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8.10. Enabling pNFS SCSI Layouts in NFS


You can configure the NFS server and client to use the pNFS SCSI layout for accessing data. pNFS SCSI is beneficial in use cases that involve longer-duration single-client access to a file.

Prerequisites

  • Both the client and the server must be able to send SCSI commands to the same block device. That is, the block device must be on a shared SCSI bus.
  • The block device must contain an XFS file system.
  • The SCSI device must support SCSI Persistent Reservations as described in the SCSI-3 Primary Commands specification.

8.10.1. pNFS SCSI Layouts

The SCSI layout builds on the work of pNFS block layouts. The layout is defined across SCSI devices. It contains a sequential series of fixed-size blocks as logical units (LUs) that must be capable of supporting SCSI persistent reservations. The LU devices are identified by their SCSI device identification.
pNFS SCSI performs well in use cases that involve longer-duration single-client access to a file. An example might be a mail server or a virtual machine housing a cluster.

Operations Between the Client and the Server

When an NFS client reads from a file or writes to it, the client performs a LAYOUTGET operation. The server responds with the location of the file on the SCSI device. The client might need to perform an additional operation of GETDEVICEINFO to determine which SCSI device to use. If these operations work correctly, the client can issue I/O requests directly to the SCSI device instead of sending READ and WRITE operations to the server.
Errors or contention between clients might cause the server to recall layouts or not issue them to the clients. In those cases, the clients fall back to issuing READ and WRITE operations to the server instead of sending I/O requests directly to the SCSI device.

Device Reservations

pNFS SCSI handles fencing through the assignment of reservations. Before the server issues layouts to clients, it reserves the SCSI device to ensure that only registered clients may access the device. If a client can issue commands to that SCSI device but is not registered with the device, many operations from the client on that device fail. For example, the blkid command on the client fails to show the UUID of the XFS file system if the server has not given a layout for that device to the client.
The server does not remove its own persistent reservation. This protects the data within the file system on the device across restarts of clients and servers. In order to repurpose the SCSI device, you might need to manually remove the persistent reservation on the NFS server.

8.10.2. Checking for a SCSI Device Compatible with pNFS

This procedure checks if a SCSI device supports the pNFS SCSI layout.

Prerequisites

  • Install the sg3_utils package:
    # yum install sg3_utils

Procedure 8.4. Checking for a SCSI Device Compatible with pNFS

  • On both the server and client, check for the proper SCSI device support:
    # sg_persist --in --report-capabilities --verbose path-to-scsi-device
    Ensure that the Persist Through Power Loss Active (PTPL_A) bit is set.

    Example 8.8.  A SCSI device that supports pNFS SCSI

    The following is an example of sg_persist output for a SCSI device that supports pNFS SCSI. The PTPL_A bit reports 1.
        inquiry cdb: 12 00 00 00 24 00
        Persistent Reservation In cmd: 5e 02 00 00 00 00 00 20 00 00
      LIO-ORG   block11           4.0
      Peripheral device type: disk
    Report capabilities response:
      Compatible Reservation Handling(CRH): 1
      Specify Initiator Ports Capable(SIP_C): 1
      All Target Ports Capable(ATP_C): 1
      Persist Through Power Loss Capable(PTPL_C): 1
      Type Mask Valid(TMV): 1
      Allow Commands: 1
      Persist Through Power Loss Active(PTPL_A): 1
        Support indicated in Type mask:
          Write Exclusive, all registrants: 1
          Exclusive Access, registrants only: 1
          Write Exclusive, registrants only: 1
          Exclusive Access: 1
          Write Exclusive: 1
          Exclusive Access, all registrants: 1
    

Additional Resources

  • The sg_persist(8) man page

8.10.3. Setting up pNFS SCSI on the Server

This procedure configures an NFS server to export a pNFS SCSI layout.

Procedure 8.5. Setting up pNFS SCSI on the Server

  1. On the server, mount the XFS file system created on the SCSI device.
  2. Configure the NFS server to export NFS version 4.1 or higher. Set the following option in the [nfsd] section of the /etc/nfs.conf file:
    [nfsd]
    
    vers4.1=y
    
  3. Configure the NFS server to export the XFS file system over NFS with the pnfs option:

    Example 8.9. An Entry in /etc/exports to Export pNFS SCSI

    The following entry in the /etc/exports configuration file exports the file system mounted at /exported/directory/ to the allowed.example.com client as a pNFS SCSI layout:
    /exported/directory allowed.example.com(pnfs)

Additional Resources

8.10.4. Setting up pNFS SCSI on the Client

This procedure configures an NFS client to mount a pNFS SCSI layout.

Prerequisites

Procedure 8.6. Setting up pNFS SCSI on the Client

  • On the client, mount the exported XFS file system using NFS version 4.1 or higher:
    # mount -t nfs -o nfsvers=4.1 host:/remote/export /local/directory
    Do not mount the XFS file system directly without NFS.

Additional Resources

8.10.5. Releasing the pNFS SCSI Reservation on the Server

This procedure releases the persistent reservation that an NFS server holds on a SCSI device. This enables you to repurpose the SCSI device when you no longer need to export pNFS SCSI.
You must remove the reservation from the server. It cannot be removed from a different IT Nexus.

Prerequisites

  • Install the sg3_utils package:
    # yum install sg3_utils

Procedure 8.7. Releasing the pNFS SCSI Reservation on the Server

  1. Query an existing reservation on the server:
    # sg_persist --read-reservation path-to-scsi-device

    Example 8.10. Querying a Reservation on /dev/sda

    # sg_persist --read-reservation /dev/sda
    
      LIO-ORG   block_1           4.0
      Peripheral device type: disk
      PR generation=0x8, Reservation follows:
        Key=0x100000000000000
        scope: LU_SCOPE,  type: Exclusive Access, registrants only
    
  2. Remove the existing registration on the server:
    # sg_persist --out \
                 --release \
                 --param-rk=reservation-key \
                 --prout-type=6 \
                 path-to-scsi-device

    Example 8.11. Removing a Reservation on /dev/sda

    # sg_persist --out \
                 --release \
                 --param-rk=0x100000000000000 \
                 --prout-type=6 \
                 /dev/sda
    
      LIO-ORG   block_1           4.0
      Peripheral device type: disk
    

Additional Resources

  • The sg_persist(8) man page

8.10.6. Monitoring pNFS SCSI Layouts Functionality

You can monitor if the pNFS client and server exchange proper pNFS SCSI operations or if they fall back on regular NFS operations.

Prerequisites

  • A pNFS SCSI client and server are configured.

8.10.6.1. Checking pNFS SCSI Operations from the Server Using nfsstat

This procedure uses the nfsstat utility to monitor pNFS SCSI operations from the server.

Procedure 8.8. Checking pNFS SCSI Operations from the Server Using nfsstat

  1. Monitor the operations serviced from the server:
    # watch --differences \
            "nfsstat --server | egrep --after-context=1 read\|write\|layout"
    
    Every 2.0s: nfsstat --server | egrep --after-context=1 read\|write\|layout
    
    putrootfh    read         readdir      readlink     remove	 rename
    2         0% 0         0% 1         0% 0         0% 0         0% 0         0%
    --
    setcltidconf verify	  write        rellockowner bc_ctl	 bind_conn
    0         0% 0         0% 0         0% 0         0% 0         0% 0         0%
    --
    getdevlist   layoutcommit layoutget    layoutreturn secinfononam sequence
    0         0% 29        1% 49        1% 5         0% 0         0% 2435     86%
    
  2. The client and server use pNFS SCSI operations when:
    • The layoutget, layoutreturn, and layoutcommit counters increment. This means that the server is serving layouts.
    • The server read and write counters do not increment. This means that the clients are performing I/O requests directly to the SCSI devices.

8.10.6.2. Checking pNFS SCSI Operations from the Client Using mountstats

This procedure uses the /proc/self/mountstats file to monitor pNFS SCSI operations from the client.

Procedure 8.9. Checking pNFS SCSI Operations from the Client Using mountstats

  1. List the per-mount operation counters:
    # cat /proc/self/mountstats \
          | awk /scsi_lun_0/,/^$/ \
          | egrep device\|READ\|WRITE\|LAYOUT
    
    device 192.168.122.73:/exports/scsi_lun_0 mounted on /mnt/rhel7/scsi_lun_0 with fstype nfs4 statvers=1.1
        nfsv4:  bm0=0xfdffbfff,bm1=0x40f9be3e,bm2=0x803,acl=0x3,sessions,pnfs=LAYOUT_SCSI
                READ: 0 0 0 0 0 0 0 0
               WRITE: 0 0 0 0 0 0 0 0
            READLINK: 0 0 0 0 0 0 0 0
             READDIR: 0 0 0 0 0 0 0 0
           LAYOUTGET: 49 49 0 11172 9604 2 19448 19454
        LAYOUTCOMMIT: 28 28 0 7776 4808 0 24719 24722
        LAYOUTRETURN: 0 0 0 0 0 0 0 0
         LAYOUTSTATS: 0 0 0 0 0 0 0 0
    
  2. In the results:
    • The LAYOUT statistics indicate requests where the client and server use pNFS SCSI operations.
    • The READ and WRITE statistics indicate requests where the client and server fall back to NFS operations.
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