Internet-Draft | ME6E-PR | April 2024 |
Matsuhira | Expires 6 October 2024 | [Page] |
This document specifies Multiple Ethernet - IPv6 address mapping encapsulation - Prefix Resolution (ME6E-PR) specification. ME6E-PR makes expantion ethernet network over IPv6 backbone network with encapsuation technoogy. And also, E6ME-PR can stack multiple Ethernet networks. ME6E-PR work on non own routing domain.¶
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This document provide Multiple Ethernet - IPv6 address mapping encapsulation - Prefix Resolution (ME6E-PR) specification.¶
ME6E-PR make many virtual ethernet network over IPv6 network with unicast base technology.¶
ME6E-PR can use on both own routing domain and non own routing domain, i.e. can or cannot advertise routes to the network.¶
Figure 1 shows network configuration with ME6E-PR. The network consists of three parts, backbone network, nodes (host or router), and ME6E-PR.¶
Backbone network can be operated with dual stack or IPv6 only. Node may physical node or virtual node, and have Ethernet Interface.¶
ME6E-PR connects IPv6 network and nodes. ME6E-PR connect to node with Ethernet (Layer2), and ME6E-PR connect to IPv6 network with IPv6 (Layer3).¶
ME6E-PR has mainly two function.¶
One is encapsulate from Ethernet frame to IPv6 packet, and decapsulate from IPv6 packet to Ethernet frame. Another is generate a table where Ethernet MAC address belong to IPv6 network.¶
ME6E-PR encapsulates Ethernet frame to IPv6 packet from node to IPv6 network, and decapsulates IPv6 packet to Ethernet frame from IPv6 network to node. Figure 2 shows frame and packet format on both IPv6 network and IPv6 network.¶
The value of next header field of IPv6 header is TBD. The value of EtherIP(RFC3378) EtherIP [RFC3378]may used, however new value for this protocol may assigned.¶
When encapsulated IPv6 Packet size exceed path MTU , ME6E-PR fragment Ethernet frame, and then send them.¶
ME6A[I-D.matsuhira-me6a] is a IPv6 address used in outer IPv6 header which encapsulate ethernet frame by ME6E-PR. Figure 3 shows ME6A architecture.¶
ME6E address consists of three parts as follows.¶
ME6E-PR resolve ME6 address using ME6E Prefix Resolution Table (ME6E-PR Table). ME6E-PR generate ME6E-PR address resolving ME6E-PR prefix from Multiple network plane ID and Ethernet MAC address. Figure 4 show this processing.¶
Figure 5 show ME6E-PR Table. This table consists four parts, Multiple network plane ID, Ehernet address, netmask, and ME6 address prefix.¶
ME6E-PR configured multiple network plane ID, so ME6E-PR know multiple network plane ID value the interface belongs.¶
Resolving destination address, ME6E-PR use pre-configured multiple network plane ID valude, and destination MAC address of Ehernet frame, and search the ME6E-PR table. ME6E-PR table return the ME6 address prefix value correspoiding multiple network plane ID and ethernet destination MAC address. Then ME6E-PR generate whole ME6 address.¶
Resolving source address, ME6E-PR already know multiple network plane ID value and IPv6 address prefix as ME6 prefix. So, searching the ME6E-PR table does not require for resolving source address.¶
Figure 6 shows sample confiuration of ME6E-PR. In this example, there are three IPv4 stub network with the same IPv4 network plane.¶
Figure 7 shows ME6E-PR table for sample network.¶
This document makes no request of IANA if using EtherIP Header.¶
Note to RFC Editor: this section may be removed on publication as an RFC.¶
Security Considerations does not discussed in this memo.¶