Cluster Server 7.4.2 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
- 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. Configuring SQL Server in a VMware environment
- Configuring application monitoring using the Veritas High Availability solution
- Administering application monitoring
- About the various interfaces available for performing application monitoring tasks
- Administering application monitoring using the Veritas High Availability tab
- Understanding the Veritas High Availability tab work area
- To view the status of configured applications
- To configure or unconfigure application monitoring
- To start or stop applications
- To suspend or resume application monitoring
- To switch an application to another system
- To add or remove a failover system
- To clear Fault state
- To resolve a held-up operation
- To determine application state
- To remove all monitoring configurations
- To remove VCS cluster configurations
- Administering application monitoring settings
- Administering application availability using Veritas High Availability dashboard
- Understanding the dashboard work area
- Monitoring applications across a data center
- Monitoring applications across an ESX cluster
- Searching for application instances by using filters
- Selecting multiple applications for batch operations
- Starting an application using the dashboard
- Stopping an application by using the dashboard
- Entering an application into maintenance mode
- Bringing an application out of maintenance mode
- Switching an application
- Section IV. 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
- Troubleshooting application monitoring configuration issues
- Troubleshooting Veritas High Availability view issues
- Veritas High Availability tab not visible from a cluster node
- Veritas High Availability tab does not display the application monitoring status
- Veritas High Availabilitytab may freeze due to special characters in application display name
- Veritas High Availability view may fail to load or refresh
- Operating system commands to unmount resource may fail
- Appendix B. Using the virtual MMC viewer
- Appendix A. Troubleshooting
What needs to be protected in a SQL Server environment
The following components of a SQL server environment must be protected in the event of a disaster:
User Databases
The most critical component in any SQL Server implementation is the user data that is stored in user-defined databases.
Logins
Logins allow clients to connect to SQL Server and execute queries on user data. Logins are stored in the master database and each of the user-defined databases.
Jobs
Jobs are a set of scheduled tasks that maintain SQL Server databases. The job configuration is stored in the msdb system database.
Alerts
Alerts are actions that are taken when a specific event occurs. They are used to respond to and correct errors that occur in SQL Server. The alert configuration is stored in the msdb system database.
Operators
Operators are contacts that address problems occurring in SQL Server. They are notified in the event of errors. The operator configuration is stored in the msdb system database.
Extended Stored Procedures
Extended stored procedures are external routines that are called from within SQL Server. They are typically stored in DLL files on the file system.
Other Server Extensions
SQL Server is a very flexible database engine and it is possible to extend its functionality in several ways. These extensions are also important to the operation of the SQL Server.