Internet-Draft | ME6E-PR | October 2022 |
Matsuhira | Expires 8 April 2023 | [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.¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119].¶
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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.¶