Veritas InfoScale™ 7.4 Solutions Guide - Linux

Last Published:
Product(s): InfoScale & Storage Foundation (7.4)
Platform: Linux
  1. Section I. Introducing Veritas InfoScale
    1. Introducing Veritas InfoScale
      1.  
        About the Veritas InfoScale product suite
      2.  
        Components of the Veritas InfoScale product suite
  2. Section II. Solutions for Veritas InfoScale products
    1. Solutions for Veritas InfoScale products
      1.  
        Use cases for Veritas InfoScale products
      2.  
        Feature support across Veritas InfoScale 7.4 products
      3.  
        Using SmartMove and Thin Provisioning with Sybase databases
      4.  
        Running multiple parallel applications within a single cluster using the application isolation feature
      5.  
        Scaling FSS storage capacity with dedicated storage nodes using application isolation feature
      6.  
        Finding Veritas InfoScale product use cases information
  3. Section III. Stack-level migration to IPv6 or dual stack
    1. Stack-level migration to IPv6 or dual stack
      1.  
        Migrating Veritas InfoScale products to support IPv6/dual-stack
  4. Section IV. Improving database performance
    1. Overview of database accelerators
      1.  
        About Veritas InfoScale product components database accelerators
    2. Improving database performance with Veritas Concurrent I/O
      1. About Concurrent I/O
        1.  
          How Concurrent I/O works
      2. Tasks for enabling and disabling Concurrent I/O
        1.  
          Enabling Concurrent I/O for Sybase
        2.  
          Disabling Concurrent I/O for Sybase
    3. Improving database performance with atomic write I/O
      1.  
        About the atomic write I/O
      2.  
        Requirements for atomic write I/O
      3.  
        Restrictions on atomic write I/O functionality
      4.  
        How the atomic write I/O feature of Storage Foundation helps MySQL databases
      5.  
        VxVM and VxFS exported IOCTLs
      6.  
        Configuring atomic write I/O support for MySQL on VxVM raw volumes
      7.  
        Configuring atomic write I/O support for MySQL on VxFS file systems
      8.  
        Dynamically growing the atomic write capable file system
      9.  
        Disabling atomic write I/O support
  5. Section V. Using point-in-time copies
    1. Understanding point-in-time copy methods
      1. About point-in-time copies
        1.  
          Implementing point-in time copy solutions on a primary host
        2.  
          Implementing off-host point-in-time copy solutions
      2.  
        When to use point-in-time copies
      3. About Storage Foundation point-in-time copy technologies
        1. Volume-level snapshots
          1.  
            Persistent FastResync of volume snapshots
          2.  
            Data integrity in volume snapshots
        2.  
          Storage Checkpoints
    2. Backing up and recovering
      1.  
        Storage Foundation and High Availability Solutions backup and recovery methods
      2. Preserving multiple point-in-time copies
        1.  
          Setting up multiple point-in-time copies
        2.  
          Refreshing point-in-time copies
        3.  
          Recovering from logical corruption
        4.  
          Off-host processing using refreshed snapshot images
      3. Online database backups
        1. Making a backup of an online database on the same host
          1.  
            Preparing a full-sized instant snapshot for a backup
          2.  
            Preparing a space-optimized snapshot for a database backup
          3.  
            Backing up a Sybase database on the same host
          4.  
            Resynchronizing a volume
        2. Making an off-host backup of an online database
          1.  
            Making an off-host backup of an online Sybase database
          2.  
            Resynchronizing a volume
      4. Backing up on an off-host cluster file system
        1.  
          Mounting a file system for shared access
        2.  
          Preparing a snapshot of a mounted file system with shared access
        3.  
          Backing up a snapshot of a mounted file system with shared access
        4.  
          Resynchronizing a volume from its snapshot volume
        5.  
          Reattaching snapshot plexes
      5. Database recovery using Storage Checkpoints
        1.  
          Creating Storage Checkpoints
        2.  
          Rolling back a database
    3. Backing up and recovering in a NetBackup environment
      1.  
        About Veritas NetBackup
      2.  
        About using NetBackup for backup and restore for Sybase
      3. Using NetBackup in an SFHA Solutions product environment
        1.  
          Clustering a NetBackup Master Server
        2.  
          Backing up and recovering a VxVM volume using NetBackup
        3.  
          Recovering a VxVM volume using NetBackup
    4. Off-host processing
      1.  
        Veritas InfoScale Storage Foundation off-host processing methods
      2. Using a replica database for decision support
        1. Creating a replica database on the same host
          1.  
            Preparing for the replica database
          2.  
            Creating a replica database
        2. Creating an off-host replica database
          1.  
            Setting up a replica database for off-host decision support
          2.  
            Resynchronizing the data with the primary host
          3.  
            Updating a warm standby Sybase ASE 12.5 database
          4.  
            Reattaching snapshot plexes
      3.  
        What is off-host processing?
      4.  
        About using VVR for off-host processing
    5. Creating and refreshing test environments
      1.  
        About test environments
      2.  
        Creating a test environment
      3.  
        Refreshing a test environment
    6. Creating point-in-time copies of files
      1. Using FileSnaps to create point-in-time copies of files
        1.  
          Using FileSnaps to provision virtual desktops
        2.  
          Using FileSnaps to optimize write intensive applications for virtual machines
        3.  
          Using FileSnaps to create multiple copies of data instantly
  6. Section VI. Maximizing storage utilization
    1. Optimizing storage tiering with SmartTier
      1.  
        About SmartTier
      2.  
        About VxFS multi-volume file systems
      3.  
        About VxVM volume sets
      4.  
        About volume tags
      5.  
        SmartTier use cases for Sybase
      6.  
        Setting up a filesystem for storage tiering with SmartTier
      7.  
        Relocating old archive logs to tier two storage using SmartTier
      8.  
        Relocating inactive tablespaces or segments to tier two storage
      9.  
        Relocating active indexes to premium storage
      10.  
        Relocating all indexes to premium storage
    2. Optimizing storage with Flexible Storage Sharing
      1. About Flexible Storage Sharing
        1.  
          Limitations of Flexible Storage Sharing
      2.  
        About use cases for optimizing storage with Flexible Storage Sharing
      3.  
        Setting up an SFRAC clustered environment with shared nothing storage
      4.  
        Implementing the SmartTier feature with hybrid storage
      5.  
        Configuring a campus cluster without shared storage
  7. Section VII. Migrating data
    1. Understanding data migration
      1.  
        Types of data migration
    2. Offline migration from LVM to VxVM
      1.  
        About migration from LVM
      2.  
        Converting unused LVM physical volumes to VxVM disks
      3. LVM volume group to VxVM disk group conversion
        1.  
          Volume group conversion limitations
        2.  
          Converting LVM volume groups to VxVM disk groups
        3. Examples of second stage failure analysis
          1.  
            Snapshot in the volume group
          2.  
            dm_mirror module not loaded in the kernel
          3.  
            Conversion requires extent movement on an LVM1 volume group
          4.  
            Unrecognized partition in volume group
      4. LVM volume group restoration
        1.  
          Restoring an LVM volume group
    3. Offline conversion of native file system to VxFS
      1.  
        About the offline conversion of native file system to VxFS
      2.  
        Requirements for offline conversion of a native file system to VxFS
      3.  
        Converting the native file system to VxFS
    4. Online migration of a native file system to the VxFS file system
      1.  
        About online migration of a native file system to the VxFS file system
      2.  
        Administrative interface for online migration of a native file system to the VxFS file system
      3.  
        Migrating a native file system to the VxFS file system
      4.  
        Backing out an online migration of a native file system to the VxFS file system
      5. VxFS features not available during online migration
        1.  
          Limitations of online migration
    5. Migrating storage arrays
      1.  
        Array migration for storage using Linux
      2.  
        Overview of storage mirroring for migration
      3.  
        Allocating new storage
      4.  
        Initializing the new disk
      5.  
        Checking the current VxVM information
      6.  
        Adding a new disk to the disk group
      7.  
        Mirroring
      8.  
        Monitoring
      9.  
        Mirror completion
      10.  
        Removing old storage
      11.  
        Post-mirroring steps
    6. Migrating data between platforms
      1. Overview of the Cross-Platform Data Sharing (CDS) feature
        1.  
          Shared data across platforms
        2.  
          Disk drive sector size
        3.  
          Block size issues
        4.  
          Operating system data
      2. CDS disk format and disk groups
        1. CDS disk access and format
          1. CDS disk types
            1.  
              Private and public regions
            2.  
              Disk access type auto
            3.  
              Platform block
            4.  
              AIX coexistence label
            5.  
              HP-UX coexistence label
            6.  
              VxVM ID block
          2. About Cross-platform Data Sharing (CDS) disk groups
            1.  
              Device quotas
            2.  
              Minor device numbers
        2.  
          Non-CDS disk groups
        3. Disk group alignment
          1. Alignment values
            1.  
              Dirty region log alignment
          2.  
            Object alignment during volume creation
      3. Setting up your system to use Cross-platform Data Sharing (CDS)
        1. Creating CDS disks from uninitialized disks
          1.  
            Creating CDS disks by using vxdisksetup
          2.  
            Creating CDS disks by using vxdiskadm
        2. Creating CDS disks from initialized VxVM disks
          1.  
            Creating a CDS disk from a disk that is not in a disk group
          2.  
            Creating a CDS disk from a disk that is already in a disk group
        3. Creating CDS disk groups
          1.  
            Creating a CDS disk group by using vxdg init
          2.  
            Creating a CDS disk group by using vxdiskadm
        4.  
          Converting non-CDS disks to CDS disks
        5.  
          Converting a non-CDS disk group to a CDS disk group
        6.  
          Verifying licensing
        7.  
          Defaults files
      4. Maintaining your system
        1. Disk tasks
          1.  
            Changing the default disk format
          2.  
            Restoring CDS disk labels
        2. Disk group tasks
          1.  
            Changing the alignment of a disk group during disk encapsulation
          2.  
            Changing the alignment of a non-CDS disk group
          3.  
            Splitting a CDS disk group
          4.  
            Moving objects between CDS disk groups and non-CDS disk groups
          5.  
            Moving objects between CDS disk groups
          6.  
            Joining disk groups
          7.  
            Changing the default CDS setting for disk group creation
          8.  
            Creating non-CDS disk groups
          9.  
            Upgrading an older version non-CDS disk group
          10.  
            Replacing a disk in a CDS disk group
          11.  
            Setting the maximum number of devices for CDS disk groups
          12.  
            Changing the DRL map and log size
          13.  
            Creating a volume with a DRL log
          14.  
            Setting the DRL map length
        3. Displaying information
          1.  
            Determining the setting of the CDS attribute on a disk group
          2.  
            Displaying the maximum number of devices in a CDS disk group
          3.  
            Displaying map length and map alignment of traditional DRL logs
          4.  
            Displaying the disk group alignment
          5.  
            Displaying the log map length and alignment
          6.  
            Displaying offset and length information in units of 512 bytes
        4.  
          Default activation mode of shared disk groups
        5.  
          Additional considerations when importing CDS disk groups
      5. File system considerations
        1.  
          Considerations about data in the file system
        2.  
          File system migration
        3. Specifying the migration target
          1.  
            Examples of target specifications
        4. Using the fscdsadm command
          1.  
            Checking that the metadata limits are not exceeded
          2. Maintaining the list of target operating systems
            1.  
              Adding an entry to the list of target operating systems
            2.  
              Removing an entry from the list of target operating systems
            3.  
              Removing all entries from the list of target operating systems
            4.  
              Displaying the list of target operating systems
          3.  
            Enforcing the established CDS limits on a file system
          4.  
            Ignoring the established CDS limits on a file system
          5.  
            Validating the operating system targets for a file system
          6.  
            Displaying the CDS status of a file system
        5.  
          Migrating a file system one time
        6. Migrating a file system on an ongoing basis
          1.  
            Stopping ongoing migration
        7.  
          When to convert a file system
        8. Converting the byte order of a file system
          1.  
            Importing and mounting a file system from another system
      6.  
        Alignment value and block size
      7.  
        Migrating a snapshot volume
    7. Migrating from Oracle ASM to Veritas File System
      1.  
        About the migration
      2.  
        Pre-requisites for migration
      3.  
        Preparing to migrate
      4.  
        Migrating Oracle databases from Oracle ASM to VxFS
  8. Section VIII. Just in time availability solution for vSphere
    1. Just in time availability solution for vSphere
      1. About Just In Time Availability
        1.  
          Getting started with Just In Time Availability
      2.  
        Prerequisites
      3.  
        Supported operating systems and configurations
      4.  
        Setting up a plan
      5.  
        Managing a plan
      6.  
        Deleting a plan
      7.  
        Viewing the properties
      8.  
        Viewing the history tab
      9.  
        Limitations of Just In Time Availability
  9. Section IX. Veritas InfoScale 4K sector device support solution
    1. Veritas InfoScale 4k sector device support solution
      1.  
        About 4K sector size technology
      2.  
        Veritas InfoScale unsupported configurations
      3.  
        Migrating VxFS file system from 512-bytes sector size devices to 4K sector size devices
  10. Section X. Reference
    1. Appendix A. Veritas AppProtect logs and operation states
      1.  
        Log files
      2.  
        Plan states
    2. Appendix B. Troubleshooting Veritas AppProtect
      1.  
        Troubleshooting Just In Time Availability

Setting up a plan

Plan is a template which involves a logical grouping of virtual machines so as to increase the availability of the application in the event of a planned failover and recovery of the application in the event of an unexpected application failure.

To set up a plan

  1. Launch Veritas AppProtect from the VMware vSphere Web Client > Home view > Veritas AppProtect icon.
  2. Click Configure Plan.

    The Plan Configuration wizard appears.

  3. Specify a unique Plan Name and Description, and then click Next.

    The wizard validates the system details to ensure that all prerequisite requirements are met.

  4. Select the virtual machines that you want to include in the plan, review the host and operating system details, and then click Next.

    The Unplanned Recovery Settings page appears.

  5. On the Unplanned Recovery Settings page, you can configure the selected virtual machines for Unplanned Recovery as well.

    Deselect the Configure selected VMs for Unplanned Recovery as well check box, if you do not want to include the selected virtual machines for unplanned recovery.

    If you have selected the virtual machines for unplanned recovery, then set up the unplanned recovery policies as appropriate from the available options. You can set up policies to restart applications, restart virtual machines, restart virtual machine on target ESX, and restore a virtual machine on target ESX.

    If you have selected Restore VM on target ESX as the unplanned recovery policy, then you can set up a schedule to create a boot disk back up copy of the virtual machine within the configured plan. You can set the frequency as daily, weekly, monthly, or manual as per your requirement.

    After you have finished making necessary settings for Unplanned Recovery, Click Next.

  6. The wizard validates the prerequisite attributes of the virtual machine and the ESX host, and adds the qualified virtual machines to the plan.

    Click Next after the validation process completes.

  7. In the Disks tab, you can view the selected application data disks. Just In Time Availability solution uses the selected data disks to perform detach-attach operation during a planned failover and unplanned recovery.

    Note:

    If the disks are not auto-marked as selected to perform detach-attach operation, then first refresh the VIOM server and then the VCentre server in VIOM and then create a plan.

  8. In the Network Configuration tab, specify the network interface configuration details for the cloned virtual machine. Make sure to specify at least one public interface and valid IP details.
  9. In the Unplanned Recovery Target tab, specify the target ESX server to restore the virtual machine, and the target ESX port details.

    Note:

    The Unplanned Recovery Target tab is visible only when Restart VM on target ESX or Restore VM on target ESX is selected.

  10. In the Windows Settings tab, specify the domain name, Microsoft Windows product license key, domain user name, domain password, admin password, and time zone index.

    Note:

    The Windows Settings tab is visible only when a Windows virtual machine is selected in the plan.

  11. Click Next. The Summary wizard appears.
  12. In the Summary wizard, review the plan details such as the plan name, unplanned recovery policies, schedule, and so on.

    Deselect the Start backup process on finish checkbox, if you do not want to initiate a backup process when the plan creation procedure is finished. By default, this checkbox is selected.

    Click Create. The plan is created and saved.

  13. Click Finish to return to the plans tab and view the created plans.

See Managing a plan.

See Deleting a plan.