The RADIUS Extensions Working Group will focus on extensions to the RADIUS protocol required to define extensions to the standard attribute space as well as to address cryptographic algorithm agility and use over new transports. In addition, RADEXT will work on RADIUS Design Guidelines and define new attributes for particular applications of authentication, authorization and accounting such as NAS management and local area network (LAN) usage. In order to enable interoperation of heterogeneous RADIUS/Diameter deployments, all RADEXT WG work items MUST contain a Diameter compatibility section, outlining how interoperability with Diameter will be maintained. Furthermore, to ensure backward compatibility with existing RADIUS implementations, as well as compatibility between RADIUS and Diameter, the following restrictions are imposed on extensions considered by the RADEXT WG: - All documents produced MUST specify means of interoperation with legacy RADIUS and, if possible, be backward compatible with existing RADIUS RFCs, including RFCs 2865-2869, 3162, 3575, 3579, 3580, 4668-4673,4675, 5080, 5090 and 5176. Transport profiles should, if possible, be compatible with RFC 3539. - All RADIUS work MUST be compatible with equivalent facilities in Diameter. Where possible, new attributes should be defined so that the same attribute can be used in both RADIUS and Diameter without translation. In other cases a translation considerations section should be included in the specification. Work Items The immediate goals of the RADEXT working group are to address the following issues: - RADIUS design guidelines. This document will provide guidelines for design of RADIUS attributes. It will specifically consider how complex data types may be introduced in a robust manner, maintaining backwards compatibility with existing RADIUS RFCs, across all the classes of attributes: Standard, Vendor-Specific and SDO-Specific. In addition, it will review RADIUS data types and associated backwards compatibility issues. - RADIUS Management authorization. This document will define the use of RADIUS for NAS management over IP. -RADIUS attribute space extension. The standard RADIUS attribute space is currently being depleted. This document will provide additional standard attribute space, while maintaining backward compatibility with existing attributes. -RADIUS Cryptographic Algorithm Agility. RADIUS has traditionally relied on MD5 for both per-packet integrity and authentication as well as attribute confidentiality. Given the increasingly successful attacks being mounted against MD5, the ability to support alternative algorithms is required. This work item will include documentation of RADIUS crypto-agility requirements, as well as development of one or more Experimental RFCs providing support for negotiation of alternative cryptographic algorithms to protect RADIUS. - IEEE 802 attributes. New attributes have been proposed to support IEEE 802 standards for wired and wireless LANs. This work item will support authentication, authorization and accounting attributes needed by IEEE 802 groups including IEEE 802.1, IEEE 802.11 and IEEE 802.16. - New RADIUS transports. A reliable transport profile for RADIUS will be developed, as well as specifications for Secure transports, including TCP/TLS (RADSEC) and UDP/DTLS. - Documentation of Status-Server usage. A document describing usage of the Status-Server facility will be developed.