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Network Working Group                                        R. SivaramuRequest for Comments: 5060                                 Cisco SystemsCategory: Standards Track                                     J. Lingard                                                            Arastra, Inc                                                             D. McWalter                                                     Data Connection Ltd                                                                B. Joshi                                                Infosys Technologies Ltd                                                              A. Kessler                                                           Cisco Systems                                                            January 2008Protocol Independent Multicast MIBStatus of This Memo   This document specifies an Internet standards track protocol for the   Internet community, and requests discussion and suggestions for   improvements.  Please refer to the current edition of the "Internet   Official Protocol Standards" (STD 1) for the standardization state   and status of this protocol.  Distribution of this memo is unlimited.Abstract   This memo defines a portion of the Management Information Base (MIB)   for use with network management protocols in the Internet community.   In particular, it describes managed objects used for managing the   Protocol Independent Multicast (PIM) protocols: PIM-SM (Sparse Mode),   BIDIR-PIM (Bidirectional), and PIM-DM (Dense Mode).  This document is   part of work in progress to obsoleteRFC 2934, and is to be preferred   where the two documents overlap.  This document does not obsoleteRFC2934.Table of Contents1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .22.  Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .23.  The Internet-Standard Management Framework . . . . . . . . . .24.  Overview . . . . . . . . . . . . . . . . . . . . . . . . . . .35.  Definitions  . . . . . . . . . . . . . . . . . . . . . . . . .46.  Security Considerations  . . . . . . . . . . . . . . . . . . .827.  IANA Considerations  . . . . . . . . . . . . . . . . . . . . .868.  Acknowledgements . . . . . . . . . . . . . . . . . . . . . . .869.  References . . . . . . . . . . . . . . . . . . . . . . . . . .869.1.  Normative References . . . . . . . . . . . . . . . . . . .869.2.  Informative References . . . . . . . . . . . . . . . . . .87Sivaramu, et al.            Standards Track                     [Page 1]

RFC 5060                        PIM MIB                     January 20081.  Introduction   This memo defines a portion of the Management Information Base (MIB)   for use with network management protocols in the Internet community.   In particular, it describes managed objects used for managing the   Protocol Independent Multicast (PIM) protocols (PIM-SM [RFC4601],   BIDIR-PIM [RFC5015], and PIM-DM [RFC3973]).   This document is part of work in progress to obsoleteRFC 2934   [RFC2934].RFC 2934 defined an experimental MIB module for managing   the PIM protocols.  The MIB module defined by this document is a re-   working of the MIB module fromRFC 2934, with major changes that   include the following.   o  This MIB module is independent of IP version, whereasRFC 2934      only supported IPv4.   o  This MIB module includes support for managing BIDIR-PIM.   o  This MIB module retains limited support for managing PIM-DM      [RFC3973], but that is no longer its primary purpose.   o  This MIB module does not include support for managing PIM-SM v1.   o  This MIB module does not depend on the IPv4 Multicast Routing MIB      defined inRFC 2932 [RFC2932].   o  This MIB module includes support for configuring static Rendezvous      Points (RPs).   o  This MIB module includes support for configuring anycast RPs      [RFC4610].2.  Terminology   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 inRFC 2119 [RFC2119].3.  The Internet-Standard Management Framework   For a detailed overview of the documents that describe the current   Internet-Standard Management Framework, please refer tosection 7 of   RFC 3410 [RFC3410].   Managed objects are accessed via a virtual information store, termed   the Management Information Base or MIB.  MIB objects are generally   accessed through the Simple Network Management Protocol (SNMP).Sivaramu, et al.            Standards Track                     [Page 2]

RFC 5060                        PIM MIB                     January 2008   Objects in the MIB are defined using the mechanisms defined in the   Structure of Management Information (SMI).  This memo specifies a MIB   module that is compliant to the SMIv2, which is described in STD 58,RFC 2578 [RFC2578], STD 58,RFC 2579 [RFC2579] and STD 58,RFC 2580   [RFC2580].4.  Overview   This MIB module contains the following tables.   1.   The PIM Interface Table, which contains one row per IP version        for each interface of the router which is running PIM.   2.   The PIM Neighbor Table, which contains one row for each of the        router's PIM neighbors.   3.   The PIM Neighbor Secondary Address Table, which contains one row        for each secondary address advertised by each of the router's        PIM neighbors.   4.   The PIM (*,G) State Table, which contains one row for each group        for which PIM has (*,G) state.   5.   The PIM (*,G,I) State Table, which contains one row for each        group and interface for which PIM has interface-specific (*,G)        state.   6.   The PIM (S,G) State Table, which contains one row for each        source and group for which PIM has (S,G) state.   7.   The PIM (S,G,I) State Table, which contains one row for each        source, group, and interface for which PIM has interface-        specific (S,G) state.   8.   The PIM (S,G,rpt) State Table, which contains one row for each        source and group for which PIM has (S,G,rpt) state.   9.   The PIM (S,G,rpt,I) State Table, which contains one row for each        source, group, and interface for which PIM has interface-        specific (S,G,rpt) state.   10.  The PIM Bidir DF-Election Table, which contains one row per        interface for each Rendezvous Point (RP) for which        Bidirectional-PIM Designated Forwarder (DF) election state is        maintained.Sivaramu, et al.            Standards Track                     [Page 3]

RFC 5060                        PIM MIB                     January 2008   11.  The PIM Static RP Table, which contains one row per range of        multicast group addresses for which a particular configured RP        should be used.   12.  The PIM Group Mapping Table, which contains one row for each        mapping from a multicast group address prefix to the PIM mode        and RP address to use for groups within that group prefix,        regardless of the source of the group mapping information.   13.  The PIM Anycast-RP Set Table, which contains one row for each RP        within each Anycast-RP set of which the local router is a        member.   This MIB module uses textual conventions defined in the IF-MIB   [RFC2863], the INET-ADDRESS-MIB [RFC4001], and the IANA-RTPROTO-MIB   [RTPROTO].  This MIB module REFERENCEs [RFC3376], [RFC3569],   [RFC3618], [RFC3810], [RFC3956], [RFC3973], [RFC4601], [RFC4610],   [RFC5015], [RFC5059], and [IPMCAST-MIB].5.  DefinitionsPIM-STD-MIB DEFINITIONS ::= BEGINIMPORTS    MODULE-IDENTITY, OBJECT-TYPE, mib-2,    NOTIFICATION-TYPE, Unsigned32,    Counter32, Counter64, Gauge32,    TimeTicks                        FROM SNMPv2-SMI        -- [RFC2578]    TEXTUAL-CONVENTION,    RowStatus, TruthValue,    StorageType                      FROM SNMPv2-TC         -- [RFC2579]    MODULE-COMPLIANCE, OBJECT-GROUP,    NOTIFICATION-GROUP               FROM SNMPv2-CONF       -- [RFC2580]    InterfaceIndexOrZero,    InterfaceIndex                   FROM IF-MIB            -- [RFC2863]    InetAddressType,    InetAddressPrefixLength,    InetAddress, InetVersion         FROM INET-ADDRESS-MIB  -- [RFC4001]    IANAipRouteProtocol              FROM IANA-RTPROTO-MIB; -- [RTPROTO]pimStdMIB MODULE-IDENTITY    LAST-UPDATED "200711020000Z" -- 2 November 2007    ORGANIZATION            "IETF Protocol Independent Multicast (PIM) Working Group"    CONTACT-INFO            "Email: pim@ietf.org            WG charter:Sivaramu, et al.            Standards Track                     [Page 4]

RFC 5060                        PIM MIB                     January 2008http://www.ietf.org/html.charters/pim-charter.html"    DESCRIPTION            "The MIB module for management of PIM routers.            Copyright (C) The IETF Trust (2007).  This version of this            MIB module is part ofRFC 5060; see the RFC itself for full            legal notices."    REVISION     "200711020000Z" -- 2 November 2007    DESCRIPTION  "Initial version, published asRFC 5060."    ::= { mib-2 157 }---- Textual Conventions--PimMode ::= TEXTUAL-CONVENTION    STATUS     current    DESCRIPTION            "The PIM mode in which a group is operating.            none(1)      The group is not using PIM, which may be the                         case if, for example, it is a link-local or                         unroutable group address.            ssm(2)       Source-Specific Multicast (SSM) with PIM Sparse                         Mode.            asm(3)       Any Source Multicast (ASM) with PIM Sparse                         Mode.            bidir(4)     Bidirectional PIM.            dm(5)        PIM Dense Mode.            other(6)     Any other PIM mode."    SYNTAX     INTEGER {                  none(1),                  ssm(2),                  asm(3),                  bidir(4),                  dm(5),                  other(6)               }PimGroupMappingOriginType ::= TEXTUAL-CONVENTION    STATUS     current    DESCRIPTIONSivaramu, et al.            Standards Track                     [Page 5]

RFC 5060                        PIM MIB                     January 2008            "The mechanism by which a PIM group mapping was learned.            fixed(1)     Link-local or unroutable group mappings.            configRp(2)  Local static RP configuration.            configSsm(3) Local SSM Group configuration.            bsr(4)       The PIM Bootstrap Router (BSR) mechanism.            autoRP(5)    Cisco's Auto-RP mechanism.            embedded(6)  The Embedded-RP mechanism where the RP address                         is embedded in the multicast group address.            other(7)     Any other mechanism."    REFERENCE "RFC 3569,RFC 3956, andRFC 5059"    SYNTAX     INTEGER {                  fixed(1),                  configRp(2),                  configSsm(3),                  bsr(4),                  autoRP(5),                  embedded(6),                  other(7)               }---- Top-level structure--pimNotifications OBJECT IDENTIFIER ::= { pimStdMIB 0 }pim              OBJECT IDENTIFIER ::= { pimStdMIB 1 }pimKeepalivePeriod OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The duration of the Keepalive Timer.  This is the period            during which the PIM router will maintain (S,G) state in the            absence of explicit (S,G) local membership or (S,G) join            messages received to maintain it.  This timer period is            called the Keepalive_Period in the PIM-SM specification.  It            is called the SourceLifetime in the PIM-DM specification.Sivaramu, et al.            Standards Track                     [Page 6]

RFC 5060                        PIM MIB                     January 2008            The storage type of this object is determined by            pimDeviceConfigStorageType."    REFERENCE "RFC 4601 section 4.11"    DEFVAL { 210 }    ::= { pim 14 }pimRegisterSuppressionTime OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The duration of the Register Suppression Timer.  This is            the period during which a PIM Designated Router (DR) stops            sending Register-encapsulated data to the Rendezvous Point            (RP) after receiving a Register-Stop message.  This object            is used to run timers both at the DR and at the RP.  This            timer period is called the Register_Suppression_Time in the            PIM-SM specification.            The storage type of this object is determined by            pimDeviceConfigStorageType."    REFERENCE "RFC 4601 section 4.11"    DEFVAL { 60 }    ::= { pim 15 }pimStarGEntries OBJECT-TYPE    SYNTAX     Gauge32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of entries in the pimStarGTable."    ::= { pim 16 }pimStarGIEntries OBJECT-TYPE    SYNTAX     Gauge32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of entries in the pimStarGITable."    ::= { pim 17 }pimSGEntries OBJECT-TYPE    SYNTAX     Gauge32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of entries in the pimSGTable."Sivaramu, et al.            Standards Track                     [Page 7]

RFC 5060                        PIM MIB                     January 2008    ::= { pim 18 }pimSGIEntries OBJECT-TYPE    SYNTAX     Gauge32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of entries in the pimSGITable."    ::= { pim 19 }pimSGRptEntries OBJECT-TYPE    SYNTAX     Gauge32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of entries in the pimSGRptTable."    ::= { pim 20 }pimSGRptIEntries OBJECT-TYPE    SYNTAX     Gauge32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of entries in the pimSGRptITable."    ::= { pim 21 }pimOutAsserts OBJECT-TYPE    SYNTAX     Counter64    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of Asserts sent by this router.            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 4601 section 4.6"    ::= { pim 22 }pimInAsserts OBJECT-TYPE    SYNTAX     Counter64    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of Asserts received by this router.  Asserts            are multicast to all routers on a network.  This counter is            incremented by all routers that receive an assert, not only            those routers that are contesting the assert.Sivaramu, et al.            Standards Track                     [Page 8]

RFC 5060                        PIM MIB                     January 2008            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 4601 section 4.6"    ::= { pim 23 }pimLastAssertInterface OBJECT-TYPE    SYNTAX     InterfaceIndexOrZero    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The interface on which this router most recently sent or            received an assert, or zero if this router has not sent or            received an assert."    REFERENCE "RFC 4601 section 4.6"    ::= { pim 24 }pimLastAssertGroupAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of the multicast group address in the most            recently sent or received assert.  If this router has not            sent or received an assert, then this object is set to            unknown(0)."    ::= { pim 25 }pimLastAssertGroupAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The multicast group address in the most recently sent or            received assert.  The InetAddressType is given by the            pimLastAssertGroupAddressType object."    ::= { pim 26 }pimLastAssertSourceAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of the source address in the most recently            sent or received assert.  If the most recent assert was            (*,G), or if this router has not sent or received an assert,            then this object is set to unknown(0)."    ::= { pim 27 }Sivaramu, et al.            Standards Track                     [Page 9]

RFC 5060                        PIM MIB                     January 2008pimLastAssertSourceAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The source address in the most recently sent or received            assert.  The InetAddressType is given by the            pimLastAssertSourceAddressType object."    ::= { pim 28 }pimNeighborLossNotificationPeriod OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The minimum time that must elapse between pimNeighborLoss            notifications originated by this router.  The maximum value            65535 represents an 'infinite' time, in which case, no            pimNeighborLoss notifications are ever sent.            The storage type of this object is determined by            pimDeviceConfigStorageType."    DEFVAL { 0 }    ::= { pim 29 }pimNeighborLossCount OBJECT-TYPE    SYNTAX     Counter32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of neighbor loss events that have occurred.            This counter is incremented when the neighbor timer expires,            and the router has no other neighbors on the same interface            with the same IP version and a lower IP address than itself.            This counter is incremented whenever a pimNeighborLoss            notification would be generated.            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 4601 section 4.3.2"    ::= { pim 30 }pimInvalidRegisterNotificationPeriod OBJECT-TYPE    SYNTAX     Unsigned32 (10..65535)Sivaramu, et al.            Standards Track                    [Page 10]

RFC 5060                        PIM MIB                     January 2008    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The minimum time that must elapse between            pimInvalidRegister notifications originated by this router.            The default value of 65535 represents an 'infinite' time, in            which case, no pimInvalidRegister notifications are ever            sent.            The non-zero minimum allowed value provides resilience            against propagation of denial-of-service attacks from the            data and control planes to the network management plane.            The storage type of this object is determined by            pimDeviceConfigStorageType."    DEFVAL { 65535 }    ::= { pim 31 }pimInvalidRegisterMsgsRcvd OBJECT-TYPE    SYNTAX     Counter32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of invalid PIM Register messages that have been            received by this device.            A PIM Register message is invalid if either            o the destination address of the Register message does not              match the Group to RP mapping on this device, or            o this device believes the group address to be within an              SSM address range, but this Register implies ASM usage.            These conditions can occur transiently while RP mapping            changes propagate through the network.  If this counter is            incremented repeatedly over several minutes, then there is a            persisting configuration error that requires correction.            The active Group to RP mapping on this device is specified            by the object pimGroupMappingPimMode.  If there is no such            mapping, then the object pimGroupMappingPimMode is absent.            The RP address contained in the invalid Register is            pimInvalidRegisterRp.            Multicast data carried by invalid Register messages is            discarded.  The discarded data is from a source directlySivaramu, et al.            Standards Track                    [Page 11]

RFC 5060                        PIM MIB                     January 2008            connected to pimInvalidRegisterOrigin, and is addressed to            pimInvalidRegisterGroup.            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 4601 section 4.4.2,RFC 3569, and               'IP Multicast MIB' (August 2007) ipMcastSsmRangeTable"    ::= { pim 32 }pimInvalidRegisterAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type stored in pimInvalidRegisterOrigin,            pimInvalidRegisterGroup, and pimInvalidRegisterRp.            If no invalid Register messages have been received, then            this object is set to unknown(0)."    ::= { pim 33 }pimInvalidRegisterOrigin OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The source address of the last invalid Register message            received by this device."    ::= { pim 34 }pimInvalidRegisterGroup OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The IP multicast group address to which the last invalid            Register message received by this device was addressed."    ::= { pim 35 }pimInvalidRegisterRp OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The RP address to which the last invalid Register message            received by this device was delivered."    ::= { pim 36 }Sivaramu, et al.            Standards Track                    [Page 12]

RFC 5060                        PIM MIB                     January 2008pimInvalidJoinPruneNotificationPeriod OBJECT-TYPE    SYNTAX     Unsigned32 (10..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The minimum time that must elapse between            pimInvalidJoinPrune notifications originated by this router.            The default value of 65535 represents an 'infinite' time, in            which case, no pimInvalidJoinPrune notifications are ever            sent.            The non-zero minimum allowed value provides resilience            against propagation of denial-of-service attacks from the            control plane to the network management plane.            The storage type of this object is determined by            pimDeviceConfigStorageType."    DEFVAL { 65535 }    ::= { pim 37 }pimInvalidJoinPruneMsgsRcvd OBJECT-TYPE    SYNTAX     Counter32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of invalid PIM Join/Prune messages that have            been received by this device.            A PIM Join/Prune message is invalid if either            o the Group to RP mapping specified by this message does not              match the Group to RP mapping on this device, or            o this device believes the group address to be within an              SSM address range, but this Join/Prune (*,G) or (S,G,rpt)              implies ASM usage.            These conditions can occur transiently while RP mapping            changes propagate through the network.  If this counter is            incremented repeatedly over several minutes, then there is a            persisting configuration error that requires correction.            The active Group to RP mapping on this device is specified            by the object pimGroupMappingPimMode.  If there is no such            mapping, then the object pimGroupMappingPimMode is absent.            The RP address contained in the invalid Join/Prune is            pimInvalidJoinPruneRp.Sivaramu, et al.            Standards Track                    [Page 13]

RFC 5060                        PIM MIB                     January 2008            Invalid Join/Prune messages are discarded.  This may result            in loss of multicast data affecting listeners downstream of            pimInvalidJoinPruneOrigin, for multicast data addressed to            pimInvalidJoinPruneGroup.            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 4601 section 4.5.2,RFC 3569, and               'IP Multicast MIB' (August 2007) ipMcastSsmRangeTable"    ::= { pim 38 }pimInvalidJoinPruneAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type stored in pimInvalidJoinPruneOrigin,            pimInvalidJoinPruneGroup, and pimInvalidJoinPruneRp.            If no invalid Join/Prune messages have been received, this            object is set to unknown(0)."    ::= { pim 39 }pimInvalidJoinPruneOrigin OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The source address of the last invalid Join/Prune message            received by this device."    ::= { pim 40 }pimInvalidJoinPruneGroup OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The IP multicast group address carried in the last            invalid Join/Prune message received by this device."    ::= { pim 41 }pimInvalidJoinPruneRp OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The RP address carried in the last invalid Join/PruneSivaramu, et al.            Standards Track                    [Page 14]

RFC 5060                        PIM MIB                     January 2008            message received by this device."    ::= { pim 42 }pimRPMappingNotificationPeriod OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The minimum time that must elapse between            pimRPMappingChange notifications originated by this router.            The default value of 65535 represents an 'infinite' time, in            which case, no pimRPMappingChange notifications are ever            sent.            The storage type of this object is determined by            pimDeviceConfigStorageType."    DEFVAL { 65535 }    ::= { pim 43 }pimRPMappingChangeCount OBJECT-TYPE    SYNTAX     Counter32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of changes to active RP mappings on this device.            Information about active RP mappings is available in            pimGroupMappingTable.  Only changes to active mappings cause            this counter to be incremented.  That is, changes that            modify the pimGroupMappingEntry with the highest precedence            for a group (lowest value of pimGroupMappingPrecedence).            Such changes may result from manual configuration of this            device, or from automatic RP mapping discovery methods            including the PIM Bootstrap Router (BSR) mechanism.            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 5059"    ::= { pim 44 }pimInterfaceElectionNotificationPeriod OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     currentSivaramu, et al.            Standards Track                    [Page 15]

RFC 5060                        PIM MIB                     January 2008    DESCRIPTION            "The minimum time that must elapse between            pimInterfaceElection notifications originated by this            router.  The default value of 65535 represents an 'infinite'            time, in which case, no pimInterfaceElection notifications            are ever sent.            The storage type of this object is determined by            pimDeviceConfigStorageType."    DEFVAL { 65535 }    ::= { pim 45 }pimInterfaceElectionWinCount OBJECT-TYPE    SYNTAX     Counter32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The number of times this device has been elected DR or DF            on any interface.            Elections occur frequently on newly-active interfaces, as            triggered Hellos establish adjacencies.  This counter is not            incremented for elections on an interface until the first            periodic Hello has been sent.  If this router is the DR or            DF at the time of sending the first periodic Hello after            interface activation, then this counter is incremented            (once) at that time.            Discontinuities in the value of this counter can occur at            re-initialization of the management system, for example,            when the device is rebooted."    REFERENCE "RFC 4601 section 4.3.2 andRFC 5015 section 3.5.2"    ::= { pim 46 }pimRefreshInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-write    STATUS     current    DESCRIPTION            "The interval between successive State Refresh messages sent            by an Originator.  This timer period is called the            RefreshInterval in the PIM-DM specification.  This object is            used only by PIM-DM.            The storage type of this object is determined by            pimDeviceConfigStorageType."    REFERENCE "RFC 3973 section 4.8"Sivaramu, et al.            Standards Track                    [Page 16]

RFC 5060                        PIM MIB                     January 2008    DEFVAL { 60 }    ::= { pim 47 }pimDeviceConfigStorageType OBJECT-TYPE    SYNTAX      StorageType    MAX-ACCESS  read-write    STATUS      current    DESCRIPTION            "The storage type used for the global PIM configuration of            this device, comprised of the objects listed below.  If this            storage type takes the value 'permanent', write-access to            the listed objects need not be allowed.            The objects described by this storage type are:            pimKeepalivePeriod, pimRegisterSuppressionTime,            pimNeighborLossNotificationPeriod,            pimInvalidRegisterNotificationPeriod,            pimInvalidJoinPruneNotificationPeriod,            pimRPMappingNotificationPeriod,            pimInterfaceElectionNotificationPeriod, and            pimRefreshInterval."    DEFVAL { nonVolatile }    ::= { pim 48 }---- The PIM Interface Table--pimInterfaceTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimInterfaceEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the router's PIM interfaces.            PIM is enabled on all interfaces listed in this table."    ::= { pim 1 }pimInterfaceEntry OBJECT-TYPE    SYNTAX     PimInterfaceEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimInterfaceTable.  This            entry is preserved on agent restart."    INDEX      { pimInterfaceIfIndex,                 pimInterfaceIPVersion }    ::= { pimInterfaceTable 1 }Sivaramu, et al.            Standards Track                    [Page 17]

RFC 5060                        PIM MIB                     January 2008PimInterfaceEntry ::= SEQUENCE {    pimInterfaceIfIndex              InterfaceIndex,    pimInterfaceIPVersion            InetVersion,    pimInterfaceAddressType          InetAddressType,    pimInterfaceAddress              InetAddress,    pimInterfaceGenerationIDValue    Unsigned32,    pimInterfaceDR                   InetAddress,    pimInterfaceDRPriority           Unsigned32,    pimInterfaceDRPriorityEnabled    TruthValue,    pimInterfaceHelloInterval        Unsigned32,    pimInterfaceTrigHelloInterval    Unsigned32,    pimInterfaceHelloHoldtime        Unsigned32,    pimInterfaceJoinPruneInterval    Unsigned32,    pimInterfaceJoinPruneHoldtime    Unsigned32,    pimInterfaceDFElectionRobustness Unsigned32,    pimInterfaceLanDelayEnabled      TruthValue,    pimInterfacePropagationDelay     Unsigned32,    pimInterfaceOverrideInterval     Unsigned32,    pimInterfaceEffectPropagDelay    Unsigned32,    pimInterfaceEffectOverrideIvl    Unsigned32,    pimInterfaceSuppressionEnabled   TruthValue,    pimInterfaceBidirCapable         TruthValue,    pimInterfaceDomainBorder         TruthValue,    pimInterfaceStubInterface        TruthValue,    pimInterfacePruneLimitInterval   Unsigned32,    pimInterfaceGraftRetryInterval   Unsigned32,    pimInterfaceSRPriorityEnabled    TruthValue,    pimInterfaceStatus               RowStatus,    pimInterfaceStorageType          StorageType}pimInterfaceIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The ifIndex value of this PIM interface."    ::= { pimInterfaceEntry 1 }pimInterfaceIPVersion OBJECT-TYPE    SYNTAX     InetVersion    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The IP version of this PIM interface.  A physical interface            may be configured in multiple modes concurrently, e.g., IPv4            and IPv6; however, the traffic is considered to be logically            separate."Sivaramu, et al.            Standards Track                    [Page 18]

RFC 5060                        PIM MIB                     January 2008    ::= { pimInterfaceEntry 2 }pimInterfaceAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of this PIM interface."    ::= { pimInterfaceEntry 3 }pimInterfaceAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary IP address of this router on this PIM            interface.  The InetAddressType is given by the            pimInterfaceAddressType object."    REFERENCE "RFC 4601 sections4.1.6,4.3.1-4.3.4, and4.5.1"    ::= { pimInterfaceEntry 4 }pimInterfaceGenerationIDValue OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of the Generation ID this router inserted in the            last PIM Hello message it sent on this interface."    REFERENCE "RFC 4601 section 4.3.1"    ::= { pimInterfaceEntry 5 }pimInterfaceDR OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary IP address of the Designated Router on this PIM            interface.  The InetAddressType is given by the            pimInterfaceAddressType object."    REFERENCE "RFC 4601 section 4.3"    ::= { pimInterfaceEntry 6 }pimInterfaceDRPriority OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The Designated Router Priority value inserted into the DRSivaramu, et al.            Standards Track                    [Page 19]

RFC 5060                        PIM MIB                     January 2008            Priority option in PIM Hello messages transmitted on this            interface.  Numerically higher values for this object            indicate higher priorities."    REFERENCE "RFC 4601 section 4.3.2"    DEFVAL { 1 }    ::= { pimInterfaceEntry 7 }pimInterfaceDRPriorityEnabled OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if all routers on this interface are            using the DR Priority option."    REFERENCE "RFC 4601 section 4.3.2"    ::= { pimInterfaceEntry 8 }pimInterfaceHelloInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..18000)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The frequency at which PIM Hello messages are transmitted            on this interface.  This object corresponds to the            'Hello_Period' timer value defined in the PIM-SM            specification.  A value of zero represents an 'infinite'            interval, and indicates that periodic PIM Hello messages            should not be sent on this interface."    REFERENCE "RFC 4601 section 9"    DEFVAL { 30 }    ::= { pimInterfaceEntry 9 }pimInterfaceTrigHelloInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..60)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The maximum time before this router sends a triggered PIM            Hello message on this interface.  This object corresponds to            the 'Trigered_Hello_Delay' timer value defined in the PIM-SM            specification.  A value of zero has no special meaning and            indicates that triggered PIM Hello messages should always be            sent immediately."    REFERENCE "RFC 4601 section 4.11"    DEFVAL { 5 }    ::= { pimInterfaceEntry 10 }Sivaramu, et al.            Standards Track                    [Page 20]

RFC 5060                        PIM MIB                     January 2008pimInterfaceHelloHoldtime OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The value set in the Holdtime field of PIM Hello messages            transmitted on this interface.  A value of 65535 represents            an 'infinite' holdtime.  Implementations are recommended            to use a holdtime that is 3.5 times the value of            pimInterfaceHelloInterval, or 65535 if            pimInterfaceHelloInterval is set to zero."    REFERENCE "RFC 4601 sections4.3.2 and4.9.2"    DEFVAL { 105 }    ::= { pimInterfaceEntry 11 }pimInterfaceJoinPruneInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..18000)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The frequency at which this router sends PIM Join/Prune            messages on this PIM interface.  This object corresponds to            the 't_periodic' timer value defined in the PIM-SM            specification.  A value of zero represents an 'infinite'            interval, and indicates that periodic PIM Join/Prune            messages should not be sent on this interface."    REFERENCE "RFC 4601 section 4.11"    DEFVAL { 60 }    ::= { pimInterfaceEntry 12 }pimInterfaceJoinPruneHoldtime OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The value inserted into the Holdtime field of a PIM            Join/Prune message sent on this interface.  A value of 65535            represents an 'infinite' holdtime.  Implementations are            recommended to use a holdtime that is 3.5 times the value of            pimInterfaceJoinPruneInterval, or 65535 if            pimInterfaceJoinPruneInterval is set to zero.  PIM-DM            implementations are recommended to use the value of            pimInterfacePruneLimitInterval."    REFERENCE "RFC 4601 sections4.5.3 and4.9.5"    DEFVAL { 210 }Sivaramu, et al.            Standards Track                    [Page 21]

RFC 5060                        PIM MIB                     January 2008    ::= { pimInterfaceEntry 13 }pimInterfaceDFElectionRobustness OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The minimum number of PIM DF-Election messages that must be            lost in order for DF election on this interface to fail."    DEFVAL { 3 }    ::= { pimInterfaceEntry 14 }pimInterfaceLanDelayEnabled OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if all routers on this interface are            using the LAN Prune Delay option."    REFERENCE "RFC 4601 sections4.3.3 and4.9.2"    ::= { pimInterfaceEntry 15 }pimInterfacePropagationDelay OBJECT-TYPE    SYNTAX     Unsigned32 (0..32767)    UNITS      "milliseconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The expected propagation delay between PIM routers on this            network or link.            This router inserts this value into the Propagation_Delay            field of the LAN Prune Delay option in the PIM Hello            messages sent on this interface.  Implementations SHOULD            enforce a lower bound on the permitted values for this            object to allow for scheduling and processing delays within            the local router."    DEFVAL { 500 }    ::= { pimInterfaceEntry 16 }pimInterfaceOverrideInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "milliseconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The value this router inserts into the Override_Interval            field of the LAN Prune Delay option in the PIM HelloSivaramu, et al.            Standards Track                    [Page 22]

RFC 5060                        PIM MIB                     January 2008            messages it sends on this interface.            When overriding a prune, PIM routers pick a random timer            duration up to the value of this object.  The more PIM            routers that are active on a network, the more likely it is            that the prune will be overridden after a small proportion            of this time has elapsed.            The more PIM routers are active on this network, the larger            this object should be to obtain an optimal spread of prune            override latencies."    REFERENCE "RFC 4601 section 4.3.3"    DEFVAL { 2500 }    ::= { pimInterfaceEntry 17 }pimInterfaceEffectPropagDelay OBJECT-TYPE    SYNTAX     Unsigned32 (0..32767)    UNITS      "milliseconds"    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The Effective Propagation Delay on this interface.  This            object is always 500 if pimInterfaceLanDelayEnabled is            FALSE."    REFERENCE "RFC 4601 section 4.3.3"    ::= { pimInterfaceEntry 18 }pimInterfaceEffectOverrideIvl OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "milliseconds"    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The Effective Override Interval on this interface.  This            object is always 2500 if pimInterfaceLanDelayEnabled is            FALSE."    REFERENCE "RFC 4601 section 4.3.3"    ::= { pimInterfaceEntry 19 }pimInterfaceSuppressionEnabled OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether join suppression is enabled on this interface.            This object is always TRUE if pimInterfaceLanDelayEnabled is            FALSE."    REFERENCE "RFC 4601 section 4.3.3"Sivaramu, et al.            Standards Track                    [Page 23]

RFC 5060                        PIM MIB                     January 2008    ::= { pimInterfaceEntry 20 }pimInterfaceBidirCapable OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if all routers on this interface are            using the Bidirectional-PIM Capable option."    REFERENCE "RFC 5015 section 3.2 and 3.7.4"    ::= { pimInterfaceEntry 21 }pimInterfaceDomainBorder OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "Whether or not this interface is a PIM domain border.  This            includes acting as a border for PIM Bootstrap Router (BSR)            messages, if the BSR mechanism is in use."    DEFVAL { false }    ::= { pimInterfaceEntry 22 }pimInterfaceStubInterface OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "Whether this interface is a 'stub interface'.  If this            object is set to TRUE, then no PIM packets are sent out this            interface, and any received PIM packets are ignored.            Setting this object to TRUE is a security measure for            interfaces towards untrusted hosts.  This allows an            interface to be configured for use with IGMP (Internet Group            Management Protocol) or MLD (Multicast Listener Discovery)            only, which protects the PIM router from forged PIM messages            on the interface.            To communicate with other PIM routers using this interface,            this object must remain set to FALSE.            Changing the value of this object while the interface is            operational causes PIM to be disabled and then re-enabled on            this interface."    REFERENCE "RFC 3376,RFC 3810"    DEFVAL { false }    ::= { pimInterfaceEntry 23 }Sivaramu, et al.            Standards Track                    [Page 24]

RFC 5060                        PIM MIB                     January 2008pimInterfacePruneLimitInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The minimum interval that must transpire between two            successive Prunes sent by a router.  This object corresponds            to the 't_limit' timer value defined in the PIM-DM            specification.  This object is used only by PIM-DM."    REFERENCE "RFC 3973 section 4.8"    DEFVAL { 60 }    ::= { pimInterfaceEntry 24 }pimInterfaceGraftRetryInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    UNITS      "seconds"    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The minimum interval that must transpire between two            successive Grafts sent by a router.  This object corresponds            to the 'Graft_Retry_Period' timer value defined in the            PIM-DM specification.  This object is used only by PIM-DM."    REFERENCE "RFC 3973 section 4.8"    DEFVAL { 3 }    ::= { pimInterfaceEntry 25 }pimInterfaceSRPriorityEnabled OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if all routers on this interface are            using the State Refresh option.  This object is used only by            PIM-DM."    ::= { pimInterfaceEntry 26 }pimInterfaceStatus OBJECT-TYPE    SYNTAX     RowStatus    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The status of this entry.  Creating the entry enables PIM            on the interface; destroying the entry disables PIM on the            interface.            This status object can be set to active(1) without settingSivaramu, et al.            Standards Track                    [Page 25]

RFC 5060                        PIM MIB                     January 2008            any other columnar objects in this entry.            All writeable objects in this entry can be modified when the            status of this entry is active(1)."    ::= { pimInterfaceEntry 27 }pimInterfaceStorageType OBJECT-TYPE    SYNTAX      StorageType    MAX-ACCESS  read-create    STATUS      current    DESCRIPTION            "The storage type for this row.  Rows having the value            'permanent' need not allow write-access to any columnar            objects in the row."    DEFVAL { nonVolatile }    ::= { pimInterfaceEntry 28 }---- The PIM Neighbor Table--pimNeighborTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimNeighborEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the router's PIM neighbors."    ::= { pim 2 }pimNeighborEntry OBJECT-TYPE    SYNTAX     PimNeighborEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimNeighborTable."    INDEX      { pimNeighborIfIndex,                 pimNeighborAddressType,                 pimNeighborAddress }    ::= { pimNeighborTable 1 }PimNeighborEntry ::= SEQUENCE {    pimNeighborIfIndex              InterfaceIndex,    pimNeighborAddressType          InetAddressType,    pimNeighborAddress              InetAddress,    pimNeighborGenerationIDPresent  TruthValue,    pimNeighborGenerationIDValue    Unsigned32,    pimNeighborUpTime               TimeTicks,    pimNeighborExpiryTime           TimeTicks,Sivaramu, et al.            Standards Track                    [Page 26]

RFC 5060                        PIM MIB                     January 2008    pimNeighborDRPriorityPresent    TruthValue,    pimNeighborDRPriority           Unsigned32,    pimNeighborLanPruneDelayPresent TruthValue,    pimNeighborTBit                 TruthValue,    pimNeighborPropagationDelay     Unsigned32,    pimNeighborOverrideInterval     Unsigned32,    pimNeighborBidirCapable         TruthValue,    pimNeighborSRCapable            TruthValue}pimNeighborIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The value of ifIndex for the interface used to reach this            PIM neighbor."    ::= { pimNeighborEntry 1 }pimNeighborAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of this PIM neighbor."    ::= { pimNeighborEntry 2 }pimNeighborAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The primary IP address of this PIM neighbor.  The            InetAddressType is given by the pimNeighborAddressType            object."    ::= { pimNeighborEntry 3 }pimNeighborGenerationIDPresent OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if this neighbor is using the Generation            ID option."    REFERENCE "RFC 4601 section 4.3.1"    ::= { pimNeighborEntry 4 }pimNeighborGenerationIDValue OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 27]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of the Generation ID from the last PIM Hello            message received from this neighbor.  This object is always            zero if pimNeighborGenerationIDPresent is FALSE."    REFERENCE "RFC 4601 section 4.3.1"    ::= { pimNeighborEntry 5 }pimNeighborUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this PIM neighbor (last) became a neighbor            of the local router."    ::= { pimNeighborEntry 6 }pimNeighborExpiryTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The minimum time remaining before this PIM neighbor will            time out.  The value zero indicates that this PIM neighbor            will never time out."    ::= { pimNeighborEntry 7 }pimNeighborDRPriorityPresent OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if this neighbor is using the DR Priority            option."    REFERENCE "RFC 4601 section 4.3.2"    ::= { pimNeighborEntry 8 }pimNeighborDRPriority OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of the Designated Router Priority from the last            PIM Hello message received from this neighbor.  This object            is always zero if pimNeighborDRPriorityPresent is FALSE."    REFERENCE "RFC 4601 section 4.3.2"Sivaramu, et al.            Standards Track                    [Page 28]

RFC 5060                        PIM MIB                     January 2008    ::= { pimNeighborEntry 9 }pimNeighborLanPruneDelayPresent OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if this neighbor is using the LAN Prune            Delay option."    REFERENCE "RFC 4601 section 4.3.3"    ::= { pimNeighborEntry 10 }pimNeighborTBit OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the T bit was set in the LAN Prune Delay option            received from this neighbor.  The T bit specifies the            ability of the neighbor to disable join suppression.  This            object is always TRUE if pimNeighborLanPruneDelayPresent is            FALSE."    REFERENCE "RFC 4601 section 4.3.3"    ::= { pimNeighborEntry 11 }pimNeighborPropagationDelay OBJECT-TYPE    SYNTAX     Unsigned32 (0..32767)    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of the Propagation_Delay field of the LAN Prune            Delay option received from this neighbor.  This object is            always zero if pimNeighborLanPruneDelayPresent is FALSE."    REFERENCE "RFC 4601 section 4.3.3"    ::= { pimNeighborEntry 12 }pimNeighborOverrideInterval OBJECT-TYPE    SYNTAX     Unsigned32 (0..65535)    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of the Override_Interval field of the LAN Prune            Delay option received from this neighbor.  This object is            always zero if pimNeighborLanPruneDelayPresent is FALSE."    REFERENCE "RFC 4601 section 4.3.3"    ::= { pimNeighborEntry 13 }pimNeighborBidirCapable OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 29]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if this neighbor is using the            Bidirectional-PIM Capable option."    REFERENCE "RFC 5015 section 3.2 and 3.7.4"    ::= { pimNeighborEntry 14 }pimNeighborSRCapable OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Evaluates to TRUE if this neighbor is using the State            Refresh Capable option.  This object is used only by            PIM-DM."    REFERENCE "RFC 3973 section 4.3.4"    ::= { pimNeighborEntry 15 }---- The PIM Neighbor Secondary Address Table--pimNbrSecAddressTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimNbrSecAddressEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the secondary addresses            advertised by each PIM neighbor (on a subset of the rows of            the pimNeighborTable defined above)."    REFERENCE "RFC 4601 section 4.3.4"    ::= { pim 3 }pimNbrSecAddressEntry OBJECT-TYPE    SYNTAX     PimNbrSecAddressEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimNbrSecAddressTable."    INDEX      { pimNbrSecAddressIfIndex,                 pimNbrSecAddressType,                 pimNbrSecAddressPrimary,                 pimNbrSecAddress }    ::= { pimNbrSecAddressTable 1 }PimNbrSecAddressEntry ::= SEQUENCE {Sivaramu, et al.            Standards Track                    [Page 30]

RFC 5060                        PIM MIB                     January 2008    pimNbrSecAddressIfIndex InterfaceIndex,    pimNbrSecAddressType    InetAddressType,    pimNbrSecAddressPrimary InetAddress,    pimNbrSecAddress        InetAddress}pimNbrSecAddressIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The value of ifIndex for the interface used to reach this            PIM neighbor."    ::= { pimNbrSecAddressEntry 1 }pimNbrSecAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of this PIM neighbor."    ::= { pimNbrSecAddressEntry 2 }pimNbrSecAddressPrimary OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The primary IP address of this PIM neighbor.  The            InetAddressType is given by the pimNbrSecAddressType            object."    ::= { pimNbrSecAddressEntry 3 }pimNbrSecAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The secondary IP address of this PIM neighbor.  The            InetAddressType is given by the pimNbrSecAddressType            object."    ::= { pimNbrSecAddressEntry 4 }---- The PIM (*,G) State Table--pimStarGTable OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 31]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     SEQUENCE OF PimStarGEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the non-interface specific            (*,G) state that PIM has."    REFERENCE "RFC 4601 section 4.1.3"    ::= { pim 4 }pimStarGEntry OBJECT-TYPE    SYNTAX     PimStarGEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimStarGTable."    INDEX      { pimStarGAddressType,                 pimStarGGrpAddress }    ::= { pimStarGTable 1 }PimStarGEntry ::= SEQUENCE {    pimStarGAddressType             InetAddressType,    pimStarGGrpAddress              InetAddress,    pimStarGUpTime                  TimeTicks,    pimStarGPimMode                 PimMode,    pimStarGRPAddressType           InetAddressType,    pimStarGRPAddress               InetAddress,    pimStarGPimModeOrigin           PimGroupMappingOriginType,    pimStarGRPIsLocal               TruthValue,    pimStarGUpstreamJoinState       INTEGER,    pimStarGUpstreamJoinTimer       TimeTicks,    pimStarGUpstreamNeighborType    InetAddressType,    pimStarGUpstreamNeighbor        InetAddress,    pimStarGRPFIfIndex              InterfaceIndexOrZero,    pimStarGRPFNextHopType          InetAddressType,    pimStarGRPFNextHop              InetAddress,    pimStarGRPFRouteProtocol        IANAipRouteProtocol,    pimStarGRPFRouteAddress         InetAddress,    pimStarGRPFRoutePrefixLength    InetAddressPrefixLength,    pimStarGRPFRouteMetricPref      Unsigned32,    pimStarGRPFRouteMetric          Unsigned32}pimStarGAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of this multicast group."Sivaramu, et al.            Standards Track                    [Page 32]

RFC 5060                        PIM MIB                     January 2008    ::= { pimStarGEntry 1 }pimStarGGrpAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The multicast group address.  The InetAddressType is given            by the pimStarGAddressType object."    ::= { pimStarGEntry 2 }pimStarGUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this entry was created by the local router."    ::= { pimStarGEntry 3 }pimStarGPimMode OBJECT-TYPE    SYNTAX     PimMode { asm(3), bidir(4) }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether this entry represents an ASM (Any Source Multicast,            used with PIM-SM) or BIDIR-PIM group."    ::= { pimStarGEntry 4 }pimStarGRPAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of the Rendezvous Point (RP), or            unknown(0) if the RP address is unknown."    ::= { pimStarGEntry 5 }pimStarGRPAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address of the Rendezvous Point (RP) for the group.            The InetAddressType is given by the pimStarGRPAddressType."    ::= { pimStarGEntry 6 }pimStarGPimModeOrigin OBJECT-TYPE    SYNTAX     PimGroupMappingOriginTypeSivaramu, et al.            Standards Track                    [Page 33]

RFC 5060                        PIM MIB                     January 2008    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The mechanism by which the PIM mode and RP for the group            were learned."    ::= { pimStarGEntry 7 }pimStarGRPIsLocal OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router is the RP for the group."    ::= { pimStarGEntry 8 }pimStarGUpstreamJoinState OBJECT-TYPE    SYNTAX     INTEGER {                  notJoined (1),                  joined (2)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router should join the RP tree for the            group.  This corresponds to the state of the upstream (*,G)            state machine in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.5.6"    ::= { pimStarGEntry 9 }pimStarGUpstreamJoinTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before the local router next sends a            periodic (*,G) Join message on pimStarGRPFIfIndex.  This            timer is called the (*,G) Upstream Join Timer in the PIM-SM            specification.  This object is zero if the timer is not            running."    REFERENCE "RFC 4601 section 4.10"    ::= { pimStarGEntry 10 }pimStarGUpstreamNeighborType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary address type of the upstream neighbor, orSivaramu, et al.            Standards Track                    [Page 34]

RFC 5060                        PIM MIB                     January 2008            unknown(0) if the upstream neighbor address is unknown or is            not a PIM neighbor."    ::= { pimStarGEntry 11 }pimStarGUpstreamNeighbor OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary address of the neighbor on pimStarGRPFIfIndex            that the local router is sending periodic (*,G) Join            messages to.  The InetAddressType is given by the            pimStarGUpstreamNeighborType object.  This address is called            RPF'(*,G) in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.1.6"    ::= { pimStarGEntry 12 }pimStarGRPFIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndexOrZero    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of ifIndex for the Reverse Path Forwarding            (RPF) interface towards the RP, or zero if the RPF            interface is unknown."    ::= { pimStarGEntry 13 }pimStarGRPFNextHopType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of the RPF next hop towards the RP, or            unknown(0) if the RPF next hop is unknown."    ::= { pimStarGEntry 14 }pimStarGRPFNextHop OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address of the RPF next hop towards the RP.  The            InetAddressType is given by the pimStarGRPFNextHopType            object.  This address is called MRIB.next_hop(RP(G))            in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.5.5"    ::= { pimStarGEntry 15 }Sivaramu, et al.            Standards Track                    [Page 35]

RFC 5060                        PIM MIB                     January 2008pimStarGRPFRouteProtocol OBJECT-TYPE    SYNTAX     IANAipRouteProtocol    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The routing mechanism via which the route used to find the            RPF interface towards the RP was learned."    ::= { pimStarGEntry 16 }pimStarGRPFRouteAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The IP address that, when combined with the corresponding            value of pimStarGRPFRoutePrefixLength, identifies the route            used to find the RPF interface towards the RP.  The            InetAddressType is given by the pimStarGRPFNextHopType            object.            This address object is only significant up to            pimStarGRPFRoutePrefixLength bits.  The remainder of the            address bits are zero."    ::= { pimStarGEntry 17 }pimStarGRPFRoutePrefixLength OBJECT-TYPE    SYNTAX     InetAddressPrefixLength    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The prefix length that, when combined with the            corresponding value of pimStarGRPFRouteAddress, identifies            the route used to find the RPF interface towards the RP.            The InetAddressType is given by the pimStarGRPFNextHopType            object."    ::= { pimStarGEntry 18 }pimStarGRPFRouteMetricPref OBJECT-TYPE    SYNTAX     Unsigned32 (0..2147483647)    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The metric preference of the route used to find the RPF            interface towards the RP."    ::= { pimStarGEntry 19 }pimStarGRPFRouteMetric OBJECT-TYPE    SYNTAX     Unsigned32Sivaramu, et al.            Standards Track                    [Page 36]

RFC 5060                        PIM MIB                     January 2008    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The routing metric of the route used to find the RPF            interface towards the RP."    ::= { pimStarGEntry 20 }---- The PIM (*,G,I) State Table--pimStarGITable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimStarGIEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the interface-specific (*,G)            state that PIM has."    REFERENCE "RFC 4601 section 4.1.3"    ::= { pim 5 }pimStarGIEntry OBJECT-TYPE    SYNTAX     PimStarGIEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimStarGITable."    INDEX      { pimStarGAddressType,                 pimStarGGrpAddress,                 pimStarGIIfIndex }    ::= { pimStarGITable 1 }PimStarGIEntry ::= SEQUENCE {    pimStarGIIfIndex                 InterfaceIndex,    pimStarGIUpTime                  TimeTicks,    pimStarGILocalMembership         TruthValue,    pimStarGIJoinPruneState          INTEGER,    pimStarGIPrunePendingTimer       TimeTicks,    pimStarGIJoinExpiryTimer         TimeTicks,    pimStarGIAssertState             INTEGER,    pimStarGIAssertTimer             TimeTicks,    pimStarGIAssertWinnerAddressType InetAddressType,    pimStarGIAssertWinnerAddress     InetAddress,    pimStarGIAssertWinnerMetricPref  Unsigned32,    pimStarGIAssertWinnerMetric      Unsigned32}pimStarGIIfIndex OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 37]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The ifIndex of the interface that this entry corresponds            to."    ::= { pimStarGIEntry 1 }pimStarGIUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this entry was created by the local router."    ::= { pimStarGIEntry 2 }pimStarGILocalMembership OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router has (*,G) local membership on this            interface (resulting from a mechanism such as IGMP or MLD).            This corresponds to local_receiver_include(*,G,I) in the            PIM-SM specification."    REFERENCE "RFC 3376,RFC 3810, andRFC 4601 section 4.1.6"    ::= { pimStarGIEntry 3 }pimStarGIJoinPruneState OBJECT-TYPE    SYNTAX     INTEGER {                  noInfo (1),                  join (2),                  prunePending (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The state resulting from (*,G) Join/Prune messages            received on this interface.  This corresponds to the state            of the downstream per-interface (*,G) state machine in the            PIM-SM specification."    REFERENCE "RFC 4601 section 4.5.2"    ::= { pimStarGIEntry 4 }pimStarGIPrunePendingTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     currentSivaramu, et al.            Standards Track                    [Page 38]

RFC 5060                        PIM MIB                     January 2008    DESCRIPTION            "The time remaining before the local router acts on a (*,G)            Prune message received on this interface, during which the            router is waiting to see whether another downstream router            will override the Prune message.  This timer is called the            (*,G) Prune-Pending Timer in the PIM-SM specification.  This            object is zero if the timer is not running."    REFERENCE "RFC 4601 section 4.5.1"    ::= { pimStarGIEntry 5 }pimStarGIJoinExpiryTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before (*,G) Join state for this            interface expires.  This timer is called the (*,G) Join            Expiry Timer in the PIM-SM specification.  This object is            zero if the timer is not running.  A value of 'FFFFFFFF'h            indicates an infinite expiry time."    REFERENCE "RFC 4601 section 4.10"    ::= { pimStarGIEntry 6 }pimStarGIAssertState OBJECT-TYPE    SYNTAX     INTEGER {                  noInfo (1),                  iAmAssertWinner (2),                  iAmAssertLoser (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The (*,G) Assert state for this interface.  This            corresponds to the state of the per-interface (*,G) Assert            state machine in the PIM-SM specification.  If            pimStarGPimMode is 'bidir', this object must be 'noInfo'."    REFERENCE "RFC 4601 section 4.6.2"    ::= { pimStarGIEntry 7 }pimStarGIAssertTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimStarGIAssertState is 'iAmAssertWinner', this is the            time remaining before the local router next sends a (*,G)            Assert message on this interface.  If pimStarGIAssertState            is 'iAmAssertLoser', this is the time remaining before theSivaramu, et al.            Standards Track                    [Page 39]

RFC 5060                        PIM MIB                     January 2008            (*,G) Assert state expires.  If pimStarGIAssertState is            'noInfo', this is zero.  This timer is called the (*,G)            Assert Timer in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.6.2"    ::= { pimStarGIEntry 8 }pimStarGIAssertWinnerAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimStarGIAssertState is 'iAmAssertLoser', this is the            address type of the assert winner; otherwise, this object is            unknown(0)."    ::= { pimStarGIEntry 9 }pimStarGIAssertWinnerAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimStarGIAssertState is 'iAmAssertLoser', this is the            address of the assert winner.  The InetAddressType is given            by the pimStarGIAssertWinnerAddressType object."    ::= { pimStarGIEntry 10 }pimStarGIAssertWinnerMetricPref OBJECT-TYPE    SYNTAX     Unsigned32 (0..2147483647)    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimStarGIAssertState is 'iAmAssertLoser', this is the            metric preference of the route to the RP advertised by the            assert winner; otherwise, this object is zero."    ::= { pimStarGIEntry 11 }pimStarGIAssertWinnerMetric OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimStarGIAssertState is 'iAmAssertLoser', this is the            routing metric of the route to the RP advertised by the            assert winner; otherwise, this object is zero."    ::= { pimStarGIEntry 12 }---- The PIM (S,G) State TableSivaramu, et al.            Standards Track                    [Page 40]

RFC 5060                        PIM MIB                     January 2008--pimSGTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimSGEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the non-interface specific            (S,G) state that PIM has."    REFERENCE "RFC 4601 section 4.1.4"    ::= { pim 6 }pimSGEntry OBJECT-TYPE    SYNTAX     PimSGEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimSGTable."    INDEX      { pimSGAddressType,                 pimSGGrpAddress,                 pimSGSrcAddress }    ::= { pimSGTable 1 }PimSGEntry ::= SEQUENCE {    pimSGAddressType               InetAddressType,    pimSGGrpAddress                InetAddress,    pimSGSrcAddress                InetAddress,    pimSGUpTime                    TimeTicks,    pimSGPimMode                   PimMode,    pimSGUpstreamJoinState         INTEGER,    pimSGUpstreamJoinTimer         TimeTicks,    pimSGUpstreamNeighbor          InetAddress,    pimSGRPFIfIndex                InterfaceIndexOrZero,    pimSGRPFNextHopType            InetAddressType,    pimSGRPFNextHop                InetAddress,    pimSGRPFRouteProtocol          IANAipRouteProtocol,    pimSGRPFRouteAddress           InetAddress,    pimSGRPFRoutePrefixLength      InetAddressPrefixLength,    pimSGRPFRouteMetricPref        Unsigned32,    pimSGRPFRouteMetric            Unsigned32,    pimSGSPTBit                    TruthValue,    pimSGKeepaliveTimer            TimeTicks,    pimSGDRRegisterState           INTEGER,    pimSGDRRegisterStopTimer       TimeTicks,    pimSGRPRegisterPMBRAddressType InetAddressType,    pimSGRPRegisterPMBRAddress     InetAddress,    pimSGUpstreamPruneState        INTEGER,    pimSGUpstreamPruneLimitTimer   TimeTicks,Sivaramu, et al.            Standards Track                    [Page 41]

RFC 5060                        PIM MIB                     January 2008    pimSGOriginatorState           INTEGER,    pimSGSourceActiveTimer         TimeTicks,    pimSGStateRefreshTimer         TimeTicks}pimSGAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of the source and multicast group for this            entry."    ::= { pimSGEntry 1 }pimSGGrpAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The multicast group address for this entry.  The            InetAddressType is given by the pimSGAddressType object."    ::= { pimSGEntry 2 }pimSGSrcAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The source address for this entry.  The InetAddressType is            given by the pimSGAddressType object."    ::= { pimSGEntry 3 }pimSGUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this entry was created by the local router."    ::= { pimSGEntry 4 }pimSGPimMode OBJECT-TYPE    SYNTAX     PimMode { ssm(2), asm(3) }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether pimSGGrpAddress is an SSM (Source Specific            Multicast, used with PIM-SM) or ASM (Any Source Multicast,            used with PIM-SM) group."Sivaramu, et al.            Standards Track                    [Page 42]

RFC 5060                        PIM MIB                     January 2008    REFERENCE "RFC 4601 section 4.5.2,RFC 3569, and               'IP Multicast MIB' (August 2007) ipMcastSsmRangeTable"    ::= { pimSGEntry 5 }pimSGUpstreamJoinState OBJECT-TYPE    SYNTAX     INTEGER {                  notJoined (1),                  joined (2)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router should join the shortest-path tree            for the source and group represented by this entry.  This            corresponds to the state of the upstream (S,G) state machine            in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.5.7"    ::= { pimSGEntry 6 }pimSGUpstreamJoinTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before the local router next sends a            periodic (S,G) Join message on pimSGRPFIfIndex.  This timer            is called the (S,G) Upstream Join Timer in the PIM-SM            specification.  This object is zero if the timer is not            running."    REFERENCE "RFC 4601 sections4.10 and4.11"    ::= { pimSGEntry 7 }pimSGUpstreamNeighbor OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary address of the neighbor on pimSGRPFIfIndex that            the local router is sending periodic (S,G) Join messages to.            This is zero if the RPF next hop is unknown or is not a            PIM neighbor.  The InetAddressType is given by the            pimSGAddressType object.  This address is called RPF'(S,G)            in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.1.6"    ::= { pimSGEntry 8 }pimSGRPFIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndexOrZeroSivaramu, et al.            Standards Track                    [Page 43]

RFC 5060                        PIM MIB                     January 2008    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The value of ifIndex for the RPF interface towards the            source, or zero if the RPF interface is unknown."    ::= { pimSGEntry 9 }pimSGRPFNextHopType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of the RPF next hop towards the source, or            unknown(0) if the RPF next hop is unknown."    ::= { pimSGEntry 10 }pimSGRPFNextHop OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address of the RPF next hop towards the source.  The            InetAddressType is given by the pimSGRPFNextHopType.  This            address is called MRIB.next_hop(S) in the PIM-SM            specification."    REFERENCE "RFC 4601 section 4.5.5"    ::= { pimSGEntry 11 }pimSGRPFRouteProtocol OBJECT-TYPE    SYNTAX     IANAipRouteProtocol    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The routing mechanism via which the route used to find the            RPF interface towards the source was learned."    ::= { pimSGEntry 12 }pimSGRPFRouteAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The IP address that, when combined with the corresponding            value of pimSGRPFRoutePrefixLength, identifies the route            used to find the RPF interface towards the source.  The            InetAddressType is given by the pimSGRPFNextHopType object.            This address object is only significant up toSivaramu, et al.            Standards Track                    [Page 44]

RFC 5060                        PIM MIB                     January 2008            pimSGRPFRoutePrefixLength bits.  The remainder of the            address bits are zero."    ::= { pimSGEntry 13 }pimSGRPFRoutePrefixLength OBJECT-TYPE    SYNTAX     InetAddressPrefixLength    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The prefix length that, when combined with the            corresponding value of pimSGRPFRouteAddress, identifies the            route used to find the RPF interface towards the source.            The InetAddressType is given by the pimSGRPFNextHopType            object."    ::= { pimSGEntry 14 }pimSGRPFRouteMetricPref OBJECT-TYPE    SYNTAX     Unsigned32 (0..2147483647)    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The metric preference of the route used to find the RPF            interface towards the source."    ::= { pimSGEntry 15 }pimSGRPFRouteMetric OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The routing metric of the route used to find the RPF            interface towards the source."    ::= { pimSGEntry 16 }pimSGSPTBit OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the SPT bit is set; and therefore whether            forwarding is taking place on the shortest-path tree."    ::= { pimSGEntry 17 }pimSGKeepaliveTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTIONSivaramu, et al.            Standards Track                    [Page 45]

RFC 5060                        PIM MIB                     January 2008            "The time remaining before this (S,G) state expires, in            the absence of explicit (S,G) local membership or (S,G)            Join messages received to maintain it.  This timer is            called the (S,G) Keepalive Timer in the PIM-SM            specification."    REFERENCE "RFC 4601 section 4.1.4"    ::= { pimSGEntry 18 }pimSGDRRegisterState OBJECT-TYPE    SYNTAX     INTEGER {                  noInfo (1),                  join (2),                  joinPending (3),                  prune (4)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router should encapsulate (S,G) data            packets in Register messages and send them to the RP.  This            corresponds to the state of the per-(S,G) Register state            machine in the PIM-SM specification.  This object is always            'noInfo' unless pimSGPimMode is 'asm'."    REFERENCE "RFC 4601 section 4.4.1"    ::= { pimSGEntry 19 }pimSGDRRegisterStopTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGDRRegisterState is 'prune', this is the time            remaining before the local router sends a Null-Register            message to the RP.  If pimSGDRRegisterState is            'joinPending', this is the time remaining before the local            router resumes encapsulating data packets and sending them            to the RP.  Otherwise, this is zero.  This timer is called            the Register-Stop Timer in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.4"    ::= { pimSGEntry 20 }pimSGRPRegisterPMBRAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The address type of the first PIM Multicast Border Router            to send a Register message with the Border bit set.  ThisSivaramu, et al.            Standards Track                    [Page 46]

RFC 5060                        PIM MIB                     January 2008            object is unknown(0) if the local router is not the RP for            the group."    ::= { pimSGEntry 21 }pimSGRPRegisterPMBRAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The IP address of the first PIM Multicast Border Router to            send a Register message with the Border bit set.  The            InetAddressType is given by the            pimSGRPRegisterPMBRAddressType object."    ::= { pimSGEntry 22 }pimSGUpstreamPruneState OBJECT-TYPE    SYNTAX     INTEGER {                  forwarding (1),                  ackpending (2),                  pruned (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router has pruned itself from the tree.            This corresponds to the state of the upstream prune (S,G)            state machine in the PIM-DM specification.  This object is            used only by PIM-DM."    REFERENCE "RFC 3973 section 4.4.1"    ::= { pimSGEntry 23 }pimSGUpstreamPruneLimitTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before the local router may send a (S,G)            Prune message on pimSGRPFIfIndex.  This timer is called the            (S,G) Prune Limit Timer in the PIM-DM specification.  This            object is zero if the timer is not running.  This object is            used only by PIM-DM."    REFERENCE "RFC 2973 section 4.8"    ::= { pimSGEntry 24 }pimSGOriginatorState OBJECT-TYPE    SYNTAX     INTEGER {                  notOriginator (1),                  originator (2)Sivaramu, et al.            Standards Track                    [Page 47]

RFC 5060                        PIM MIB                     January 2008               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the router is an originator for an (S,G) message            flow.  This corresponds to the state of the per-(S,G)            Originator state machine in the PIM-DM specification.  This            object is used only by PIM-DM."    REFERENCE "RFC 3973 section 4.5.2"    ::= { pimSGEntry 25 }pimSGSourceActiveTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGOriginatorState is 'originator', this is the time            remaining before the local router reverts to a notOriginator            state.  Otherwise, this is zero.  This timer is called the            Source Active Timer in the PIM-DM specification.  This            object is used only by PIM-DM."    REFERENCE "RFC 3973 section 4.8"    ::= { pimSGEntry 26 }pimSGStateRefreshTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGOriginatorState is 'originator', this is the time            remaining before the local router sends a State Refresh            message.  Otherwise, this is zero.  This timer is called the            State Refresh Timer in the PIM-DM specification.  This            object is used only by PIM-DM."    REFERENCE "RFC 3973 section 4.8"    ::= { pimSGEntry 27 }---- The PIM (S,G,I) State Table--pimSGITable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimSGIEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the interface-specific (S,G)            state that PIM has."Sivaramu, et al.            Standards Track                    [Page 48]

RFC 5060                        PIM MIB                     January 2008    REFERENCE "RFC 4601 section 4.1.4"    ::= { pim 7 }pimSGIEntry OBJECT-TYPE    SYNTAX     PimSGIEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimSGITable."    INDEX      { pimSGAddressType,                 pimSGGrpAddress,                 pimSGSrcAddress,                 pimSGIIfIndex }    ::= { pimSGITable 1 }PimSGIEntry ::= SEQUENCE {    pimSGIIfIndex                 InterfaceIndex,    pimSGIUpTime                  TimeTicks,    pimSGILocalMembership         TruthValue,    pimSGIJoinPruneState          INTEGER,    pimSGIPrunePendingTimer       TimeTicks,    pimSGIJoinExpiryTimer         TimeTicks,    pimSGIAssertState             INTEGER,    pimSGIAssertTimer             TimeTicks,    pimSGIAssertWinnerAddressType InetAddressType,    pimSGIAssertWinnerAddress     InetAddress,    pimSGIAssertWinnerMetricPref  Unsigned32,    pimSGIAssertWinnerMetric      Unsigned32}pimSGIIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The ifIndex of the interface that this entry corresponds            to."    ::= { pimSGIEntry 1 }pimSGIUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this entry was created by the local router."    ::= { pimSGIEntry 2 }pimSGILocalMembership OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 49]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router has (S,G) local membership on this            interface (resulting from a mechanism such as IGMP or MLD).            This corresponds to local_receiver_include(S,G,I) in the            PIM-SM specification."    REFERENCE "RFC 3376,RFC 3810,RFC 4601 sections4.1.6,4.6.1, and              4.6.2"    ::= { pimSGIEntry 3 }pimSGIJoinPruneState OBJECT-TYPE    SYNTAX     INTEGER {                  noInfo (1),                  join (2),                  prunePending (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The state resulting from (S,G) Join/Prune messages            received on this interface.  This corresponds to the state            of the downstream per-interface (S,G) state machine in the            PIM-SM and PIM-DM specification."    REFERENCE "RFC 4601 section 4.5.3 andRFC 3973 section 4.4.2"    ::= { pimSGIEntry 4 }pimSGIPrunePendingTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before the local router acts on an (S,G)            Prune message received on this interface, during which the            router is waiting to see whether another downstream router            will override the Prune message.  This timer is called the            (S,G) Prune-Pending Timer in the PIM-SM specification.  This            object is zero if the timer is not running."    REFERENCE "RFC 4601 sections4.5.3 and4.5.4"    ::= { pimSGIEntry 5 }pimSGIJoinExpiryTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before (S,G) Join state for thisSivaramu, et al.            Standards Track                    [Page 50]

RFC 5060                        PIM MIB                     January 2008            interface expires.  This timer is called the (S,G) Join            Expiry Timer in the PIM-SM specification.  This object is            zero if the timer is not running.  A value of 'FFFFFFFF'h            indicates an infinite expiry time.  This timer is called the            (S,G) Prune Timer in the PIM-DM specification."    REFERENCE "RFC 4601 section 4.10 andRFC 3973 section 4.8"    ::= { pimSGIEntry 6 }pimSGIAssertState OBJECT-TYPE    SYNTAX     INTEGER {                  noInfo (1),                  iAmAssertWinner (2),                  iAmAssertLoser (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The (S,G) Assert state for this interface.  This            corresponds to the state of the per-interface (S,G) Assert            state machine in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.6.1"    ::= { pimSGIEntry 7 }pimSGIAssertTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGIAssertState is 'iAmAssertWinner', this is the time            remaining before the local router next sends a (S,G) Assert            message on this interface.  If pimSGIAssertState is            'iAmAssertLoser', this is the time remaining before the            (S,G) Assert state expires.  If pimSGIAssertState is            'noInfo', this is zero.  This timer is called the (S,G)            Assert Timer in the PIM-SM specification."    REFERENCE "RFC 4601 section 4.6.1"    ::= { pimSGIEntry 8 }pimSGIAssertWinnerAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGIAssertState is 'iAmAssertLoser', this is the            address type of the assert winner; otherwise, this object is            unknown(0)."    ::= { pimSGIEntry 9 }Sivaramu, et al.            Standards Track                    [Page 51]

RFC 5060                        PIM MIB                     January 2008pimSGIAssertWinnerAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGIAssertState is 'iAmAssertLoser', this is the            address of the assert winner.  The InetAddressType is given            by the pimSGIAssertWinnerAddressType object."    ::= { pimSGIEntry 10 }pimSGIAssertWinnerMetricPref OBJECT-TYPE    SYNTAX     Unsigned32 (0..2147483647)    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGIAssertState is 'iAmAssertLoser', this is the            metric preference of the route to the source advertised by            the assert winner; otherwise, this object is zero."    ::= { pimSGIEntry 11 }pimSGIAssertWinnerMetric OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "If pimSGIAssertState is 'iAmAssertLoser', this is the            routing metric of the route to the source advertised by the            assert winner; otherwise, this object is zero."    ::= { pimSGIEntry 12 }---- The PIM (S,G,rpt) State Table--pimSGRptTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimSGRptEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the non-interface specific            (S,G,rpt) state that PIM has."    REFERENCE "RFC 4601 section 4.1.5"    ::= { pim 8 }pimSGRptEntry OBJECT-TYPE    SYNTAX     PimSGRptEntry    MAX-ACCESS not-accessible    STATUS     currentSivaramu, et al.            Standards Track                    [Page 52]

RFC 5060                        PIM MIB                     January 2008    DESCRIPTION            "An entry (conceptual row) in the pimSGRptTable."    INDEX      { pimStarGAddressType,                 pimStarGGrpAddress,                 pimSGRptSrcAddress }    ::= { pimSGRptTable 1 }PimSGRptEntry ::= SEQUENCE {    pimSGRptSrcAddress             InetAddress,    pimSGRptUpTime                 TimeTicks,    pimSGRptUpstreamPruneState     INTEGER,    pimSGRptUpstreamOverrideTimer  TimeTicks}pimSGRptSrcAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The source address for this entry.  The InetAddressType is            given by the pimStarGAddressType object."    ::= { pimSGRptEntry 1 }pimSGRptUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this entry was created by the local router."    ::= { pimSGRptEntry 2 }pimSGRptUpstreamPruneState OBJECT-TYPE    SYNTAX     INTEGER {                  rptNotJoined (1),                  pruned (2),                  notPruned (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router should prune the source off the RP            tree.  This corresponds to the state of the upstream            (S,G,rpt) state machine for triggered messages in the PIM-SM            specification."    REFERENCE "RFC 4601 section 4.5.9"    ::= { pimSGRptEntry 3 }pimSGRptUpstreamOverrideTimer OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 53]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before the local router sends a            triggered (S,G,rpt) Join message on pimStarGRPFIfIndex.            This timer is called the (S,G,rpt) Upstream Override Timer            in the PIM-SM specification.  This object is zero if the            timer is not running."    REFERENCE "RFC 4601 section 4.5.9"    ::= { pimSGRptEntry 4 }---- The PIM (S,G,rpt,I) State Table--pimSGRptITable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimSGRptIEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the interface-specific            (S,G,rpt) state that PIM has."    REFERENCE "RFC 4601 section 4.1.5"    ::= { pim 9 }pimSGRptIEntry OBJECT-TYPE    SYNTAX     PimSGRptIEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimSGRptITable."    INDEX      { pimStarGAddressType,                 pimStarGGrpAddress,                 pimSGRptSrcAddress,                 pimSGRptIIfIndex }    ::= { pimSGRptITable 1 }PimSGRptIEntry ::= SEQUENCE {    pimSGRptIIfIndex            InterfaceIndex,    pimSGRptIUpTime             TimeTicks,    pimSGRptILocalMembership    TruthValue,    pimSGRptIJoinPruneState     INTEGER,    pimSGRptIPrunePendingTimer  TimeTicks,    pimSGRptIPruneExpiryTimer   TimeTicks}pimSGRptIIfIndex OBJECT-TYPESivaramu, et al.            Standards Track                    [Page 54]

RFC 5060                        PIM MIB                     January 2008    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The ifIndex of the interface that this entry corresponds            to."    ::= { pimSGRptIEntry 1 }pimSGRptIUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since this entry was created by the local router."    ::= { pimSGRptIEntry 2 }pimSGRptILocalMembership OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether the local router has both (*,G) include local            membership and (S,G) exclude local membership on this            interface (resulting from a mechanism such as IGMP or MLD).            This corresponds to local_receiver_exclude(S,G,I) in the            PIM-SM specification."    REFERENCE "RFC 3376,RFC 3810,RFC 4601 section 4.1.6"    ::= { pimSGRptIEntry 3 }pimSGRptIJoinPruneState OBJECT-TYPE    SYNTAX     INTEGER {                  noInfo (1),                  prune (2),                  prunePending (3)               }    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The state resulting from (S,G,rpt) Join/Prune messages            received on this interface.  This corresponds to the state            of the downstream per-interface (S,G,rpt) state machine in            the PIM-SM specification."    REFERENCE "RFC 4601 section 4.5.4"    ::= { pimSGRptIEntry 4 }pimSGRptIPrunePendingTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-onlySivaramu, et al.            Standards Track                    [Page 55]

RFC 5060                        PIM MIB                     January 2008    STATUS     current    DESCRIPTION            "The time remaining before the local router starts pruning            this source off the RP tree.  This timer is called the            (S,G,rpt) Prune-Pending Timer in the PIM-SM specification.            This object is zero if the timer is not running."    REFERENCE "RFC 4601 section 4.5.4"    ::= { pimSGRptIEntry 5 }pimSGRptIPruneExpiryTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time remaining before (S,G,rpt) Prune state for this            interface expires.  This timer is called the (S,G,rpt)            Prune Expiry Timer in the PIM-SM specification.  This object            is zero if the timer is not running.  A value of 'FFFFFFFF'h            indicates an infinite expiry time."    REFERENCE "RFC 4601 section 4.5.4"    ::= { pimSGRptIEntry 6 }---- The PIM Bidir DF-Election Table--pimBidirDFElectionTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimBidirDFElectionEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing the per-RP Designated            Forwarder (DF) Election state for each interface for all the            RPs in BIDIR mode."    REFERENCE "RFC 5015 section 3.5"    ::= { pim 10 }pimBidirDFElectionEntry OBJECT-TYPE    SYNTAX     PimBidirDFElectionEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimBidirDFElectionTable."    INDEX      { pimBidirDFElectionAddressType,                 pimBidirDFElectionRPAddress,                 pimBidirDFElectionIfIndex }    ::= { pimBidirDFElectionTable 1 }Sivaramu, et al.            Standards Track                    [Page 56]

RFC 5060                        PIM MIB                     January 2008PimBidirDFElectionEntry ::= SEQUENCE {    pimBidirDFElectionAddressType       InetAddressType,    pimBidirDFElectionRPAddress         InetAddress,    pimBidirDFElectionIfIndex           InterfaceIndex,    pimBidirDFElectionWinnerAddressType InetAddressType,    pimBidirDFElectionWinnerAddress     InetAddress,    pimBidirDFElectionWinnerUpTime      TimeTicks,    pimBidirDFElectionWinnerMetricPref  Unsigned32,    pimBidirDFElectionWinnerMetric      Unsigned32,    pimBidirDFElectionState             INTEGER,    pimBidirDFElectionStateTimer        TimeTicks}pimBidirDFElectionAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of the RP for which the DF state is being            maintained."    ::= { pimBidirDFElectionEntry 1 }pimBidirDFElectionRPAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The IP address of the RP for which the DF state is being            maintained.  The InetAddressType is given by the            pimBidirDFElectionAddressType object."    ::= { pimBidirDFElectionEntry 2 }pimBidirDFElectionIfIndex OBJECT-TYPE    SYNTAX     InterfaceIndex    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The value of ifIndex for the interface for which the DF            state is being maintained."    ::= { pimBidirDFElectionEntry 3 }pimBidirDFElectionWinnerAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary address type of the winner of the DF Election            process.  A value of unknown(0) indicates there is currentlySivaramu, et al.            Standards Track                    [Page 57]

RFC 5060                        PIM MIB                     January 2008            no DF."    ::= { pimBidirDFElectionEntry 4 }pimBidirDFElectionWinnerAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The primary IP address of the winner of the DF Election            process.  The InetAddressType is given by the            pimBidirDFElectionWinnerAddressType object."    ::= { pimBidirDFElectionEntry 5 }pimBidirDFElectionWinnerUpTime OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The time since the current winner (last) became elected as            the DF for this RP."    ::= { pimBidirDFElectionEntry 6 }pimBidirDFElectionWinnerMetricPref OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The metric preference advertised by the DF Winner, or zero            if there is currently no DF."    ::= { pimBidirDFElectionEntry 7 }pimBidirDFElectionWinnerMetric OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The metric advertised by the DF Winner, or zero if there is            currently no DF."    ::= { pimBidirDFElectionEntry 8 }pimBidirDFElectionState OBJECT-TYPE    SYNTAX     INTEGER {                  dfOffer(1),                  dfLose(2),                  dfWinner(3),                  dfBackoff(4)               }    MAX-ACCESS read-onlySivaramu, et al.            Standards Track                    [Page 58]

RFC 5060                        PIM MIB                     January 2008    STATUS     current    DESCRIPTION            "The state of this interface with respect to DF-Election for            this RP.  The states correspond to the ones defined in the            BIDIR-PIM specification."    REFERENCE "RFC 5015 section 3.5.3.1"    ::= { pimBidirDFElectionEntry 9 }pimBidirDFElectionStateTimer OBJECT-TYPE    SYNTAX     TimeTicks    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The minimum time remaining after which the local router            will expire the current DF state represented by            pimBidirDFElectionState."    ::= { pimBidirDFElectionEntry 10 }---- The PIM Static RP Table--pimStaticRPTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimStaticRPEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "This table is used to manage static configuration of RPs.            If the group prefixes configured for two or more rows in            this table overlap, the row with the greatest value of            pimStaticRPGrpPrefixLength is used for the overlapping            range."    REFERENCE "RFC 4601 section 3.7"    ::= { pim 11 }pimStaticRPEntry OBJECT-TYPE    SYNTAX     PimStaticRPEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimStaticRPTable.  This            entry is preserved on agent restart."    INDEX      { pimStaticRPAddressType,                 pimStaticRPGrpAddress,                 pimStaticRPGrpPrefixLength }    ::= { pimStaticRPTable 1 }Sivaramu, et al.            Standards Track                    [Page 59]

RFC 5060                        PIM MIB                     January 2008PimStaticRPEntry ::= SEQUENCE {    pimStaticRPAddressType      InetAddressType,    pimStaticRPGrpAddress       InetAddress,    pimStaticRPGrpPrefixLength  InetAddressPrefixLength,    pimStaticRPRPAddress        InetAddress,    pimStaticRPPimMode          PimMode,    pimStaticRPOverrideDynamic  TruthValue,    pimStaticRPPrecedence       Unsigned32,    pimStaticRPRowStatus        RowStatus,    pimStaticRPStorageType      StorageType}pimStaticRPAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of this entry."    ::= { pimStaticRPEntry 1 }pimStaticRPGrpAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The multicast group address that, when combined with            pimStaticRPGrpPrefixLength, gives the group prefix for this            entry.  The InetAddressType is given by the            pimStaticRPAddressType object.            This address object is only significant up to            pimStaticRPGrpPrefixLength bits.  The remainder of the            address bits are zero.  This is especially important for            this index field, which is part of the index of this entry.            Any non-zero bits would signify an entirely different            entry."    ::= { pimStaticRPEntry 2 }pimStaticRPGrpPrefixLength OBJECT-TYPE    SYNTAX     InetAddressPrefixLength (4..128)    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The multicast group prefix length that, when combined            with pimStaticRPGrpAddress, gives the group prefix for this            entry.  The InetAddressType is given by the            pimStaticRPAddressType object.  If pimStaticRPAddressType is            'ipv4' or 'ipv4z', this object must be in the range 4..32.Sivaramu, et al.            Standards Track                    [Page 60]

RFC 5060                        PIM MIB                     January 2008            If pimStaticRPGrpAddressType is 'ipv6' or 'ipv6z', this            object must be in the range 8..128."    ::= { pimStaticRPEntry 3 }pimStaticRPRPAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The IP address of the RP to be used for groups within this            group prefix.  The InetAddressType is given by the            pimStaticRPAddressType object."    ::= { pimStaticRPEntry 4 }pimStaticRPPimMode OBJECT-TYPE    SYNTAX     PimMode { ssm(2), asm(3), bidir(4) }    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The PIM mode to be used for groups in this group prefix.            If this object is set to ssm(2), then pimStaticRPRPAddress            must be set to zero.  No RP operations are ever possible for            PIM Mode SSM."    REFERENCE "RFC 4601 section 3.7,RFC 3569, and               'IP Multicast MIB' (August 2007) ipMcastSsmRangeTable"    DEFVAL { asm }    ::= { pimStaticRPEntry 5 }pimStaticRPOverrideDynamic OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "Whether this static RP configuration will override other            group mappings in this group prefix.  If this object is            TRUE, then it will override:            -  RP information learned dynamically for groups in this            group prefix.            -  RP information configured in pimStaticRPTable with            pimStaticRPOverrideDynamic set to FALSE.            See pimGroupMappingTable for details."    DEFVAL { false }    ::= { pimStaticRPEntry 6 }Sivaramu, et al.            Standards Track                    [Page 61]

RFC 5060                        PIM MIB                     January 2008pimStaticRPPrecedence OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The value for pimGroupMappingPrecedence to be used for this            static RP configuration.  This allows fine control over            which configuration is overridden by this static            configuration.            If pimStaticRPOverrideDynamic is set to TRUE, all dynamic RP            configuration is overridden by this static configuration,            whatever the value of this object.            The absolute values of this object have a significance only            on the local router and do not need to be coordinated with            other routers.  A setting of this object may have different            effects when applied to other routers.            Do not use this object unless fine control of static RP            behavior on the local router is required."    ::= { pimStaticRPEntry 7 }pimStaticRPRowStatus OBJECT-TYPE    SYNTAX     RowStatus    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The status of this row, by which rows in this table can            be created and destroyed.            This status object cannot be set to active(1) before a valid            value has been written to pimStaticRPRPAddress.            All writeable objects in this entry can be modified when the            status of this entry is active(1)."    ::= { pimStaticRPEntry 8 }pimStaticRPStorageType OBJECT-TYPE    SYNTAX      StorageType    MAX-ACCESS  read-create    STATUS      current    DESCRIPTION            "The storage type for this row.  Rows having the value            'permanent' need not allow write-access to any columnar            objects in the row."    DEFVAL { nonVolatile }    ::= { pimStaticRPEntry 9 }Sivaramu, et al.            Standards Track                    [Page 62]

RFC 5060                        PIM MIB                     January 2008---- The PIM Anycast-RP Set Table--pimAnycastRPSetTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimAnycastRPSetEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "This table is used to manage Anycast-RP via PIM Register            messages, as opposed to via other protocols such as MSDP            (Multicast Source Discovery Protocol).            Entries must be configured in this table if and only if the            local router is a member of one or more Anycast-RP sets,            that is, one or more Anycast-RP addresses are assigned to            the local router.  Note that if using static RP            configuration, this is in addition to, not instead of, the            pimStaticRPTable entries that must be configured for the            Anycast-RPs.            The set of rows with the same values of both            pimAnycastRPSetAddressType and pimAnycastRPSetAnycastAddress            corresponds to the Anycast-RP set for that Anycast-RP            address.            When an Anycast-RP set configuration is active, one entry            per pimAnycastRPSetAnycastAddress corresponds to the local            router.  The local router is identified by the            pimAnycastRpSetLocalRouter object.  That entry determines            the source address used by the local router when forwarding            PIM Register messages within the Anycast-RP set."    REFERENCE "RFC 4610,RFC 3618"    ::= { pim 12 }pimAnycastRPSetEntry OBJECT-TYPE    SYNTAX     PimAnycastRPSetEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry corresponds to a single router within a particular            Anycast-RP set.  This entry is preserved on agent restart."    INDEX      { pimAnycastRPSetAddressType,                 pimAnycastRPSetAnycastAddress,                 pimAnycastRPSetRouterAddress }    ::= { pimAnycastRPSetTable 1 }PimAnycastRPSetEntry ::= SEQUENCE {Sivaramu, et al.            Standards Track                    [Page 63]

RFC 5060                        PIM MIB                     January 2008    pimAnycastRPSetAddressType     InetAddressType,    pimAnycastRPSetAnycastAddress  InetAddress,    pimAnycastRPSetRouterAddress   InetAddress,    pimAnycastRPSetLocalRouter     TruthValue,    pimAnycastRPSetRowStatus       RowStatus,    pimAnycastRPSetStorageType     StorageType}pimAnycastRPSetAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of the Anycast-RP address and router            address."    ::= { pimAnycastRPSetEntry 1 }pimAnycastRPSetAnycastAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The Anycast-RP address.  The InetAddressType is given by            the pimAnycastRPSetAddressType object."    ::= { pimAnycastRPSetEntry 2 }pimAnycastRPSetRouterAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address of a router that is a member of the Anycast-RP            set.  The InetAddressType is given by the            pimAnycastRPSetAddressType object.            This address differs from pimAnycastRPSetAnycastAddress.            Equal values for these two addresses in a single entry are            not permitted.  That would cause a Register loop."    ::= { pimAnycastRPSetEntry 3 }pimAnycastRPSetLocalRouter OBJECT-TYPE    SYNTAX     TruthValue    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "Whether this entry corresponds to the local router."    ::= { pimAnycastRPSetEntry 4 }Sivaramu, et al.            Standards Track                    [Page 64]

RFC 5060                        PIM MIB                     January 2008pimAnycastRPSetRowStatus OBJECT-TYPE    SYNTAX     RowStatus    MAX-ACCESS read-create    STATUS     current    DESCRIPTION            "The status of this row, by which rows in this table can            be created and destroyed.            This status object can be set to active(1) without setting            any other columnar objects in this entry.            All writeable objects in this entry can be modified when the            status of this entry is active(1)."    ::= { pimAnycastRPSetEntry 5 }pimAnycastRPSetStorageType OBJECT-TYPE    SYNTAX      StorageType    MAX-ACCESS  read-create    STATUS      current    DESCRIPTION            "The storage type for this row.  Rows having the value            'permanent' need not allow write-access to any columnar            objects in the row."    DEFVAL { nonVolatile }    ::= { pimAnycastRPSetEntry 6 }---- The PIM Group Mapping Table--pimGroupMappingTable OBJECT-TYPE    SYNTAX     SEQUENCE OF PimGroupMappingEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The (conceptual) table listing mappings from multicast            group prefixes to the PIM mode and RP address to use for            groups within that group prefix.            Rows in this table are created for a variety of reasons,            indicated by the value of the pimGroupMappingOrigin object.            -  Rows with a pimGroupMappingOrigin value of 'fixed' are               created automatically by the router at startup, to               correspond to the well-defined prefixes of link-local and               unroutable group addresses.  These rows are never               destroyed.Sivaramu, et al.            Standards Track                    [Page 65]

RFC 5060                        PIM MIB                     January 2008            -  Rows with a pimGroupMappingOrigin value of 'embedded' are               created by the router to correspond to group prefixes               that are to be treated as being in Embedded-RP format.            -  Rows with a pimGroupMappingOrigin value of 'configRp' are               created and destroyed as a result of rows in the               pimStaticRPTable being created and destroyed.            -  Rows with a pimGroupMappingOrigin value of 'configSsm'               are created and destroyed as a result of configuration of               SSM address ranges to the local router.            -  Rows with a pimGroupMappingOrigin value of 'bsr' are               created as a result of running the PIM Bootstrap Router               (BSR) mechanism.  If the local router is not the elected               BSR, these rows are created to correspond to group               prefixes in the PIM Bootstrap messages received from the               elected BSR.  If the local router is the elected BSR,               these rows are created to correspond to group prefixes in               the PIM Bootstrap messages that the local router sends.               In either case, these rows are destroyed when the group               prefixes are timed out by the BSR mechanism.            -  Rows with a pimGroupMappingOrigin value of 'other' are               created and destroyed according to some other mechanism               not specified here.            Given the collection of rows in this table at any point in            time, the PIM mode and RP address to use for a particular            group is determined using the following algorithm.            1. From the set of all rows, the subset whose group prefix               contains the group in question are selected.            2. If there are no such rows, then the group mapping is               undefined.            3. If there are multiple selected rows, and a subset is               defined by pimStaticRPTable (pimGroupMappingOrigin value               of 'configRp') with pimStaticRPOverrideDynamic set to               TRUE, then this subset is selected.            4. From the selected subset of rows, the subset that have               the greatest value of pimGroupMappingGrpPrefixLength are               selected.            5. If there are still multiple selected rows, the subset               that has the highest precedence (the lowest numericalSivaramu, et al.            Standards Track                    [Page 66]

RFC 5060                        PIM MIB                     January 2008               value for pimGroupMappingPrecedence) is selected.            6. If there are still multiple selected rows, the row               selected is implementation dependent; the implementation               might or might not apply the PIM hash function to select               the row.            7. The group mode to use is given by the value of               pimGroupMappingPimMode from the single selected row; the               RP to use is given by the value of               pimGroupMappingRPAddress, unless pimGroupMappingOrigin is               'embedded', in which case, the RP is extracted from the               group address in question."    REFERENCE "RFC 4601 section 3.7,RFC 3956, andRFC 4610"    ::= { pim 13 }pimGroupMappingEntry OBJECT-TYPE    SYNTAX     PimGroupMappingEntry    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "An entry (conceptual row) in the pimGroupMappingTable."    INDEX      { pimGroupMappingOrigin,                 pimGroupMappingAddressType,                 pimGroupMappingGrpAddress,                 pimGroupMappingGrpPrefixLength,                 pimGroupMappingRPAddressType,                 pimGroupMappingRPAddress }    ::= { pimGroupMappingTable 1 }PimGroupMappingEntry ::= SEQUENCE {    pimGroupMappingOrigin           PimGroupMappingOriginType,    pimGroupMappingAddressType      InetAddressType,    pimGroupMappingGrpAddress       InetAddress,    pimGroupMappingGrpPrefixLength  InetAddressPrefixLength,    pimGroupMappingRPAddressType    InetAddressType,    pimGroupMappingRPAddress        InetAddress,    pimGroupMappingPimMode          PimMode,    pimGroupMappingPrecedence       Unsigned32}pimGroupMappingOrigin OBJECT-TYPE    SYNTAX     PimGroupMappingOriginType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The mechanism by which this group mapping was learned."    ::= { pimGroupMappingEntry 1 }Sivaramu, et al.            Standards Track                    [Page 67]

RFC 5060                        PIM MIB                     January 2008pimGroupMappingAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of the IP multicast group prefix."    ::= { pimGroupMappingEntry 2 }pimGroupMappingGrpAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The IP multicast group address that, when combined with            pimGroupMappingGrpPrefixLength, gives the group prefix for            this mapping.  The InetAddressType is given by the            pimGroupMappingAddressType object.            This address object is only significant up to            pimGroupMappingGrpPrefixLength bits.  The remainder of the            address bits are zero.  This is especially important for            this index field, which is part of the index of this entry.            Any non-zero bits would signify an entirely different            entry."    ::= { pimGroupMappingEntry 3 }pimGroupMappingGrpPrefixLength OBJECT-TYPE    SYNTAX     InetAddressPrefixLength (4..128)    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The multicast group prefix length that, when combined            with pimGroupMappingGrpAddress, gives the group prefix for            this mapping.  The InetAddressType is given by the            pimGroupMappingAddressType object.  If            pimGroupMappingAddressType is 'ipv4' or 'ipv4z', this            object must be in the range 4..32.  If            pimGroupMappingAddressType is 'ipv6' or 'ipv6z', this object            must be in the range 8..128."    ::= { pimGroupMappingEntry 4 }pimGroupMappingRPAddressType OBJECT-TYPE    SYNTAX     InetAddressType    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The address type of the RP to be used for groups within            this group prefix, or unknown(0) if no RP is to be used orSivaramu, et al.            Standards Track                    [Page 68]

RFC 5060                        PIM MIB                     January 2008            if the RP address is unknown.  This object must be            unknown(0) if pimGroupMappingPimMode is ssm(2), or if            pimGroupMappingOrigin is embedded(6)."    ::= { pimGroupMappingEntry 5 }pimGroupMappingRPAddress OBJECT-TYPE    SYNTAX     InetAddress (SIZE (0|4|8|16|20))    MAX-ACCESS not-accessible    STATUS     current    DESCRIPTION            "The IP address of the RP to be used for groups within this            group prefix.  The InetAddressType is given by the            pimGroupMappingRPAddressType object."    ::= { pimGroupMappingEntry 6 }pimGroupMappingPimMode OBJECT-TYPE    SYNTAX     PimMode    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The PIM mode to be used for groups in this group prefix."    ::= { pimGroupMappingEntry 7 }pimGroupMappingPrecedence OBJECT-TYPE    SYNTAX     Unsigned32    MAX-ACCESS read-only    STATUS     current    DESCRIPTION            "The precedence of this row, used in the algorithm that            determines which row applies to a given group address            (described above).  Numerically higher values for this            object indicate lower precedences, with the value zero            denoting the highest precedence.            The absolute values of this object have a significance only            on the local router and do not need to be coordinated with            other routers."    ::= { pimGroupMappingEntry 8 }---- PIM Notifications--pimNeighborLoss NOTIFICATION-TYPE    OBJECTS { pimNeighborUpTime }    STATUS     current    DESCRIPTION            "A pimNeighborLoss notification signifies the loss of anSivaramu, et al.            Standards Track                    [Page 69]

RFC 5060                        PIM MIB                     January 2008            adjacency with a neighbor.  This notification should be            generated when the neighbor timer expires, and the router            has no other neighbors on the same interface with the same            IP version and a lower IP address than itself.            This notification is generated whenever the counter            pimNeighborLossCount is incremented, subject            to the rate limit specified by            pimNeighborLossNotificationPeriod."    REFERENCE "RFC 4601 section 4.3.2"    ::= { pimNotifications 1 }pimInvalidRegister NOTIFICATION-TYPE    OBJECTS { pimGroupMappingPimMode,              pimInvalidRegisterAddressType,              pimInvalidRegisterOrigin,              pimInvalidRegisterGroup,              pimInvalidRegisterRp            }    STATUS      current    DESCRIPTION            "A pimInvalidRegister notification signifies that an invalid            PIM Register message was received by this device.            This notification is generated whenever the counter            pimInvalidRegisterMsgsRcvd is incremented, subject to the            rate limit specified by            pimInvalidRegisterNotificationPeriod."    REFERENCE "RFC 4601 section 4.4.2"    ::= { pimNotifications 2 }pimInvalidJoinPrune NOTIFICATION-TYPE    OBJECTS { pimGroupMappingPimMode,              pimInvalidJoinPruneAddressType,              pimInvalidJoinPruneOrigin,              pimInvalidJoinPruneGroup,              pimInvalidJoinPruneRp,              pimNeighborUpTime            }    STATUS      current    DESCRIPTION            "A pimInvalidJoinPrune notification signifies that an            invalid PIM Join/Prune message was received by this device.            This notification is generated whenever the counter            pimInvalidJoinPruneMsgsRcvd is incremented, subject to the            rate limit specified by            pimInvalidJoinPruneNotificationPeriod."Sivaramu, et al.            Standards Track                    [Page 70]

RFC 5060                        PIM MIB                     January 2008    REFERENCE "RFC 4601 section 4.5.2"    ::= { pimNotifications 3 }pimRPMappingChange NOTIFICATION-TYPE    OBJECTS { pimGroupMappingPimMode,              pimGroupMappingPrecedence            }    STATUS      current    DESCRIPTION            "A pimRPMappingChange notification signifies a change to the            active RP mapping on this device.            This notification is generated whenever the counter            pimRPMappingChangeCount is incremented, subject to the            rate limit specified by            pimRPMappingChangeNotificationPeriod."    ::= { pimNotifications 4 }pimInterfaceElection NOTIFICATION-TYPE    OBJECTS { pimInterfaceAddressType,              pimInterfaceAddress }    STATUS      current    DESCRIPTION            "A pimInterfaceElection notification signifies that a new DR            or DF has been elected on a network.            This notification is generated whenever the counter            pimInterfaceElectionWinCount is incremented, subject to the            rate limit specified by            pimInterfaceElectionNotificationPeriod."    REFERENCE "RFC 4601 section 4.3.2 andRFC 5015 section 3.5.2"    ::= { pimNotifications 5 }---- Conformance Information--pimMIBConformance OBJECT IDENTIFIER ::= { pimStdMIB 2 }pimMIBCompliances OBJECT IDENTIFIER ::= { pimMIBConformance 1 }pimMIBGroups      OBJECT IDENTIFIER ::= { pimMIBConformance 2 }---- Compliance Statements--pimMIBComplianceAsm MODULE-COMPLIANCE    STATUS  current    DESCRIPTIONSivaramu, et al.            Standards Track                    [Page 71]

RFC 5060                        PIM MIB                     January 2008             "The compliance statement for routers which are running             PIM-SM (Sparse Mode)."    MODULE  -- this module    MANDATORY-GROUPS { pimTopologyGroup,                       pimSsmGroup,                       pimRPConfigGroup,                       pimSmGroup }      GROUP   pimNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimTuningParametersGroup      DESCRIPTION          "This group is optional."      GROUP   pimRouterStatisticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimAnycastRpGroup      DESCRIPTION          "This group is optional."      GROUP   pimStaticRPPrecedenceGroup      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationObjects      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimDiagnosticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimDeviceStorageGroup      DESCRIPTION          "This group is optional."    ::= { pimMIBCompliances 1 }pimMIBComplianceBidir MODULE-COMPLIANCE    STATUS  currentSivaramu, et al.            Standards Track                    [Page 72]

RFC 5060                        PIM MIB                     January 2008    DESCRIPTION            "The compliance statement for routers which are running            Bidir-PIM."    MODULE  -- this module    MANDATORY-GROUPS { pimTopologyGroup,                       pimRPConfigGroup,                       pimSmGroup,                       pimBidirGroup }      GROUP   pimNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimTuningParametersGroup      DESCRIPTION          "This group is optional."      GROUP   pimRouterStatisticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimAnycastRpGroup      DESCRIPTION          "This group is optional."      GROUP   pimStaticRPPrecedenceGroup      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationObjects      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimDiagnosticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimDeviceStorageGroup      DESCRIPTION          "This group is optional."    ::= { pimMIBCompliances 2 }pimMIBComplianceSsm MODULE-COMPLIANCESivaramu, et al.            Standards Track                    [Page 73]

RFC 5060                        PIM MIB                     January 2008    STATUS  current    DESCRIPTION            "The compliance statement for routers which are running             PIM SSM (Source Specific Multicast)."    MODULE  -- this module    MANDATORY-GROUPS { pimTopologyGroup,                       pimSsmGroup }      GROUP   pimNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimTuningParametersGroup      DESCRIPTION          "This group is optional."      GROUP   pimRouterStatisticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationObjects      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimDiagnosticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimDeviceStorageGroup      DESCRIPTION          "This group is optional."    ::= { pimMIBCompliances 3 }pimMIBComplianceDm MODULE-COMPLIANCE    STATUS  current    DESCRIPTION            "The compliance statement for routers which are running            PIM-DM (Dense Mode)."    MODULE  -- this module    MANDATORY-GROUPS { pimTopologyGroup,                       pimSsmGroup,                       pimRPConfigGroup,                       pimSmGroup,Sivaramu, et al.            Standards Track                    [Page 74]

RFC 5060                        PIM MIB                     January 2008                       pimDmGroup }      GROUP   pimNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimTuningParametersGroup      DESCRIPTION          "This group is optional."      GROUP   pimRouterStatisticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimAnycastRpGroup      DESCRIPTION          "This group is optional."      GROUP   pimStaticRPPrecedenceGroup      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationObjects      DESCRIPTION          "This group is optional."      GROUP   pimNetMgmtNotificationGroup      DESCRIPTION          "This group is optional."      GROUP   pimDiagnosticsGroup      DESCRIPTION          "This group is optional."      GROUP   pimDeviceStorageGroup      DESCRIPTION          "This group is optional."    ::= { pimMIBCompliances 4 }---- Units of Conformance--pimTopologyGroup OBJECT-GROUP    OBJECTS { pimInterfaceAddressType,              pimInterfaceAddress,              pimInterfaceGenerationIDValue,Sivaramu, et al.            Standards Track                    [Page 75]

RFC 5060                        PIM MIB                     January 2008              pimInterfaceDR,              pimInterfaceDRPriorityEnabled,              pimInterfaceHelloHoldtime,              pimInterfaceJoinPruneHoldtime,              pimInterfaceLanDelayEnabled,              pimInterfaceEffectPropagDelay,              pimInterfaceEffectOverrideIvl,              pimInterfaceSuppressionEnabled,              pimInterfaceBidirCapable,              pimNeighborGenerationIDPresent,              pimNeighborGenerationIDValue,              pimNeighborUpTime,              pimNeighborExpiryTime,              pimNeighborDRPriorityPresent,              pimNeighborDRPriority,              pimNeighborLanPruneDelayPresent,              pimNeighborTBit,              pimNeighborPropagationDelay,              pimNeighborOverrideInterval,              pimNeighborBidirCapable,              pimNbrSecAddress            }    STATUS  current    DESCRIPTION            "A collection of read-only objects used to report local PIM            topology."    ::= { pimMIBGroups 1 }pimNotificationGroup NOTIFICATION-GROUP    NOTIFICATIONS { pimNeighborLoss }    STATUS  current    DESCRIPTION            "A collection of notifications for signaling important PIM            events."    ::= { pimMIBGroups 2 }pimTuningParametersGroup OBJECT-GROUP    OBJECTS { pimKeepalivePeriod,              pimRegisterSuppressionTime,              pimInterfaceDRPriority,              pimInterfaceHelloInterval,              pimInterfaceTrigHelloInterval,              pimInterfaceJoinPruneInterval,              pimInterfacePropagationDelay,              pimInterfaceOverrideInterval,              pimInterfaceDomainBorder,              pimInterfaceStubInterface,              pimInterfaceStatus,Sivaramu, et al.            Standards Track                    [Page 76]

RFC 5060                        PIM MIB                     January 2008              pimInterfaceStorageType            }    STATUS  current    DESCRIPTION            "A collection of writeable objects used to configure PIM            behavior and to tune performance."    ::= { pimMIBGroups 3 }pimRouterStatisticsGroup OBJECT-GROUP    OBJECTS { pimStarGEntries,              pimStarGIEntries,              pimSGEntries,              pimSGIEntries,              pimSGRptEntries,              pimSGRptIEntries            }    STATUS  current    DESCRIPTION            "A collection of statistics global to the PIM router."    ::= { pimMIBGroups 4 }pimSsmGroup OBJECT-GROUP    OBJECTS { pimSGUpTime,              pimSGPimMode,              pimSGUpstreamJoinState,              pimSGUpstreamJoinTimer,              pimSGUpstreamNeighbor,              pimSGRPFIfIndex,              pimSGRPFNextHopType,              pimSGRPFNextHop,              pimSGRPFRouteProtocol,              pimSGRPFRouteAddress,              pimSGRPFRoutePrefixLength,              pimSGRPFRouteMetricPref,              pimSGRPFRouteMetric,              pimSGSPTBit,              pimSGKeepaliveTimer,              pimSGDRRegisterState,              pimSGDRRegisterStopTimer,              pimSGRPRegisterPMBRAddressType,              pimSGRPRegisterPMBRAddress,              pimSGIUpTime,              pimSGILocalMembership,              pimSGIJoinPruneState,              pimSGIPrunePendingTimer,              pimSGIJoinExpiryTimer,              pimSGIAssertState,              pimSGIAssertTimer,Sivaramu, et al.            Standards Track                    [Page 77]

RFC 5060                        PIM MIB                     January 2008              pimSGIAssertWinnerAddressType,              pimSGIAssertWinnerAddress,              pimSGIAssertWinnerMetricPref,              pimSGIAssertWinnerMetric            }    STATUS  current    DESCRIPTION            "A collection of objects to support management of PIM            routers running the PIM SSM (Source Specific Multicast)            protocol, in PIM mode SM (Sparse Mode)."    ::= { pimMIBGroups 5 }pimRPConfigGroup OBJECT-GROUP    OBJECTS { pimStaticRPRPAddress,              pimStaticRPPimMode,              pimStaticRPOverrideDynamic,              pimStaticRPRowStatus,              pimStaticRPStorageType,              pimGroupMappingPimMode,              pimGroupMappingPrecedence            }    STATUS  current    DESCRIPTION            "A collection of objects to support configuration of RPs            (Rendezvous Points) and Group Mappings."    ::= { pimMIBGroups 6 }pimSmGroup OBJECT-GROUP    OBJECTS { pimStarGUpTime,              pimStarGPimMode,              pimStarGRPAddressType,              pimStarGRPAddress,              pimStarGPimModeOrigin,              pimStarGRPIsLocal,              pimStarGUpstreamJoinState,              pimStarGUpstreamJoinTimer,              pimStarGUpstreamNeighborType,              pimStarGUpstreamNeighbor,              pimStarGRPFIfIndex,              pimStarGRPFNextHopType,              pimStarGRPFNextHop,              pimStarGRPFRouteProtocol,              pimStarGRPFRouteAddress,              pimStarGRPFRoutePrefixLength,              pimStarGRPFRouteMetricPref,              pimStarGRPFRouteMetric,              pimStarGIUpTime,              pimStarGILocalMembership,Sivaramu, et al.            Standards Track                    [Page 78]

RFC 5060                        PIM MIB                     January 2008              pimStarGIJoinPruneState,              pimStarGIPrunePendingTimer,              pimStarGIJoinExpiryTimer,              pimStarGIAssertState,              pimStarGIAssertTimer,              pimStarGIAssertWinnerAddressType,              pimStarGIAssertWinnerAddress,              pimStarGIAssertWinnerMetricPref,              pimStarGIAssertWinnerMetric,              pimSGRptUpTime,              pimSGRptUpstreamPruneState,              pimSGRptUpstreamOverrideTimer,              pimSGRptIUpTime,              pimSGRptILocalMembership,              pimSGRptIJoinPruneState,              pimSGRptIPrunePendingTimer,              pimSGRptIPruneExpiryTimer            }    STATUS  current    DESCRIPTION            "A collection of objects to support management of PIM            routers running PIM-SM (Sparse Mode).  The groups            pimSsmGroup and pimRPConfigGroup are also required."    ::= { pimMIBGroups 7 }pimBidirGroup OBJECT-GROUP    OBJECTS { pimInterfaceDFElectionRobustness,              pimBidirDFElectionWinnerAddressType,              pimBidirDFElectionWinnerAddress,              pimBidirDFElectionWinnerUpTime,              pimBidirDFElectionWinnerMetricPref,              pimBidirDFElectionWinnerMetric,              pimBidirDFElectionState,              pimBidirDFElectionStateTimer            }    STATUS  current    DESCRIPTION            "A collection of objects to support management of PIM            routers running BIDIR mode.  The groups pimSsmGroup,            pimSmGroup and pimRPConfigGroup are also required."    ::= { pimMIBGroups 8 }pimAnycastRpGroup OBJECT-GROUP    OBJECTS { pimAnycastRPSetLocalRouter,              pimAnycastRPSetRowStatus,              pimAnycastRPSetStorageType            }    STATUS  currentSivaramu, et al.            Standards Track                    [Page 79]

RFC 5060                        PIM MIB                     January 2008    DESCRIPTION            "A collection of objects to support management of the PIM            Anycast-RP mechanism."    ::= { pimMIBGroups 9 }pimStaticRPPrecedenceGroup OBJECT-GROUP    OBJECTS { pimStaticRPPrecedence }    STATUS  current    DESCRIPTION            "A collection of objects to allow fine control of            interactions between static RP configuration and            dynamically acquired group to RP mappings."    ::= { pimMIBGroups 10 }pimNetMgmtNotificationObjects OBJECT-GROUP    OBJECTS { pimInvalidRegisterNotificationPeriod,              pimInvalidRegisterMsgsRcvd,              pimInvalidRegisterAddressType,              pimInvalidRegisterOrigin,              pimInvalidRegisterGroup,              pimInvalidRegisterRp,              pimInvalidJoinPruneNotificationPeriod,              pimInvalidJoinPruneMsgsRcvd,              pimInvalidJoinPruneAddressType,              pimInvalidJoinPruneOrigin,              pimInvalidJoinPruneGroup,              pimInvalidJoinPruneRp,              pimRPMappingNotificationPeriod,              pimRPMappingChangeCount,              pimInterfaceElectionNotificationPeriod,              pimInterfaceElectionWinCount            }    STATUS  current    DESCRIPTION            "A collection of objects to support notification of PIM            network management events."    ::= { pimMIBGroups 11 }pimNetMgmtNotificationGroup NOTIFICATION-GROUP    NOTIFICATIONS { pimInvalidRegister,                    pimInvalidJoinPrune,                    pimRPMappingChange,                    pimInterfaceElection                  }    STATUS  current    DESCRIPTION            "A collection of notifications for signaling PIM network            management events."Sivaramu, et al.            Standards Track                    [Page 80]

RFC 5060                        PIM MIB                     January 2008    ::= { pimMIBGroups 12 }pimDiagnosticsGroup OBJECT-GROUP    OBJECTS { pimInAsserts,              pimOutAsserts,              pimLastAssertInterface,              pimLastAssertGroupAddressType,              pimLastAssertGroupAddress,              pimLastAssertSourceAddressType,              pimLastAssertSourceAddress,              pimNeighborLossNotificationPeriod,              pimNeighborLossCount            }    STATUS  current    DESCRIPTION            "Objects providing additional diagnostics related to a PIM            router."    ::= { pimMIBGroups 13 }pimDmGroup OBJECT-GROUP    OBJECTS {              pimRefreshInterval,              pimInterfacePruneLimitInterval,              pimInterfaceGraftRetryInterval,              pimInterfaceSRPriorityEnabled,              pimNeighborSRCapable,              pimSGUpstreamPruneState,              pimSGUpstreamPruneLimitTimer,              pimSGOriginatorState,              pimSGSourceActiveTimer,              pimSGStateRefreshTimer            }    STATUS  current    DESCRIPTION            "A collection of objects required for management of PIM            Dense Mode (PIM-DM) function.  The groups pimSsmGroup and            pimSmGroup are also required."    REFERENCE "RFC 3973"    ::= { pimMIBGroups 14 }Sivaramu, et al.            Standards Track                    [Page 81]

RFC 5060                        PIM MIB                     January 2008pimDeviceStorageGroup OBJECT-GROUP    OBJECTS { pimDeviceConfigStorageType            }    STATUS  current    DESCRIPTION            "An object that specifies the volatility of global PIM            configuration settings on this device."    ::= { pimMIBGroups 15 }END6.  Security Considerations   There are a number of management objects defined in this MIB module   with a MAX-ACCESS clause of read-write and/or read-create.  Such   objects may be considered sensitive or vulnerable in some network   environments.  The support for SET operations in a non-secure   environment without proper protection can have a negative effect on   network operations.  These are the tables and objects and their   sensitivity/vulnerability:   The following tables and objects could be employed to modify   multicast routing behavior in a way that prevents, disrupts, or   subverts services provided by the network, including (but not limited   to) multicast data traffic delivery.  For example, attacks can be   envisaged that would pass nominated multicast data streams through a   nominated location, without the sources or listeners becoming aware   of this subversion.   pimKeepalivePeriod pimRegisterSuppressionTime   pimNeighborLossNotificationPeriod   pimInvalidRegisterNotificationPeriod   pimInvalidJoinPruneNotificationPeriod pimRPMappingNotificationPeriod   pimInterfaceElectionNotificationPeriod pimRefreshInterval   pimInterfaceTable pimInterfaceEntry pimInterfaceIfIndex   pimInterfaceIPVersion pimInterfaceHelloInterval   pimInterfaceTrigHelloInterval pimInterfaceJoinPruneInterval   pimInterfaceDFElectionRobustness pimInterfaceHelloHoldtime   pimInterfaceJoinPruneHoldtime pimInterfacePropagationDelay   pimInterfaceOverrideInterval pimInterfaceDRPriority   pimInterfaceDomainBorder pimInterfaceStatus pimInterfaceStubInterface   pimInterfacePruneLimitInterval pimStaticRPTable pimStaticRPEntry   pimStaticRPAddressType pimStaticRPGrpAddress   pimStaticRPGrpPrefixLength pimStaticRPRPAddress pimStaticRPPimMode   pimStaticRPOverrideDynamic pimStaticRPRowStatus pimStaticRPPrecedence   pimAnycastRPSetTable pimAnycastRPSetEntry pimAnycastRPSetAddressType   pimAnycastRPSetAnycastAddress pimAnycastRPSetRouterAddressSivaramu, et al.            Standards Track                    [Page 82]

RFC 5060                        PIM MIB                     January 2008   Some of the readable objects in this MIB module (i.e., objects with a   MAX-ACCESS other than not-accessible) may be considered sensitive or   vulnerable in some network environments.  It is thus important to   control even GET and/or NOTIFY access to these objects and possibly   to even encrypt the values of these objects when sending them over   the network via SNMP.  These are the tables and objects and their   sensitivity/vulnerability:   The following tables and objects could be employed to determine the   topology, disposition, and composition of the network.  This   information may be commercially sensitive, and may also be used in   preparation for attacks, including any of the attacks described   above.   The following tables and objects may also be used to determine   whether multicast data is flowing in the network, or has flowed   recently.  They may also be used to determine the network location of   senders and recipients.  An attacker can apply 'traffic analysis' to   this data.  In some cases, the information revealed by traffic   analyses can be as damaging as full knowledge of the data being   transported.   pimKeepalivePeriod pimRegisterSuppressionTime pimStarGEntries   pimStarGIEntries pimSGEntries pimSGIEntries pimSGRptEntries   pimSGRptIEntries pimOutAsserts pimInAsserts pimLastAssertInterface   pimLastAssertGroupAddressType pimLastAssertGroupAddress   pimLastAssertSourceAddressType pimLastAssertSourceAddress   pimNeighborLossNotificationPeriod pimNeighborLossCount   pimInvalidRegisterNotificationPeriod pimInvalidRegisterMsgsRcvd   pimInvalidRegisterAddressType pimInvalidRegisterOrigin   pimInvalidRegisterGroup pimInvalidRegisterRp   pimInvalidJoinPruneNotificationPeriod pimInvalidJoinPruneMsgsRcvd   pimInvalidJoinPruneAddressType pimInvalidJoinPruneOrigin   pimInvalidJoinPruneGroup pimInvalidJoinPruneRp   pimRPMappingNotificationPeriod pimRPMappingChangeCount   pimInterfaceElectionNotificationPeriod pimInterfaceElectionWinCount   pimRefreshInterval pimInterfaceTable pimInterfaceEntry   pimInterfaceIfIndex pimInterfaceIPVersion pimInterfaceAddressType   pimInterfaceAddress pimInterfaceDR pimInterfaceHelloInterval   pimInterfaceTrigHelloInterval pimInterfaceJoinPruneInterval   pimInterfaceDFElectionRobustness pimInterfaceHelloHoldtime   pimInterfaceJoinPruneHoldtime pimInterfacePropagationDelay   pimInterfaceOverrideInterval pimInterfaceGenerationIDValue   pimInterfaceDRPriority pimInterfaceLanDelayEnabled   pimInterfaceEffectPropagDelay pimInterfaceEffectOverrideIvl   pimInterfaceSuppressionEnabled pimInterfaceBidirCapable   pimInterfaceDRPriorityEnabled pimInterfaceDomainBorder   pimInterfaceStatus pimInterfaceStubInterfaceSivaramu, et al.            Standards Track                    [Page 83]

RFC 5060                        PIM MIB                     January 2008   pimInterfacePruneLimitInterval pimInterfaceSRPriorityEnabled   pimNeighborTable pimNeighborEntry pimNeighborIfIndex   pimNeighborAddressType pimNeighborAddress pimNeighborUpTime   pimNeighborExpiryTime pimNeighborLanPruneDelayPresent   pimNeighborPropagationDelay pimNeighborOverrideInterval   pimNeighborTBit pimNeighborGenerationIDPresent   pimNeighborGenerationIDValue pimNeighborBidirCapable   pimNeighborDRPriorityPresent pimNeighborDRPriority   pimNeighborSRCapable pimNbrSecAddressTable pimNbrSecAddressEntry   pimNbrSecAddressIfIndex pimNbrSecAddressType pimNbrSecAddressPrimary   pimNbrSecAddress pimStarGTable pimStarGEntry pimStarGAddressType   pimStarGGrpAddress pimStarGUpTime pimStarGPimMode   pimStarGRPAddressType pimStarGRPAddress pimStarGPimModeOrigin   pimStarGRPIsLocal pimStarGUpstreamJoinState pimStarGUpstreamJoinTimer   pimStarGUpstreamNeighborType pimStarGUpstreamNeighbor   pimStarGRPFIfIndex pimStarGRPFNextHopType pimStarGRPFNextHop   pimStarGRPFRouteProtocol pimStarGRPFRouteAddress   pimStarGRPFRoutePrefixLength pimStarGRPFRouteMetricPref   pimStarGRPFRouteMetric pimStarGITable pimStarGIEntry pimStarGIIfIndex   pimStarGIUpTime pimStarGILocalMembership pimStarGIJoinPruneState   pimStarGIPrunePendingTimer pimStarGIJoinExpiryTimer   pimStarGIAssertState pimStarGIAssertTimer   pimStarGIAssertWinnerAddressType pimStarGIAssertWinnerAddress   pimStarGIAssertWinnerMetricPref pimStarGIAssertWinnerMetric   pimSGTable pimSGEntry pimSGAddressType pimSGGrpAddress   pimSGSrcAddress pimSGUpTime pimSGPimMode pimSGUpstreamJoinState   pimSGUpstreamJoinTimer pimSGUpstreamNeighbor pimSGRPFIfIndex   pimSGRPFNextHopType pimSGRPFNextHop pimSGRPFRouteProtocol   pimSGRPFRouteAddress pimSGRPFRoutePrefixLength   pimSGRPFRouteMetricPref pimSGRPFRouteMetric pimSGSPTBit   pimSGKeepaliveTimer pimSGDRRegisterState pimSGDRRegisterStopTimer   pimSGRPRegisterPMBRAddressType pimSGRPRegisterPMBRAddress   pimSGUpstreamPruneState pimSGUpstreamPruneLimitTimer   pimSGOriginatorState pimSGSourceActiveTimer pimSGStateRefreshTimer   pimSGITable pimSGIEntry pimSGIIfIndex pimSGIUpTime   pimSGILocalMembership pimSGIJoinPruneState pimSGIPrunePendingTimer   pimSGIJoinExpiryTimer pimSGIAssertState pimSGIAssertTimer   pimSGIAssertWinnerAddressType pimSGIAssertWinnerAddress   pimSGIAssertWinnerMetricPref pimSGIAssertWinnerMetric pimSGRptTable   pimSGRptEntry pimSGRptSrcAddress pimSGRptUpTime   pimSGRptUpstreamPruneState pimSGRptUpstreamOverrideTimer   pimSGRptITable pimSGRptIEntry pimSGRptIIfIndex pimSGRptIUpTime   pimSGRptILocalMembership pimSGRptIJoinPruneState   pimSGRptIPrunePendingTimer pimSGRptIPruneExpiryTimer   pimBidirDFElectionTable pimBidirDFElectionEntry   pimBidirDFElectionAddressType pimBidirDFElectionRPAddress   pimBidirDFElectionIfIndex pimBidirDFElectionWinnerAddressType   pimBidirDFElectionWinnerAddress pimBidirDFElectionWinnerUpTimeSivaramu, et al.            Standards Track                    [Page 84]

RFC 5060                        PIM MIB                     January 2008   pimBidirDFElectionWinnerMetricPref pimBidirDFElectionWinnerMetric   pimBidirDFElectionState pimBidirDFElectionStateTimer pimStaticRPTable   pimStaticRPEntry pimStaticRPAddressType pimStaticRPGrpAddress   pimStaticRPGrpPrefixLength pimStaticRPRPAddress pimStaticRPPimMode   pimStaticRPOverrideDynamic pimStaticRPRowStatus pimStaticRPPrecedence   pimAnycastRPSetTable pimAnycastRPSetEntry pimAnycastRPSetAddressType   pimAnycastRPSetAnycastAddress pimAnycastRPSetRouterAddress   pimAnycastRPSetRowStatus pimAnycastRPSetLocalRouter   pimGroupMappingTable pimGroupMappingEntry pimGroupMappingOrigin   pimGroupMappingAddressType pimGroupMappingGrpAddress   pimGroupMappingGrpPrefixLength pimGroupMappingRPAddress   pimGroupMappingPimMode pimGroupMappingPrecedence   There is also a specific danger arising from the notification   pimInvalidRegister.  This is originated by devices that receive an   incorrect unicast-encapsulated multicast data packet, which poses a   clear danger of propagating a DoS (Denial of Service) attack from the   data or control plane to the network management plane.  The following   steps are taken to guard against this.   1.  The notification is disabled by default.  The writeable field       pimInvalidRegisterNotificationPeriod must be set in order to       enable it.   2.  The syntax of pimInvalidRegisterNotificationPeriod prevents any       given device from originating the notification more frequently       than once every 10 seconds.   3.  The counter pimInvalidRegisterMsgsRcvd provides equivalent       function to the notification.  Management applications are       encouraged to monitor this counter in preference to enabling the       notification.   The same measures are taken in respect of pimInvalidJoinPrune, though   as this notification can only arise as a result of unroutable control   packets, the risk is not so acute.   SNMP versions prior to SNMPv3 did not include adequate security.   Even if the network itself is secure (for example by using IPsec),   even then, there is no control as to who on the secure network is   allowed to access and GET/SET (read/change/create/delete) the objects   in this MIB module.   It is RECOMMENDED that implementers consider the security features as   provided by the SNMPv3 framework (see[RFC3410], section 8),   including full support for the SNMPv3 cryptographic mechanisms (for   authentication and privacy).Sivaramu, et al.            Standards Track                    [Page 85]

RFC 5060                        PIM MIB                     January 2008   Further, deployment of SNMP versions prior to SNMPv3 is NOT   RECOMMENDED.  Instead, it is RECOMMENDED to deploy SNMPv3 and to   enable cryptographic security.  It is then a customer/operator   responsibility to ensure that the SNMP entity giving access to an   instance of this MIB module is properly configured to give access to   the objects only to those principals (users) that have legitimate   rights to indeed GET or SET (change/create/delete) them.7.  IANA Considerations   PIM-STD-MIB is rooted under the mib-2 subtree.  IANA has assigned   { mib-2 157 } to the PIM-STD-MIB module specified in this document.8.  Acknowledgements   This MIB module is based on the original work inRFC 2934 [RFC2934]   by K. McCloghrie, D. Farinacci, D. Thaler, and W. Fenner and has been   updated based on feedback from the IETF's Protocol Independent   Multicast (PIM) Working Group.   Jonathan Nicholas was the editor of early versions of this document,   and contributed the objects for management of PIM-DM.9.  References9.1.  Normative References   [RFC2119]      Bradner, S., "Key words for use in RFCs to Indicate                  Requirement Levels",BCP 14,RFC 2119, March 1997.   [RFC2578]      McCloghrie, K., Ed., Perkins, D., Ed., and J.                  Schoenwaelder, Ed., "Structure of Management                  Information Version 2 (SMIv2)", STD 58,RFC 2578,                  April 1999.   [RFC2579]      McCloghrie, K., Ed., Perkins, D., Ed., and J.                  Schoenwaelder, Ed., "Textual Conventions for SMIv2",                  STD 58,RFC 2579, April 1999.   [RFC2580]      McCloghrie, K., Perkins, D., and J. Schoenwaelder,                  "Conformance Statements for SMIv2", STD 58,RFC 2580,                  April 1999.   [RFC2863]      McCloghrie, K. and F. Kastenholz, "The Interfaces                  Group MIB",RFC 2863, June 2000.Sivaramu, et al.            Standards Track                    [Page 86]

RFC 5060                        PIM MIB                     January 2008   [RFC3973]      Adams, A., Nicholas, J., and W. Siadak, "Protocol                  Independent Multicast - Dense Mode (PIM-DM): Protocol                  Specification (Revised)",RFC 3973, January 2005.   [RFC4001]      Daniele, M., Haberman, B., Routhier, S., and J.                  Schoenwaelder, "Textual Conventions for Internet                  Network Addresses",RFC 4001, February 2005.   [RFC4601]      Fenner, B., Handley, M., Holbrook, H., and I.                  Kouvelas, "Protocol Independent Multicast - Sparse                  Mode (PIM-SM): Protocol Specification (Revised)",RFC 4601, August 2006.   [RFC4610]      Farinacci, D. and Y. Cai, "Anycast-RP Using Protocol                  Independent Multicast (PIM)",RFC 4610, August 2006.   [RFC5015]      Handley, M., Kouvelas, I., Speakman, T., and L.                  Vicisano, "Bidirectional Protocol Independent                  Multicast (BIDIR-PIM)",RFC 5015, October 2007.   [RFC5059]      Bhaskar, N., Gall, A., Lingard, L., and S. Venaas,                  "Bootstrap Router (BSR) Mechanism for PIM",RFC 5059,                  January 2008.   [RTPROTO]      IANA, "IP Route Protocol MIB", September 2000, <http:/                  /www.iana.org/assignments/ianaiprouteprotocol-mib>.9.2.  Informative References   [IPMCAST-MIB]  McWalter, D.,"IP Multicast MIB", Work in Progress,                  August 2007.   [RFC2932]      McCloghrie, K., Farinacci, D., and D. Thaler, "IPv4                  Multicast Routing MIB",RFC 2932, October 2000.   [RFC2934]      McCloghrie, K., Farinacci, D., Thaler, D., and B.                  Fenner, "Protocol Independent Multicast MIB for IPv4",RFC 2934, October 2000.   [RFC3376]      Cain, B., Deering, S., Kouvelas, I., Fenner, B., and                  A. Thyagarajan, "Internet Group Management Protocol,                  Version 3",RFC 3376, October 2002.   [RFC3410]      Case, J., Mundy, R., Partain, D., and B. Stewart,                  "Introduction and Applicability Statements for                  Internet-Standard Management Framework",RFC 3410,                  December 2002.Sivaramu, et al.            Standards Track                    [Page 87]

RFC 5060                        PIM MIB                     January 2008   [RFC3569]      Bhattacharyya, S., "An Overview of Source-Specific                  Multicast (SSM)",RFC 3569, July 2003.   [RFC3618]      Fenner, B. and D. Meyer, "Multicast Source Discovery                  Protocol (MSDP)",RFC 3618, October 2003.   [RFC3810]      Vida, R. and L. Costa, "Multicast Listener Discovery                  Version 2 (MLDv2) for IPv6",RFC 3810, June 2004.   [RFC3956]      Savola, P. and B. Haberman, "Embedding the Rendezvous                  Point (RP) Address in an IPv6 Multicast Address",RFC 3956, November 2004.Sivaramu, et al.            Standards Track                    [Page 88]

RFC 5060                        PIM MIB                     January 2008Authors' Addresses   Raghava Sivaramu   Cisco Systems   425 E. Tasman Drive   San Jose, CA  95134   USA   EMail: raghava@cisco.com   James Lingard   Arastra, Inc   P.O. Box 10905   Palo Alto, CA  94303   USA   EMail: jchl@arastra.com   David McWalter   Data Connection Ltd   100 Church Street   Enfield  EN2 6BQ   United Kingdom   EMail: dmcw@dataconnection.com   Bharat Joshi   Infosys Technologies Ltd   Electronic City   Bangalore  560 100   India   EMail: bharat_joshi@infosys.com   Andrew Kessler   Cisco Systems   425 E. Tasman Drive   San Jose, CA  95134   USA   EMail: kessler@cisco.comSivaramu, et al.            Standards Track                    [Page 89]

RFC 5060                        PIM MIB                     January 2008Full Copyright Statement   Copyright (C) The IETF Trust (2008).   This document is subject to the rights, licenses and restrictions   contained inBCP 78, and except as set forth therein, the authors   retain all their rights.   This document and the information contained herein are provided on an   "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS   OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY, THE IETF TRUST AND   THE INTERNET ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS   OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF   THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED   WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.Intellectual Property   The IETF takes no position regarding the validity or scope of any   Intellectual Property Rights or other rights that might be claimed to   pertain to the implementation or use of the technology described in   this document or the extent to which any license under such rights   might or might not be available; nor does it represent that it has   made any independent effort to identify any such rights.  Information   on the procedures with respect to rights in RFC documents can be   found inBCP 78 andBCP 79.   Copies of IPR disclosures made to the IETF Secretariat and any   assurances of licenses to be made available, or the result of an   attempt made to obtain a general license or permission for the use of   such proprietary rights by implementers or users of this   specification can be obtained from the IETF on-line IPR repository athttp://www.ietf.org/ipr.   The IETF invites any interested party to bring to its attention any   copyrights, patents or patent applications, or other proprietary   rights that may cover technology that may be required to implement   this standard.  Please address the information to the IETF at   ietf-ipr@ietf.org.Sivaramu, et al.            Standards Track                    [Page 90]