes = @("DB1", "DB2")
Create the cluster on one node.
New-Cluster -Name $ClusterName -NoStorage -Node $nodes[0]
Stop the cluster resource.
Stop-ClusterResource "Cluster Name"
Set the cluster IP and probe port.
The IP address must match the front-end ip address used in the previous example, and the probe port must match the probe port in the previous example.
Get-ClusterResource "Cluster IP Address" | Set-ClusterParameter -Multiple @{"Address"="$ILBIP";"ProbePort"="59999";"SubnetMask"="255.255.255.255";"Network"="$ClusterNetworkName";"EnableDhcp"=0}
Start the cluster resources.
Start-ClusterResource "Cluster IP Address" -Wait 60 Start-ClusterResource "Cluster Name" -Wait 60
Add the remaining nodes.
Add-ClusterNode $nodes[1]
Your cluster is active. Traffic going to the VIP on the specified port is directed at the active node.