37-2
Cisco IE 3000 Switch Software Configuration Guide
OL-13018-03
Chapter 37 Configuring IPv6 Host Functions
Understanding IPv6
IPv6 Addresses
The switch supports only IPv6 unicast addresses. It does not support site-local unicast addresses, anycast
addresses, or multicast addresses.
The IPv6 128-bit addresses are represented as a series of eight 16-bit hexadecimal fields separated by
colons in the format: n:n:n:n:n:n:n:n. This is an example of an IPv6 address:
2031:0000:130F:0000:0000:09C0:080F:130B
For easier implementation, leading zeros in each field are optional. This is the same address without
leading zeros:
2031:0:130F:0:0:9C0:80F:130B
You can also use two colons (::) to represent successive hexadecimal fields of zeros, but you can use this
short version only once in each address:
2031:0:130F::09C0:080F:130B
For more information about IPv6 address formats, address types, and the IPv6 packet header, see the
“Implementing IPv6 Addressing and Basic Connectivity” chapter of
Cisco IOS IPv6 Configuration
Library
on Cisco.com.
In the “Implementing Addressing and Basic Connectivity” chapter, these sections apply to the IE 3000
switch:
•
IPv6 Address Formats
•
IPv6 Address Output Display
•
Simplified IPv6 Packet Header
Supported IPv6 Host Features
These sections describe the IPv6 protocol features supported by the switch:
•
128-Bit Wide Unicast Addresses, page 37-3
•
DNS for IPv6, page 37-3
•
ICMPv6, page 37-3
•
Neighbor Discovery, page 37-3
•
IPv6 Stateless Autoconfiguration and Duplicate Address Detection, page 37-4
•
IPv6 Applications, page 37-4
•
Dual IPv4 and IPv6 Protocol Stacks, page 37-4
•
SNMP and Syslog Over IPv6, page 37-5
•
HTTP(S) Over IPv6, page 37-6
Support on the switch includes expanded address capability, header format simplification, improved
support of extensions and options, and hardware parsing of the extension header. The switch supports
hop-by-hop extension header packets, which are routed or bridged in software.