Routing Over Low power and Lossy networks (roll) ------------------------------------------------ Charter Last Modified: 2010-12-10 Current Status: Active Working Group Chair(s): JP Vasseur David Culler Routing Area Director(s): Stewart Bryant Adrian Farrel Routing Area Advisor: Adrian Farrel Technical Advisor(s): Rene Struik Secretary(ies): Daniel King Mailing Lists: General Discussion:roll@ietf.org To Subscribe: http://www.ietf.org/mailman/listinfo/roll Archive: http://www.ietf.org/mail-archive/web/roll/ Description of Working Group: Low power and Lossy networks (LLNs) are made up of many embedded devices with limited power, memory, and processing resources. They are interconnected by a variety of links, such as IEEE 802.15.4, Bluetooth, Low Power WiFi, wired or other low power PLC (Powerline Communication) links. LLNs are transitioning to an end-to-end IP-based solution to avoid the problem of non-interoperable networks interconnected by protocol translation gateways and proxies. Generally speaking, LLNs have at least five distinguishing characteristics: - LLNs operate with a hard, very small bound on state. - In most cases, LLN optimize for saving energy. - Typical traffic patterns are not simply unicast flows (e.g. in some cases most if not all traffic can be point to multipoint). - In most cases, LLNs will be employed over link layers with restricted frame-sizes, thus a routing protocol for LLNs should be specifically adapted for such link layers. - LLN routing protocols have to be very careful when trading off efficiency for generality; many LLN nodes do not have resources to waste. These specific properties cause LLNs to have specific routing requirements. Existing routing protocols such as OSPF, IS-IS, AODV, and OLSR have been evaluated by the working group and have in their current form been found to not satisfy all of these specific routing requirements. The Working Group is focused on routing issues for LLN. There is a wide scope of application areas for LLNs, including industrial monitoring, building automation (HVAC, lighting, access control, fire), connected homes, healthcare, environmental monitoring, urban sensor networks (e.g. Smart Grid), asset tracking. The Working Group focuses on routing solutions for a subset of these: industrial, connected home, building and urban sensor networks for which routing requirements have been specified. These application-specific routing requirement documents will be used for protocol design. The Working Group focuses only on IPv6 routing architectural framework for these application scenarios. The Framework will take into consideration various aspects including high reliability in the presence of time varying loss characteristics and connectivity while permitting low-power operation with very modest memory and CPU pressure in networks potentially comprising a very large number (several thousands) of nodes. The Working Group will pay particular attention to routing security and manageability (e.g., self routing configuration) issues. It will also need to consider the transport characteristic the routing protocol messages will experience. Mechanisms that protect an LLN from congestion collapse or that establish some degree of fairness between concurrent communication sessions are out of scope of the Working Group. It is expected that upper-layer applications utilizing LLNs define appropriate mechanisms. The solution must include unicast and multicast considerations. Work Items: - Specification of routing metrics used in path calculation. This includes static and dynamic link/node attributes required for routing in LLNs. - Provide an architectural framework for routing and path selection at Layer 3 (Routing for LLN Architecture) that addresses such issues as whether LLN routing require a distributed and/or centralized path computation models, whether additional hierarchy is necessary and how it is applied. Manageability will be considered with each approach, along with various trade-offs for maintaining low power operation, including the presence of non-trivial loss and networks with a very large number of nodes. - Produce a routing security framework for routing in LLNs. - Protocol work: The Working Group will consider specific routing requirements from the four application documents collectively, and specify either a new protocol or extend an existing routing protocol in cooperation with the relevant Working Group. If requirements from the four target application areas cannot be met with a single protocol, the WG may choose to specify or extend more than one protocol (this will require a recharter of the WG). - Documentation of applicability statement of ROLL routing protocols. Goals and Milestones: Done Submit Routing requirements for Industrial applications to the IESG to be considered as an Informational RFC. Done Submit Routing requirements for Connected Home networks applications to the IESG to be considered as an Informational RFC. Done Submit Routing requirements for Building applications to the IESG to be considered as an Informational RFC. Done Submit Routing requirements for Urban networks applications to the IESG to be considered as an Informational RFC. Done Submit Security Framework to the IESG to be considered as an Informational RFC Done Submit Routing metrics for LLNs document to the IESG to be considered as a Proposed Standard. Done Submit first draft of ROLL routing protocol specification as Proposed Standard. Done Submit the ROLL routing protocol specification to the IESG as Proposed Standard. Jun 2011 Submit first draft of RPL applicability statement for Industrial applications to the IESG to be considered as an Informational RFC. Jun 2011 Submit first draft of RPL applicability statement for Building Automation applications to the IESG to be considered as an Informational RFC. Jul 2011 Submit first draft of RPL applicability statement for Home Automation applications to the IESG to be considered as an Informational RFC. Jul 2011 Submit first draft of RPL applicability statement for Urban applications to the IESG to be considered as an Informational RFC. Oct 2011 Submit RPL applicability statement for Industrial applications to the IESG to be considered as an Informational RFC. Oct 2011 Submit RPL applicability statement for Building Automation applications to the IESG to be considered as an Informational RFC. Nov 2011 Submit RPL applicability statement for Home Automation applications to the IESG to be considered as an Informational RFC. Nov 2011 Submit RPL applicability statement for urban applications to the IESG to be considered as an Informational RFC. Dec 2012 Evaluate WG progress, recharter or close. Internet-Drafts: Posted Revised I-D Title ------ ------- -------------------------------------------- Oct 2008 Mar 2011 Terminology in Low power And Lossy Networks May 2009 Mar 2011 Routing Metrics used for Path Calculation in Low Power and Lossy Networks Aug 2009 Mar 2011 RPL: IPv6 Routing Protocol for Low power and Lossy Networks Dec 2009 May 2011 RPL Objective Function 0 Mar 2010 Jun 2011 A Security Framework for Routing over Low Power and Lossy Networks Aug 2010 May 2011 Reactive Discovery of Point-to-Point Routes in Low Power and Lossy Networks Oct 2010 May 2011 The Minimum Rank Objective Function with Hysteresis Apr 2011 Apr 2011 A Mechanism to Measure the Quality of a Point-to-point Route in a Low Power and Lossy Network Apr 2011 Apr 2011 Multicast Forwarding Using Trickle Request For Comments: RFC Stat Published Title ------- -- ----------- ------------------------------------ RFC5548 I May 2009 Routing Requirements for Urban Low-Power and Lossy Networks RFC5673 I Oct 2009 Industrial Routing Requirements in Low Power and Lossy Networks RFC5826 I Apr 2010 Home Automation Routing Requirements in Low Power and Lossy Networks RFC5867 I Jun 2010 Building Automation Routing Requirements in Low-Power and Lossy Networks RFC6206 PS Mar 2011 The Trickle Algorithm