Mobility for IPv6 (mip6) ------------------------ Charter Last Modified: 2006-05-24 Current Status: Active Working Group Chair(s): Basavaraj Patil Gopal Dommety Internet Area Director(s): Jari Arkko Mark Townsley Internet Area Advisor: Jari Arkko Mailing Lists: General Discussion:mip6@ietf.org To Subscribe: https://www.ietf.org/mailman/listinfo/mip6 Archive: http://www.ietf.org/mail-archive/web/mip6/index.html Description of Working Group: Mobile IPv6 (MIPv6) specifies routing support to permit an IPv6 host to continue using its "permanent" home address as it moves around the Internet. Mobile IPv6 supports transparency above the IP layer, including maintenance of active TCP connections and UDP port bindings. The specifications for these mechanisms consist of: draft-ietf-mobileip-ipv6-24 (RFC XXX) and draft-ietf-mobileip-mipv6-ha-ipsec-06 (RFC XXX) The protocol as specified in the above two documents can be considered as the baseline or minimum protocol set for implementing IPv6 mobility. During the development phase of the base protocol, a few additional features were identified as necessary to facilitate deployment (described below). The primary goal of the MIP6 working group will be to enhance base IPv6 mobility by continuing work on developments that are required for wide-scale deployments. Additionally the working group will ensure that any issues identified by the interop testing of the MIPv6 specifications are addressed quickly. Specific work items with this goal in mind are listed below: 1) Create and maintain an issue list that is generated on the basis of interop testing and address these issues as enhancements to the base protocol 2) Features such as renumbering of the home link, home agent discovery, Route Optimization, which are currently a part of the base specification can be specified more explicitly as separate specifications. This will also enable modularizing the Mobile IPv6 specification further into the minimal subset and add-on features. Some of these specifications will be identified as base mechanisms of Mobile IPv6. 3) A number of enhancements to basic IPv6 mobility were identified during the development of the base specification. These enhancements will be taken up in a phased manner depending on the priority identified with each. Below are listed the work items to be taken up by the WG: - A bootstrap mechanism for setting up security associations between the Mobile Node (MN) and Home Agent (HA) that would enable easier deployment of Mobile IPv6. This bootstrap mechanism is intended to be used when the device is turned on the very first time and activates MIPv6. The WG should investigate and define the scope before solving the problem. - Improving home agent reliability: in the event of a home agent crashing, this would allow another home agent to continue providing service to a given mobile node. - Support for a Mobile Node changing its home address, either because of renumbering in its home network or because it periodically changes addresses (perhaps via RFC3041) - Route optimization will require security mechanisms for trusting and updating the binding information.Return-routability is the basic mechanism for route-optimization. Mechanisms using a shared secret Key/Security Association will be considered. Methods for establishing a security association between the mobile node and the correspondent node are out of the scope of the WG. - The working group will also document problem statements associated with deploying Mobile IPv6 in the following areas: a. Mobile IPv6 issues in the presence of firewalls b. Mobile IPv6 deployment and transition issues in the presence of IPv4/IPv6 networks c. Multicast issues It should be noted that there are potential optimizations that might make mobile IP more attractive for use by certain applications (e.g., making handovers "faster"). The latter category of optimizations is explicitly out-of-scope at this time; this WG will focus on issues for which there is strong consensus that the work is needed to get basic mobility deployable on a large scale. Goals and Milestones: Done Submit I-D 'Issues with firewall Problem statement' to IESG Done Submit I-D 'MIPv6 MIB' to IESG Done Submit I-D 'Extensions to Socket Advanced API for MIPv6' to IESG Done Submit I-D 'Alternate Route Optimization (Pre-config Key) scheme' to IESG Done Submit Bootstrapping problem statement to IESG Done Submit I-D 'Authentication Option for MIPv6' to IESG Done Submit I-D 'Identification Option for MIPv6' to IESG Done Submit I-D 'MIPv6 operation with IKEV2 and the revised IPsec Architecture to IESG Done Submit Problem statement and Solution to Mobile IPv6 transition between v4/v6 networks to IESG Jul 2006 Submit ID Submit ID 'Motivation for Authentication I-D' to IESG Aug 2006 Separate specs for Home Agent (HA) Discovery, Route Optimization, Renumbering to IESG Aug 2006 Submit Bootstrapping solution for Integrated Scenario to IESG Aug 2006 Submit Bootstrapping solution for split Scenario to IESG Sep 2006 Submit I-D 'Goals for AAA HA Interface' to IESG Dec 2006 Submit Home agent reliability to IESG Internet-Drafts: Posted Revised I-D Title ------ ------- -------------------------------------------- Jul 2004 May 2006 Problem Statement for bootstrapping Mobile IPv6 Oct 2004 Apr 2006 Mobile IPv6 Operation with IKEv2 and the revised IPsec Architecture Jan 2005 Aug 2006 Using IPsec between Mobile and Correspondent IPv6 Nodes May 2005 Sep 2006 AAA Goals for Mobile IPv6 Jul 2005 Jun 2006 Mobility management for Dual stack mobile nodes A Problem Statement Sep 2005 Jun 2006 Why Authentication Data suboption is needed for MIP6 Oct 2005 Jun 2006 IP Address Location Privacy and Mobile IPv6: Problem Statement Oct 2005 Jun 2006 Mobile IPv6 support for dual stack Hosts and Routers (DSMIPv6) Oct 2005 Jun 2006 MIP6-bootstrapping via DHCPv6 for the Integrated Scenario Jun 2006 Jun 2006 Mobility Header Home Agent Switch Message Jun 2006 Jun 2006 Home Agent Reliability Protocol Aug 2006 Aug 2006 DHCP Option for Home Information Discovery in MIPv6 Request For Comments: RFC Stat Published Title ------- -- ----------- ------------------------------------ RFC3776Standard Jun 2004 Using IPsec to Protect Mobile IPv6 Signaling between Mobile Nodes and Home Agents RFC3775Standard Jun 2004 Mobility Support in IPv6 RFC4283Standard Dec 2005 Mobile Node Identifier Option for Mobile IPv6 (MIPv6) RFC4225 I Dec 2005 Mobile IP version 6 Route Optimization Security Design Background RFC4285 I Jan 2006 Authentication Protocol for Mobile IPv6 RFC4295 PS Apr 2006 Mobile IPv6 Management Information Base RFC4487 I May 2006 Mobile IPv6 and Firewalls: Problem Statement RFC4449 PS Jun 2006 Securing Mobile IPv6 Route Optimization Using a Static Shared Key RFC4584 I Jul 2006 Extension to Sockets API for Mobile IPv6