InfoScale™ 9.0 Storage Foundation and High Availability Solutions HA and DR Solutions Guide for Enterprise Vault - Windows

Last Published:
Product(s): InfoScale & Storage Foundation (9.0)
Platform: Windows
  1. Introducing SFW HA for EV
    1.  
      About clustering solutions with InfoScale products
    2.  
      About high availability
    3.  
      How a high availability solution works
    4. How VCS monitors storage components
      1.  
        Shared storage - if you use NetApp filers
      2.  
        Shared storage - if you use SFW to manage cluster dynamic disk groups
      3.  
        Shared storage - if you use Windows LDM to manage shared disks
      4.  
        Non-shared storage - if you use SFW to manage dynamic disk groups
      5.  
        Non-shared storage - if you use Windows LDM to manage local disks
      6.  
        Non-shared storage - if you use VMware storage
    5.  
      About replication
    6.  
      About disaster recovery
    7.  
      What you can do with a disaster recovery solution
    8.  
      Typical disaster recovery configuration
  2. Configuring high availability for Enterprise Vault with InfoScale Enterprise
    1. Reviewing the HA configuration
      1. Active-Passive configuration
        1.  
          Sample Active-Passive configuration
        2.  
          IP addresses for sample Active-Passive configuration
    2. Reviewing the disaster recovery configuration
      1.  
        Sample disaster recovery configuration
      2.  
        IP addresses for disaster recovery configuration
      3.  
        Supported disaster recovery configurations for service group dependencies
    3.  
      High availability (HA) configuration (New Server)
    4.  
      Following the HA workflow in the Solutions Configuration Center
    5. Disaster recovery configuration
      1.  
        DR configuration tasks: Primary site
      2.  
        DR configuration tasks: Secondary site
    6. Notes and recommendations for cluster and application configuration
      1.  
        IPv6 support
    7.  
      Configuring the storage hardware and network
    8. Configuring cluster disk groups and volumes for Enterprise Vault
      1.  
        About cluster disk groups and volumes
      2.  
        Prerequisites for configuring cluster disk groups and volumes
      3.  
        Considerations for a fast failover configuration
      4.  
        Considerations for disks and volumes for campus clusters
      5.  
        Considerations for volumes for a Volume Replicator configuration
      6.  
        Sample disk group and volume configuration
      7.  
        Viewing the available disk storage
      8.  
        Creating a cluster disk group
      9.  
        Creating Volumes
      10.  
        About managing disk groups and volumes
      11.  
        Importing a disk group and mounting a volume
      12.  
        Unmounting a volume and deporting a disk group
      13.  
        Adding drive letters to mount the volumes
      14.  
        Deporting the cluster disk group
    9.  
      Configuring the cluster
    10.  
      Adding a node to an existing VCS cluster
    11.  
      Verifying your primary site configuration
    12.  
      Guidelines for installing InfoScale Enterprise and configuring the cluster on the secondary site
    13.  
      Setting up your replication environment
    14.  
      Setting up security for Volume Replicator
    15.  
      Assigning user privileges (secure clusters only)
    16.  
      Configuring disaster recovery with the DR wizard
    17.  
      Cloning the storage on the secondary site using the DR wizard (Volume Replicator replication option)
    18.  
      Installing and configuring Enterprise Vault on the secondary site
    19.  
      Configuring Volume Replicator replication and global clustering
    20.  
      Configuring global clustering only
    21.  
      Setting service group dependencies for disaster recovery
    22.  
      Verifying the disaster recovery configuration
    23.  
      Adding multiple DR sites (optional)
    24.  
      Recovery procedures for service group dependencies
  3. Using the Solutions Configuration Center
    1.  
      About the Solutions Configuration Center
    2.  
      Starting the Solutions Configuration Center
    3.  
      Options in the Solutions Configuration Center
    4.  
      About launching wizards from the Solutions Configuration Center
    5.  
      Remote and local access to Solutions wizards
    6.  
      Solutions wizards and logs
    7.  
      Workflows in the Solutions Configuration Center
  4. Installing and configuring Enterprise Vault for failover
    1.  
      Installing Enterprise Vault
    2. Configuring the Enterprise Vault service group
      1.  
        Before you configure an EV service group
      2.  
        Creating an EV service group
      3.  
        Enabling fast failover for disk groups (optional)
    3.  
      Modifying the Enterprise Vault service group attribute
    4.  
      Configuring Enterprise Vault Server in a cluster environment
    5.  
      Setting service group dependencies for high availability
    6.  
      Verifying the Enterprise Vault cluster configuration
    7.  
      Setting up Enterprise Vault
    8.  
      Considerations when modifying an EV service group

Typical disaster recovery configuration

A disaster recovery (DR) configuration enables you to restore application data and services in the event of a catastrophic failure. A typical DR solution requires primary and secondary sites, and clusters within those sites. The cluster at the primary site provides data and services during normal operation, and the cluster at the secondary site provides data and services if the primary site fails.

The following figure illustrates a typical DR configuration.

Figure: Typical DR configuration in a VCS cluster

Typical DR configuration in a VCS cluster

The illustration displays an environment with a DR solution that is prepared for a disaster. In this case, the primary site consists of two nodes, System1 and System2. Similarly the secondary setup consists of two nodes, System3 and System4. Each site has a clustered setup with the nodes set up appropriately for failover within the site.

Data is replicated from the primary site to the secondary site. Replication between the storage is set up using a replication software. If the application on System1 fails, the application comes online on node System2 and begins servicing requests. From the user's perspective there might be a small delay as the backup node comes online, but the interruption in effective service is minimal.

When a failure occurs, such as an earthquake that destroys the data center in which the primary site resides, the DR solution is activated. System3 at the secondary site takes over, and the data that was replicated to the secondary site is used to restore the application services to clients.