Managing Serviceguard 12th Edition, March 2006

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Understanding Serviceguard Software Components

How the Network Manager Works

Chapter 3108

Remote Switching

A remote switch (that is, a package switch) involves moving packages

and their associated IP addresses to a new system. The new system must

already have the same subnetwork configured and working properly,

otherwise the packages will not be started. With remote switching, TCP

connections are lost. TCP applications must reconnect to regain

connectivity; this is not handled automatically. Note that if the package

is dependent on multiple subnetworks, all subnetworks must be

available on the target node before the package will be started.

Note that remote switching is supported only between LANs of the same

type. For example, a remote switchover between Ethernet on one

machine and FDDI interfaces on the failover machine is not supported.

The remote switching of relocatable IP addresses was shown previously

in Figure 3-5 and Figure 3-6.

Address Resolution Messages after Switching

When a floating IPv4 address is moved to a new interface, either locally

or remotely, an ARP message is broadcast to indicate the new mapping

between IP address and link layer address. An ARP message is sent for

each IPv4 address that has been moved. All systems receiving the

broadcast should update the associated ARP cache entry to reflect the

change. Currently, the ARP messages are sent at the time the IP address

is added to the new system. An ARP message is sent in the form of an

ARP request. The sender and receiver protocol address fields of the ARP

request message are both set to the same floating IP address. This

ensures that nodes receiving the message will not send replies.

Unlike IPv4, IPv6 addresses use NDP messages to determine the

link-layer addresses of its neighbors.

Automatic Port Aggregation

Serviceguard supports the use of automatic port aggregation through

HP-APA (Auto-Port Aggregation, HP product J4240AA). HP-APA is a

networking technology that aggregates multiple physical Fast Ethernet

or multiple physical Gigabit Ethernet ports into a logical link aggregate.

HP-APA allows a flexible, scalable bandwidth based on multiple 100

Mbps Fast Ethernet links or multiple 1 Gbps Ethernet links (or 200

Mbps and 2 Gbps full duplex respectively). Its other benefits include load

balancing between physical links, automatic fault detection, and