Softwires (softwire) -------------------- Charter Last Modified: 2011-12-09 Current Status: Active Working Group Chair(s): Alain Durand Yong Cui Internet Area Director(s): Ralph Droms Jari Arkko Internet Area Advisor: Ralph Droms Technical Advisor(s): Xing Li Mailing Lists: General Discussion:softwires@ietf.org To Subscribe: softwires-request@ietf.org In Body: With a subject line: subscribe Archive: http://www.ietf.org/mail-archive/web/softwires/current/maillist.html Description of Working Group: The Softwires Working Group is specifying the standardization of discovery, control and encapsulation methods for connecting IPv4 networks across IPv6 networks and IPv6 networks across IPv4 networks in a way that will encourage multiple, inter-operable implementations. For various reasons, native IPv4 and/or IPv6 transport may not be available in all cases, and there is a need to tunnel IPv4 in IPv6 or IPv6 in IPv4 to cross a part of the network which is not IPv4 or IPv6 capable. The Softwires Problem Statement, RFC 4925, identifies two distinct topological scenarios that the Working Group will provide solutions for: "Hubs and Spokes" and "Mesh." In the former case (Hubs and Spokes), hosts or "stub" networks are attached via individual, point-to-point, IPv4 over IPv6 or IPv6 over IPv4 softwires to a centralized Softwire Concentrator. In the latter case (Mesh), network islands of one Address Family (IPv4 or IPv6) are connected over a network of another Address Family via point to multi-point softwires among Address Family Border Routers (AFBRs). The Softwires Working Group will reuse existing technologies as much as possible and only when necessary, create additional protocol building blocks. For generality, all base softwires encapsulation mechanisms should support all combinations of IP versions over one other (IPv4 over IPv6, IPv6 over IPv4, IPv4 over IPv4, IPv6 over IPv6). IPv4/IPv6 translation mechanisms, new addressing schemes, and block address assignments are out of scope. DHCP options developed in this working group will be reviewed jointly with the DHC Working Group. RADIUS attributes developed in the Softwires Working Group will be reviewed jointly with the RADEXT Working Group. The MIB Doctors directorate will be asked to review any MIB modules developed in the Softwires Working Group. BGP and other routing and signaling protocols developed in this group will be reviewed jointly with the proper working groups and other workings that may take interest (e.g. IDR, L3VPN, PIM, LDP, SAAG, etc). The specific work areas for this working group are: 1. Developments for Mesh softwires topology; the Mesh topology work will be reviewed in the L3VPN and IDR Working Groups - multicast - MIB module 2. Developments for 6rd: - multicast - operational specification - RADIUS attribute for 6rd server - MIB module - Gateway-initiated 6rd (GI-6rd) 3. Developments for Dual-Stack Lite (DS-Lite): - multicast - operational specification - RADIUS attribute for AFTR - proxy extensions; GI-DS-Lite; No NAT on AFTR - MIB module 4. Developments for stateless legacy IPv4 carried over IPv6 - develop a solution motivation document to be published as an RFC - develop a protocol specification response to the solution motivation document; this work item will not be taken through Working Group last call until the solution motivation document has been published or approved for publication 5. Finalize discovery and configuration mechanisms for a gateway to use DS-Lite or 6rd; these discovery and configuration mechanisms must take into a account other operating environments such as dual-stack and tunneling mechanisms not defined by the Softwires Working Group. Development of new mechanisms will involve the DHC and/or V6OPS Working Groups as appropriate Other work items would require Working Group approval and rechartering. Goals and Milestones: Done Submit a problem statement to the IESG to be considered as an Informational RFC Jun 2011 Submit DS-lite RADIUS attribute document for Proposed Standard Jun 2011 Adopt DS-lite operational document as a Working Group document Jul 2011 Submit 6rd RADIUS attribute document for Proposed Standard Jul 2011 Submit GI DS-lite document for Proposed Standard Jul 2011 Adopt DS-Lite without NAT document as a Working Group document Jul 2011 Adopt DHCPv4 over tunnel document as a Working Group document Aug 2011 Adopt 6rd operational document as a Working Group document Aug 2011 Adopt Multicast extensions document as a Working Group document Aug 2011 Submit DS-lite operational document for Informational Aug 2011 Adopt stateless legacy IPv4 solution motivation document as a Working Group document Sep 2011 Submit DS-Lite without NAT document for Informational Sep 2011 Submit DHCPv4 over tunnel document for Proposed Standard Nov 2011 Submit Multicast extensions document for Informational Nov 2011 Submit 6rd operational document for Informational Nov 2011 Adopt 6rd MIB module document as a Working Group document Nov 2011 Adopt DS-lite MIB module document as a Working Group document Nov 2011 Adopt Mesh topology MIB module document as a Working Group document Dec 2011 Submit stateless legacy IPv4 solution motivation document for Informational Dec 2011 Adopt stateless legacy IPv4 specification document as a Working Group document Apr 2012 Submit stateless legacy IPv4 specification document for Proposed Standard Nov 2012 Submit 6rd MIB module document for Proposed Standard Nov 2012 Submit DS-lite MIB module document for Proposed Standard Nov 2012 Submit Mesh topology MIB module document for Proposed Standard Internet-Drafts: Posted Revised I-D Title ------ ------- -------------------------------------------- May 2010 Dec 2011 Gateway Initiated Dual-Stack Lite Deployment Oct 2010 Oct 2011 RADIUS Extensions for Dual-Stack Lite Nov 2010 Oct 2011 RADIUS Attribute for 6rd Sep 2011 Sep 2011 Public IPv4 over Access IPv6 Network Sep 2011 Sep 2011 Motivations for Stateless IPv4 over IPv6 Migration Solutions Sep 2011 Oct 2011 Multicast Extensions to DS-Lite Technique in Broadband Deployments Sep 2011 Oct 2011 Softwire Mesh Multicast Sep 2011 Oct 2011 Deployment Considerations for Dual-Stack Lite Request For Comments: RFC Stat Published Title ------- -- ----------- ------------------------------------ RFC4925 I Jul 2007 Softwire Problem Statement RFC5512 PS Apr 2009 The BGP Encapsulation Subsequent Address Family Identifier (SAFI) and the BGP Tunnel Encapsulation Attribute RFC5549 PS May 2009 Advertising IPv4 Network Layer Reachability Information with an IPv6 Next Hop RFC5543 PS May 2009 BGP Traffic Engineering Attribute RFC5566 PS Jun 2009 BGP IPsec Tunnel Encapsulation Attribute RFC5565 PS Jun 2009 Softwire Mesh Framework RFC5571 PS Jun 2009 Softwire Hub and Spoke Deployment Framework with Layer Two Tunneling Protocol Version 2(L2TPv2) RFC5619 PS Aug 2009 Softwire Security Analysis and Requirements RFC5640 PS Aug 2009 Load Balancing for Mesh Softwires RFC5969 PS Aug 2010 IPv6 Rapid Deployment on IPv4 Infrastructures (6rd) -- Protocol Specification RFC6333 PS Aug 2011 Dual-Stack Lite Broadband Deployments Following IPv4 Exhaustion RFC6334 PS Aug 2011 Dynamic Host Configuration Protocol for IPv6 (DHCPv6) Option for Dual-Stack Lite