Cluster Server 8.0 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 VCS agents for SQL Server
- How VCS monitors storage components
- 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
- 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
- Configuring a SQL Server service group using the wizard
- 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
- Administering application monitoring using the Veritas High Availability tab
- Administering application availability using Veritas High Availability dashboard
- Understanding the dashboard work area
- Section IV. Appendixes
- Appendix A. Troubleshooting
- Error and warning messages from VCS agent for SQL Server
- Troubleshooting application monitoring configuration issues
- Troubleshooting Veritas High Availability view issues
- Appendix B. Using the virtual MMC viewer
- Appendix A. Troubleshooting
Non-shared storage - if you use VMware storage
VCS introduces the VMwareDisks agent to support storage configurations in a VMware virtual environment. The agent is platform independent and supports VMware Virtual Machine Disk (VMDK), Raw Device Mapping (RDM) disk files (virtual), and storage that is configured using Network File System (NFS). The VMwareDisks agent works without SCSI reservations and supports locally attached non-shared storage.
VMware features such as snapshots, vMotion, and DRS do not work when SCSI disks are shared between virtual machines. The VMwareDisks agent is designed to address this limitation. With this agent, the disks can now be attached to a single virtual machine at a time in the VCS cluster. On failover, along with the service group, the VMwareDisks agent moves the disks to the target virtual machine.
The VMwareDisks agent communicates with the host ESXi server to configure storage. This agent manages the disk attach and detach operations on a virtual machine in the VCS cluster. The agent is VMware HA aware. During failovers, the agent detaches the disk from one system and then attaches it to the system where the application is actively running. The VMwareDisks agent presents the virtual disks to the operating system. On Windows, the agent relies on the VMNSDg agent (in case of SFW-managed local storage) and the NativeDisks agent (in case of LDM-managed local storage) for initializing and managing the virtual disks. On Linux, the agent relies on the LVM and VxVM agents.
Note:
The VMwareDisks agent does not support fast failover and Intelligent Monitoring Framework (IMF).