Virtual Router Redundancy Protocol (VRRP) |
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Virtual Router Redundancy Protocol (VRRP)
IPv4
Virtual Router Redundancy Protocol (VRRP)
is available on platforms:
c
e
s
IPv6 VRRP (VRRP version 3) is available on platforms:
c e s
This chapter covers the following information:
•
VRRP Overview
•
VRRP Benefits
•
VRRP Implementation
•
VRRP Configuration
•
Sample Configurations
Virtual Router Redundancy Protocol (VRRP) is designed to eliminate a single point of failure in a
statically routed network.
VRRP Overview
VRRP specifies a MASTER router that owns the next hop IP and MAC address for end stations on a LAN.
The MASTER router is chosen from the virtual routers by an election process and forwards packets sent to
the next hop IP address. If the MASTER router fails, VRRP begins the election process to choose a new
MASTER router and that new MASTER continues routing traffic.
VRRP uses the Virtual Router Identifier (VRID) to identify each virtual router configured The IP address
of the MASTER router is used as the next hop address for all end stations on the LAN. The other routers
represented by IP addresses are BACKUP routers.
VRRP packets are transmitted with the virtual router MAC address as the source MAC address. The MAC
address is in the following format: 00-00-5E-00-01-{VRID}. The first three octets are unchangeable. The
next two octets (00-01) indicate the address block assigned to the VRRP protocol, and are unchangeable.
The final octet changes depending on the VRRP Virtual Router Identifier and allows for up to 255 VRRP
routers on a network.
Summary of Contents for Force10 E300
Page 1: ...FTOS Configuration Guide FTOS 8 4 2 7 E Series TeraScale C Series S Series S50 S25 ...
Page 32: ...32 w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 132: ...132 802 1X w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 310: ...310 Configuration Replace and Rollback w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 330: ...330 Dynamic Host Configuration Protocol w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 402: ...402 High Availability w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 462: ...462 Interfaces w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 482: ...482 IPv4 Addressing w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 506: ...506 IPv6 Addressing w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 582: ...582 Layer 2 w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 642: ...642 Multicast Source Discovery Protocol w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 662: ...662 Multiple Spanning Tree Protocol w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 690: ...690 Object Tracking w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 754: ...754 PIM Dense Mode w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 784: ...784 PIM Source Specific Mode w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 800: ...800 Power over Ethernet w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 876: ...876 Quality of Service w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 892: ...892 Routing Information Protocol w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1006: ...1006 Simple Network Management Protocol w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1018: ...1018 SONET SDH w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1048: ...1048 Broadcast Storm Control w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1096: ...1096 Uplink Failure Detection UFD w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1098: ...1098 Upgrade Procedures w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1196: ...1196 C Series Debugging and Diagnostics w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1252: ...1252 Standards Compliance w w w d e l l c o m s u p p o r t d e l l c o m ...
Page 1262: ...1262 Index w w w d e l l c o m s u p p o r t d e l l c o m ...