Create an FCI with Storage Spaces Direct (SQL Server on Azure VMs)

APPLIES TO: SQL Server on Azure VM

Tip

Eliminate the need for an Azure Load Balancer or distributed network name (DNN) for your failover cluster instance by creating your SQL Server VMs in multiple subnets within the same Azure virtual network.

This article explains how to create a failover cluster instance (FCI) by using Storage Spaces Direct with SQL Server on Azure Virtual Machines (VMs). Storage Spaces Direct acts as a software-based virtual storage area network (VSAN) that synchronizes the storage (data disks) between the nodes (Azure VMs) in a Windows cluster.

To learn more, see an overview of FCI with SQL Server on Azure VMs and cluster best practices.

Note

It's now possible to lift and shift your failover cluster instance solution to SQL Server on Azure VMs using Azure Migrate. See Migrate failover cluster instance to learn more.

Overview

Storage Spaces Direct (S2D) supports two types of architectures: converged and hyperconverged. A hyperconverged infrastructure places the storage on the same servers that host the clustered application, so that storage is on each SQL Server FCI node.

The following diagram shows the complete solution, which uses hyperconverged Storage Spaces Direct with SQL Server on Azure VMs:

Diagram of the complete solution, using hyperconverged Storage Spaces Direct

The preceding diagram shows the following resources in the same resource group:

  • Two virtual machines in a Windows Server failover cluster. When a virtual machine is in a failover cluster, it's also called a cluster node or node.
  • Each virtual machine has two or more data disks.
  • Storage Spaces Direct synchronizes the data on the data disks and presents the synchronized storage as a storage pool.
  • The storage pool presents a Cluster Shared Volume (CSV) to the failover cluster.
  • The SQL Server FCI cluster role uses the CSV for the data drives.
  • An Azure load balancer to hold the IP address for the SQL Server FCI for a single subnet scenario.
  • An Azure availability set holds all the resources.

Note

You can create this entire solution in Azure from a template. An example of a template is available on the GitHub Azure quickstart templates page. This example isn't designed or tested for any specific workload. You can run the template to create a SQL Server FCI with Storage Spaces Direct storage connected to your domain. You can evaluate the template and modify it for your purposes.

Prerequisites

Before you complete the instructions in this article, you should already have:

Create Windows Failover Cluster

The steps to create your Windows Server Failover cluster vary depending on if you deployed your SQL Server VMs to a single subnet, or multiple subnets. To create your cluster, follow the steps in the tutorial for either a multi-subnet scenario or a single subnet scenario. Though these tutorials are for creating an availability group, the steps to create the cluster are the same.

Configure quorum

Although the disk witness is the most resilient quorum option, it's not supported for failover cluster instances configured with Storage Spaces Direct. As such, the cloud witness is the recommended quorum solution for this type of cluster configuration for SQL Server on Azure VMs.

If you have an even number of votes in the cluster, configure the quorum solution that best suits your business needs. For more information, see Quorum with SQL Server VMs.

Validate the cluster

Validate the cluster in the Failover Cluster Manager UI or by using PowerShell.

To validate the cluster by using the UI, do the following on one of the virtual machines:

  1. Under Server Manager, select Tools, and then select Failover Cluster Manager.

  2. Under Failover Cluster Manager, select Action, and then select Validate Configuration.

  3. Select Next.

  4. Under Select Servers or a Cluster, enter the names of both virtual machines.

  5. Under Testing options, select Run only tests I select.

  6. Select Next.

  7. Under Test Selection, select all tests except for Storage, as shown here:

    Select cluster validation tests

  8. Select Next.

  9. Under Confirmation, select Next.

    The Validate a Configuration wizard runs the validation tests.

To validate the cluster by using PowerShell, run the following script from an administrator PowerShell session on one of the virtual machines:

Test-Cluster –Node ("<node1>","<node2>") –Include "Storage Spaces Direct", "Inventory", "Network", "System Configuration"

Add storage

The disks for Storage Spaces Direct need to be empty. They can't contain partitions or other data. To clean the disks, follow the instructions in Deploy Storage Spaces Direct.

  1. Enable Storage Spaces Direct.

    The following PowerShell script enables Storage Spaces Direct:

    Enable-ClusterS2D
    

    In Failover Cluster Manager, you can now see the storage pool.

  2. Create a volume.

    Storage Spaces Direct automatically creates a storage pool when you enable it. You're now ready to create a volume. The PowerShell cmdlet New-Volume automates the volume creation process. This process includes formatting, adding the volume to the cluster, and creating a CSV. This example creates an 800 gigabyte (GB) CSV:

    New-Volume -StoragePoolFriendlyName S2D* -FriendlyName VDisk01 -FileSystem CSVFS_REFS -Size 800GB
    

    After you've run the preceding command, an 800-GB volume is mounted as a cluster resource. The volume is at C:\ClusterStorage\Volume1\.

    This screenshot shows a CSV with Storage Spaces Direct:

    Screenshot of a Cluster Shared Volume with Storage Spaces Direct

Test cluster failover

Test the failover of your cluster. In Failover Cluster Manager, right-click your cluster, select More Actions > Move Core Cluster Resource > Select node, and then select the other node of the cluster. Move the core cluster resource to every node of the cluster, and then move it back to the primary node. If you can successfully move the cluster to each node, you're ready to install SQL Server.

Test cluster failover by moving the core resource to the other nodes

Create SQL Server FCI

After you've configured the failover cluster and all cluster components, including storage, you can create the SQL Server FCI.

  1. Connect to the first virtual machine by using RDP.

  2. In Failover Cluster Manager, make sure all core cluster resources are on the first virtual machine. If necessary, move all resources to that virtual machine.

  3. Locate the installation media. If the virtual machine uses one of the Azure Marketplace images, the media is located at C:\SQLServer_<version number>_Full. Select Setup.

  4. In SQL Server Installation Center, select Installation.

  5. Select New SQL Server failover cluster installation. Follow the instructions in the wizard to install the SQL Server FCI.

  6. On the Cluster Network Configuration page, the IP you provide varies depending on if your SQL Server VMs were deployed to a single subnet, or multiple subnets.

    1. For a single subnet environment, provide the IP address that you plan to add to the Azure Load Balancer
    2. For a multi-subnet environment, provide the secondary IP address in the subnet of the first SQL Server VM that you previously designated as the IP address of the failover cluster instance network name:

    provide the secondary IP address in the subnet of the first SQL Server VM that you previously designated as the IP address of the failover cluster instance network name

  7. In Database Engine Configuration, The FCI data directories need to be on clustered storage. With Storage Spaces Direct, it's not a shared disk but a mount point to a volume on each server. Storage Spaces Direct synchronizes the volume between both nodes. The volume is presented to the cluster as a CSV. Use the CSV mount point for the data directories.

    Data directories

  8. After you complete the instructions in the wizard, Setup installs a SQL Server FCI on the first node.

  9. After FCI installation succeeds on the first node, connect to the second node by using RDP.

  10. Open the SQL Server Installation Center. Select Installation.

  11. Select Add node to a SQL Server failover cluster. Follow the instructions in the wizard to install SQL Server and add the node to the FCI.

  12. For a multi-subnet scenario, in Cluster Network Configuration, enter the secondary IP address in the subnet of the second SQL Server VM that you previously designated as the IP address of the failover cluster instance network name

    enter the secondary IP address in the subnet of the second SQL Server VM subnet that you previously designated as the IP address of the failover cluster instance network name

    After selecting Next in Cluster Network Configuration, setup shows a dialog box indicating that SQL Server Setup detected multiple subnets as in the example image. Select Yes to confirm.

    Multi Subnet Confirmation

  13. After you complete the instructions in the wizard, setup adds the second SQL Server FCI node.

  14. Repeat these steps on any other nodes that you want to add to the SQL Server failover cluster instance.

Note

Azure Marketplace gallery images come with SQL Server Management Studio installed. If you didn't use a marketplace image Download SQL Server Management Studio (SSMS).

Register with SQL IaaS extension

To manage your SQL Server VM from the portal, register it with the SQL IaaS Agent extension in lightweight management mode, currently the only mode that's supported with FCI and SQL Server on Azure VMs.

Register a SQL Server VM in lightweight mode with PowerShell (-LicenseType can be PAYG or AHUB):

# Get the existing compute VM
$vm = Get-AzVM -Name <vm_name> -ResourceGroupName <resource_group_name>
         
# Register SQL VM with 'Lightweight' SQL IaaS agent
New-AzSqlVM -Name $vm.Name -ResourceGroupName $vm.ResourceGroupName -Location $vm.Location `
   -LicenseType PAYG -SqlManagementType LightWeight  

Configure connectivity

If you deployed your SQL Server VMs in multiple subnets, skip this step. If you deployed your SQL Server VMs to a single subnet, then you'll need to configure an additional component to route traffic to your FCI. You can configure a virtual network name (VNN) with an Azure Load Balancer, or a distributed network name for a failover cluster instance. Review the differences between the two and then deploy either a distributed network name or a virtual network name and Azure Load Balancer for your failover cluster instance.

Limitations

  • Azure virtual machines support Microsoft Distributed Transaction Coordinator (MSDTC) on Windows Server 2019 with storage on CSVs and a standard load balancer. MSDTC is not supported on Windows Server 2016 and earlier.
  • Disks that have been attached as NTFS-formatted disks can be used with Storage Spaces Direct only if the disk eligibility option is unchecked, or cleared, when storage is being added to the cluster.
  • Only registering with the SQL IaaS Agent extension in lightweight management mode is supported.
  • Failover cluster instances using Storage Spaces Direct as the shared storage do not support using a disk witness for the quorum of the cluster. Use a cloud witness instead.

Next steps

If Storage Spaces Direct isn't the appropriate FCI storage solution for you, consider creating your FCI by using Azure shared disks or Premium File Shares instead.

To learn more, see: