-- Copyright (C) 2010-2012 Aricent Group . All Rights Reserved -- $Id: fsmpbfd.mib,v 1.7 2013/07/13 12:43:32 siva Exp $ -- BFD Proprietary MIB Definition -- This MIB contains tables used to configure a switch running -- BFD in addition to the standard BFD MIB. ARICENT-BFD-MI-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, enterprises, Integer32, Unsigned32, Counter32, NOTIFICATION-TYPE FROM SNMPv2-SMI RowPointer, TruthValue, TEXTUAL-CONVENTION FROM SNMPv2-TC fsMIStdBfdContextName, fsMIStdBfdSessNegotiatedInterval, fsMIStdBfdSessDesiredMinTxInterval, fsMIStdBfdGlobalConfigTableEntry, fsMIStdBfdSessEntry, fsMIStdBfdSessReqMinRxInterval, fsMIStdBfdSessDiscriminator, fsMIStdBfdSessRemoteDiscr, fsMIStdBfdSessState FROM ARICENT-BFD-STD-MI-MIB BfdSessOperModeTC, BfdIntervalTC, BfdMultiplierTC FROM BFD-TC-STD-MIB; fsMIBfd MODULE-IDENTITY LAST-UPDATED "201209050000Z" ORGANIZATION "ARICENT COMMUNICATIONS SOFTWARE" CONTACT-INFO "support@aricent.com" DESCRIPTION "This proprietary MIB for BFD is to provide a proactive mechanism to detect faults using BFD in MPLS and MPLS-TP paths when Multiple Instances of the router is supported." REVISION "201209050000Z" DESCRIPTION "This proprietary MIB for BFD is to provide a proactive mechanism to detect faults using BFD in MPLS and MPLS-TP paths when Multiple Instances of the router is supported." ::= { enterprises aricent-communication-holding-ltd(29601) iss(2) 55 } -- ------------------------------------------------------------ -- groups in the MIB -- ------------------------------------------------------------ fsMIBfdGlobals OBJECT IDENTIFIER ::= { fsMIBfd 1 } fsMIBfdObjects OBJECT IDENTIFIER ::= { fsMIBfd 2 } fsMIBfdNotifications OBJECT IDENTIFIER ::= { fsMIBfd 3 } -- ------------------------------------------------------------ -- Textual Conventions -- ------------------------------------------------------------ FsSessionMapTypeTC ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Used to indicate the type of MPLS or MPLS-TP path associated to the session" SYNTAX INTEGER { nonteipv4(1), -- mapping into LDP IPv4 nonteipv6(2), -- mapping into LDP IPv6 teipv4(3), -- mapping into TE IPv4 Working LSP teipv6(4), -- mapping into TE IPv6 pw(5), -- mapping into Pseudowires mep(6), -- mapping into MEPs in MPLS-TP teipv4protection(7) -- mapping into TE IPv4 Protecting LSP } -- ------------------------------------------------------------------ -- BFD Global Objects per context for System Config -- ------------------------------------------------------------------ fsMIBfdSystemConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF FsMIBfdSystemConfigEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains all the system configurations of BFD per virtual context of the router." ::= { fsMIBfdGlobals 1 } fsMIBfdSystemConfigEntry OBJECT-TYPE SYNTAX FsMIBfdSystemConfigEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This represents per virtual context BFD system parameters. An entry in this table is created when a virtual context is created." AUGMENTS { fsMIStdBfdGlobalConfigTableEntry } ::= { fsMIBfdSystemConfigTable 1 } FsMIBfdSystemConfigEntry ::= SEQUENCE { fsMIBfdSystemControl INTEGER, fsMIBfdTraceLevel Integer32, fsMIBfdTrapEnable Integer32 } fsMIBfdSystemControl OBJECT-TYPE SYNTAX INTEGER { start(1), shutdown(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The administrative system control status of the BFD module. The value 'start' (1) indicates that the BFD feature should be started in the system and all resources required by the BFD module should be allocated. The value 'shutdown' (2) indicates that the BFD feature should be shutdown in the device and all allocated memory must be released." DEFVAL { start } ::= { fsMIBfdSystemConfigEntry 1 } fsMIBfdTraceLevel OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to store the trace options that are enabled by the user. The bit positions to enable specific traces are as shown below : Bit 0 - init-shut Bit 1 - mgmt Bit 2 - data Bit 3 - ctrl Bit 4 - pkt-dump Bit 5 - resource Bit 6 - all-fail Bit 7 - buf Bit 8 - sess-estb Bit 9 - sess-down Bit 10 - poll-seq Bit 11 - critical Bit 12 - redundancy Bit 13 - Offload A value of zero(0) indicates traces are disabled and a value with all bits set to one indicates all traces are enabled. By default critical trace (Bit 11) is set." DEFVAL { '00000800'H } ::= { fsMIBfdSystemConfigEntry 2 } fsMIBfdTrapEnable OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to enable or disable specific traps in the system. The bit positions to enable specific traps are as shown below: Bit 0 - enables the fsMIStdBfdSessUp/fsMIStdBfdSessDown notification Bit 1 - enables the fsMIBfdSessBtstrapFailTrap notificaton Bit 2 - enables the fsMIBfdSessNegTxIntvlChange notification Bit 3 - enables the fsMIBfdSessAdminCtrlErrTrap notification A value of zero(0) indicates traps are disabled and a value with all bits set to one indicates all traps are enabled. By default no traps will be enabled. Note that bfdSessUp and bfdSessDown notifications can be set either using the object fsMIStdBfdSessNotificationsEnable or using this object and the same will be reflected in both the objects." DEFVAL { 0 } ::= { fsMIBfdSystemConfigEntry 3 } -- ------------------------------------------------------------------ -- BFD Global Objects per context for Session Config -- ------------------------------------------------------------------ fsMIBfdGblSessionConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF FsMIBfdGblSessionConfigEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains all the Session configurations of BFD per virtual context of the router." ::= { fsMIBfdGlobals 2 } fsMIBfdGblSessionConfigEntry OBJECT-TYPE SYNTAX FsMIBfdGblSessionConfigEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This represents per virtual context BFD session parameters. An entry in this table is created when a virtual context is created." AUGMENTS { fsMIStdBfdGlobalConfigTableEntry } ::= { fsMIBfdGblSessionConfigTable 1 } FsMIBfdGblSessionConfigEntry ::= SEQUENCE { fsMIBfdGblSessOperMode BfdSessOperModeTC, fsMIBfdGblDesiredMinTxIntvl BfdIntervalTC, fsMIBfdGblReqMinRxIntvl BfdIntervalTC, fsMIBfdGblDetectMult BfdMultiplierTC, fsMIBfdGblSlowTxIntvl Unsigned32 } fsMIBfdGblSessOperMode OBJECT-TYPE SYNTAX BfdSessOperModeTC MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the operating mode applicable to all BFD sessions in the system. This value will serve as the default operational mode for all BFD session entries during session entry creation, in the absence of a per-session operational mode being configured for each session entry.Modification of this object will thereon not be reflected to the individual session enteries. (Modification of session oper mode for individual session enteries should be done using the object 'fsMIStdBfdSessOperMode' in the session table.) The modified value of this object will be used only for the session enteries created after modification. The default operational mode is 'asynchModeWOEchoFunction'." DEFVAL { asynchModeWOEchoFunction } ::= { fsMIBfdGblSessionConfigEntry 1 } fsMIBfdGblDesiredMinTxIntvl OBJECT-TYPE SYNTAX BfdIntervalTC MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the minimum interval, in microseconds, that the local system would like to use when transmitting BFD Control packets. This value will serve as the default desired transmit interval for all BFD session entries during session entry creation, in the absence of a per-session desired transmit interval being configured for each session entry. Modification of this object will thereon not be reflected to the individual session enteries. (Modification of the desired transmit interval for individual session enteries should be done using the object 'fsMIStdBfdSessDesiredMinTxInterval' in the session table.) The modified value of this object will be used only for the session enteries created after modification. The default desired transmit interval is 1 second." DEFVAL { 1000000 } ::= { fsMIBfdGblSessionConfigEntry 2 } fsMIBfdGblReqMinRxIntvl OBJECT-TYPE SYNTAX BfdIntervalTC MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the minimum interval, in microseconds, between received BFD Control packets the local system is capable of supporting. This value will serve as the default receive interval for all BFD session entries during session entry creation, in the absence of a per-session required receive interval being configured for each session entry. Modification of this object will thereon not be reflected to the individual session enteries. (Modification of the receive interval for individual session enteries should be done using the object 'fsMIStdBfdSessReqMinRxInterval' in the session table.) The modified value of this object will be used only for the session enteries created after modification. The default required receive interval is 1 second." DEFVAL { 1000000 } ::= { fsMIBfdGblSessionConfigEntry 3 } fsMIBfdGblDetectMult OBJECT-TYPE SYNTAX BfdMultiplierTC MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the Detect time multiplier. This value will serve as the default detect time multiplier for all BFD session entries during session entry creation , in the absence of a per-session detect time multiplier being configured for each session entry. Modification of this object will thereon not be reflected to the individual session enteries. (Modification of the detect time multiplier for individual session enteries should be done using the object 'fsMIStdBfdSessDetectMult' in the session table.) The modified value of this object will be used only for the session enteries created after modification." DEFVAL { 3 } ::= { fsMIBfdGblSessionConfigEntry 4 } fsMIBfdGblSlowTxIntvl OBJECT-TYPE SYNTAX Unsigned32 (1000000..4294967295) MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the interval, in microseconds, between BFD control packet transmission (bootstrapped or otherwise) during the BFD session establishment process until the session comes to the UP state at both end systems. After the session is in the UP state in both the local and remote system, the packets will be transmitted at an interval influenced by the session's negotiated transmit interval and the value in this object will not be used." DEFVAL { 1000000 } ::= { fsMIBfdGblSessionConfigEntry 5 } -- ------------------------------------------------------------------ -- BFD Global Objects per context for statistics -- ------------------------------------------------------------------ fsMIBfdStatisticsTable OBJECT-TYPE SYNTAX SEQUENCE OF FsMIBfdStatisticsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the statistics of BFD per virtual context of the router." ::= { fsMIBfdGlobals 3 } fsMIBfdStatisticsEntry OBJECT-TYPE SYNTAX FsMIBfdStatisticsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This represents per virtual context BFD statistics. An entry in this table is created when a virtual context is created." AUGMENTS { fsMIStdBfdGlobalConfigTableEntry } ::= { fsMIBfdStatisticsTable 1 } FsMIBfdStatisticsEntry ::= SEQUENCE { fsMIBfdMemAllocFailure Counter32, fsMIBfdInputQOverFlows Counter32, fsMIBfdClrGblStats TruthValue, fsMIBfdClrAllSessStats TruthValue } fsMIBfdMemAllocFailure OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object gives the count of total memory allocation failures in the BFD module" ::= { fsMIBfdStatisticsEntry 1 } fsMIBfdInputQOverFlows OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object gives the count of total input queue overflows for the BFD module" ::= {fsMIBfdStatisticsEntry 2} fsMIBfdClrGblStats OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to clear the global statistics of the BFD module. Setting this object to true will cause the statistics to be reset and setting this object to false will have no effect. A Get operation on this object will always return a value of false." DEFVAL { false } ::= { fsMIBfdStatisticsEntry 3 } fsMIBfdClrAllSessStats OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to clear all the statistics and counters of all the BFD sessions currently running in the system. Setting this object to true will cause the statistics to be reset and setting this object to false will have no effect. A Get operation on this object will always return a value of false." DEFVAL { false } ::= { fsMIBfdStatisticsEntry 4 } -- ------------------------------------------------------------------ -- BFD Objects per context for Session Config -- ------------------------------------------------------------------ -- fsMIBfdSessionTable - fsMIStdBfdSessTable Augment fsMIBfdSessionTable OBJECT-TYPE SYNTAX SEQUENCE OF FsMIBfdSessionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is an augment to the fsMIStdBfdSessTable for configuring BFD sessions for MPLS or MPLS-TP paths." ::= { fsMIBfdObjects 1 } fsMIBfdSessionEntry OBJECT-TYPE SYNTAX FsMIBfdSessionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row in this table augments a row in fsMIStdBfdSessTable" AUGMENTS { fsMIStdBfdSessEntry } ::= { fsMIBfdSessionTable 1 } FsMIBfdSessionEntry ::= SEQUENCE { fsMIBfdSessRole INTEGER, fsMIBfdSessMode INTEGER, fsMIBfdSessRemoteDiscr Unsigned32, fsMIBfdSessEXPValue Unsigned32, fsMIBfdSessTmrNegotiate TruthValue, fsMIBfdSessOffld TruthValue, fsMIBfdSessEncapType INTEGER, fsMIBfdSessAdminCtrlReq TruthValue, fsMIBfdSessAdminCtrlErrReason INTEGER, fsMIBfdSessMapType FsSessionMapTypeTC, fsMIBfdSessMapPointer RowPointer, fsMIBfdSessCardNumber Unsigned32, fsMIBfdSessSlotNumber Unsigned32, fsMIBfdSessRegisteredClients Unsigned32 } fsMIBfdSessRole OBJECT-TYPE SYNTAX INTEGER { active(1), passive(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies whether the system is playing the active(1) role or the passive(2) role for this BFD session. BFD session will not come up if both the ends of a path are configured to be passive. In case of MPLS and MPLS-TP LSP, it is expected to configure the BFD session in the ingress of the LSP as Active. Even in the case of static provisioning of discriminators, it is recommended to configure the BFD session as Active at the ingress and as Passive at the egress. In the case of PW, BFD session at both the ends should be Active" REFERENCE "RFC 5880, Section 6.1" DEFVAL { active } ::= { fsMIBfdSessionEntry 1 } fsMIBfdSessMode OBJECT-TYPE SYNTAX INTEGER { cc(1), ccv(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies whether the BFD session is running in Continuity Check(CC) or the Connectivity Verification(CV) mode. This object is always cc(1) if the value of fsMIBfdSessMapType is any value other than mep(6). When the fsMIBfdSessMapType is mep(6) and indicates that this BFD session is for an MPLS-TP path, then this object can hold either a CC(1) or a CCV(2) value." REFERENCE " draft-ietf-mpls-tp-cc-cv-00 " DEFVAL { cc } ::= { fsMIBfdSessionEntry 2} fsMIBfdSessRemoteDiscr OBJECT-TYPE SYNTAX Unsigned32 (0 | 1..4294967295) MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the session discriminator that is to be used by the remote system for this BFD session. This object is configurable for MPLS and MPLS-TP paths. The value may be zero(0) if the remote discriminator is not yet known or if session is in the down or adminDown state. A Get operation on the this object will return the same value as the bfdSessRemoteDiscr object for each BFD session." REFERENCE "draft-ieft-mpls-tp-lsp-ping-bfd-procedures-00 Section 3" ::= { fsMIBfdSessionEntry 3 } fsMIBfdSessEXPValue OBJECT-TYPE SYNTAX Unsigned32(0..7) MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the MPLS experimental field (traffic class field) value that should be sent in the MPLS header for the BFD control packets." DEFVAL { 0 } ::= { fsMIBfdSessionEntry 4 } fsMIBfdSessTmrNegotiate OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies if timer negotiation is required for the BFD session. When set to false, timer negotiation is disabled and if the value of the received DesiredMinTxInterval is different from the locally configured RequiredMinRxInterval, or the received value of the Detect Multiplier field is different from the locally configured value, then a Period Mis-Configuration defect will be detected. When this object is set to true, support for Period Mis-Configuration defect is not provided." DEFVAL { true } ::= { fsMIBfdSessionEntry 5 } fsMIBfdSessOffld OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies if the BFD session needs to be offloaded onto a specific hardware chipset or an external software component or a seperate CPU/Core. When set to true the BFD session will be offloaded." DEFVAL { false } ::= { fsMIBfdSessionEntry 6 } fsMIBfdSessEncapType OBJECT-TYPE SYNTAX INTEGER { mplsIp (1), mplsAch (2), mplsAchIp (3), vccvNegotiated (4) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the encapsulation type of the BFD Control packets. In case of MPLS LSP/Tunnel, the encapsulation type should be set to mplsIp, which is the default value for MPLS LSP/Tunnel.Note that for an MPLS LSP/Tunnel,an IP return path, if present, will be used to send the BFD control packets, in case an MPLS LSP/Tunnel return path is not available. For MPLS-TP LSP/Tunnel any one of the following types: mplsIp, mplsAch or mplsAchIp is applicable, mplsAch being the default. For MPLS or MPLS-TP PW, the encapsulation type should be set to vccvNegotiated, which is the default value for MPLS and MPLS-TP PW." ::= { fsMIBfdSessionEntry 7 } fsMIBfdSessAdminCtrlReq OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "This object specifies if an administrator control or intervention is required for the session due to an error specified by fsMIBfdSessAdminCtrlErrReason. This object will display True when such an administrator control is required, for eg if a period mis-configuration defect is detected for a session, the same will be indicated by fsMIBfdSessAdminCtrlErrReason and this object will be set to true. The administrator may then take the necessary action eg in this case change the timer values to rectify the defect." ::= { fsMIBfdSessionEntry 8 } fsMIBfdSessAdminCtrlErrReason OBJECT-TYPE SYNTAX INTEGER { none (0), sessOffloadFailure (1), periodMisConfigDefect (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object specifies the reason for an error in the BFD session. For instance, when offloading of a BFD session fails due to any reason, this object is set to the value sessOffloadFailure. Similarly if a period mis-configuration defect is detected, this object specifies the same and is set to periodMisConfigDefect(2). By default when there is no error value none(0) is used." ::= { fsMIBfdSessionEntry 9 } fsMIBfdSessMapType OBJECT-TYPE SYNTAX FsSessionMapTypeTC MAX-ACCESS read-create STATUS current DESCRIPTION "This object indicates the type of path being monitored by this BFD session entry." ::= { fsMIBfdSessionEntry 10 } fsMIBfdSessMapPointer OBJECT-TYPE SYNTAX RowPointer MAX-ACCESS read-create STATUS current DESCRIPTION "If fsMIBfdSessMapType is ldpipv4(1) or ldpipv6(2), then this object MUST contain zeroDotZero or point to an instance of the mplsXCEntry indicating the LDP-based LSP associated with this BFD session. If fsMIBfdSessMapType is rsvpipv4(3) or rsvpipv6(4), then this object MUST contain zeroDotZero or point to an instance of the mplsTunnelEntry indicating the RSVP-based MPLS TE tunnel associated with this BFD session. If fsMIBfdSessMapType is pw(5), then this object MUST contain zeroDotZero or point to an instance of the pwEntry indicating the MPLS Pseudowire associated with this BFD session. If fsMIBfdSessMapType is mep(6). then this object MUST contain zeroDotZero or point to an instance identifying the MEP entity configured for monitoring the MPLS-TP path associated with this BFD session. If this object points to a conceptual row instance in a table consistent with fsMIBfdSessMapType but this instance does not currently exist then no valid path is associated with this session entry. If this object contains zeroDotZero then no valid path is associated with this BFD session entry till it is populated with a valid pointer consistent with the value of fsMIBfdSessMapType as explained above." ::= { fsMIBfdSessionEntry 11 } fsMIBfdSessCardNumber OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the card number to which the BFD session is offloaded." ::= { fsMIBfdSessionEntry 12 } fsMIBfdSessSlotNumber OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the slot number to which the BFD session is offloaded." ::= { fsMIBfdSessionEntry 13 } fsMIBfdSessRegisteredClients OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object specifies the BFD clients who are all registered for the particular session. When each client register for the session, the bit corresponding to the Client ID will be set in this field. For Example, if OSPF with client ID 1 registers for the session,then the first bit will be set in this field (i.e. 0x80 00 00 00)" ::= { fsMIBfdSessionEntry 14 } -- ------------------------------------------------------------------ -- BFD Objects per context for Session Performance -- ------------------------------------------------------------------ -- fsMIBfdSessPerfTable - fsMIStdBfdSessEntry Augment fsMIBfdSessPerfTable OBJECT-TYPE SYNTAX SEQUENCE OF FsMIBfdSessPerfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is an augment to the fsMIStdBfdSessPerfTable" ::= { fsMIBfdObjects 2 } fsMIBfdSessPerfEntry OBJECT-TYPE SYNTAX FsMIBfdSessPerfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A row in this table augments the fsMIStdBfdSessPerfTable" AUGMENTS { fsMIStdBfdSessEntry } ::= { fsMIBfdSessPerfTable 1 } FsMIBfdSessPerfEntry ::= SEQUENCE { fsMIBfdSessPerfCCPktIn Counter32, fsMIBfdSessPerfCCPktOut Counter32, fsMIBfdSessPerfCVPktIn Counter32, fsMIBfdSessPerfCVPktOut Counter32, fsMIBfdSessMisDefCount Counter32, fsMIBfdSessLocDefCount Counter32, fsMIBfdSessRdiInCount Counter32, fsMIBfdSessRdiOutCount Counter32, fsMIBfdClearStats TruthValue } fsMIBfdSessPerfCCPktIn OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of BFD CC control messages received for this BFD session." ::= { fsMIBfdSessPerfEntry 1 } fsMIBfdSessPerfCCPktOut OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of BFD CC control messages sent for this BFD session." ::= { fsMIBfdSessPerfEntry 2 } fsMIBfdSessPerfCVPktIn OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of BFD CV control messages received for this BFD session." ::= { fsMIBfdSessPerfEntry 3 } fsMIBfdSessPerfCVPktOut OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of BFD CV control messages sent for this BFD session." ::= { fsMIBfdSessPerfEntry 4 } fsMIBfdSessMisDefCount OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object gives a count of the misconnectivity defects detected for the BFD Session. For instance, this count will be incremented when the received BFD control packet carries an incorrect globally unique source MEP identifier. This count is valid only for MPLS-TP paths. For MPLS paths this count will show a value 0 and will not be incremented." ::= { fsMIBfdSessPerfEntry 5 } fsMIBfdSessLocDefCount OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object gives a count of the Loss of continuity defects detected in MPLS and MPLS-TP paths." ::= { fsMIBfdSessPerfEntry 6 } fsMIBfdSessRdiInCount OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object gives a count of the Remote Defect Indications received by the BFD Session in MPLS-TP environment. It is valid only for bi-directional MPLS-TP paths. For MPLS paths this count will show a value 0 and will not be incremented." ::= { fsMIBfdSessPerfEntry 7 } fsMIBfdSessRdiOutCount OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object gives a count of the Remote Defect Indications sent by the BFD Session in MPLS-TP environment. It is valid only for bi-directional MPLS-TP paths. For MPLS paths this count will show a value 0 and will not be incremented." ::= { fsMIBfdSessPerfEntry 8 } fsMIBfdClearStats OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to clear all the statistic counters for this BFD session. Setting this object to true will cause the statistics to be reset and setting this object to false will have no effect. A Get operation on this object will always return a value of false." DEFVAL { false } ::= { fsMIBfdSessPerfEntry 9 } -- ------------------------------------------------------------------ -- BFD Notification Group -- ------------------------------------------------------------------ fsMIBfdTraps OBJECT IDENTIFIER ::= { fsMIBfdNotifications 0 } fsMIBfdSessBtstrapFailTrap NOTIFICATION-TYPE OBJECTS { fsMIStdBfdContextName, fsMIStdBfdSessDiscriminator } STATUS current DESCRIPTION "This notification is generated when the BFD session establishment bootstrap fails due to a failure in the LSP Ping bootstrap request." ::= { fsMIBfdTraps 1 } fsMIBfdSessNegTxIntvlChange NOTIFICATION-TYPE OBJECTS { fsMIStdBfdContextName, fsMIStdBfdSessDiscriminator, fsMIStdBfdSessRemoteDiscr, fsMIStdBfdSessNegotiatedInterval } STATUS current DESCRIPTION "This notification is generated when the negotiated transmit interval changes due to a change in the local DesiredMinTxInterval value or remote RequiredMinRxInterval." ::= { fsMIBfdTraps 2 } fsMIBfdSessAdminCtrlErrTrap NOTIFICATION-TYPE OBJECTS { fsMIStdBfdContextName, fsMIStdBfdSessDiscriminator, fsMIStdBfdSessState, fsMIBfdSessAdminCtrlErrReason } STATUS current DESCRIPTION "This notification is generated in case of an error detected in the BFD sesion. For instance, when fsMIBfdSessTmrNegotiate is set to false and the value of the received Desired min TX interval is different from the locally configured reception period, or the received value of the Detect Multiplier is different from the locally configured one, a period misconfiguration defect will be detected and this trap will be raised. This notification is also generated when any failure occurs during offloading of the BFD session. This includes failure in transmission of packets in the Offload module when the same is indicated to the control plane by the Offload module." ::= { fsMIBfdTraps 3 } END