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Configure failover cluster instance - NFS - SQL Server on Linux

Applies to: SQL Server - Linux

This article explains how to configure NFS storage for a failover cluster instance (FCI) on Linux.

NFS, or network file system, is a common method for sharing disks in the Linux world but not the Windows one. Similar to iSCSI, NFS can be configured on a server or some sort of appliance or storage unit as long as it meets the storage requirements for SQL Server.

Important NFS server information

The source hosting NFS (either a Linux server or something else) must be using/compliant with version 4.2 or later. Earlier versions don't work with SQL Server on Linux.

When configuring the folder(s) to be shared on the NFS server, make sure they follow these guidelines general options:

  • rw to ensure that the folder can be read from and written to
  • sync to ensure guaranteed writes to the folder
  • Don't use no_root_squash as an option; it's considered a security risk
  • Make sure the folder has full rights (777) applied

Ensure that your security standards are enforced for accessing. When configuring the folder, make sure that only the servers participating in the FCI should see the NFS folder. In the following example, a modified /etc/exports on a Linux-based NFS solution is shown, where the folder is restricted to FCIN1 and FCIN2.

# /etc/exports: the access control list for filesystems which may be exported
#               to NFS clients. See export(5).
#
/var/nfs/fci1   FCIN1(rw,sync) FCIN2(rw,sync)

Instructions

  1. Choose one of the servers that will participate in the FCI configuration. It doesn't matter which one.

  2. Check to see that the server can see the mount(s) on the NFS server.

    sudo showmount -e <IPAddressOfNFSServer>
    
    • <IPAddressOfNFSServer> is the IP address of the NFS server that you're going to use.
  3. For system databases or anything stored in the default data location, follow these steps. Otherwise, skip to Step 4.

    • Ensure that SQL Server is stopped on the server that you're working on.

      sudo systemctl stop mssql-server
      sudo systemctl status mssql-server
      
    • Switch fully to be the superuser.

      sudo -i
      
    • Switch to be the mssql user.

      su mssql
      
    • Create a temporary directory to store the SQL Server data and log files.

      mkdir <TempDir>
      
      • <TempDir> is the name of the folder. The following example creates a folder named /var/opt/mssql/tmp.
      mkdir /var/opt/mssql/tmp
      
    • Copy the SQL Server data and log files to the temporary directory.

      cp /var/opt/mssql/data/* <TempDir>
      
      • <TempDir> is the name of the folder from the previous step.
    • Verify that the files are in the directory.

      ls TempDir
      
      • <TempDir> is the name of the folder from the previous step.
    • Delete the files from the existing SQL Server data directory.

      rm - f /var/opt/mssql/data/*
      
    • Verify that the files have been deleted.

      ls /var/opt/mssql/data
      
    • Type exit to switch back to the root user.

    • Mount the NFS share in the SQL Server data folder.

      mount -t nfs4 <IPAddressOfNFSServer>:<FolderOnNFSServer> /var/opt/mssql/data -o nfsvers=4.2,timeo=14,intr
      
      • <IPAddressOfNFSServer> is the IP address of the NFS server that you're going to use
      • <FolderOnNFSServer> is the name of the NFS share. The following example syntax matches the NFS information from Step 2.
      mount -t nfs4 10.201.202.63:/var/nfs/fci1 /var/opt/mssql/data -o nfsvers=4.2,timeo=14,intr
      
    • Check to see that the mount was successful by issuing mount with no switches.

      mount
      

      Here's the expected output.

      10.201.202.63:/var/nfs/fcil on /var/opt/mssql/data type nfs4 (rw,relatime,vers=4.2,rsize=524288,wsize=524288,namlen=255,hard, proto=tcp,port=0,timeo=14, retrans=2,sec=sys,clientaddr=10.201.202.128,local lock=none, addr=10.201.202.63)
      
    • Switch to the mssql user.

      su mssql
      
    • Copy the files from the temporary directory /var/opt/mssql/data.

      cp /var/opt/mssql/tmp/* /var/opt/mssqldata
      
    • Verify the files are there.

      ls /var/opt/mssql/data
      
    • Enter exit to not be mssql.

    • Enter exit to not be root.

    • Start SQL Server. If everything was copied correctly and security applied correctly, SQL Server should show as started.

      sudo systemctl start mssql-server
      sudo systemctl status mssql-server
      
    • Create a database to test that security is set up properly. The following example shows that being done via Transact-SQL; it can be done via SSMS.

      Screenshot showing how to create the test database.

    • Stop SQL Server and verify it's shut down.

      sudo systemctl stop mssql-server
      sudo systemctl status mssql-server
      
    • If you aren't creating any other NFS mounts, unmount the share. If you are, don't unmount.

      sudo umount <IPAddressOfNFSServer>:<FolderOnNFSServer> <FolderToMountIn>
      
      • <IPAddressOfNFSServer> is the IP address of the NFS server that you're going to use
      • <FolderOnNFSServer> is the name of the NFS share
      • <FolderMountedIn> is the folder created in the previous step.
  4. For things other than system databases, such as user databases or backups, follow these steps. If only using the default location, skip to Step 5.

    • Switch to be the superuser.

      sudo -i
      
    • Create a folder that will be used by SQL Server.

      mkdir <FolderName>
      
      • <FolderName> is the name of the folder. The folder's full path needs to be specified if not in the right location.

      The following example creates a folder named /var/opt/mssql/userdata.

      mkdir /var/opt/mssql/userdata
      
    • Mount the NFS share in the folder that was created in the previous step.

      mount -t nfs4 <IPAddressOfNFSServer>:<FolderOnNFSServer> <FolderToMountIn> -o nfsvers=4.2,timeo=14,intr
      
      • <IPAddressOfNFSServer> is the IP address of the NFS server that you're going to use
      • <FolderOnNFSServer> is the name of the NFS share
      • <FolderToMountIn> is the folder created in the previous step.

      The following example mounts the NFS share.

      mount -t nfs4 10.201.202.63:/var/nfs/fci2 /var/opt/mssql/userdata -o nfsvers=4.2,timeo=14,intr
      
    • Check to see that the mount was successful by issuing mount with no switches.

    • Type exit to no longer be the superuser.

    • To test, create a database in that folder. The following example uses sqlcmd to create a database, switch context to it, verify the files exist at the OS level, and then deletes the temporary location. You can use SSMS.

      Screenshot of the sqlcmd command and the response to the command.

    • Unmount the share

      sudo umount <IPAddressOfNFSServer>:<FolderOnNFSServer> <FolderToMountIn>
      
      • <IPAddressOfNFSServer> is the IP address of the NFS server that you're going to use
      • <FolderOnNFSServer> is the name of the NFS share
      • <FolderMountedIn> is the folder created in the previous step.
  5. Repeat the steps on the other node(s).