FAQ
Contents
- 1 General
- 1.1 What is a container (Virtual Environment, Virtual Private Server, VPS, VE)?
- 1.2 What are highlights of OpenVZ technology?
- 1.3 Who needs OpenVZ? How it can be used?
- 1.4 What applications can run inside an OpenVZ container?
- 1.5 How is OpenVZ different from other technologies?
- 1.6 How is OpenVZ secured & updated?
- 1.7 How scalable is OpenVZ?
- 1.8 How does OpenVZ improve efficiency of services?
- 1.9 How does OpenVZ improve flexibility of services?
- 1.10 What is a performance overhead?
- 1.11 What are performance expectations?
- 1.12 I want to show my appreciation to OpenVZ and put some logo to my site. Where to get it?
- 1.13 Are there any control panels available for OpenVZ?
- 2 Installation and upgrade
- 2.1 What hardware is supported by OpenVZ kernel?
- 2.2 Why there are different kernel flavours available and what do they mean?
- 2.3 How do I rebuild the kernel?
- 2.4 What does 021stab018 in OpenVZ kernel version mean?
- 2.5 How can I check package signatures?
- 2.6 Is it possible to run x86 container on a x86_64 arch?
- 2.7 What filesystems should I choose for saving my containers?
- 3 Networking
- 4 User Beancounters (UBC)
- 5 Troubleshooting
- 6 Quick reference card for OpenVZ
General
What is a container (Virtual Environment, Virtual Private Server, VPS, VE)?
- See Container.
What are highlights of OpenVZ technology?
In short, OpenVZ is the only highly scalable virtualization technology with near-zero overhead, strong isolation and rapid customer provisioning that's ready for production use right now. Deployment of OpenVZ improves efficiency, flexibility and quality of service in the enterprise environment.
Who needs OpenVZ? How it can be used?
- See Use cases.
What applications can run inside an OpenVZ container?
Most applications can be installed to a container without any modifications. Oracle, DB/2, Weblogic, Websphere and other big applications run just fine inside an OpenVZ container. Applications and services do not have to be aware of OpenVZ. However, direct access to hardware is not available by default.
How is OpenVZ different from other technologies?
How is OpenVZ secured & updated?
- See Security.
How scalable is OpenVZ?
OpenVZ technology scales up pretty well - we've tested it on machines up to 8 CPU and up to 64 GB of RAM. Besides, a single container could be scaled up from taking a little fraction of available resources up to all resources available dynamically - you do not even have to restart the container.
How does OpenVZ improve efficiency of services?
For existing hardware, OpenVZ allows to utilize its processing power better by improving average load from 3-5% to at least 30-50%, while still providing ability to handle peak loads. To decrease complexity, OpenVZ provides standardized and centralized server management, logically decoupled from actual hardware. And when its time to buy new servers, you can now use few more powerful servers instead of many little ones — with added benefits of better reliability, better peak performance and typically longer lifespan.
How does OpenVZ improve flexibility of services?
By providing unified scalable platform with such unique features as rapid application and updates provisioning. Each container is hardware independent and can be moved to another OpenVZ-based system in seconds over the network. This allows for ease of hardware maintenance (move out all containers and do whatever you need with the box) and improved availability (keep a synchronized copy of your container elsewhere and start it up when primary service failed). If your old box is not able to cope with peak load anymore, just move your containers to a new one.
What is a performance overhead?
Near zero. There is no emulation layer, only security isolation, and all checking is done on the kernel level without context switching.
What are performance expectations?
Peak performance is achieved when only one container has active tasks. In this case, it could use 100% of available resources: all CPUs, all physical memory, all disk and network bandwidth. OpenVZ is not limiting you to a single-CPU virtual machine.
I want to show my appreciation to OpenVZ and put some logo to my site. Where to get it?
- See Artwork.
Are there any control panels available for OpenVZ?
- See Control_panels.
Installation and upgrade
What hardware is supported by OpenVZ kernel?
- See Virtuozzo HCL.
Why there are different kernel flavours available and what do they mean?
How do I rebuild the kernel?
- See Kernel build.
What does 021stab018 in OpenVZ kernel version mean?
- See Kernel versioning.
How can I check package signatures?
- See Package signatures.
Is it possible to run x86 container on a x86_64 arch?
- Sure :) We actually did some work on that to enable migration of x86 container from x86 to x86_64 and back, and to enable using 32-bit iptables in 32bit container on an x86_64 system.
What filesystems should I choose for saving my containers?
- Any filesystem which supports Unix style permissions is usable, such as Ext3 or ReiserFS. XFS works, but does not have support for disk quotas inside containers.
Networking
How do I set up VPN for a container?
What is veth and how do I use it?
Why doesn't net-snmpd work on my containers?
- See SNMPD in container.
User Beancounters (UBC)
What are those User Beancounters?
See UBC.
What units are UBC parameters measured in?
See UBC parameter units.
How do I set up a container which is able to get X Mb of RAM?
I can not start a program in container: it reports out of memory. What do I do?
See Resource_shortage.
How can I reset failcnt
in /proc/user_beancounters
?
See UBC failcnt reset.
Troubleshooting
My kernel crashed. What should I do?
I see a lot of processes in D state. What does that mean?
- See Processes in D state.
Quick reference card for OpenVZ
openvz-reference-card.pdf BROKEN LINK