Internet Engineering Task Force D. Katz Internet-Draft Juniper Networks Intended status: Standards Track D. Ward Expires: November 7, 2015 Cisco Systems S. Pallagatti, Ed. Juniper Networks May 6, 2015 BFD for Multipoint Networks draft-ietf-bfd-multipoint-06 Abstract This document describes extensions to the Bidirectional Forwarding Detection (BFD) protocol for its use in multipoint and multicast networks. Comments on this draft should be directed to rtg- bfd@ietf.org. Requirements Language The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119]. Status of This Memo This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at http://datatracker.ietf.org/drafts/current/. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." This Internet-Draft will expire on November 7, 2015. Copyright Notice Copyright (c) 2015 IETF Trust and the persons identified as the document authors. All rights reserved. Katz, et al. Expires November 7, 2015 [Page 1]
Internet-Draft BFD for Multipoint Networks May 2015 This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2 2. Goals . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 3. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . 4 4. Protocol Details . . . . . . . . . . . . . . . . . . . . . . 4 4.1. Multipoint BFD Control Packets . . . . . . . . . . . . . 4 4.2. Session Model . . . . . . . . . . . . . . . . . . . . . . 4 4.3. Session Failure Semantics . . . . . . . . . . . . . . . . 5 4.4. State Variables . . . . . . . . . . . . . . . . . . . . . 5 4.4.1. New State Variables . . . . . . . . . . . . . . . . . 5 4.4.2. State Variable Initialization and Maintenance . . . . 6 4.5. State Machine . . . . . . . . . . . . . . . . . . . . . . 6 4.6. Session Establishment . . . . . . . . . . . . . . . . . . 7 4.7. Discriminators and Packet Demultiplexing . . . . . . . . 7 4.8. Packet consumption on tails . . . . . . . . . . . . . . . 7 4.9. Bringing Up and Shutting Down Multipoint BFD Service . . 8 4.10. Timer Manipulation . . . . . . . . . . . . . . . . . . . 8 4.11. Detection Times . . . . . . . . . . . . . . . . . . . . . 9 4.12. State Maintenance for Down/AdminDown Sessions . . . . . . 9 4.12.1. MultipointHead Sessions . . . . . . . . . . . . . . 9 4.12.2. MultipointTail Sessions . . . . . . . . . . . . . . 9 4.13. Base Specification Text Replacement . . . . . . . . . . . 10 4.13.1. Reception of BFD Control Packets . . . . . . . . . . 10 4.13.2. Demultiplexing BFD Control Packets . . . . . . . . . 12 4.13.3. Transmitting BFD Control Packets . . . . . . . . . . 13 5. Assumptions . . . . . . . . . . . . . . . . . . . . . . . . . 16 6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 16 7. Security Considerations . . . . . . . . . . . . . . . . . . . 16 8. Contributors . . . . . . . . . . . . . . . . . . . . . . . . 17 9. Normative References . . . . . . . . . . . . . . . . . . . . 17 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 17 1. Introduction The Bidirectional Forwarding Detection protocol [RFC5880] specifies a method for verifying unicast connectivity between a pair of systems. This document defines a method for using BFD to provide verification Katz, et al. Expires November 7, 2015 [Page 2]
Internet-Draft BFD for Multipoint Networks May 2015 of multipoint or multicast connectivity between a multipoint sender (the "head") and a set of one or more multipoint receivers (the "tails"). As multipoint transmissions are inherently unidirectional, this mechanism purports only to verify this unidirectional connectivity. Although this seems in conflict with the "Bidirectional" in BFD, it is a natural fit for that protocol. This application of BFD allows for the tails to detect a lack of connectivity from the head. Due to unidirectional nature, virtually all options and timing parameters are controlled by the head. As an option, the tail may notify the head of the lack of multipoint connectivity. Details of tail notification to head are outside the scope of this document. Throughout this document, the term "multipoint" is defined as a mechanism by which one or more systems receive packets sent by a single sender. This specifically includes such things as IP multicast and point-to-multipoint MPLS. This document effectively modifies and adds to the base BFD specification. It is the intention of the authors to fold these extensions into the base specification at the appropriate time. 2. Goals The primary goal of this mechanism is to allow tails to rapidly detect the fact that multipoint connectivity from the head has failed. Another goal is for the mechanism to work on any multicast or multipoint medium. A further goal is to support multiple, overlapping multipoint paths, as well as multipoint paths with multiple heads, and to allow point- to-point BFD sessions to operate simultaneously among the systems participating in Multipoint BFD. A final goal is to integrate multipoint operation into the base specification in such a way as to make it relatively easy to support both multipoint and point-to-point operation in a single implementation. It is a non-goal for this protocol to verify point-to-point connectivity between the head and any tails. This can be done Katz, et al. Expires November 7, 2015 [Page 3]
Internet-Draft BFD for Multipoint Networks May 2015 independently (and with no penalty in protocol overhead) by using point-to-point BFD. 3. Overview The heart of this protocol is the periodic transmission of BFD Control packets along a multipoint path, from the head to all tails on the tree. The contents of the BFD packets provide the means for the tails to calculate the detection time for path failure. If no BFD Control packets are received by a tail for a detection time, the tail declares the path to have failed. For some applications this is the only mechanism necessary; the head can remain ignorant of the tails. Head may wish to be alerted to the tails' connectivity (or lack thereof). Details of how head keeps track of tails and how tails alert it's connectivity to head are outside scope of this document. Although this document describes a single head and a set of tails spanned by a single multipoint path, the protocol is capable of supporting (and discriminating between) more than one multipoint path at both heads and tails. Furthermore, the same head and tail may share multiple multipoint paths, and a multipoint path may have multiple heads. 4. Protocol Details This section describes the operation of Multipoint BFD in detail. 4.1. Multipoint BFD Control Packets Multipoint BFD Control packets (packets sent by the head over a multipoint path) are explicitly marked as such, via the setting of the M bit. This means that Multipoint BFD does not depend on the recipient of a packet to know whether the packet was received over a multipoint path. This can be useful in scenarios where this information may not be available to the recipient. 4.2. Session Model Multipoint BFD is modeled as a set of sessions of different types. The elements of procedure differ slightly for each type. Point-to-point sessions, as described in [BFD], are of type PointToPoint. The head has a session of type MultipointHead that is bound to a multipoint path. Multipoint BFD Control packets are sent by this Katz, et al. Expires November 7, 2015 [Page 4]
Internet-Draft BFD for Multipoint Networks May 2015 session over the multipoint path, and no BFD Control packets are received by it. Each tail has a session of type MultipointTail associated with a multipoint path. These sessions receive BFD Control packets from the head over multipoint path. 4.3. Session Failure Semantics The semantics of session failure are subtle enough to warrant further explanation. MultipointHead sessions cannot fail (since they are controlled administratively.) If a MultipointTail session fails, it means that the tail definitely has lost contact with the head (or the head has been administratively disabled) and the tail should take appropriate action. 4.4. State Variables Multipoint BFD introduces some new state variables, and modifies the usage of a few existing ones. 4.4.1. New State Variables A number of state variables are added to the base specification in support of Multipoint BFD. bfd.SessionType The type of this session. Allowable values are: PointToPoint: Classic point-to-point BFD. MultipointHead: A session on the head responsible for the periodic transmission of multipoint BFD Control packets along the multipoint path. MultipointTail: A multipoint session on a tail. This variable MUST be initialized to the appropriate type when the session is created, according to the rules in Section 4.13 bfd.SilentTail Katz, et al. Expires November 7, 2015 [Page 5]
Internet-Draft BFD for Multipoint Networks May 2015 Always set to 1, a tail will never transmit any BFD Control packets to the head under any circumstances. Setting to 0 is outside the scope of this document. This variable is only pertinent when bfd.SessionType is MultipointTail. 4.4.2. State Variable Initialization and Maintenance Some state variables defined in section 6.8.1 of the [RFC5880] needs to be initialized or manipulated differently depending on the session type. bfd.RequiredMinRxInterval This variable MUST be set to 0 for session type MultipointHead. bfd.DemandMode This variable MUST be initialized to 1 for session type MultipointHead and MUST be initialized to 0 for session type MultipointTail. 4.5. State Machine The BFD state machine works slightly differently in the multipoint application. In particular, since there is a many-to-one mapping, three-way handshakes for session establishment and teardown are neither possible nor appropriate. As such there is no Init state. Session of type MultipointHead MUST NOT send BFD control packets with the State field being set to INIT, and must be ignored on receipt. The following diagram provides an overview of the state machine for session type MultipointTail. The notation on each arc represents the state of the remote system (as received in the State field in the BFD Control packet) or indicates the expiration of the Detection Timer. DOWN, ADMIN DOWN, +------+ TIMER +------+ +----| |<---------------------| |----+ DOWN,| | DOWN | | UP | |UP ADMIN DOWN,+--->| |--------------------->| |<---+ TIMER +------+ UP +------+ Sessions of type MultipointHead never receive packets and have no Detection Timer, and as such all state transitions are administratively driven. Katz, et al. Expires November 7, 2015 [Page 6]
Internet-Draft BFD for Multipoint Networks May 2015 4.6. Session Establishment Unlike Point-to-point BFD, Multipoint BFD provides a form of discovery mechanism for tails to discover the head. The minimum amount of a priori information required both on the head and tails is the binding to the multipoint path over which BFD is running. The head transmits Multipoint BFD packets on that tree, and the tails listen for BFD packets on that tree. All other information MAY be determined dynamically. A session of type MultipointHead is created for each multipoint path over which the head wishes to run BFD. This session runs in the Active role. Except when terminating BFD service, this session is always in state Up and always operates in Demand mode. No received packets are ever demultiplexed to the MultipointHead session. In this sense it is a degenerate form of a session. Sessions on the tail MAY be established dynamically, based on the receipt of a Multipoint BFD Control packet from the head, and are of type MultipointTail. Tail sessions always take the Passive role. 4.7. Discriminators and Packet Demultiplexing The use of Discriminators is somewhat different in Multipoint BFD than in Point-to-point BFD. The head sends Multipoint BFD Control packets over the MultipointHead session with My Discr set to a value bound to the multipoint path, and with Your Discr set to zero. IP and MPLS multipoint tails MUST demultiplex BFD packets based on a combination of the source address, My Discriminator and the identity of the multipoint tree which the Multipoint BFD Control packet was received from. Together they uniquely identify the head of the multipoint path. Bootstrapping BFD session to a multipoint LSP in case of penultimate hop popping is outside the scope of this document. Note that, unlike PointToPoint sessions, the discriminator values on all multipoint session types MUST NOT be changed during the life of a session. This is a side effect of the more complex demultiplexing scheme. 4.8. Packet consumption on tails BFD packets received on tails for a multicast group MUST be consumed by tails and MUST not be forwarded to receivers. Session of type MultipointTail MUST identify the packet as BFD with the help of Katz, et al. Expires November 7, 2015 [Page 7]
Internet-Draft BFD for Multipoint Networks May 2015 destination UDP port number "3784" on IP multipoint path. For multipoint LSP, MultipointTail MUST use destination UDP port "3784" and IP "127.0.0.0/8" range. Packet identified as BFD packet MUST be consumed by MultipointTail and demultiplex as described in Section 4.13.2 4.9. Bringing Up and Shutting Down Multipoint BFD Service Because there is no three-way handshake in Multipoint BFD, a newly started head (that does not have any previous state information available) SHOULD start with bfd.SessionState set to Down and with bfd.RequiredMinRxInterval set to zero in the MultipointHead session. The session SHOULD remain in this state for a time equal to (bfd.DesiredMinTxInterval * bfd.DetectMult). This will ensure that all MultipointTail sessions are reset (so long as the restarted head is using the same or larger value of bfd.DesiredMinTxInterval than it did previously.) Multipoint BFD service is brought up by administratively setting bfd.SessionState to Up in the MultipointHead session. A head may wish to shut down its BFD service in a controlled fashion. This is desirable because the tails need not wait a detection time prior to declaring the multipoint session to be down (and taking whatever action is necessary in that case.) To shut down a multipoint session a head MUST administratively set bfd.SessionState in the MultipointHead session to either Down or AdminDown and SHOULD set bfd.RequiredMinRxInterval to zero. The session SHOULD send BFD Control packets in this state for a period equal to (bfd.DesiredMinTxInterval * bfd.DetectMult). The semantic difference between Down and AdminDown state is for further discussion. 4.10. Timer Manipulation Because of the one-to-many mapping, a session of type MultipointHead SHOULD NOT initiate a Poll Sequence in conjunction with timer value changes. However to indicate change in packet MultipointHead session MUST send packet with P bit set. MultipointTail session MUST NOT reply if packet has M, P bit set and bfd.RequiredMinRxInterval set to 0. The MultipointHead MUST send bfd.DetectMult packets with P bit set at the old transmit interval before using the higher value in order to avoid false detection timeouts at the tails. MultipointHead May also Katz, et al. Expires November 7, 2015 [Page 8]
Internet-Draft BFD for Multipoint Networks May 2015 wait some amount of time before making the changes to the transmit interval (through configuration). Change in the value of bfd.RequiredMinRxInterval is outside the scope of this document. 4.11. Detection Times Multipoint BFD is inherently asymmetric. As such, each session type has a different approach to detection times. Since the MultipointHead session never receives packets, it does not calculate a detection time. MultipointTail sessions cannot influence the transmission rate of the MultipointHead session using the Required Min Rx Interval field because of its one-to-many nature. As such, the Detection Time calculation for a MultipointTail session does not use bfd.RequiredMinRxInterval in the calculation. The detection time is calculated as the product of the last received values of Desired Min TX Interval and Detect Mult. The value of bfd.DetectMult may be changed at any time on any session type. 4.12. State Maintenance for Down/AdminDown Sessions The length of time session state is kept after the session goes down determines how long the session will continue to send BFD Control packets (since no packets can be sent after the session is destroyed.) 4.12.1. MultipointHead Sessions When a MultipointHead session transitions to states Down or AdminDown, the state SHOULD be maintained for a period equal to (bfd.DesiredMinTxInterval * bfd.DetectMult) to ensure that the tails more quickly detect the session going down (by continuing to transmit BFD Control packets with the new state.) 4.12.2. MultipointTail Sessions MultipointTail sessions MAY be destroyed immediately upon leaving Up state, since tail will transmit no packets. Otherwise, MultipointTail sessions SHOULD be maintained as long as BFD Control packets are being received by it (which by definition will indicate that the head is not Up.) Katz, et al. Expires November 7, 2015 [Page 9]
Internet-Draft BFD for Multipoint Networks May 2015 4.13. Base Specification Text Replacement The following sections are meant to replace the corresponding sections in the base specification. 4.13.1. Reception of BFD Control Packets The following procedure replaces section 6.8.6 of [RFC5880]. When a BFD Control packet is received, the following procedure MUST be followed, in the order specified. If the packet is discarded according to these rules, processing of the packet MUST cease at that point. If the version number is not correct (1), the packet MUST be discarded. If the Length field is less than the minimum correct value (24 if the A bit is clear, or 26 if the A bit is set), the packet MUST be discarded. If the Length field is greater than the payload of the encapsulating protocol, the packet MUST be discarded. If the Detect Mult field is zero, the packet MUST be discarded. If the My Discriminator field is zero, the packet MUST be discarded. Demultiplex the packet to a session according to Section 4.13.2 below. The result is either a session of the proper type, or the packet is discarded (and packet processing MUST cease.) If the A bit is set and no authentication is in use (bfd.AuthType is zero), the packet MUST be discarded. If the A bit is clear and authentication is in use (bfd.AuthType is nonzero), the packet MUST be discarded. If the A bit is set, the packet MUST be authenticated under the rules of section 6.7, based on the authentication type in use (bfd.AuthType.) This may cause the packet to be discarded. Set bfd.RemoteDiscr to the value of My Discriminator. Set bfd.RemoteState to the value of the State (Sta) field. Set bfd.RemoteDemandMode to the value of the Demand (D) bit. Katz, et al. Expires November 7, 2015 [Page 10]
Internet-Draft BFD for Multipoint Networks May 2015 Set bfd.RemoteMinRxInterval to the value of Required Min RX Interval. If the Required Min Echo RX Interval field is zero, the transmission of Echo packets, if any, MUST cease. If a Poll Sequence is being transmitted by the local system and the Final (F) bit in the received packet is set, the Poll Sequence MUST be terminated. If bfd.SessionType is PointToPoint, update the transmit interval as described in [RFC5880] section 6.8.2. If bfd.SessionType is PointToPoint, update the Detection Time as described in [RFC5880] section 6.8.4. Otherwise, update the Detection Time as described in Section 4.11 above. If bfd.SessionState is AdminDown Discard the packet If received state is AdminDown If bfd.SessionState is not Down Set bfd.LocalDiag to 3 (Neighbor signaled session down) Set bfd.SessionState to Down Else If bfd.SessionState is Down If bfd.SessionType is PointToPoint If received State is Down Set bfd.SessionState to Init Else if received State is Init Set bfd.SessionState to Up Else (bfd.SessionType is not PointToPoint) If received State is Up Set bfd.SessionState to Up Katz, et al. Expires November 7, 2015 [Page 11]
Internet-Draft BFD for Multipoint Networks May 2015 Else if bfd.SessionState is Init If received State is Init or Up Set bfd.SessionState to Up Else (bfd.SessionState is Up) If received State is Down Set bfd.LocalDiag to 3 (Neighbor signaled session down) Set bfd.SessionState to Down Check to see if Demand mode should become active or not (see [RFC5880] section 6.6). If bfd.RemoteDemandMode is 1, bfd.SessionState is Up, and bfd.RemoteSessionState is Up, Demand mode is active on the remote system and the local system MUST cease the periodic transmission of BFD Control packets (see Section 4.13.3.) If bfd.RemoteDemandMode is 0, or bfd.SessionState is not Up, or bfd.RemoteSessionState is not Up, Demand mode is not active on the remote system and the local system MUST send periodic BFD Control packets (see see Section 4.13.3.) If the packet was not discarded, it has been received for purposes of the Detection Time expiration rules in [RFC5880] section 6.8.4. 4.13.2. Demultiplexing BFD Control Packets This section is part of the replacement for [RFC5880] section 6.8.6, separated for clarity. If the Multipoint (M) bit is set If the Your Discriminator field is nonzero, the packet MUST be discarded. Select a session as based on source address, My Discriminator and the identity of the multipoint tree which the Multipoint BFD Control packet was received. If a session is found, and bfd.SessionType is not MultipointTail, the packet MUST be discarded. If a session is not found, a new session of type MultipointTail MAY be created, or the packet MAY be discarded. This choice is outside the scope of this specification. Katz, et al. Expires November 7, 2015 [Page 12]
Internet-Draft BFD for Multipoint Networks May 2015 Else (Multipoint bit is clear) If the Your Discriminator field is nonzero Select a session based on the value of Your Discriminator. If no session is found, the packet MUST be discarded. Else (Your Discriminator is zero) If the State field is not Down or AdminDown, the packet MUST be discarded. Otherwise, the session MUST be selected based on some combination of other fields, possibly including source addressing information, the My Discriminator field, and the interface over which the packet was received. The exact method of selection is application-specific and is thus outside the scope of this specification. If a matching session is found, and bfd.SessionType is not PointToPoint, the packet MUST be discarded. If a matching session is not found, a new session of type PointToPoint may be created, or the packet may be discarded. This choice is outside the scope of this specification. If the State field is Init and bfd.SessionType is not PointToPoint, the packet MUST be discarded. 4.13.3. Transmitting BFD Control Packets The following procedure replaces section 6.8.7 of [RFC5880]. BFD Control packets MUST be transmitted periodically at the rate determined according to [RFC5880] section 6.8.2, except as specified in this section. A system MUST NOT transmit any BFD Control packets if bfd.RemoteDiscr is zero and the system is taking the Passive role. A system MUST NOT transmit any BFD Control packets if bfd.SilentTail is 1. A system MUST NOT periodically transmit BFD Control packets if Demand mode is active on the remote system (bfd.RemoteDemandMode is 1, bfd.SessionState is Up, and bfd.RemoteSessionState is Up) and a Poll Sequence is not being transmitted. Katz, et al. Expires November 7, 2015 [Page 13]
Internet-Draft BFD for Multipoint Networks May 2015 A system MUST NOT periodically transmit BFD Control packets if bfd.RemoteMinRxInterval is zero. If bfd.SessionType is MultipointHead, the transmit interval MUST be set to bfd.DesiredMinTxInterval (this should happen automatically, as bfd.RemoteMinRxInterval will be zero.) If bfd.SessionType is not MultipointHead, the transmit interval MUST be recalculated whenever bfd.DesiredMinTxInterval changes, or whenever bfd.RemoteMinRxInterval changes, and is equal to the greater of those two values. See [BFD] sections 6.8.2 and 6.8.3 for details on transmit timers. A system MUST NOT set the Demand (D) bit if bfd.SessionType is MultipointTail. A system MUST NOT set the Demand (D) bit if bfd.SessionType PointToPoint unless bfd.DemandMode is 1, bfd.SessionState is Up, and bfd.RemoteSessionState is Up. If bfd.SessionType is PointToPoint or MultipointHead, a BFD Control packet SHOULD be transmitted during the interval between periodic Control packet transmissions when the contents of that packet would differ from that in the previously transmitted packet (other than the Poll and Final bits) in order to more rapidly communicate a change in state. The contents of transmitted BFD Control packets MUST be set as follows: Version Set to the current version number (1). Diagnostic (Diag) Set to bfd.LocalDiag. State (Sta) Set to the value indicated by bfd.SessionState. Poll (P) Set to 1 if the local system is sending a Poll Sequence or is a session of type MultipointHead soliciting the identities of the tails, or 0 if not. Katz, et al. Expires November 7, 2015 [Page 14]
Internet-Draft BFD for Multipoint Networks May 2015 Final (F) Set to 1 if the local system is responding to a Control packet received with the Poll (P) bit set, or 0 if not. Control Plane Independent (C) Set to 1 if the local system's BFD implementation is independent of the control plane (it can continue to function through a disruption of the control plane.) Authentication Present (A) Set to 1 if authentication is in use on this session (bfd.AuthType is nonzero), or 0 if not. Demand (D) Set to bfd.DemandMode if bfd.SessionState is Up and bfd.RemoteSessionState is Up. Set to 1 if bfd.SessionType is MultipointHead. Otherwise it is set to 0. Multipoint (M) Set to 1 if bfd.SessionType is MultipointHead. Otherwise it is set to 0. Detect Mult Set to bfd.DetectMult. Length Set to the appropriate length, based on the fixed header length (24) plus any Authentication Section. My Discriminator Set to bfd.LocalDiscr. Your Discriminator Set to bfd.RemoteDiscr. Desired Min TX Interval Set to bfd.DesiredMinTxInterval. Katz, et al. Expires November 7, 2015 [Page 15]
Internet-Draft BFD for Multipoint Networks May 2015 Required Min RX Interval Set to bfd.RequiredMinRxInterval. Required Min Echo RX Interval Set to 0 if bfd.SessionType is MultipointHead or MultipointTail. Authentication Section Included and set according to the rules in section 6.7 if authentication is in use (bfd.AuthType is nonzero.) Otherwise this section is not present. 5. Assumptions If authentication is in use, all tails must be configured to have a common authentication key in order to receive the multipoint BFD Control packets. 6. IANA Considerations This document has no actions for IANA. 7. Security Considerations Implementations that creates MultpointTail sessions dynamically upon receipt of Multipoint BFD Control packets MUST implement protective measures to prevent infinite number of MultipointTail session being created. Below lists some points to be considered in such implementations. If a Multipoint BFD Control packet did not arrive on a multicast tree (ex: on expected interface, with expected MPLS label, etc), then a MultipointTail session should not be created. If redundant streams are expected for a given multicast stream, then the implementations should not create more MultipointTail sessions than the number of streams. Additionally, when the number of MultipointTail sessions exceeds the number of expected streams, then the implementation should generate an alarm to users to indicate the anomaly. The implementation should have a reasonable upper bound on the number of MultipointTail sessions that can be created, with the upper bound potentially being computed based on the number of multicast streams that the system is expecting. Katz, et al. Expires November 7, 2015 [Page 16]
Internet-Draft BFD for Multipoint Networks May 2015 8. Contributors Rahul Aggarwal of Juniper Networks and George Swallow of Cisco Systems provided the initial idea for this specification and contributed to its development. 9. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC5880] Katz, D. and D. Ward, "Bidirectional Forwarding Detection (BFD)", RFC 5880, June 2010. Authors' Addresses Dave Katz Juniper Networks 1194 N. Mathilda Ave. Sunnyvale, California 94089-1206 USA Email: dkatz@juniper.net Dave Ward Cisco Systems 170 West Tasman Dr. San Jose, California 95134 USA Email: wardd@cisco.com Santosh Pallagatti (editor) Juniper Networks Embassy Business Park Bangalore, KA 560093 India Email: santoshpk@juniper.net Katz, et al. Expires November 7, 2015 [Page 17]