Linux Virtual Server

	LVS official logo
Original author(s)	Wensong Zhang
Developer(s)	et al.
Initial release	May 1998; 26 years ago
Written in	C
Operating system	Linux
Type	load balancing
License	GNU General Public License
Website	www.linuxvirtualserver.org

Linux Virtual Server (LVS) is load balancing software for Linux kernel–based operating systems.

LVS is a free and open-source project started by Wensong Zhang in May 1998, subject to the requirements of the GNU General Public License (GPL), version 2. The mission of the project is to build a high-performance and highly available server for Linux using clustering technology, which provides good scalability, reliability and serviceability.

Overview

The major work of the LVS project is now to develop advanced IP load balancing software (IPVS), application-level load balancing software (KTCPVS), and cluster management components.

IPVS: an advanced IP load balancing software implemented inside the Linux kernel. The IP Virtual Server code is merged into versions 2.4.x and newer of the Linux kernel mainline.^[1]
KTCPVS: implements application-level load balancing inside the Linux kernel, as of February 2011^[update] still under development.^[2]

LVS can be used for building highly scalable and highly available network services, such as web, email, media and VoIP services, and integrating scalable network services into large-scale reliable e-commerce or e-government applications. LVS-based solutions already have been deployed in many real applications throughout the world, including Wikipedia.

The LVS components depend upon the Linux Netfilter framework, and its source code is available in the net/netfilter/ipvs subdirectory within the Linux kernel source. LVS is able to handle UDP, TCP layer-4 protocols as well as FTP passive connection by inspecting layer-7 packets. It provides a hierarchy of counters in the /proc directory.

The userland utility program used to configure LVS is called ipvsadm, which requires superuser privileges to run.

Schedulers

LVS implements several balancing schedulers, listed below with the relevant source files:^[3]

Round-robin (ip_vs_rr.c)
Weighted round-robin (ip_vs_wrr.c)
Least-connection (ip_vs_lc.c)
Weighted least-connection (ip_vs_wlc.c)
Locality-based least-connection (ip_vs_lblc.c)
Locality-based least-connection with replication (ip_vs_lblcr.c)
Destination hashing (ip_vs_dh.c)
Source hashing (ip_vs_sh.c)
Shortest expected delay (ip_vs_sed.c)
Never queue (ip_vs_nq.c)
Maglev hashing (ip_vs_mh.c)

Glossary

Commonly used terms include the following:^[4]

LVS director: load balancer that receives all incoming client requests for services and directs them to a specific "real server" to handle the request
Real servers: nodes that make up an LVS cluster which are used to provide services on the behalf of the cluster
Client computers: computers requesting services from the virtual server
VIP (Virtual IP address): the IP address used by the director to provide services to client computers
RIP (Real IP address): the IP address used to connect to the cluster nodes
DIP (Directors IP address): the IP address used by the director to connect to network of real IP addresses
CIP (Client IP address): the IP address assigned to a client computer, that it uses as the source IP address for requests being sent to the cluster

Examples

Setting up a virtual HTTP server with two real servers:

ipvsadm -A -t 192.168.0.1:80 -s rr
ipvsadm -a -t 192.168.0.1:80 -r 172.16.0.1:80 -m
ipvsadm -a -t 192.168.0.1:80 -r 172.16.0.2:80 -m

The first command assigns TCP port 80 on IP address 192.168.0.1 to the virtual server. The chosen scheduling algorithm for load balancing is round-robin (-s rr). The second and third commands are adding IP addresses of real servers to the LVS setup. The forwarded network packets shall be masked (-m).^[5]

Querying the status of the above configured LVS setup:

# ipvsadm -L -n
IP Virtual Server version 1.0.8 (size=65536)
Prot LocalAddress:Port Scheduler Flags
  -> RemoteAddress:Port           Forward Weight ActiveConn InActConn
TCP  192.168.0.1:80 rr
  -> 172.16.0.2:80                Masq    1      3          1
  -> 172.16.0.1:80                Masq    1      4          0

References

^ "IPVS Software - Advanced Layer-4 Switching". linuxvirtualserver.org. 2011-02-08. Retrieved 2014-01-12.
^ Wensong Zhang (2011-02-08). "KTCPVS Software - Application-Level Load Balancing". Linuxvirtualserver.org. Retrieved 2014-03-25.
^ "Job Scheduling Algorithms in Linux Virtual Server". linuxvirtualserver.org. 2011-02-08. Retrieved 2013-11-24.
^ "Linux Virtual Server: Load Balance Your Networked Services". bobcares.com. 2008. Retrieved 2013-11-24.
^ Peter, Jeff. "Understanding Virtual Server". Retrieved 18 June 2023.

External links

Official website
Linux Virtual Server Configuration Wiki
IBM eServer BladeCenter, Linux, and Open Source: Blueprint for e-business on demand Archived 2022-08-11 at the Wayback Machine (includes LVS as a component)

[1] "IPVS Software - Advanced Layer-4 Switching". linuxvirtualserver.org. 2011-02-08. Retrieved 2014-01-12.

[2] Wensong Zhang (2011-02-08). "KTCPVS Software - Application-Level Load Balancing". Linuxvirtualserver.org. Retrieved 2014-03-25.

[3] "Job Scheduling Algorithms in Linux Virtual Server". linuxvirtualserver.org. 2011-02-08. Retrieved 2013-11-24.

[Bob-4] "Linux Virtual Server: Load Balance Your Networked Services". bobcares.com. 2008. Retrieved 2013-11-24.

[5] Peter, Jeff. "Understanding Virtual Server". Retrieved 18 June 2023.

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