Veritas InfoScale™ 8.0 Virtualization Guide - Linux
- Section I. Overview of Veritas InfoScale Solutions used in Linux virtualization
- Overview of supported products and technologies
- About Veritas InfoScale Solutions support for Linux virtualization environments
- About Kernel-based Virtual Machine (KVM) technology
- About the RHEV environment
- Overview of supported products and technologies
- Section II. Implementing a basic KVM environment
- Getting started with basic KVM
- Veritas InfoScale Solutions configuration options for the kernel-based virtual machines environment
- Installing and configuring Cluster Server in a kernel-based virtual machine (KVM) environment
- Configuring KVM resources
- Getting started with basic KVM
- Section III. Implementing Linux virtualization use cases
- Application visibility and device discovery
- Server consolidation
- Physical to virtual migration
- Simplified management
- Application availability using Cluster Server
- Virtual machine availability
- Virtual machine availability for live migration
- Virtual to virtual clustering in a Red Hat Enterprise Virtualization environment
- Virtual to virtual clustering in a Microsoft Hyper-V environment
- Virtual to virtual clustering in a Oracle Virtual Machine (OVM) environment
- Disaster recovery for virtual machines in the Red Hat Enterprise Virtualization environment
- Disaster recovery of volumes and file systems using Volume Replicator (VVR) and Veritas File Replicator (VFR)
- Multi-tier business service support
- Managing Docker containers with InfoScale Enterprise
- About the Cluster Server agents for Docker, Docker Daemon, and Docker Container
- Managing storage capacity for Docker containers
- Offline migration of Docker containers
- Disaster recovery of volumes and file systems in Docker environments
- Application visibility and device discovery
- Section IV. Reference
- Appendix A. Troubleshooting
- Appendix B. Sample configurations
- Appendix C. Where to find more information
- Appendix A. Troubleshooting
Virtual to Physical clustering and failover
One can also create a physical to virtual cluster by combining VCS inside the virtual machine together with VCS running on any other physical host. This virtual-physical cluster enables VCS to monitor applications running within the guest and then fail over the application to another host. The reverse flow is also true, thus enabling the fail-over of an application running on a physical host into a VM guest machine.
A VCS cluster is formed among the VM guests and physical machines. VCS is installed on the VM guests and on different physical machines in the cluster. VM guests are connected to physical machines through the network of their VM hosts. In this case, the VM host is a physical machine on which one or more VM guests forming the cluster are hosted.
This VCS cluster manages and monitors the services and applications running on cluster nodes that can either be VM guests or physical machines. Any faulted application on one node fails over to other node that can either be a virtual machine or a physical machine.
See Standard bridge configuration.
I/O fencing support: SCSI3, Non-SCSI3, CP server based fencing is supported.