Network Working Group N. Gupta
Internet-Draft A. Dogra
Intended status: Standards Track Cisco Systems, Inc.
Expires: June 16, 2018 C. Docherty
G. Mirsky
J. Tantsura
Individual
December 13, 2017

Fast failure detection in VRRP with Point to Point BFD
draft-nitish-vrrp-bfd-p2p-01

Abstract

This document describes how Point to Point Bidirectional Forwarding Detection (BFD) can be used to support sub-second detection of a Master Router failure in the Virtual Router Redundancy Protocol (VRRP).

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 https://datatracker.ietf.org/drafts/current/.

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This Internet-Draft will expire on June 16, 2018.

Copyright Notice

Copyright (c) 2017 IETF Trust and the persons identified as the document authors. All rights reserved.

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Table of Contents

1. Introduction

The Virtual Router Redundancy Protocol (VRRP) provides redundant Virtual gateways in the Local Area Network (LAN), which is typically the first point of failure for end-hosts sending traffic out of the LAN. Fast failure detection of VRRP Master is critical in supporting high availability of services and improved Quality of Experience to users. In VRRP [RFC5798] specification, Backup routers depend on VRRP packets generated at a regular interval by the Master router, to detect the health of the VRRP Master. Faster failure detection can be achieved within VRRP protocol by reducing the Advertisement and Master Down Interval. However, sub second Advert timers, can put extra load on CPU and the network bandwidth which may not be desirable.

Since the VRRP protocol depends on the availability of Layer 3 IPv4 or IPv6 connectivity between redundant peers, the VRRP protocol can interact with the Layer 3 variant of BFD as described in [RFC5881] to achieve a much faster failure detection of the VRRP Master on the LAN. BFD, as specified by the [RFC5880] can provide a much faster failure detection in the range of 150ms, if implemented in the part of a Network device which scales better than VRRP when sub second Advert timers are used.

2. Requirements Language

In this document, several words are used to signify the requirements of the specification. 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]

3. Applicability of Point to Point BFD

BFD for IPv4 or IPv6 (Single Hop) [RFC5881] requires that in order for a BFD session to be formed both peers participating in a BFD session need to know its peer IPv4 or IPV6 address. This poses a unique problem with the definition of the VRRP protocol, that makes the use of BFD for IPv4 or IPv6 [RFC5881] more challenging. In VRRP it is only the Master router that sends Advert packets. This means that a Master router is not aware of any Backup routers, and Backup routers are only aware of the Master router. This also means that a Backup router is not aware of any other Backup routers in the Network.

Since BFD for IPv4 or IPv6 [RFC5881] requires that a session be formed by both peers using a full destination and source address, there needs to be some external means to provide this information to BFD on behalf of VRRP. Once the peer information is made available, VRRP can form BFD sessions with its peer Virtual Router. The BFD session for a given Virtual Router is identified as the Critical Path BFD Session, which is the session that forms between the current VRRP Master router, and the highest priority Backup router. When the Critical Path BFD Session identified by VRRP as having changed state from Up to Down, then this will be interpreted by the VRRP state machine on the highest priority Backup router as a Master Down event. A Master Down event means that the highest priority Backup peer will immediately become the new Master for the Virtual Router.

NOTE: At all times, the normal fail-over mechanism defined in the VRRP [RFC5798] will be unaffected, and the BFD fail-over mechanism will always resort to normal VRRP fail-over.

This draft defines the mechanism used by the VRRP protocol to build a peer table that will help in forming of BFD session and the detection of Critical Path BFD session. If the Critical Path BFD session were to go down, it will signal a Master Down event and make the most preferred Backup router as the VRRP Master router. This requires an extension to the VRRP protocol.

This can be achieved by defining a new type in the VRRP Advert packet, and allowing VRRP peers to build a peer table in any of the operational state, Master or Backup.

3.1. Extension to VRRP protocol

In this mode of operation VRRP peers learn the adjacent routers, and form BFD session between the learnt routers. In order to build the peer table, all routers send VRRP Advert packets whilst in any of the operational states (Master or Backup). Normally VRRP peers only send Advert packets whilst in the Master state, however in this mode VRRP Backup peers will also send Advert packets with the type field set to BACKUP ADVERTISEMENT type defined in Section 3.3 of this document. The VRRP Master router will still continue to send packets with the Advert type as ADVERTISEMENT as defined in the VRRP protocol. This is to maintain inter-operability with peers complying to VRRP protocol.

Additionally, Advert packets sent from Backup Peers must not use the Virtual router MAC address as the source address. Instead it must use the Interface MAC address as the source address from which the packet is sent from. This is because the source MAC override feature is used by the Master to send Advert packets from the Virtual Router MAC address, which is used to keep the bridging cache on LAN switches and bridging devices refreshed with the destination port for the Virtual Router MAC.

3.2. VRRP Peer Table

VRRP peers can now form the peer table by learning the source address in the ADVERTISEMENT or BACKUP ADVERTISEMENT packet sent by VRRP Master or Backup peers. This allows peers to create BFD sessions with other operational peers.

A peer entry should be removed from the peer table if Advert is not received from a peer for a period of (3 * the Advert interval).

3.3. VRRP BACKUP ADVERTISEMENT Packet Type

The following figure shows the VRRP packet as defined in VRRP [RFC5798] RFC.


  0                   1                   2                   3
  0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
 |             IPv4 Fields or IPv6 Fields                        |
...                                                             ...
 |                                                               |
 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
 |Version| Type  | Virtual Rtr ID|    Priority   |Count IPvX Addr| 
 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
 |(rsvd) |    Max Advert Int     |        Checksum               |
 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
 |                                                               |
 +                                                               +
 |                   IPvX Address(es)                            |
 +                                                               +
 +                                                               +
 +                                                               +
 +                                                               +
 |                                                               |
 +                                                               +
 |                                                               |
 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

The type field specifies the type of this VRRP packet. The type field can have two values. Type 1 (ADVERTISEMENT) is used by the VRRP Master Router. Type 2 (BACKUP ADVERTISEMENT) is used by the VRRP Backup router. This is to distinguish the packets sent by the VRRP backup Router. VRRP Backup fills Backup_Advertisement_Interval in the Max Advert Int of BACKUP ADVERTISEMENT packet. Rest of the fields in Advert packet remain the same.

   1 ADVERTISEMENT
   2 BACKUP ADVERTISEMENT

A packet with unknown type MUST be discarded.

3.4. Sample configuration

The following figure shows a simple network with three VRRP routers implementing one virtual router.

    +-----------+     +-----------+      +-----------+ 
    |   Rtr1    |     |   Rtr2    |      |   Rtr3    |
    |(MR VRID=1)|     |(BR VRID=1)|      |(BR VRID=1)|
    | (PR=200)  |     | (PR=150)  |      | (PR=100)  |
    | VRIPVX= A |     | VRIPVX= A |      | VRIPVX= A |
    +-----------+     +-----------+      +-----------+
         B                 C                  D
         |                 |                  |
         |                 |                  |
         |                 |                  |
---------+--------+--------+---------+--------+---------
Legend:
        ---+---+---+--    =  Ethernet, Token Ring, or FDDI
                    MR    =  Master Router
                    BR    =  Backup Router
                    PR    =  VRRP Router priority
                    VRID  =  VRRP Router ID
                    VRIPVX=  IPv4 or IPv6 address protected by 
                             the VRRP Router
                    B,C,D =  Interface IPv4 or IPv6 address of 
                             the Virtual Router

In the above configuration there are three routers on the LAN protecting an IPv4 or IPv6 address associated to a Virtual Router ID 1. Rtr1 is the Master router since it has the highest priority compared to Rtr2 and Rtr3. Now if peer learning extension is enabled on all the peers. Rtr1 will send the Advert packet with type field set to 1. While Rtr2 and Rtr3 will send the Advert packet with type field set to 2. In the above configuration the peer table built at each router is shown below:

Rtr1 Peer table

+------------------------------------+
|  Peer Address  |     Priority      |
+------------------------------------+
|     C          |       150         |
+------------------------------------+
|     D          |       100         |
+------------------------------------+

Rtr2 Peer table

+------------------------------------+
|  Peer Address  |     Priority      |
+------------------------------------+
|     B          |       200         |
+------------------------------------+
|     D          |       100         |
+------------------------------------+

Rtr3 Peer table

+------------------------------------+
|  Peer Address  |     Priority      |
+------------------------------------+
|     B          |       200         |
+------------------------------------+
|     C          |       150         |
+------------------------------------+

Once the peer tables are formed, VRRP on each router can form a BFD sessions with the learnt peers.

3.5. Critical BFD session

The Critical BFD Session is determined to be the session between the VRRP Master and the next best VRRP Backup. Failure of the Critical BFD session indicates that the Master is no longer available and the most preferred Backup will now become Master.

In the above example the Critical BFD session is shared between Rtr1 and Rtr2. If the BFD Session goes from Up to Down state, Rtr2 can treat it as a Master down event and immediately assume the role of VRRP Master router for VRID 1 and Rtr3 will become the critical Backup. If the priorities of two Backup routers are same then the primary IPvX Address of the sender is used to determine the highest priority Backup. Where higher IPvX address has higher priority.

3.6. Protocol State Machine

3.6.1. Parameters Per Virtual Router


Backup_Advertisement_Interval  Time interval between
                               BACKUP ADVERTISEMENTS
                               (centiseconds). Default is 100
                               centiseconds (1 second).

Backup_Adver_Interval          Advertisement interval contained in
                               BACKUP ADVERTISEMENTS received from
                               the Backup (centiseconds). This
                               value is saved by virtual routers
                               used, to compute Backup_Down_Interval.

Backup_Down_Interval           Time interval for VRRP instance
                               to declare Backup down
                               (centiseconds). Calculated as
                               (3 * Backup_Adver_Interval) for
                               each VRRP Backup.
                        
Critical_Backup                Procedure outlined in section 3.4
                               of this document is used to
                               determine the Critical_Backup at
                               each VRRP Instance.
                        
Critical_BFD_Session           The Critical BFD Session is 
                               the session between
                               the VRRP Master and Critical_Backup.

Following parameters are added to the VRRP protocol to support this mode of operation.

3.6.2. Timers

Backup_Down_Timer          Timer that fires when BACKUP ADVERTISEMENT
                           has not been heard from a backup peer for
                           Backup_Down_Interval.

Backup_Adver_Timer         Timer that fires to trigger sending of
                           BACKUP ADVERTISEMENT based on
                           Backup_Advertisement_Interval.

Following timers are added to the VRRP protocol to support this mode of operation.

3.6.3. VRRP State Machine with Point to Point BFD

Following State Machine replaces the state Machine outlined in section 6.4 of the VRRP protocol [RFC5798] to support this mode of operation. Please refer to the section 6.4 of [RFC5798] for State description.

3.6.3.1. Initialize

Following state machine replaces the state machine outlined in section 6.4.1 of [RFC5798]

(100) If a Startup event is received, then:

   (105) - If the Priority = 255 (i.e., the router owns the IPvX
   address associated with the virtual router), then:

      (110) + Send an ADVERTISEMENT

      (115) + If the protected IPvX address is an IPv4 address, then:

         (120) * Broadcast a gratuitous ARP request containing the
         virtual router MAC address for each IP address associated
         with the virtual router.

      (125) + else // IPv6

         (130) * For each IPv6 address associated with the virtual
         router, send an unsolicited ND Neighbor Advertisement with
         the Router Flag (R) set, the Solicited Flag (S) unset, the
         Override flag (O) set, the target address set to the IPv6
         address of the virtual router, and the target link-layer
         address set to the virtual router MAC address.

      (135) +endif // was protected addr IPv4?

      (140) + Set the Adver_Timer to Advertisement_Interval

      (145) + Transition to the {Master} state

   (150) - else // rtr does not own virt addr

      (155) + Set Master_Adver_Interval to Advertisement_Interval

      (160) + Set the Master_Down_Timer to Master_Down_Interval

      (165) + Set Backup_Adver_Timer to Backup_Advertisement_Interval

      (170) + Transition to the {Backup} state

   (175) -endif // priority was not 255

(180) endif // startup event was recv

3.6.3.2. Backup

Following state machine replaces the state machine outlined in section 6.4.2 of [RFC5798]

(300) While in this state, a VRRP router MUST do the following:

   (305) - If the protected IPvX address is an IPv4 address, then:

      (310) + MUST NOT respond to ARP requests for the IPv4
      address(es) associated with the virtual router.

   (315) - else // protected addr is IPv6

      (320) + MUST NOT respond to ND Neighbor Solicitation messages
      for the IPv6 address(es) associated with the virtual router.

      (325) + MUST NOT send ND Router Advertisement messages for the
      virtual router.

   (330) -endif // was protected addr IPv4?

   (335) - MUST discard packets with a destination link-layer MAC
   address equal to the virtual router MAC address.

   (340) - MUST NOT accept packets addressed to the
   IPvX address(es) associated with the virtual router.

   (345) - If a Shutdown event is received, then:

      (350) + Cancel the Master_Down_Timer.

      (355) + Cancel the Backup_Adver_Timer. 

      (360) + Cancel Backup_Down_Timers.

      (365) + Remove Peer table.

      (370) + If Critical_BFD_Session Exists:

         (375) * Tear down the Critical_BFD_Session.

      (380) + endif // Critical_BFD_Session Exists?

      (385) + Send a BACKUP ADVERTISEMENT with Priority = 0.

      (390) + Transition to the {Initialize} state.

   (395) -endif // shutdown recv

   (400) - If the Master_Down_Timer fires or
           If Critical_BFD_Session transitions from UP to DOWN, then:

      (405) + Send an ADVERTISEMENT

      (415) + If the protected IPvX address is an IPv4 address, then:

         (420) * Broadcast a gratuitous ARP request on that interface
         containing the virtual router MAC address for each IPv4
         address associated with the virtual router.

      (425) + else // ipv6

         (430) * Compute and join the Solicited-Node multicast
         address [RFC4291] for the IPv6 address(es) associated with
         the virtual router.

         (435) * For each IPv6 address associated with the virtual
         router, send an unsolicited ND Neighbor Advertisement with
         the Router Flag (R) set, the Solicited Flag (S) unset, the
         Override flag (O) set, the target address set to the IPv6
         address of the virtual router, and the target link-layer
         address set to the virtual router MAC address.

      (440) +endif // was protected addr ipv4?

      (445) + Set the Adver_Timer to Advertisement_Interval.
      
      (450) + If the Critical_BFD_Session exists:

         (455) @ Tear Critical_BFD_Session.
       
       (460) + endif // Critical_BFD_Session exists

      (465) + Calculate the Critical_Backup.

      (470) + If the Critical_Backup exists:

         (475) * BootStrap Critical_BFD_Session with the
                 Critical_Backup.

      (480) + endif //Critical_Backup exists?

      (485) + Transition to the {Master} state.

   (490) -endif // Master_Down_Timer fired

   (485) - If an ADVERTISEMENT is received, then:

      (490) + If the Priority in the ADVERTISEMENT is zero, then:

         (495) * Set the Master_Down_Timer to Skew_Time.

         (500) * If the Critical_BFD_Session exists:

            (505) * Tear Critical_BFD_Session with the Master.

         (510) * endIf // Critical_BFD_Session exists 

      (515) + else // priority non-zero

         (520) * If Preempt_Mode is False, or if the Priority in the
         ADVERTISEMENT is greater than or equal to the local
         Priority, then:

            (525) @ Set Master_Adver_Interval to Adver Interval
            contained in the ADVERTISEMENT.

            (530) @ Recompute the Master_Down_Interval.

            (535) @ Reset the Master_Down_Timer to
            Master_Down_Interval.

            (540) @ Determine Critical_Backup.

            (545) @ If Critical_BFD_Session does not exists and this
            instance is the Critical_Backup:

               (550) @+ BootStrap Critical_BFD_Session with Master.

            (555) @ endif //Critical_BFD_Session exists check

         (560) * else // preempt was true or priority was less

            (565) @ Discard the ADVERTISEMENT.

         (570) *endif // preempt test

      (575) +endif // was priority zero?

   (580) -endif // was advertisement recv?

   (585) - If a BACKUP ADVERTISEMENT is received, then:

      (590) + If the Priority in the BACKUP ADVERTISEMENT is zero,
              then:

         (595) * Cancel Backup_Down_Timer.

         (600) * Remove the Peer from Peer table.
      
      (605) + else // priority non-zero

         (610) * Update the peer table with peer information.

         (615) * Set Backup_Adver_Interval to Adver Interval
         contained in the BACKUP ADVERTISEMENT.

         (620) * Recompute the Backup_Down_Interval.

         (625) * Reset the Backup_Down_Timer to Backup_Down_Interval.

      (630) +endif // was priority zero?

      (635) + Recalculate Critical_Backup.

      (640) + If Critical_BFD_Session exists and this
      instance is not the Critical_Backup:

         (645) * Tear Down the Critical_BFD_Session.

      (650) + else If Critical_BFD_Session does not exists and this
      instance is the Critical_Backup:

         (655) * BootStrap Critical_BFD_Session with Master.

      (660) + endif // Critical_Backup change 
      
   (665) -endif // was backup advertisement recv?

   (670) - If Backup_Down_Timer fires, then:

      (675) + Remove the Peer from Peer table.

      (680) + If Critical_BFD_Session does not exist:

         (685) @ Recalculate Critical_Backup.

         (690) @ If This instance is the Critical_Backup:

            (695) +@ BootStrap Critical_BFD_Session with Master.

         (700) @ endif // Critical_Backup change 

      (705) + endif // Critical_BFD_Session does not exist?

   (710) -endif // Backup_Down_Timer fires?

   (715) - If Backup_Adver_Timer fires, then:

      (720) + Send a BACKUP ADVERTISEMENT.

      (725) + Reset the Backup_Adver_Timer to
              Backup_Advertisement_Interval.

   (730) -endif // Backup_Down_Timer fires?

(735) endwhile // Backup state

3.6.3.3. Master

Following state machine replaces the state machine outlined in section 6.4.3 of [RFC5798]

   
(800) While in this state, a VRRP router MUST do the following:

   (805) - If the protected IPvX address is an IPv4 address, then:

      (810) + MUST respond to ARP requests for the IPv4 address(es)
      associated with the virtual router.

   (815) - else // ipv6

      (820) + MUST be a member of the Solicited-Node multicast
      address for the IPv6 address(es) associated with the virtual
      router.

      (825) + MUST respond to ND Neighbor Solicitation message for
      the IPv6 address(es) associated with the virtual router.

      (830) + MUST send ND Router Advertisements for the virtual
      router.

      (835) + If Accept_Mode is False:  MUST NOT drop IPv6
      Neighbor Solicitations and Neighbor Advertisements.

   (840) -endif // ipv4?

   (845) - MUST forward packets with a destination link-layer MAC
   address equal to the virtual router MAC address.

   (850) - MUST accept packets addressed to the IPvX address(es)
   associated with the virtual router if it is the IPvX address
   owner or if Accept_Mode is True.  Otherwise, MUST NOT accept
   these packets.

   (855) - If a Shutdown event is received, then:

      (860) + Cancel the Adver_Timer.

      (865) + Send an ADVERTISEMENT with Priority = 0,

      (870) + Cancel Backup_Down_Timers.

      (875) + Remove Peer table.

      (880) + If Critical_BFD_Session Exists:

         (885) * Tear down Critical_BFD_Session

      (890) + endif // If Critical_BFD_Session Exists

      (895) + Transition to the {Initialize} state.

   (900) -endif // shutdown recv

   (905) - If the Adver_Timer fires, then:

      (910) + Send an ADVERTISEMENT.

      (915) + Reset the Adver_Timer to Advertisement_Interval.

   (920) -endif // advertisement timer fired

   (925) - If an ADVERTISEMENT is received, then:

      (930) -+ If the Priority in the ADVERTISEMENT is zero, then:

         (935) -* Send an ADVERTISEMENT.

         (940) -* Reset the Adver_Timer to Advertisement_Interval.

      (945) -+ else // priority was non-zero

         (950) -* If the Priority in the ADVERTISEMENT is greater
         than the local Priority,

         (955) -* or

         (960) -* If the Priority in the ADVERTISEMENT is equal to
         the local Priority and the primary IPvX Address of the
         sender is greater than the local primary IPvX Address, then:

            (965) -@ Cancel Adver_Timer

            (970) -@ Set Master_Adver_Interval to Adver Interval
            contained in the ADVERTISEMENT

            (975) -@ Recompute the Skew_Time

            (980) @ Recompute the Master_Down_Interval

            (985) @ Set Master_Down_Timer to Master_Down_Interval

            (990) If Critical_BFD_Session Exists:

               (995) @+ Tear Critical_BFD_Session

            (960) @ endif //Critical_BFD_Session Exists?

            (965) @ Calculate Critical_Backup.
         
            (970) @ If this instance is Critical_Backup:

               (975) @+ BootStrap Critical_BFD_Session with new
                        Master.

            (980) @ endif // am i Critical_Backup?

            (985) @ Transition to the {Backup} state

         (990) * else // new Master logic

            (995) @ Discard ADVERTISEMENT

         (1000) *endif // new Master detected

      (1005) +endif // was priority zero?

   (1010) -endif // advert recv

   (1015) - If a BACKUP ADVERTISEMENT is received, then:

      (1020) + If the Priority in the BACKUP ADVERTISEMENT is
               zero, then:

         (1025) * Remove the Peer from peer table.

      (1030) + else: // priority non-zero

         (1035) * Update the Peer info in peer table.

         (1040) * Recompute the Backup_Down_Interval

         (1045) * Reset the Backup_Down_Timer to
                  Backup_Down_Interval

      (1050) + endif // priority in backup advert zero

      (1055) + Calculate the Critical_Backup

      (1060) + If Critical_BFD_Session doesnot exist:

         (1065) * BootStrap Critical_BFD_Session

      (1070) + else if Critical_BFD_Session exist and
               Critical_Backup changes:

         (1075) + Tear Critical_BFD_Session with old Backup

         (1080) + BootStrap Critical_BFD_Session with Critical_Backup

      (1085) + endif //  Critical_BFD_Session check?

   (1090) - endif // backup advert recv

   (1095) - If Critical_BFD_Session transitions from UP to DOWN,
   then:
      (1100) + Cancel Backup_Down_Timer

      (1105) + Delete the Peer info from peer table

      (1200) + Calculate the Critical_Backup

      (1205) + BootStrap Critical_BFD_Session with Critical_Backup

   (1210) - endif // BFD session transition 

(1215) endwhile // in Master

4. Scalability Considerations

To reduce the number of packets generated at a regular interval, Backup Advert packets may be sent at a reduced rate as compared to Advert packets sent by the VRRP Master.

5. Operational Considerations

A VRRP peer that forms a member of this Virtual Router, but does not support this feature or extension must be configured with the lowest priority, and will only operate as the Router of last resort on failure of all other VRRP routers supporting this functionality.

It is recommended that mechanism defined by this draft, to interface VRRP with BFD should be used when BFD can support more aggressive monitoring timers than VRRP. Otherwise it is desirable not to interface VRRP with BFD for determining the health of VRRP Master.

This Draft does not preclude the possibility of the peer table being populated by means of manual configuration, instead of using the BACKUP ADVERTISEMENT as defined by the Draft.

6. IANA Considerations

This document requests IANA to create a new name space that is to be managed by IANA. The document defines a new VRRP Packet Type. The VRRP Packet Types are discussed below.

a) Type 1 (ADVERTISEMENT) defined in section 5.2.2 of [RFC5798]
b) Type 2 (BACKUP ADVERTISEMENT) defined in section 3.3 of this
document

6.1. A New Name Space for VRRP Packet Types

This document defines in Section 3.3 a "BACKUP ADVERTISEMENT" VRRP Packet Type. The new name space has to be created by the IANA and they will maintain this new name space. The field for this namespace is 4-Bits, and IANA guidelines for assignments for this field are as follows:

    ADVERTISEMENT             1
    BACKUP ADVERTISEMENT      2

Future allocations of values in this name space are to be assigned by IANA using the "Specification Required" policy defined in [IANA-CONS]

7. Security Considerations

Security considerations discussed in [RFC5798], [RFC5880], apply to this document. There are no additional security considerations identified by this draft.

8. Acknowledgements

The authors gratefully acknowledge the contributions of Gerry Meyer, and Mouli Chandramouli, for their contributions to the draft. The authors will also like to thank Jeffrey Haas, Maik Pfeil, Chris Bowers and Vengada Prasad Govindan for their comments and suggestions.

9. Normative References

[IANA-CONS] Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA Considerations Section in RFCs", RFC 2434, 1998.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", RFC 2119, 1997.
[RFC5798] Nadas, S., "Virtual Router Redundancy Protocol (VRRP) Version 3 for IPv4 and IPv6", RFC 5798, 2010.
[RFC5880] Katz, D. and D. Ward, "Bidirectional Forwarding Detection (BFD)", RFC 5880, 2010.
[RFC5881] Katz, D. and D. Ward, "Bidirectional Forwarding Detection (BFD) for IPv4 and IPv6 (Single Hop)", RFC 5881, 2010.

Authors' Addresses

Nitish Gupta Cisco Systems, Inc. 3265 CISCO Way San Jose, 95134 United States Phone: +91 80 4429 2530 EMail: nitisgup@cisco.com URI: http://www.cisco.com/
Aditya Dogra Cisco Systems, Inc. Sarjapur Outer Ring Road Bangalore, 560103 India Phone: +91 80 4429 2166 EMail: addogra@cisco.com URI: http://www.cisco.com/
Colin Docherty 23 The Maltings Haddington, Scotland EH414EF United Kingdom EMail: ietf@doch.org.uk
Greg Mirsky Individual EMail: gregimirsky@gmail.com
Jeff Tantsura Individual EMail: jefftant.ietf@gmail.com