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Chapter 4. Enabling multipathing on NVMe devices


You can multipath Non-volatile Memory Express™ (NVMe™) devices that are connected to your system over a fabric transport, such as Fibre Channel (FC). You can select between multiple multipathing solutions.

4.1. Native NVMe multipathing and DM Multipath

Non-volatile Memory Express™ (NVMe™) devices support a native multipathing functionality. When configuring multipathing on NVMe, you can select between the standard DM Multipath framework and the native NVMe multipathing.

Both DM Multipath and native NVMe multipathing support the Asymmetric Namespace Access (ANA) multipathing scheme of NVMe devices. ANA identifies optimized paths between the controller and the host, and improves performance.

When native NVMe multipathing is enabled, it applies globally to all NVMe devices. It can provide higher performance, but does not contain all of the functionality that DM Multipath provides. For example, native NVMe multipathing supports only the numa and round-robin path selection methods.

By default, NVMe multipathing is enabled in Red Hat Enterprise Linux 9 and is the recommended multipathing solution.

4.2. Enabling DM Multipath on NVMe devices

The default kernel setting for the nvme_core.multipath option is set to Y, which means that the native Non-volatile Memory Express™ (NVMe™) multipathing is enabled. You can enable DM Multipath on connected NVMe devices by disabling native NVMe multipathing.

Prerequisites

Procedure

  1. Check if the native NVMe multipathing is enabled:

    # cat /sys/module/nvme_core/parameters/multipath

    The command displays one of the following:

    N
    Native NVMe multipathing is disabled.
    Y
    Native NVMe multipathing is enabled.
  2. If the native NVMe multipathing is enabled, disable it by using one of the following methods:

    • Using a kernel option:

      1. Add the nvme_core.multipath=N option to the command line:

        # grubby --update-kernel=ALL --args="nvme_core.multipath=N"
      2. On the 64-bit IBM Z architecture, update the boot menu:

        # zipl
      3. Reboot the system.
    • Using a kernel module configuration file:

      1. Create the /etc/modprobe.d/nvme_core.conf configuration file with the following content:

        options nvme_core multipath=N
      2. Back up the initramfs file:

        # cp /boot/initramfs-$(uname -r).img /boot/initramfs-$(uname -r).bak.$(date +%m%d-%H%M%S).img
      3. Rebuild the initramfs:

        # cp /boot/initramfs-$(uname -r).img /boot/initramfs-$(uname -r).bak.$(date +%m-%d-%H%M%S).img
        # dracut --force --verbose
      4. Reboot the system.
  3. Enable DM Multipath:

    # systemctl enable --now multipathd.service
  4. Distribute I/O on all available paths. Add the following content in the /etc/multipath.conf file:

    devices {
            device {
                    vendor "NVME"
                    product ".*"
                    path_grouping_policy group_by_prio
            }
    }
    Note

    The /sys/class/nvme-subsystem/nvme-subsys0/iopolicy configuration file has no effect on the I/O distribution when DM Multipath manages the NVMe devices.

  5. Reload the multipathd service to apply the configuration changes:

    # multipath -r

Verification

  • Verify if the native NVMe multipathing is disabled:

    # cat /sys/module/nvme_core/parameters/multipath
    N
  • Verify if DM multipath recognizes the nvme devices:

    # multipath -l
    
    eui.00007a8962ab241100a0980000d851c8 dm-6 NVME,NetApp E-Series
    size=20G features='0' hwhandler='0' wp=rw
    `-+- policy='service-time 0' prio=0 status=active
      |- 0:10:2:2 nvme0n2 259:3 active undef running
    `-+- policy='service-time 0' prio=0 status=enabled
      |- 4:11:2:2 nvme4n2 259:28 active undef running
    `-+- policy='service-time 0' prio=0 status=enabled
      |- 5:32778:2:2 nvme5n2 259:38 active undef running
    `-+- policy='service-time 0' prio=0 status=enabled
      |- 6:32779:2:2 nvme6n2 259:44 active undef running

4.3. Enabling native NVMe multipathing

If native NVMe multipathing is disabled, you can enable it using the following solution.

Prerequisites

Procedure

  1. Check if native NVMe multipathing is enabled in the kernel:

    # cat /sys/module/nvme_core/parameters/multipath

    The command displays one of the following:

    N
    Native NVMe multipathing is disabled.
    Y
    Native NVMe multipathing is enabled.
  2. If native NVMe multipathing is disabled, enable it by using one of the following methods:

    • Using a kernel option:

      1. Remove the nvme_core.multipath=N option from the kernel command line:

        # grubby --update-kernel=ALL --remove-args="nvme_core.multipath=N"
      2. On the 64-bit IBM Z architecture, update the boot menu:

        # zipl
      3. Reboot the system.
    • Using a kernel module configuration file:

      1. Remove the /etc/modprobe.d/nvme_core.conf configuration file:

        # rm /etc/modprobe.d/nvme_core.conf
      2. Back up the initramfs file:

        # cp /boot/initramfs-$(uname -r).img /boot/initramfs-$(uname -r).bak.$(date +%m-%d-%H%M%S).img
      3. Rebuild the initramfs:

        # dracut --force --verbose
      4. Reboot the system.
  3. Optional: On the running system, change the I/O policy on NVMe devices to distribute the I/O on all available paths:

    # echo "round-robin" > /sys/class/nvme-subsystem/nvme-subsys0/iopolicy
  4. Optional: Set the I/O policy persistently using udev rules. Create the /etc/udev/rules.d/71-nvme-io-policy.rules file with the following content:

    ACTION=="add|change", SUBSYSTEM=="nvme-subsystem", ATTR{iopolicy}="round-robin"

Verification

  1. Verify if your system recognizes the NVMe devices. The following example assumes you have a connected NVMe over fabrics storage subsystem with two NVMe namespaces:

    # nvme list
    
    Node             SN                   Model                                    Namespace Usage                      Format           FW Rev
    ---------------- -------------------- ---------------------------------------- --------- -------------------------- ---------------- --------
    /dev/nvme0n1     a34c4f3a0d6f5cec     Linux                                    1         250.06  GB / 250.06  GB    512   B +  0 B   4.18.0-2
    /dev/nvme0n2     a34c4f3a0d6f5cec     Linux                                    2         250.06  GB / 250.06  GB    512   B +  0 B   4.18.0-2
  2. List all connected NVMe subsystems:

    # nvme list-subsys
    
    nvme-subsys0 - NQN=testnqn
    \
     +- nvme0 fc traddr=nn-0x20000090fadd597a:pn-0x10000090fadd597a host_traddr=nn-0x20000090fac7e1dd:pn-0x10000090fac7e1dd live
     +- nvme1 fc traddr=nn-0x20000090fadd5979:pn-0x10000090fadd5979 host_traddr=nn-0x20000090fac7e1dd:pn-0x10000090fac7e1dd live
     +- nvme2 fc traddr=nn-0x20000090fadd5979:pn-0x10000090fadd5979 host_traddr=nn-0x20000090fac7e1de:pn-0x10000090fac7e1de live
     +- nvme3 fc traddr=nn-0x20000090fadd597a:pn-0x10000090fadd597a host_traddr=nn-0x20000090fac7e1de:pn-0x10000090fac7e1de live

    Check the active transport type. For example, nvme0 fc indicates that the device is connected over the Fibre Channel transport, and nvme tcp indicates that the device is connected over TCP.

  3. If you edited the kernel options, verify if native NVMe multipathing is enabled on the kernel command line:

    # cat /proc/cmdline
    
    BOOT_IMAGE=[...] nvme_core.multipath=Y
  4. If you changed the I/O policy, verify if round-robin is the active I/O policy on NVMe devices:

    # cat /sys/class/nvme-subsystem/nvme-subsys0/iopolicy
    
    round-robin
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