Mobile Ad hoc Networks Working Group C.E. Perkins
Internet-Draft Futurewei
Intended status: Standards Track I.D. Chakeres
Expires: January 09, 2013 CenGen
July 10, 2012

Intermediate RREP for dynamic MANET On-demand (AODVv2) Routing
draft-perkins-irrep-00

Abstract

The Dynamic MANET On-demand (AODVv2) routing protocol is intended for use by mobile routers in wireless, multihop networks. AODVv2 determines unicast routes among AODVv2 routers within the network in an on-demand fashion, offering on-demand convergence in dynamic topologies. This document specifies an extension to AODVv2 (and possibly other reactive routing protocols) enabling intermediate nodes to shorten route discovery times.

Status of this Memo

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This Internet-Draft will expire on January 09, 2013.

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Table of Contents

1. Overview

The Dynamic MANET On-demand (AODVv2) routing protocol enables on-demand, multihop unicast routing among participating AODVv2 routers. The basic operations of the AODVv2 protocol are route discovery and route maintenance. Route discovery is performed when an AODVv2 router receives a packet from a node under its responsibility to a destination for which it does not have a route. Route maintenance is performed to help ensure that the route being used to forward packets from the source to the destination remains operational.

During route discovery, the originator's AODVv2 router initiates dissemination of a Route Request (RREQ) throughout the network to find a route to a particular destination, via the AODVv2 router responsible for this destination. During this hop-by-hop dissemination process, each intermediate AODVv2 router records a route to the originator. If the intermediate router has a route to the destination requested in the RREQ, it may by following the specification in this document supply that routing information to the originator of the RREQ. Such an RREP message is termed an "Intermediate RREP" (iRREP). The Intermediate router also forwards another RREP message to the requested destination, supplying the destination and other intermediate routers with a route towards the originator of the RREQ. When the originator's AODVv2 router receives the iRREP, and the destination receives iRREP for the originator, routes have then been established between the originating AODVv2 router and the target AODVv2 router in both directions.

2. Terminology

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 [RFC2119]. Additionally, this document uses some terminology from [RFC5444] and [I-D.ietf-manet-dymo], duplicated here for convenience.

AODVv2 Sequence Number (SeqNum)

An AODVv2 Sequence Number is maintained by each AODVv2 router process. This sequence number is used by other AODVv2 routers to identify the temporal order of routing information generated and ensure loop-free routes.
Originating Node (OrigNode)

The originating node is the source, its AODVv2 router creates a AODVv2 control message on its behalf in an effort to disseminate some routing information. The originating node is also referred to as a particular message's originator.
Route Reply (RREP)

A RREP message is used to disseminate routing information about the RREP TargetNode to the RREP OrigNode and the AODVv2 routers between them.
Route Request (RREQ)

A RREQ message is used to discover a valid route to a particular destination address, called the RREQ TargetNode. When an AODVv2 router processes a RREQ, it learns routing information on how to reach the RREQ OrigNode.
Target Node (TargetNode)

The TargetNode is the ultimate destination of a message.
This Node (ThisNode)

ThisNode corresponds to the AODVv2 router process currently performing a calculation or attending to a message.

3. Intermediate AODVv2 Router RREP Creation

Sometimes an AODVv2 router other than the TargetNode's AODVv2 router (call it an "intermediate AODVv2 router") has routing information that can satisfy an incoming RREQ. An intermediate AODVv2 router can issue a intermediate AODVv2 router RREP on behalf of the TargetNode's AODVv2 router.

Before creating a intermediate AODVv2 router RREP, OwnSeqNum SHOULD be incremented by one (1) according to the rules specified in [I-D.ietf-manet-dymo].

If OwnSeqNum is not incremented the routing information about ThisNode might be considered stale by a handling AODVv2 router. In this case, the RREP would not reach the RREP TargetNode.

When an intermediate AODVv2 router originates a RREP in response to a RREQ on behalf of the TargetNode's AODVv2 router, it sends the RREP to the RREQ OrigNode with additional routing information (Address, Prefix, SeqNum, Dist, etc.) about the RREQ TargetNode.

The Intermediate AODVv2 router SHOULD also issue a RREP to the RREQ TargetNode, so that the RREQ TargetNode receives routing information on how to reach the RREQ OrigNode.

When an intermediate AODVv2 router creates this RREP, it sends a RREP to the RREQ TargetNode with additional routing information (Address, Prefix, SeqNum, Dist, etc.) about the RREQ OrigNode.

4. Acknowledgments

TBD

5. Security Considerations

The ability of intermediate nodes to issue RREP on behalf of a destination node does not significantly add to the security vulnerability of an ad hoc network. If the routing control messages are not secured, then the threats are exactly the same. If the routing control messages are secured, then the originator of the RREP may need to maintain security associations with additional nodes in the ad hoc network in order to verify iRREP, but this depends on the exact nature of the method by which the control messages are made secure. That is beyond the scope of this document.

6. References

6.1. Normative References

[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC5444] Clausen, T., Dearlove, C., Dean, J. and C. Adjih, "Generalized Mobile Ad Hoc Network (MANET) Packet/Message Format", RFC 5444, February 2009.

6.2. Informative References

[RFC3561] Perkins, C., Belding-Royer, E. and S. Das, "Ad hoc On-Demand Distance Vector (AODV) Routing", RFC 3561, July 2003.
[I-D.ietf-manet-dymo] Chakeres, I and C Perkins, "Dynamic MANET On-demand (DYMO) Routing", Internet-Draft draft-ietf-manet-dymo-21, July 2010.
[I-D.clausen-lln-loadng] Clausen, T, Verdiere, A, Yi, J, Niktash, A, Igarashi, Y and U Herberg, "The LLN On-demand Ad hoc Distance-vector Routing Protocol - Next Generation (LOADng)", Internet-Draft draft-clausen-lln-loadng-01, October 2011.

Authors' Addresses

Charles E. Perkins Futurewei Inc. 3300 Central Expressway Santa Clara, CA 95053 USA Phone: +1-408-421-1172 EMail: charliep@computer.org
Ian D Chakeres CenGen 9250 Bendix Road North Columbia, Maryland 21045 USA EMail: ian.chakeres@gmail.com URI: http://www.ianchak.com/