|Internet-Draft||Turn On 6LoRH||September 2020|
|Thubert & Zhao||Expires 3 April 2021||[Page]|
- 8138 (if approved)
- Intended Status:
- Standards Track
A RPL DODAG Configuration Option for the 6LoWPAN Routing Header
This document updates RFC 8138 by defining a bit in the RPL DODAG Configuration Option to indicate whether compression is used within the RPL Instance, and specify the behavior of RFC 8138-capable nodes when the bit is set and unset.¶
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.¶
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This Internet-Draft will expire on 3 April 2021.¶
Copyright (c) 2020 IETF Trust and the persons identified as the document authors. All rights reserved.¶
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The design of Low Power and Lossy Networks (LLNs) is generally focused on saving energy, which is the most constrained resource of all. The routing optimizations in the "Routing Protocol for Low Power and Lossy Networks" [RFC6550] (RPL) such as routing along a Destination-Oriented Directed Acyclic Graph (DODAG) to a Root Node and the associated routing header compression and forwarding technique specified in [RFC8138] derive from that primary concern.¶
Enabling [RFC8138] on a running network requires a Flag Day where the network is upgraded and rebooted. Otherwise, if acting as a Leaf, a node that does not support the compression would fail to communicate; if acting as a router it would drop the compressed packets and black-hole a portion of the network. This specification enables a hot upgrade where a live network is migrated. During the migration, the compression remains inactive, until all nodes are upgraded.¶
This document complements [RFC8138] and signals whether it should be used within a RPL DODAG with a new flag in the RPL DODAG Configuration Option. The setting of this new flag is controlled by the Root and propagates as is in the whole network as part of the normal RPL signaling.¶
The flag is cleared to maintain the compression inactive during the migration phase. When the migration is complete (e.g., as known by network management and/or inventory), the flag is set and the compression is globally activated in the whole DODAG.¶
The terminology used in this document is consistent with and incorporates that described in "Terms Used in Routing for Low-Power and Lossy Networks (LLNs)" [RFC7102]. Other terms in use in LLNs are found in "Terminology for Constrained-Node Networks" [RFC7228].¶
"RPL", the "RPL Packet Information" (RPI), and "RPL Instance" (indexed by a RPLInstanceID) are defined in "RPL: IPv6 Routing Protocol for Low-Power and Lossy Networks" [RFC6550]. The RPI is the abstract information that RPL defines to be placed in data packets, e.g., as the RPL Option [RFC6553] within the IPv6 Hop-By-Hop Header. By extension the term "RPI" is often used to refer to the RPL Option itself. The DODAG Information Solicitation (DIS), Destination Advertisement Object (DAO) and DODAG Information Object (DIO) messages are also specified in [RFC6550].¶
This document uses the terms RPL-Unaware Leaf (RUL) and RPL-Aware Leaf (RAL) consistently with "Using RPI Option Type, Routing Header for Source Routes and IPv6-in-IPv6 encapsulation in the RPL Data Plane" [USEofRPLinfo]. The term RPL-Aware Node (RAN) refers to a node that is either a RAL or a RPL Router. A RAN manages the reachability of its addresses and prefixes by injecting them in RPL by itself. In contrast, a RUL leverages "Registration Extensions for IPv6 over Low-Power Wireless Personal Area Network (6LoWPAN) Neighbor Discovery" [RFC8505] to obtain reachability services from its parent router(s) as specified in "Routing for RPL Leaves" [UNAWARE-LEAVES].¶
This document often uses the following acronyms:¶
- IPv6 over Low-Power Wireless Personal Area Network¶
- 6LoWPAN Routing Header¶
- DODAG Information Object (a RPL message)¶
- Destination-Oriented Directed Acyclic Graph¶
- Low-Power and Lossy Network¶
- IPv6 Routing Protocol for Low-Power and Lossy Networks¶
- A DODAG rooted at a node which is a child of that node and a subset of a larger DAG¶
- RPL Mode of Operation¶
- RPL Packet Information¶
- RPL-Aware Leaf¶
- RPL-Aware Node¶
- RPL-Unaware Leaf¶
- Source Routing Header¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119][RFC8174] when, and only when, they appear in all capitals, as shown here.¶
The DODAG Configuration Option is defined in Section 6.7.6 of [RFC6550]. Its purpose is extended to distribute configuration information affecting the construction and maintenance of the DODAG, as well as operational parameters for RPL on the DODAG, through the DODAG. As shown in Figure 1, the Option was originally designed with 4 bit positions reserved for future use as Flags.¶
This specification defines a new flag "Enable RFC8138 Compression" (T). The "T" flag is set to turn-on the use of [RFC8138] within the DODAG. The "T" flag is encoded in position 2 of the reserved Flags in the DODAG Configuration Option (counting from bit 0 as the most significant bit) and set to 0 in legacy implementations as specified respectively in Sections 20.14 and 6.7.6 of [RFC6550].¶
Section 4.3 of [USEofRPLinfo] updates [RFC6550] to indicate that the definition of the Flags applies to Mode of Operation (MOP) values zero (0) to six (6) only. For a MOP value of 7, [RFC8138] MUST be used on Links where 6LoWPAN Header Compression [RFC6282] applies and MUST NOT be used otherwise.¶
The RPL DODAG Configuration Option is typically placed in a DODAG Information Object (DIO) message. The DIO message propagates down the DODAG to form and then maintain its structure. The DODAG Configuration Option is copied unmodified from parents to children. [RFC6550] states that "Nodes other than the DODAG Root MUST NOT modify this information when propagating the DODAG Configuration option". Therefore, a legacy parent propagates the "T" flag as set by the Root, and when the "T" flag is set, it is transparently flooded to all the nodes in the DODAG.¶
A node SHOULD generate packets in the compressed form using [RFC8138] if and only if the "T" flag is set. This behavior can be overridden by configuration or network management. Overriding may be needed e.g., to turn on the compression in a network where all nodes support [RFC8138] but the Root does not support this specification and cannot set the "T" flag, or to disable it locally in case of a problem.¶
The decision to use [RFC8138] is made by the originator of the packet depending on its capabilities and its knowledge of the state of the "T" flag. A router encapsulating a packet is the originator of the resulting packet and is responsible for compressing the outer headers with [RFC8138], but it MUST leave the encapsulated packet as is.¶
An external target [USEofRPLinfo] is not expected to support [RFC8138]. In most cases, packets to and from an external target are tunneled back and forth between the border router (referred to as 6LR) that serves the external target and the Root, regardless of the MOP used in the RPL DODAG. The inner packet is typically not compressed with [RFC8138], so for outgoing packets, the border router just needs to decapsulate the (compressed) outer header and forward the (uncompressed) inner packet towards the external target.¶
A router MUST uncompress a packet that is to be forwarded to an external target. Otherwise, the router MUST forward the packet in the form that the source used, either compressed or uncompressed.¶
A RUL [UNAWARE-LEAVES] is both a leaf and an external target. A RUL does not participate in RPL and depends on the parent router to obtain connectivity. In the case of a RUL, forwarding towards an external target actually means delivering the packet.¶
A node that supports [RFC8138] but not this specification can only be used in a homogeneous network. Enabling the [RFC8138] compression without a turn-on signaling method requires a "flag day"; by which time all nodes must be upgraded, and at which point the network can be rebooted with the [RFC8138] compression turned on.¶
The intent for this specification is to perform a migration once and for all without the need for a flag day. In particular it is not the intention to undo the setting of the "T" flag. Though it is possible to roll back (see Section 5.3), the roll back operation SHOULD be complete before the network operator adds nodes that do not support [RFC8138].¶
A node that supports this specification can operate in a network with the [RFC8138] compression turned on or off with the "T" flag set accordingly and in a network in transition from off to on or on to off (see Section 5.2).¶
A node that does not support [RFC8138] can interoperate with nodes that do in a network with [RFC8138] compression turned off. If the compression is turned on, all the RPL-Aware Nodes are expected to be able to handle compressed packets in the compressed form. A node that cannot do so may remain connected to the network as a RUL as described in [UNAWARE-LEAVES].¶
When the "T" flag is turned on by the Root, the information slowly percolates through the DODAG as the DIO gets propagated. Some nodes will see the flag and start sourcing packets in the compressed form while other nodes in the same RPL DODAG are still not aware of it. In non-storing mode, the Root will start using [RFC8138] with a Source Routing Header 6LoRH (SRH-6LoRH) that routes all the way to the parent router or to the leaf.¶
Setting the "T" flag is ultimately the responsibility of the Network Administrator. The expectation is that the network management or upgrading tools in place enable the Network Administrator to know when all the nodes that may join a DODAG were migrated. In the case of a RPL instance with multiple Roots, all nodes that participate to the RPL Instance may potentially join any DODAG. The network MUST be operated with the "T" flag unset until all nodes in the RPL Instance are upgraded to support this specification.¶
When turning [RFC8138] compression off in the network, the Network Administrator MUST wait until all nodes have converged to the "T" flag unset before allowing nodes that do not support the compression in the network. To that effect, whether the compression is active in a node SHOULD be exposed the node's management interface.¶
This specification updates the Registry that was created for [RFC6550] as the registry for "DODAG Configuration Option Flags" and updated as the registry for "DODAG Configuration Option Flags for MOP 0..6" by [USEofRPLinfo], by allocating one new Flag as follows:¶
It is worth noting that in RPL [RFC6550], every node in the LLN that is RPL-aware and has access to the RPL domain can inject any RPL-based attack in the network, more in [RFC7416]. This document applies typically to an existing deployment and does not change its security requirements and operations. It is assumed that the security mechanisms as defined for RPL are followed.¶
Setting the "T" flag before all routers are upgraded may cause a loss of packets. The new bit is protected as the rest of the configuration so this is just one of the many attacks that can happen if an attacker manages to inject a corrupted configuration.¶
Setting and unsetting the "T" flag may create inconsistencies in the network but as long as all nodes are upgraded to [RFC8138] support they will be able to forward both forms. The source is responsible for selecting whether the packet is compressed or not, and all routers must use the format that the source selected. So the result of an inconsistency is merely that both forms will be present in the network, at an additional cost of bandwidth for packets in the uncompressed form.¶
An attacker may unset the "T" flag to force additional energy consumption of child or descendant nodes in its subDAG. Conversely it may set the "T" flag, so that nodes located downstream would compress when that it is not desired, potentially resulting in the loss of packets. In a tree structure, the attacker would be in position to drop the packets from and to the attacked nodes. So the attacks above would be more complex and more visible than simply dropping selected packets. The downstream node may have other parents and see both settings, which could raise attention.¶
The authors wish to thank Murray Kucherawy, Meral Shirazipour, Barry Leiba, Tirumaleswar Reddy, Nagendra Kumar Nainar, Stewart Bryant, Carles Gomez, Eric Vyncke, Roman Danyliw, and especially Benjamin Kaduk, Alvaro Retana, Dominique Barthel and Rahul Jadhav for their in-depth reviews and constructive suggestions.¶
Also many thanks to Michael Richardson for being always helpful and responsive when need comes.¶
- Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, , <https://www.rfc-editor.org/info/rfc2119>.
- Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, , <https://www.rfc-editor.org/info/rfc8174>.
- Winter, T., Ed., Thubert, P., Ed., Brandt, A., Hui, J., Kelsey, R., Levis, P., Pister, K., Struik, R., Vasseur, JP., and R. Alexander, "RPL: IPv6 Routing Protocol for Low-Power and Lossy Networks", RFC 6550, DOI 10.17487/RFC6550, , <https://www.rfc-editor.org/info/rfc6550>.
- Vasseur, JP., "Terms Used in Routing for Low-Power and Lossy Networks", RFC 7102, DOI 10.17487/RFC7102, , <https://www.rfc-editor.org/info/rfc7102>.
- Thubert, P., Ed., Bormann, C., Toutain, L., and R. Cragie, "IPv6 over Low-Power Wireless Personal Area Network (6LoWPAN) Routing Header", RFC 8138, DOI 10.17487/RFC8138, , <https://www.rfc-editor.org/info/rfc8138>.
- Thubert, P., Ed., Nordmark, E., Chakrabarti, S., and C. Perkins, "Registration Extensions for IPv6 over Low-Power Wireless Personal Area Network (6LoWPAN) Neighbor Discovery", RFC 8505, DOI 10.17487/RFC8505, , <https://www.rfc-editor.org/info/rfc8505>.
- Thubert, P. and M. Richardson, "Routing for RPL Leaves", Work in Progress, Internet-Draft, draft-ietf-roll-unaware-leaves-18, , <https://tools.ietf.org/html/draft-ietf-roll-unaware-leaves-18>.
- Hui, J., Ed. and P. Thubert, "Compression Format for IPv6 Datagrams over IEEE 802.15.4-Based Networks", RFC 6282, DOI 10.17487/RFC6282, , <https://www.rfc-editor.org/info/rfc6282>.
- Hui, J. and JP. Vasseur, "The Routing Protocol for Low-Power and Lossy Networks (RPL) Option for Carrying RPL Information in Data-Plane Datagrams", RFC 6553, DOI 10.17487/RFC6553, , <https://www.rfc-editor.org/info/rfc6553>.
- Bormann, C., Ersue, M., and A. Keranen, "Terminology for Constrained-Node Networks", RFC 7228, DOI 10.17487/RFC7228, , <https://www.rfc-editor.org/info/rfc7228>.
- Tsao, T., Alexander, R., Dohler, M., Daza, V., Lozano, A., and M. Richardson, Ed., "A Security Threat Analysis for the Routing Protocol for Low-Power and Lossy Networks (RPLs)", RFC 7416, DOI 10.17487/RFC7416, , <https://www.rfc-editor.org/info/rfc7416>.
- Robles, I., Richardson, M., and P. Thubert, "Using RPI Option Type, Routing Header for Source Routes and IPv6-in-IPv6 encapsulation in the RPL Data Plane", Work in Progress, Internet-Draft, draft-ietf-roll-useofrplinfo-40, , <https://tools.ietf.org/html/draft-ietf-roll-useofrplinfo-40>.