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1.6. LVS — A Block Diagram
LVS routers use a collection of programs to monitor cluster members and cluster services. Figure 1.5, “LVS Components” illustrates how these various programs on both the active and backup LVS routers work together to manage the cluster.
Figure 1.5. LVS Components
The
pulse
daemon runs on both the active and passive LVS routers. On the backup router, pulse
sends a heartbeat to the public interface of the active router to make sure the active router is still properly functioning. On the active router, pulse
starts the lvs
daemon and responds to heartbeat queries from the backup LVS router.
Once started, the
lvs
daemon calls the ipvsadm
utility to configure and maintain the IPVS routing table in the kernel and starts a nanny
process for each configured virtual server on each real server. Each nanny
process checks the state of one configured service on one real server, and tells the lvs
daemon if the service on that real server is malfunctioning. If a malfunction is detected, the lvs
daemon instructs ipvsadm
to remove that real server from the IPVS routing table.
If the backup router does not receive a response from the active router, it initiates failover by calling
send_arp
to reassign all virtual IP addresses to the NIC hardware addresses (MAC address) of the backup node, sends a command to the active router via both the public and private network interfaces to shut down the lvs
daemon on the active router, and starts the lvs
daemon on the backup node to accept requests for the configured virtual servers.
1.6.1. LVS Components
Section 1.6.1.1, “
pulse
” shows a detailed list of each software component in an LVS router.
1.6.1.1. pulse
This is the controlling process which starts all other daemons related to LVS routers. At boot time, the daemon is started by the
/etc/rc.d/init.d/pulse
script. It then reads the configuration file /etc/sysconfig/ha/lvs.cf
. On the active router, pulse
starts the LVS daemon. On the backup router, pulse
determines the health of the active router by executing a simple heartbeat at a user-configurable interval. If the active router fails to respond after a user-configurable interval, it initiates failover. During failover, pulse
on the backup router instructs the pulse
daemon on the active router to shut down all LVS services, starts the send_arp
program to reassign the floating IP addresses to the backup router's MAC address, and starts the lvs
daemon.
1.6.1.2. lvs
The
lvs
daemon runs on the active LVS router once called by pulse
. It reads the configuration file /etc/sysconfig/ha/lvs.cf
, calls the ipvsadm
utility to build and maintain the IPVS routing table, and assigns a nanny
process for each configured LVS service. If nanny
reports a real server is down, lvs
instructs the ipvsadm
utility to remove the real server from the IPVS routing table.
1.6.1.3. ipvsadm
This service updates the IPVS routing table in the kernel. The
lvs
daemon sets up and administers LVS by calling ipvsadm
to add, change, or delete entries in the IPVS routing table.
1.6.1.4. nanny
The
nanny
monitoring daemon runs on the active LVS router. Through this daemon, the active router determines the health of each real server and, optionally, monitors its workload. A separate process runs for each service defined on each real server.
1.6.1.5. /etc/sysconfig/ha/lvs.cf
This is the LVS configuration file. Directly or indirectly, all daemons get their configuration information from this file.
1.6.1.6. Piranha Configuration Tool
This is the Web-based tool for monitoring, configuring, and administering LVS. This is the default tool to maintain the
/etc/sysconfig/ha/lvs.cf
LVS configuration file.
1.6.1.7. send_arp
This program sends out ARP broadcasts when the floating IP address changes from one node to another during failover.
Chapter 2, Initial LVS Configuration reviews important post-installation configuration steps you should take before configuring Red Hat Enterprise Linux to be an LVS router.