Part 5: IP Routing
Part 6: High Availability Fundamentals
© Copyright Lenovo 2016
Chapter
26, "Basic IP Routing," describes how to configure the G8264 for IP
routing using IP subnets, BOOTP, and DHCP Relay.
Chapter
27, "Policy‐Based Routing describes how to configure the G8264 to
forward traffic based on defined policies rather than entries in the routing table.
Chapter
28, "Routed Ports describes how to configure a switch port to forward
Layer 3 traffic.
Chapter
29, "Internet Protocol Version 6," describes how to configure the G8264
for IPv6 host management.
Chapter
30, "IPsec with IPv6," describes how to configure Internet Protocol
Security (IPsec) for securing IP communications by authenticating and
encrypting IP packets, with emphasis on Internet Key Exchange version 2, and
authentication/confidentiality for OSPFv3.
Chapter
31, "Routing Information Protocol," describes how the ENOS software
implements standard Routing Information Protocol (RIP) for exchanging
TCP/IP route information with other routers.
Chapter
32, "Internet Group Management Protocol," describes how the ENOS
software implements IGMP Snooping or IGMP Relay to conserve bandwidth in
a multicast‐switching environment.
Chapter
33, "Multicast Listener Discovery," describes how Multicast Listener
Discovery (MLD) is used with IPv6 to support host users requests for multicast
data for a multicast group.
Chapter
34, "Border Gateway Protocol," describes Border Gateway Protocol
(BGP) concepts and features supported in ENOS.
Chapter
35, "Open Shortest Path First," describes key Open Shortest Path First
(OSPF) concepts and their implemented in ENOS, and provides examples of
how to configure your switch for OSPF support.
Chapter
36, "Protocol Independent Multicast," describes how multicast routing
can be efficiently accomplished using the Protocol Independent Multicast (PIM)
feature.
Chapter
37, "Basic Redundancy," describes how the G8264 supports
redundancy through stacking, LAGs, and hotlinks.
Chapter
38, "Layer 2 Failover," describes how the G8264 supports
high‐availability network topologies using Layer 2 Failover.
Chapter
39, "Virtual Router Redundancy Protocol," describes how the G8264
supports high‐availability network topologies using Virtual Router Redundancy
Protocol (VRRP).
27
Preface