Introduction to ipv6 transition technologies, Protocols and standards, Introduction to ipv6 – H3C Technologies H3C S7500E Series Switches User Manual

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2) If the MTU supported by a forwarding interface is smaller than the packet size, the forwarding

device will discard the packet and return an ICMPv6 error packet containing the interface MTU to

the source host.

3) After receiving the ICMPv6 error packet, the source host uses the returned MTU to send packets

to the destination.

4) Step 2 to step 3 are repeated until the destination host receives the packet. In this way, the

minimum MTU of all links in the path from the source host to the destination host is determined.

Introduction to IPv6 Transition Technologies

Before IPv6 dominates the Internet, high-efficient, seamless IPv6 transition technologies are needed to

enable communication between IPv4 and IPv6 networks. There are several IPv6 transition

technologies, which can be used in different environments and periods, such as dual stack (RFC 2893),

tunneling (RFC 2893), and NAT-PT (RFC 2766).

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Dual stack is the most direct transition approach. A network node that supports both IPv4 and

IPv6 is called a dual stack node. A dual stack node configured with an IPv4 address and an IPv6

address can forward both IPv4 and IPv6 packets. For an upper layer application supporting both

IPv4 and IPv6, either TCP or UDP can be selected at the transport layer, while IPv6 stack is

preferred at the network layer. Dual stack is suitable for communication between IPv4 nodes or

between IPv6 nodes. It is the basis of all transitions technologies. However, it does not solve the

IP address depletion issue because each dual stack node must have a globally unique IP

address.

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Tunneling is an encapsulation technology, which utilizes one network protocol to encapsulate

packets of another network protocol and transfer them over the network. For more information

about tunneling, refer to Tunneling Configuration in the Layer 3 - IP Services Configuration Guide.

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Network Address Port Translation – Protocol Translation (NAPT-PT) is usually applied on a

device between IPv4 and IPv6 networks to translate between IPv4 and IPv6 packets, allowing

communication between IPv4 and IPv6 nodes. It performs IP address translation, and according

to different protocols, performs semantic translation, for packets. This technology is only suitable

for communication between pure IPv4 node and pure IPv6 node.

The S7500E series Ethernet switches do not support NAT-PT.

Protocols and Standards

Protocols and standards related to IPv6 include:

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RFC 1881: IPv6 Address Allocation Management

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RFC 1887: An Architecture for IPv6 Unicast Address Allocation

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RFC 1981: Path MTU Discovery for IP version 6

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RFC 2375: IPv6 Multicast Address Assignments