InfoScale™ 9.0 Cluster Server Implementation Guide for Microsoft SQL Server - Windows
- Section I. Introducing Veritas InfoScale solutions for application high availability
- Understanding the InfoScale solutions for application high availability
- About the Veritas InfoScale solutions for monitoring SQL Server
- About the VCS agents for SQL Server
- How VCS monitors storage components
- Shared storage - if you use NetApp filers
- Shared storage - if you use SFW to manage cluster dynamic disk groups
- Shared storage - if you use Windows LDM to manage shared disks
- Non-shared storage - if you use SFW to manage dynamic disk groups
- Non-shared storage - if you use Windows LDM to manage local disks
- Non-shared storage - if you use VMware storage
- How application availability is achieved in a physical environment
- How is application availability achieved in a VMware virtual environment
- Modifying the ESXDetails attribute
- Managing storage and installing the VCS agents
- Installing SQL Server
- About installing SQL Server for a high availability (HA) configuration
- Configuring Microsoft iSCSI initiator
- About installing SQL Server on the first system
- About installing SQL Server on additional systems
- Assigning ports for multiple SQL Server instances
- Enabling IPv6 support for the SQL Server Analysis Service
- Understanding the InfoScale solutions for application high availability
- Section II. Configuring SQL Server in a physical environment
- Overview
- Configuring the VCS cluster
- Configuring the SQL Server service group
- About configuring the SQL Server service group
- Before configuring the SQL Server service group
- Configuring a SQL Server service group using the wizard
- Configuring the service group in a non-shared storage environment
- Running SnapManager for SQL Server
- About the modifications required for tagged VLAN or teamed network
- Making SQL Server user-defined databases highly available
- Verifying the service group configuration
- Administering a SQL Server service group
- Configuring an MSDTC service group
- Configuring the standalone SQL Server
- Configuring an Active/Active cluster
- Configuring a disaster recovery setup
- Section III. Appendixes
- Appendix A. Troubleshooting
- VCS logging
- VCS Cluster Configuration Wizard (VCW) logs
- VCWsilent logs
- NetApp agents error messages
- Error and warning messages from VCS agent for SQL Server
- Messages from the VCS agent for SQL Server Database Engine
- Messages from the VCS agent for SQL Server FILESTREAM
- Messages from the VCS agent for SQL Server Agent service and Analysis service
- SQL Server Analysis service (MSOLAP) service fails to come online with "invalid context of address" error
- Messages from the VCS agent for MSDTC
- Appendix B. Using the virtual MMC viewer
- Appendix A. Troubleshooting
Shared storage - if you use NetApp filers
The VCS hardware replication agents for NetApp provide failover support and recovery in environments that employ NetApp filers for storage and NetApp SnapMirror for replication. The agents enable configuring NetApp filers over an iSCSI or Fibre Channel (FC) connection in a VCS cluster environment.
The VCS agents for NetApp are as follows:
NetAppFiler
NetAppSnapDrive
NetAppSnapMirror
These agents monitor and manage the state of replicated filer devices and ensure that only one system has safe and exclusive access to the configured devices at a time. The agents can be used in local clusters, single VCS replicated data clusters, and multi-cluster environments that are set up using the VCS Global Cluster Option (GCO).
In a typical configuration, the agents are installed on each system in the cluster. The systems are connected to the NetApp filers through a dedicated (private) storage network. VCS cluster systems are physically attached to the NetApp filer via an ethernet cable supporting iSCSI or FC as the transport protocol.
VCS also provides agents for other third-party hardware arrays. For details on the supported arrays, refer to the product Software Compatibility List (SCL).