-- This is the GDMO/ASN.1 MIB of af-nm-0027.001

-- Begin of GDMO Definitions

abrFeedbackControl MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top;
        CHARACTERIZED BY
          abrFeedbackControlPkg PACKAGE
                BEHAVIOUR
                abrFeedbackControlBeh BEHAVIOUR
                DEFINED AS
                "This managed object class contains information on the configuration of congestion control
 mechanisms for the ABR service category in the NE. It is possible to support more than one
 mechanism at the same time; at least one congestion control mechanisms should always be
 supported. Instances of this class are created automatically and deleted by the ATM NE.
The managed system may or may not support REPLACE for the activeOperationMode
 attribute.";;
                        ATTRIBUTES
                                abrFeedbackControlId
                                        GET SET-BY-CREATE,
                                supportedFeedbackModes
                                        GET;;;
        CONDITIONAL PACKAGES
                activeFeedbackModesPkg
                        PRESENT IF "an instance supports it.",
                activeOperationModePkg
                        PRESENT IF "an instance supports it.",
                supportedOperationModesPkg
                        PRESENT IF "managed system is an intermediate network element.",
                useItOrLoseItPkg
                        PRESENT IF "an instance supports it.";
REGISTERED AS {atmfM4ObjectClass abrFeedbackControl (38)};


atmAccessProfileR1      MANAGED OBJECT CLASS
        DERIVED FROM    "ITU-T Rec. I.751":atmAccessProfile;
        CHARACTERIZED BY
                atmAccessProfileR1Pkg PACKAGE
                        BEHAVIOUR 
atmAccessProfileR1Beh BEHAVIOUR
                        DEFINED AS
                        "At most one object of this class shall be contained within a superior managed object.
                        The value of the attribute 'upcNpc' determines whether policing shall be performed
 for all connections at the interface or VP. 'vpTTPBidirectional' objects that have 
not been configured with their own 'policingPkg' information, would make use of the
policingPkg information configured for the supporting  'tcAdaptorTTPBidirectional'  
object.
If objects are not profiled the default value for interfaces of the type 'uni' and 
'interNNI' 
is true and for interfaces of the type 'intraNNI' is false.
                        The bandwidthPkg may be used to determine ingress and egress bandwidth (in cells
 per second) supported by the interface. The attributes in the bandwidthPkg can be 
used to restrict the bandwidth supported at the interface. The attribute values are 
limited by the underlying physical bandwidth.
                        If ILMI is active on a UNI interface profiled by an atmAccessProfileR1, the values 
of the inherited attributes 'maxNumVCCsAllowed', 'maxNumActiveVPCsAllowed', 
'maxNumVCIBitsSupported', 'maxNumVPIBitsSupported' are calculated by the ILMI 
as the smaller of the locally supported values at each end of the UNI.";;;;
        CONDITIONAL PACKAGES
                bandwidthPkg
                        PRESENT IF 
                                "supplied by the managing system and object instance is contained in a
                                'tcAdaptorTTPBidirectional' object.",
                policingPkg
                        PRESENT IF 
                                "supplied by the managing system.",
                vsVdActivePkg
                        PRESENT IF
"Virtual Source /Virtual Destination Control for ABR is supported at the 
interface.",
                vsVdSupportPkg
                        PRESENT IF
                                "supported by the managed system and supplied by the managing system.";
REGISTERED AS {atmfM4ObjectClass atmAccessProfileR1(39)};


atmCrossConnectionR1 MANAGED OBJECT CLASS 
        DERIVED FROM "ITU-T Rec. I.751": atmCrossConnection; 
        CHARACTERIZED BY 
                atmCrossConnectionR1Pkg PACKAGE
                        BEHAVIOUR 
                        atmCrossConnectionBeh BEHAVIOUR
                        DEFINED AS
"This object class adds support for multipoint cross connections and the recoveryType attribute to 
the inherited ITU-T Rec. I.751 atmCrossConnection object class.

For multipoint ATM VP and VC cross-connections, this managed object identifies the cross-
connect relationship between an instance of the vpCTPBidirectionalR1 object class or 
vcCTPBidirectionalR1 object class and an instance of the multipointBridge object class. For 
multipoint ATM VP and VC cross-connections, each vpCTPBidirectionalR1 or 
vcCTPBidirectionalR1 object instance connected to the multipointBridge object is identified by the 
fromTermination attribute of the atmCrossConnection object, while the instance of the 
multipointBridge object class is identified by the toTermination attribute. Note that multipoint 
ATM cross-connections are established by cross-connecting multiple instances of the 
vpCTPBidirectionalR1 or vcCTPBidirectionalR1 object class (each with its own 
atmCrossConnection object) to a single instance of the multipointBridge object class. 

The recoveryType attribute identifies whether the ATM cross-connection is recoverable (default) or 
non-recoverable. Recoverable cross-connections remain intact regardless of the operational state of 
the cross-connection. Non-recoverable ATM cross-connections are cross-connections that are 
automatically released by the managed system upon detection of a service affecting failure.";;
                        ATTRIBUTES
                                recoveryType
                                        GET-REPLACE;;;
REGISTERED AS {atmfM4ObjectClass atmCrossConnectionR1(40)};

atmFabricR1 MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top;
        CHARACTERIZED BY
                "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
                atmFabricR1Package  PACKAGE
                        BEHAVIOUR 
                        atmFabricR1Beh BEHAVIOUR
                DEFINED AS
"This object class represents the function of managing the establishment and release of ATM 
cross-connections.

Administrative State:
        -       Unlocked: The atmFabricR1 is allowed to perform its normal functions.  
                ACTIONS will be accepted to set-up, rearrange or remove cross-  
                connections.

        -       Locked: The atmFabricR1 is not allowed to perform its normal functions. No 
                ACTIONS will be accepted. No new cross-connections can be set-up or 
                removed.

Operational State:
        -       Enabled: When the atmFabricR1 is in the enabled operational state, it may be 
                fully  operational or partially operational (partially operational is indicated by 
                the availability status attribute).

        -       Disabled: The atmFabricR1 is incapable of performing its normal function. For 
                instance, the managing system will not be able to setup or remove any 
                cross-connections.

Availability Status:
        The supported values for this attribute are:

        -       Degraded: The atmFabricR1 is degraded in some respect. For instance, the 
                atmFabricR1 cannot perform the function of establishing new cross-
                connections while it can still accept ACTIONS to disconnect existing 
                connections. The atmFabricR1 remains available for service (i.e. its operational 
                state is enabled) while it is degraded.

        -       Empty SET (none of the availableStatus conditions exist).

One instance of the atmFabricR1 object class shall be automatically created by the managed 
system upon completion of system initialization.";;
                        ATTRIBUTES
                                "ITU-T Rec. I.751":atmFabricId
                                        GET,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeState
                                        GET-REPLACE,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":operationalState
                                        GET,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":availabilityStatus
                                        GET;
                        ACTIONS
                                connectR1,
                                "ITU-T Rec. I.751":disconnect;;;
REGISTERED AS {atmfM4ObjectClass atmFabricR1(41)};


atmMpFabricR1 MANAGED OBJECT CLASS
        DERIVED FROM atmFabricR1;
        CHARACTERIZED BY
                atmMpFabricR1Package PACKAGE
                        BEHAVIOUR 
                        atmMpFabricR1Beh BEHAVIOUR
                        DEFINED AS
        "This object class is derived from the atmFabricR1 object class. In addition to all the functionality
         supported by the super classes, this object class manages the establishment and release of 
        multipoint ATM cross connections.
  
Administrative State:
        -       Unlocked:       The atmMpFabricR1 is allowed to perform its normal 
                                                functions. ACTIONS will be accepted to setup or remove 
                                                multipoint cross-connections, or to rearrange multipoint 
                                                cross-connections.

        -       Locked:                 The atmMpFabricR1 is not allowed to perform its normal 
                                                functions. No ACTIONS will be accepted. No new 
                                                multipoint cross-connection can be setup or removed and 
                                                no multipoint connections may be rearranged.

Operational State:
        -       Enabled:                When the atmMpFabricR1 is in the enabled operational state, 
                                                it may be fully operational or partially operational (partially 
                                                operational is indicated by the availability status attribute).

        -       Disabled:               The atmMpFabricR1 is incapable of performing its normal 
                                                function. For instance, the managing system will not be 
                                                able to setup or remove any multipoint cross-connection.
  
Availability Status, the supported values for this attribute are:
        -       Degraded:       The atmMpFabricR1 is degraded in some respect. For 
                                                instance, the atmMpFabricR1 cannot perform the function of 
                                                establishing new cross-connections while it can still accept 
                                                ACTIONs to rearrange existing connections. The 
                                                atmMpFabricR1 remains available for service (i.e. its 
                                                operational state is enabled) while it is degraded. 

        -                       Empty SET (none of the availableStatus conditions exist).";;
                        ACTIONS
                                connectMultipointBridgeR1,
                                disconnectMultipointBridge,
                                addTpsToMultipointBridgeR1,
                                removeTpsFromMultipointBridge;;;
REGISTERED AS {atmfM4ObjectClass atmMpFabricR1(42)};


atmMtpSignPoint MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": top;
  CHARACTERIZED BY
   "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
   atmMtpSignPointPkg PACKAGE
     BEHAVIOUR
      atmMtpSignPointBeh BEHAVIOUR
        DEFINED AS
         "The atmMtpSignPoint object class represents the MTP level functions
         of an ATM signaling entity. Instances of this object are created and
         deleted by a managing system.
         One instance of the atmMtpSignPoint object class is provided for
         each ATM signaling entity within the ATM NE.. Up to four atmMtpSignPoit object instances may exist for
         an ATM NE, but only one may be associated with a bisupSignPoint object instance designated as
          primary.";;
     ATTRIBUTES
      atmMtpSignPointId GET SET-BY-CREATE,
      "ITU-T Rec. Q.751.1 : 1995": pointCode GET SET-BY-CREATE,
      "ITU-T Rec. Q.751.1 : 1995": spType GET SET-BY-CREATE,
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": operationalState GET;
     NOTIFICATIONS
"ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": stateChange;;;
CONDITIONAL PACKAGES
        "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage PRESENT IF "An instance 
supports it",
networkIndicatorPkg PRESENT IF "Multiple signaling networks are supported";

REGISTERED AS {atmfM4ObjectClass atmMtpSignPoint(43)};


atmSaalNniProtocolProfile MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. Q.2751.1": saalNniProtocolProfile;
  CHARACTERIZED BY
   "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
   atmSaalNniProtocolProfilePkg PACKAGE
     BEHAVIOUR
      atmSaalNniProtocolProfileBeh BEHAVIOUR
        DEFINED AS
         "Instances of this object class are used to control the SSCOP and
         SSCF-NNI protocol configuration for ATM signaling links. An instance
         of this object would apply to one or more interoffice signaling
         links. Instances of this object may be created by a managing system
         or by the managed system, but they may only be deleted by a managing
         system. Deletion should be denied if the profile is associated with
         any active signaling links.";;
     ATTRIBUTES
      signMode GET SET-BY-CREATE,
      tSup
        DEFAULT VALUE AtmMIBModV2.tSupNniDefault
       GET SET-BY-CREATE,
      tLoss
        DEFAULT VALUE AtmMIBModV2.tLossNniDefault
       GET SET-BY-CREATE,
      alpha
        DEFAULT VALUE AtmMIBModV2.alphaNniDefault
       GET SET-BY-CREATE,
      thres
        DEFAULT VALUE AtmMIBModV2.thresNniDefault
       GET SET-BY-CREATE,
      tau
        DEFAULT VALUE AtmMIBModV2.tauNniDefault
       GET SET-BY-CREATE,
      nDelay
        DEFAULT VALUE AtmMIBModV2.nDelayNniDefault
       GET SET-BY-CREATE,
      nBlk
        DEFAULT VALUE AtmMIBModV2.nBlkNniDefault
       GET SET-BY-CREATE,
      provingInfo
        DEFAULT VALUE AtmMIBModV2.provingInfoDefault
       GET SET-BY-CREATE;;;
REGISTERED AS {atmfM4ObjectClass atmSaalNniProtocolProfilex(44)};


-- Note that the following class deviates from af-nm-0020.001 in that operationalState is a mandatory attritbute
 -- instead of being optional

atmSignLinkSetTp MANAGED OBJECT CLASS

  DERIVED FROM    "ITU-T Rec. Q.751.1 : 1995": signLinkSetTp;
  CHARACTERIZED BY
   atmSignLinkSetTpPkg PACKAGE
     BEHAVIOUR
      atmSignLinkSetTpBeh BEHAVIOUR
        DEFINED AS
         "Instances of this object class are used to manage a set of
         interoffice signaling links between an Originating Point Code (OPC)
         tht is determined by the superior atmMtpSignPoint object and an
         Adjacent Point Code (ADJ PC) pair. One or more instances of this
         object class exists for each OPC/ADJ PC pair. An ATM signaling link
         set is composed of individual signaling links. All signaling links
         in a link set have the same bandwidth which is determined by the
         traffic characteristics of the ATM VCC used for signaling. Instances
         of this object class are created and deleted by the managing system.
         Instances of this object should not be deleted unless all the
         contained atmSignLinkTp objects have been deleted.
  
         If present, setting the inherited administrativeState attribute to unlocked allows the
         link set to be used. Setting this attribute to locked, prevents all the links in the link
         set from being used except for testing, and it immediately
         terminates any calls using the link set. Setting this attribute to
         shutting down, prevents new calls from using the link set and
         automatically locks the link set after it is no longer being used
         for active calls.

         The vpcisAllowedPkg and vpisAllowedPkg are used where it is
         necessary to restrict the set of VPCIs or VPCs that can be used for
         bearer channels.";;
NOTIFICATIONS
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": communicationsAlarm;;;
CONDITIONAL PACKAGES
   "ITU-T Rec. M.3100 : 1995": tmnCommunicationsAlarmInformationPackage
     PRESENT IF "an instance supports it",
   vpcisAllowedPkg PRESENT IF "an instance supports it",
   vpisAllowedPkg PRESENT IF "an instance supports it";
REGISTERED AS {atmfM4ObjectClass atmSignLinkSetTp(45)};


atmSignLinkTp MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": top;
  CHARACTERIZED BY
   atmSignLinkTpPkg PACKAGE
     BEHAVIOUR
      atmSignLinkTpBeh BEHAVIOUR
        DEFINED AS
         "Instances of this object class each provide information for
         management of one ATM VCC as an interoffice signaling channel.
         Instances of this object class are created and deleted by a managing
         system.
  
         The protocolPointer attribute points to an instance of the
         saalNNIProtocolProfile object that provides information on the SSCOP
         and SSF protocol parameter settings for the signaling link. The
         signDataLink attribute points to the object instance which
         represents common AAL5 functions for the signaling data link. The
         administrativeState attribute allows individual signaling links to
         be activated (unlocked), deactivated (locked), or inhibited
         (shuttingDown). Inhibit allows all calls in progress to complete
         before the link is deactivated.
  
         The tpAndVpciPtrList attribute lists the vpcis and associated
         vpTTPBidirectional objects for the VPCs that carry bearer channels
         controlled by this signaling link. If desired,
         this attribute could be used, for example, to select signaling links
         in the same VPC as the bearer channel.
  
         A communicationsAlarm notification is emitted (optionally) when a
         False Link Congestion condition is detected (Probable Cause
         'falseLinkCongestion'), a Near End Force Link Unavailabel condition
         occurs (Probable Cause 'nearEndForcedLinkUnavailable'), or when Link
         Failure is detected at the MPT3 level (Probable Cause
         'mtp3LinkFailure'). A communicationsAlarm notification is emmitted
         (mandatoy) when an SSCOP Failure occurs (Probable Cause
         'sscopFailure').
         A communications alarm is also emitted when a reported condition is
         cleared. State change notifications emitted by this object class
         should include the SourceIndicator parameter, which indicates if the
         state changes were made by a management system or by internal NE
         activities.";;
     ATTRIBUTES
      atmSignLinkTpId GET SET-BY-CREATE,
      protocolPointer GET SET-BY-CREATE,
      signDataLink GET SET-BY-CREATE,
      "ITU-T Rec. Q.751.1 : 1995": linkTPStatus GET,
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": administrativeState GET-REPLACE,
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": operationalState GET,
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": usageState GET,
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": proceduralStatus GET;
     NOTIFICATIONS
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": communicationsAlarm,
      "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": stateChange;;;
  CONDITIONAL PACKAGES
   "ITU-T Rec. M.3100 : 1995": alarmSeverityAssignmentPointerPackage
     PRESENT IF "an instance supports it",
    "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage 
      PRESENT IF "An instance supports it",
    "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage
      PRESENT IF "An instance supports it",
   "ITU-T Rec. M.3100 : 1995": tmnCommunicationsAlarmInformationPackage
     PRESENT IF "an instance supports it",
   tpAndVpciPtrListPkg PRESENT IF "an instance supports it";
REGISTERED AS {atmfM4ObjectClass atmSignLinkTp(46)};


atmTestAccessFunction MANAGED OBJECT CLASS 
  DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top; 
  CHARACTERIZED BY "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  atmTestAccessFunctionPkg PACKAGE
   BEHAVIOUR 
   atmTestAccessFunctionBeh BEHAVIOUR
   DEFINED AS
" Instances of this object class are used to manage an ATM Test Access Function (ATAF) within the ATM 
NE. An instance of this object represents either a Physical Port Mirroring (PP) or a Virtual Connection 
Access (VC) type of ATAF. A single instance of type VC will be present in all ATM NEs that support virtual 
connection test access. A second instance of type PP will be present only if the ATM NE supports a control 
link interface for physical port mirroring access. Instances of this object class are inherently created and 
deleted by the ATM NE. The type of test access function being managed, PP or VC, is identified by the value 
of the testAccessFunctionType attribute. An instance of this object class will contain one or more instances of 
the tapPP or tap VC object class depending on the value of the atmTestAccessFunctionType attribute. Valid 
values of the administrativeState attribute are unlocked, locked, and shuttingDown. If locked, all test access 
functions of the type represented (PP or VC) are disabled in the ATM NE. If set to shutting down, no new 
connectTap actions may be invoked, and the state will automatically change to locked when all associated 
TAPs are disconnected.";;
   ATTRIBUTES
     atmTestAccessFunctionId 
       GET
       SET-BY-CREATE,
     atmTestAccessFunctionType 
       GET
       SET-BY-CREATE,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeState 
       GET-REPLACE,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":operationalState 
       GET,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":usageState 
       GET;
   ACTIONS
     connectTap;;; 
REGISTERED AS {atmfM4ObjectClass atmTestAccessFunction(33)};


atmTrafficDescriptor MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top;
  CHARACTERIZED BY
   "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
   atmTrafficDescriptorPkg PACKAGE
     BEHAVIOUR
     atmTrafficDescriptorBeh BEHAVIOUR
     DEFINED AS
"An instance of the traffic descriptor object specifies traffic and QoS
parameters for one or more virtual channel or virtual path connections. 
Instances of this object class may be created automatically upon ATM NE initialization and shall be 
created and deleted by management system request.";     ;
     ATTRIBUTES
      atmTrafficDescriptorId GET SET-BY-CREATE,
      serviceCategory GET SET-BY-CREATE,
      conformanceDefinition GET SET-BY-CREATE,
      "ITU-T Rec. I.751":egressPeakCellRate GET SET-BY-CREATE,
      "ITU-T Rec. I.751":ingressPeakCellRate GET SET-BY-CREATE;;;
  CONDITIONAL PACKAGES
   "ITU-T Rec. M.3100": userLabelPackage PRESENT IF "an instance supports it",
   aBRPkg PRESENT IF "service category is ABR",
   aBROptSigPkg PRESENT IF "an instance supports it",
   cBRPkg PRESENT IF "service category is CBR",
   cDVTolerancePCRPkg PRESENT IF "policing is performed on the
     connection",
   vBRPkg PRESENT IF "service category is realtime or non-realtime
     VBR";
REGISTERED AS {atmfM4ObjectClass atmTrafficDescriptor(74)};


bisupAccessPoint MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.283 | ISO/IEC 10733 : 1993": nSAP;
  CHARACTERIZED BY
   bisupAccessPointPkg PACKAGE
     BEHAVIOUR
      bisupAccessPointBeh BEHAVIOUR
        DEFINED AS
         "This object class represent the user part signaling functions
         associated with a single signaling relationship that is identified
         by the value of the pointCode attribute(originating point code) in
         the superior bisupSignPoint object and the value of the dpc
         attribute (destination point code). Instances of this object class
         are created and deleted by a managing system. The BISUP timer
         configuration is specified by the bisupProtocolProfile object
         pointed to by the protocolPointer attribute.
  
         The inherited userEntityNames attribute will be equal to the empty
         set, and the inherited providerEntityNames attribute will point to
         the related mtpAccessPoint object.
  
         The atmOnOccEvent notifications will report the following events:
         Reset timer expiration ProbableCause 'timerExpiry', Reset blocked
         ProbableCause 'atmNeResetOfBlockedVpci', and Remotely initiated
         consistency check results ProbableCause
         'remotelyInitiatedConsistencyCheck'. The Reset timer expiration
         notification will include the VPCI, OPC, DPC, VCI (if needed), and
         SID (if needed)
         in the additionalInformation parameter. The reset blocked
         notification will include the VPCI in the additionalInformation
         parameter. For the Consistency check results notification, the test
         pass or fail results will be included in the additionalInformation
         parameter of the notification.
  
         The reset action is used to return controlled VPCI resources to an
         idle state. The signaling reset function will report a failure to
         reset but will continue attempting to perform the reset until a
         cancelReset is received.
  
         The value of the version attribute will identify the version of the
         BISUP protocol that is being used.";;
     ATTRIBUTES
      "ITU-T Rec. Q.751.1 : 1995": dpc GET SET-BY-CREATE,
      protocolPointer GET SET-BY-CREATE,
      signMode GET SET-BY-CREATE,
      "ITU-T Rec. M.3100 : 1995": version GET-REPLACE;
     ACTIONS
      reset,
      cancelReset;
     NOTIFICATIONS
      atmOnOccEvent;;;
  CONDITIONAL PACKAGES
    "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage 
      PRESENT IF "An instance supports it",
    "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage
      PRESENT IF "An instance supports it",
   nniAccessPointerPkg PRESENT IF "If there is an associated nniAccess object instance",
   bisupInterNniFeaturesPkg PRESENT IF "Destination Point Code is for
     an interconnecting carrier",
   iscPtCodePkg PRESENT IF "ATM NE supports ISC Point Codes";
REGISTERED AS {atmfM4ObjectClass bisupAccessPoint(47)};


bisupSignPoint MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": top;
  CHARACTERIZED BY
   bisupSignPointPkg PACKAGE
     BEHAVIOUR
      bisupSignPointBeh BEHAVIOUR
        DEFINED AS
         "Instances of this object class provide information for management
         of BISUP functions within one ATM signaling entity. An ATM NE may
         contain one or more ATM signaling entities, but only one may be
         designated as primary. Each ATM signaling entity is assigned a
         signaling point code (SPC). Instances of this object are created and
         deleted by the managing system.";;
     ATTRIBUTES
      bisupSignPointId GET SET-BY-CREATE,
      "ITU-T Rec. Q.751.1 : 1995": pointCode GET SET-BY-CREATE,
      primary GET-REPLACE;;;
  CONDITIONAL PACKAGES
    "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage 
      PRESENT IF "An instance supports it",
    "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage
      PRESENT IF "An instance supports it",
   automaticCongestionControlPkg PRESENT IF "an instance supports it";
REGISTERED AS {atmfM4ObjectClass bisupSignPoint(48)};


bisupTimersProfile MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": top;
  CHARACTERIZED BY
   bisupTimersProfilePkg PACKAGE
     BEHAVIOUR
      bisupTimersProfileBeh BEHAVIOUR
        DEFINED AS
         "Instances of this object class are used to set the values of timers
         used in the BISUP layer protocol. Instances of this object may be
         created by either a managing system or the ATM NE. Instances may be
         deleted only by the managing system, and only if the timer profile
         is not being referenced by a bisupAccessPoint object. One instance
         of this object class is created for each combination of BISUP timer
         values that is to be used within an ATM NE.";;
     ATTRIBUTES
      bisupTimersProfileId GET SET-BY-CREATE,
      t1b GET SET-BY-CREATE,
      t4b GET SET-BY-CREATE,
      t7b GET SET-BY-CREATE,
      t12b GET SET-BY-CREATE,
      t14b GET SET-BY-CREATE,
      t16b GET SET-BY-CREATE,
      t17b GET SET-BY-CREATE,
      t34b GET SET-BY-CREATE,
      t40b GET SET-BY-CREATE,
      t41b GET SET-BY-CREATE,
      t42b GET SET-BY-CREATE;;;
  CONDITIONAL PACKAGES
    "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage
      PRESENT IF "An instance supports it";
REGISTERED AS {atmfM4ObjectClass bisupTimersProfile(49)};


cellHeaderAbnormalityLogRecord MANAGED OBJECT CLASS 
        DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":logRecord; 
        CHARACTERIZED BY 
                cellHeaderAbnormalityLogRecordPkg PACKAGE
                        BEHAVIOUR 
                        cellHeaderAbnormalityLogRecordBeh BEHAVIOUR
                        DEFINED AS
" The cellHeaderAbnormalityLogRecord object class is a class of managed support objects used to 
log information that describes ATM cell header protocol abnormality events detected by the 
managed system. 

Attributes have been defined so that each record of the log conveys the following information: 

        •       Abnormality Type (Unassigned VPI/VCI Value, or Out-of-Range VPI/VCI 
                Value) 
        •       VPI/VCI Value 
        •       ATM Interface (i.e., pointer to the associated uni, interNNI, or intraNNI 
                object)
        •       Date and Time of Log Entry 

The latestOccurrenceLog containing this managed object class shall have the keyAttributeList 
attribute set to include cellHeaderAbnormalityType and interfacePointer.

Instances of this managed object class shall exist  to record the latest occurrence of each 
abnormality type per UNI, Inter-NNI, and Intra-NNI. Therefore, the maximum number of instances 
of this object class that can exist in the managed system is equal to twice the number of interfaces 
supported by the managed system. As new instances of this managed object class are created by the 
managed system, previous instances with the same cellHeaderAbnormalityType and 
interfacePointer attribute values shall be automatically deleted.";;
                        ATTRIBUTES
                                cellHeaderAbnormalityType 
                                        GET,
                                interfacePointer
                                        GET,
                                vpiValue 
                                        GET,
                                vciValue 
                                        GET;;; 
REGISTERED AS {atmfM4ObjectClass 5};

congestionDiscardCurrentData MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. Q.822": currentData;
  CHARACTERIZED BY
   congestionDiscardCurrentDataPkg PACKAGE
     BEHAVIOUR
      congestionDiscardCurrentDataBeh BEHAVIOUR
        DEFINED AS
         "Each instance of this object class allows monitoring congestion-based cell discards. 
         One instance of this object class is provided for each uni, interNniR1, and intraNniR1 object that is to
         be monitored. Instances of this object may be created and deleted by either the managed or managing
         system.";;
     ATTRIBUTES
      allCellsDiscarded
        REPLACE-WITH-DEFAULT
        DEFAULT VALUE AtmMIBModV2.integerZero
       GET,
      priorityCellsDiscarded
        REPLACE-WITH-DEFAULT
        DEFAULT VALUE AtmMIBModV2.integerZero
       GET;;;
REGISTERED AS {atmfM4ObjectClass congestionDiscardCurrentData(50)};

congestionDiscardHistoryData MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. Q.822": historyData;
  CHARACTERIZED BY
   congestionDiscardHistoryDataPkg PACKAGE
     BEHAVIOUR
      congestionDiscardHistoryDataBeh BEHAVIOUR
        DEFINED AS
         "Each instance of this object class contains the past performance
         monitoring data on congestion discards collected by a
         congestionDiscardCurrentData object. Instances of this object class are
         created and deleted by the managed system according to the value of
         the historyRetention attribute specified in the associated
         congestionDiscardCurrentData object.";;
     ATTRIBUTES
      allCellsDiscarded GET,
      priorityCellsDiscarded GET;;;
REGISTERED AS {atmfM4ObjectClass congestionDiscardHistoryData(51)};


diagnosticControl MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": top;
  CHARACTERIZED BY
   diagnosticControlPkg PACKAGE
     BEHAVIOUR
      diagnosticControlBeh BEHAVIOUR
        DEFINED AS
         " The diagnosticControl object class is a class of
         support objects that specify the type of diagnostic
         routine (by the diagnosticType attribute) to be
         performed on a set of managed objects (by the
         diagnosticObjectList attribute), for example, of object
         class equipment (or its subclasses). 

         Instances of this object class are created and deleted by 
         the managing system, but they must refer to a type
         of diagnostic supported by the ATM NE.

         The schedule of the diagnostic routine may be specified by an instance of
         the ITU-T Rec. Q.821 managementOperationsSchedule object class. The
         managementOperationsSchedule object references the diagnosticControl object by using the
         affectedObjectInstances attribute. At the completion of
         each scheduled diagnostic, a scheduledDiagnosticReport
         notification will be emitted from the diagnosticControl
         object to report the result of the diagnostic to the
         system that is identified in the destinationAddress
         attribute of the associated managementOperationsSchedule
         object. In the scheduledDiagnosticReport notification,
         result of each diagnosed instance shall be reported. ";;
     ATTRIBUTES
      diagnosticControlId GET SET-BY-CREATE,
      diagnosticType GET-REPLACE,
      diagnosticObjectList GET-REPLACE ADD-REMOVE,
      diagnosticTerminateMode GET-REPLACE,
      diagnosticReportMode GET-REPLACE;
     ACTIONS
      invokeDiagnosticControl;
     NOTIFICATIONS
      diagnosticReport;;;
  CONDITIONAL PACKAGES
    "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage 
      PRESENT IF "An instance supports it",
    "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage
      PRESENT IF "An instance supports it",
    reportDiagnosticStatusPkg PRESENT IF "an instance supports the capability 
     of reporting the status of diagnostic tests in-progress.",
    abortDiagnosticPkg PRESENT IF "an instance supports the capability
     of terminating outstanding diagnosis.";
REGISTERED AS {atmfM4ObjectClass diagnosticControl(52)};


directoryNumberAESA     MANAGED OBJECT CLASS
        DERIVED FROM    "ITU-T Rec. Q.824.0":directoryNumber;
        CHARACTERIZED BY
                "ITU-T Rec. Q.824.6":customerProfilePointersBehPkg,
                directoryNumberAESAPkg PACKAGE
                        BEHAVIOUR 
directoryNumberAESABeh BEHAVIOUR
                        DEFINED AS
"This managed object class represents an ATM endsystem address (AESA) based on 
ISO NSAP according to the ATM Forum UNI 4.0 Signalling Specification. A 
complete AESA directory number comprises 40 digits. However the 
aesaDirectoryNumber attribute may comprise less than 40 digits if and only if it is 
used in the context of DDI. The AESA Directory Number is updated implicitely if the 
attribute values of the referenced localDestination object are modified. The 
routingBlockPtrPkg inherited from the directoryNumber object class shall not be 
present. At most one entry shall be contained in the customizedResourcePtrList. ";;
                        ATTRIBUTES
                                aesaDirectoryNumber
                                        GET SET-BY-CREATE,
                                "ITU-T Rec. Q.824.6":localDestinationPtr
                                        GET SET-BY-CREATE; ; ;
REGISTERED AS {atmfM4ObjectClass directoryNumberAESA(53)};


ds3PLCPPathCTPBidirectional MANAGED OBJECT CLASS
        DERIVED FROM    ds3PLCPPathCTPSink,
                                                        ds3PLCPPathCTPSource,
                                                        "ITU-T Rec. M.3100 : 1995": connectionTerminationPointBidirectional;
        CHARACTERIZED BY
                ds3PLCPPathCTPBidirectionalPkg  PACKAGE
                        BEHAVIOUR 
                        ds3PLCPPathCTPBidirectionalBeh BEHAVIOUR
                        DEFINED AS
"This object class represents a termination point where a DS3 PLCP link connection is both 
originated and terminated. 

The downstreamConnectivityPointer and upstreamConnectivityPointer attributes point to an 
instance of the ds3PLCPPathTTPBidirectional object class. 

The supportedByObjectList attribute, inherited from the terminationPoint object class, shall be set 
equal to the empty set.";;;;
REGISTERED AS {atmfM4ObjectClass 8};


ds3PLCPPathCTPSink MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. M.3100 : 1995": connectionTerminationPointSink;
        CHARACTERIZED BY
                ds3PLCPPathCTPSinkPkg   PACKAGE
                        BEHAVIOUR 
                        ds3PLCPPathCTPSinkBeh BEHAVIOUR
                        DEFINED AS
"This object class represents a termination point where a DS3 PLCP link connection is terminated. 

This object class is used for inheritance purposes only.";;
                        ATTRIBUTES
                                ds3PLCPPathCTPId
                                        GET;;;
REGISTERED AS {atmfM4ObjectClass 9};


ds3PLCPPathCTPSource MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. M.3100 : 1995": connectionTerminationPointSource;
        CHARACTERIZED BY
                ds3PLCPPathCTPSourcePkg PACKAGE
                        BEHAVIOUR 
                        ds3PLCPPathCTPSourceBeh BEHAVIOUR
                        DEFINED AS
"This object class represents a termination point where a DS3 PLCP link connection is originated. 

This object class is used for inheritance purposes only.";;
                        ATTRIBUTES
                                ds3PLCPPathCTPId
                                        GET;;;
REGISTERED AS {atmfM4ObjectClass 10};


ds3PLCPPathTTPBidirectional MANAGED OBJECT CLASS
        DERIVED FROM    ds3PLCPPathTTPSink,
                                                        ds3PLCPPathTTPSource,
                                                        "Bellcore GR-836":ds3PathTTPBidirectional;
        CHARACTERIZED BY
                ds3PLCPPathTTPBidirectionalPkg  PACKAGE
                        BEHAVIOUR 
                        ds3PLCPPathTTPBidirectionalBeh BEHAVIOUR
                        DEFINED AS
"This object class represents a termination point where a DS3 PLCP trail is both originated and 
terminated. 

The downstreamConnectivityPointer and upstreamConnectivityPointer attributes point to an 
instance of the ds3PLCPPathCTPBidirectional object class. 

The supportedByObjectList attribute, inherited from the terminationPoint object class, shall point 
to the supporting instance of the ds3PathTTPBidirectional object class. This attribute may also 
point to the equipment object that supports the DS3 PLCP trail termination point.

The tmnCommunicationsAlarmInformationPackage shall be used to report loss-of-frame events 
and the clearing of these events.";;;;
REGISTERED AS {atmfM4ObjectClass 11};


ds3PLCPPathTTPSink MANAGED OBJECT CLASS
        DERIVED FROM "Bellcore GR-836":ds3PathTTPSink;
        CHARACTERIZED BY
                ds3PLCPPathTTPSinkPkg   PACKAGE
                        BEHAVIOUR 
                        ds3PLCPPathTTPSinkBeh BEHAVIOUR
                        DEFINED AS
"This object class represents a termination point where a DS3 PLCP trail is terminated. 

This object class is used for inheritance purposes only.";;;;
REGISTERED AS {atmfM4ObjectClass 12};


ds3PLCPPathTTPSource MANAGED OBJECT CLASS
        DERIVED FROM "Bellcore GR-836":ds3PathTTPSource;
        CHARACTERIZED BY
                ds3PLCPPathTTPSourcePkg PACKAGE
                        BEHAVIOUR 
                        ds3PLCPPathTTPSourceBeh BEHAVIOUR
                        DEFINED AS
"This object class represents a termination point where a DS3 PLCP trail is originated. 

This object class is used for inheritance purposes only.";;;;
REGISTERED AS {atmfM4ObjectClass 13};


dss2SignChannelTp       MANAGED OBJECT CLASS
        DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top; 
        CHARACTERIZED BY
                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage,
                "ITU-T Rec. Q.824.6":signallingChannelPtrPkg,
                "ITU-T Rec. M.3100 : 1995":tmnCommunicationsAlarmInformationPackage,
                "ITU-T Rec. M.3100 : 1995":alarmSeverityAssignmentPointerPackage,
                "ITU-T Rec. Q.824.6":customerProfilePointersBehPkg,
                dss2SignChannelTpPkg PACKAGE
                        BEHAVIOUR 
dss2SignChannelTpBeh    BEHAVIOUR
                        DEFINED AS
"This managed object class provides information about the configuration of an ATM 
VCC as an access signalling channel, and provides notifications needed for 
management of the signalling channel.
The 'operationalState' attribute indicates if SSCOP, SSCF, and DSS2 functions of the 
access signalling channel are enabled (available for service) or disabled (not available 
for service).";;
                        ATTRIBUTES
                                dss2SignChannelTpId
                                        GET SET-BY-CREATE,
                                addrPresentationFormat
                                        DEFAULT VALUE 
AtmMIBModV2.addrPresentationFormatDefault
                                        GET-REPLACE
                                        ADD-REMOVE,
                                "ITU-T Rec. Q.824.6":connectionIdOffering
                                        DEFAULT VALUE AtmMIBModV2.connectionIdOfferingDefault
                                        GET-REPLACE,
                                "ITU-T Rec. Q.824.6":customerProfilePtr
                                        DEFAULT VALUE AtmMIBModV2.defaultNULL 
                                        GET-REPLACE,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":operationalState
                                        GET,
                                "ITU-T Rec. Q.824.6":signallingStandard
                                        GET-REPLACE,
                                "ITU-T Rec. Q.824.6":tpAndVpciPtrList 
                                        GET-REPLACE 
                                        ADD-REMOVE;
                        ACTIONS
                                restartSvcs;
                        NOTIFICATIONS
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": stateChange,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": attributeValueChange,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": objectCreation,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": objectDeletion;;;
        CONDITIONAL PACKAGES
                accessSignallingFeaturesPkg
                        PRESENT IF "supported by the managed system and supplied by the managing 
system.";
REGISTERED AS {atmfM4ObjectClass dss2SignChannelTp(54)};


interNNIR1 MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. I.751": interNNI;
  CHARACTERIZED BY
    interNNIR1Pkg PACKAGE
     BEHAVIOUR
       interNNIR1Beh BEHAVIOUR
        DEFINED AS
         "The interNNIR1 object class adds the optional farEndCarrierNetwork attribute and optional attribute
           value change notification to the ITU-T Rec. I.751 interNNI object class.";;;;
CONDITIONAL PACKAGES
        "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage PRESENT IF "An instance 
supports it",
        farEndCarrierNetworkPkg PRESENT IF "call processing functions supporting SVC exchange access
                                     service over the Inter-NNI are performed in the managed system";
REGISTERED AS {atmfM4ObjectClass interNNIR1(55)};


intraNNIR1 MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. I.751": intraNNI;
  CHARACTERIZED BY
    intraNNIR1Pkg PACKAGE
     BEHAVIOUR
       intraNNIR1Beh BEHAVIOUR
        DEFINED AS
         "The intraNNIR1 object class adds the optional attribute value
           change notification to the ITU-T Rec. I.751 intraNNI object class.";;;;
CONDITIONAL PACKAGES
        "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage PRESENT IF "An instance 
supports it";

REGISTERED AS {atmfM4ObjectClass intraNNIR1(56)};


j2CTPBidirectional   MANAGED OBJECT CLASS
 DERIVED FROM  
  "ITU-T Rec. M.3100 : 1995":connectionTerminationPointBidirectional,
  j2CTPSink,
  j2CTPSource;
REGISTERED AS {atmfM4ObjectClass j2CTPBidirectional(57) };
 

j2CTPSink   MANAGED OBJECT CLASS
 DERIVED FROM 
 "ITU-T Rec. M.3100 : 1995":connectionTerminationPointSink;
 CHARACTERIZED BY  
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  j2CTPSinkPkg PACKAGE
  BEHAVIOUR 
  j2CTPSinkBeh   BEHAVIOUR
  DEFINED AS  "
This managed object represents a termination point where the J2 link connection is terminated.

A change in the value of the operationalState attribute in the inherited operationalStatePackage shall cause a 
stateChange notification if this attribute is present.

A change in the value of any of the following attributes, provided the attribute is present in the managed 
object, shall cause an attributeValueChange notification:

supportedByObjectList (inherited)
downstreamConnectivityPointer (inherited)
alarmStatus (in the inherited tmnCommunicationsAlarmInformationPackage)
currentProblemList (in the inherited tmnCommunicationsAlarmInformationPackage)
alarmSeverityAssignmentProfilePointer (in the inherited alarmSeverityAssignmentPointerPackage)
channelNumber (in the inherited channelNumberPackage)";         ;
  ATTRIBUTES  
   j2CTPId 
      GET;;;
REGISTERED AS {atmfM4ObjectClass j2CTPSink(58) };
 

j2CTPSource   MANAGED OBJECT CLASS
 DERIVED FROM 
  "ITU-T Rec. M.3100 : 1995":connectionTerminationPointSource;
 CHARACTERIZED BY  
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":availabilityStatusPackage,  -- Additional Package
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  j2CTPSourcePkg PACKAGE
  BEHAVIOUR 
  j2CTPSourceBeh   BEHAVIOUR
  DEFINED AS  "
This managed object represents a termination point where the J2 link connection is originated.

A change in the value of the operationalState attribute in the inherited 
operationalStatePackage shall cause a stateChange notification if this attribute is present.

A change in the value of any of the following attributes, provided the attribute is present
in the managed object, shall cause an attributeValueChange notification:

supportedByObjectList (inherited)
upstreamConnectivityPointer (inherited)
alarmStatus (in the inherited tmnCommunicationsAlarmInformationPackage)
currentProblemList (in the inherited tmnCommunicationsAlarmInformationPackage)
alarmSeverityAssignmentProfilePointer (in the inherited alarmSeverityAssignmentPointerPackage)
channelNumber (in the inherited channelNumberPackage)";         ;
  ATTRIBUTES  
   j2CTPId
    GET;;;
REGISTERED AS {atmfM4ObjectClass j2CTPSource(59) };


j2LineTTPBidirectional   MANAGED OBJECT CLASS
 DERIVED FROM  
  "ITU-T Rec. M.3100 : 1995":trailTerminationPointBidirectional,
  j2LineTTPSink,
  j2LineTTPSource;
 CONDITIONAL PACKAGES
  "Bellcore GR-836":loopbackPkg PRESENT IF "an instance is used as a Facility
    Access Digroup (FAD) or a Test Access Digroup (TAD)",
  "Bellcore GR-836":loopbackEnablePkg PRESENT IF "the loopbackPkg package
    is present and an instance supports it";
REGISTERED AS {atmfM4ObjectClass j2LineTTPBidirectional(60)};
 

 j2LineTTPSink   MANAGED OBJECT CLASS
 DERIVED FROM         "ITU-T Rec. M.3100 : 1995":trailTerminationPointSink;
 CHARACTERIZED BY  
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage,
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":availabilityStatusPackage,  -- Additional Package
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":tmnCommunicationsAlarmInformationPackage, 
 j2LineTTPSinkPkg PACKAGE
  BEHAVIOUR 
  j2LineTTPSinkBeh   BEHAVIOUR
  DEFINED AS  "
This managed object represents a termination point where the digital J2 signal (6.312 Mbps) is terminated.

A communicationsAlarm notification shall be emitted if a loss of signal (LOS) condition is detected. The 
probableCause parameter of the notification shall indicate M.3100: lossOfSignal.

A communicationsAlarm notification shall be emitted if a physical layer Alarm Indication Signal(AIS) 
condition is detected. 
The probableCause parameter of the notification shall indicate M.3100: aIS. 

A change in the value of the administrativeState attribute (in the administrativeStatePackage, 
which is defined in the system object class in Rec. X.721 | ISO/IEC 10165-2) 
shall cause a stateChange notification.

A change in the value of any of the following attributes, provided the attribute is present in the managed 
object, shall cause an attributeValueChange notification:

supportedByObjectList (inherited)
networkLevelPointer (in the inherited networkLevelPackage)
alarmStatus (in the inherited tmnCommunicationsAlarmInformationPackage)
currentProblemList (in the inherited tmnCommunicationsAlarmInformationPackage)
alarmSeverityAssignmentProfilePointer (in the inherited alarmSeverityAssignmentPointerPackage)
supportableClientList (in the inherited supportableClientListPackage)
lineBuildOut (in the lineBuildOutPkg)

The termination point should be placed in the locked administrativeState before the change.";;
  ATTRIBUTES  
   j2LineTTPId  
     GET;;;
 CONDITIONAL PACKAGES  
  "Bellcore GR-836":lineCircuitAddressPkg PRESENT IF "the supporting equipment object (identified by the 
inherited supportedByObjectList attribute) supports multiple instances of this object class";
REGISTERED AS {atmfM4ObjectClass j2LineTTPSink(61)};
 

     j2LineTTPSinkCurrentData MANAGED OBJECT CLASS
  DERIVED FROM "ITU-T Rec. Q.822":currentData;
  CHARACTERIZED BY 
  "ANSI T1.247 : 1995":eSPkg,
  j2LineTTPSinkCurrentDataPkg PACKAGE
  BEHAVIOUR 
  j2LineTTPSinkCurrentDataBehaviour BEHAVIOUR
  DEFINED AS
  "The j2LineTTPSinkCurrentData object class is a class of managed
support object that is used to monitor performance parameter aspects of J2
  LineTTPs.
   Instances of this object class may be created either by a managing system or
   automatically by a managed system. These are contained in the observed 
   trail termination point object at the J2 rate.";;;;
  CONDITIONAL PACKAGES
   "ANSI T1.247 : 1995":cVPkg
        PRESENT IF "an instance supports it.",
   "ANSI T1.247 : 1995":sESPkg
        PRESENT IF "an instance supports it.";
    REGISTERED AS {atmfM4ObjectClass j2LineTTPSinkCurrentData(62)};

    j2LineTTPSinkHistoryData MANAGED OBJECT CLASS
  DERIVED FROM "ITU-T Rec. Q.822":historyData;
  CHARACTERIZED BY 
  "ANSI T1.247 : 1995":eSHistoryPkg,
  j2LineTTPSinkHistoryDataPkg PACKAGE
  BEHAVIOUR 
  j2LineTTPSinkHistoryDataBehaviour BEHAVIOUR
  DEFINED AS
  "Instance of this object class are used to store the observed
  measurements of the superior j2LineTTPSinkCurrentData object 
  at the end of an observation interval.";;;;
  CONDITIONAL PACKAGES
   "ANSI T1.247 : 1995":cVHistoryPkg
         PRESENT IF "an instance supports it.",
   "ANSI T1.247 : 1995":sESHistoryPkg
         PRESENT IF "an instance supports it.";
  REGISTERED AS {atmfM4ObjectClass j2LineTTPSinkHistoryData(63)};

j2LineTTPSource   MANAGED OBJECT CLASS
 DERIVED FROM         "ITU-T Rec. M.3100 : 1995":trailTerminationPointSource;
 CHARACTERIZED BY  
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage,
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":availabilityStatusPackage,  -- Additional Package
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  j2LineTTPSourcePkg PACKAGE
  BEHAVIOUR 
  j2LineTTPSourceBeh   BEHAVIOUR
  DEFINED AS  "
This managed object represents a termination point where the digital J2 signal (6.312 Mbps) is originated.

The inherited downstreamConnectivityPointer attribute shall have the value NULL for this managed object.

A change in the value of the administrativeState attribute (in the administrativeStatePackage,
which is defined in the system object class in Rec. X.721 | ISO/IEC 10165-2) shall cause a stateChange 
notification.

A change in the value of any of the following attributes, provided the attribute is present in
the managed object, shall cause an attributeValueChange notification:

supportedByObjectList (inherited)
alarmStatus (in the inherited tmnCommunicationsAlarmInformationPackage)
currentProblemList (in the inherited tmnCommunicationsAlarmInformationPackage)
alarmSeverityAssignmentProfilePointer (in the inherited alarmSeverityAssignmentPointerPackage)
supportableClientList (in the inherited supportableClientListPackage)
lineBuildOut (in the lineBuildOutPkg)
tPTimingSource (in the tPTimingSourcePkg)

The termination point should be placed in the locked administrativeState
before the change.";         ;
  ATTRIBUTES  
   j2LineTTPId 
    GET;;;
 CONDITIONAL PACKAGES  
  "Bellcore GR-836":lineCircuitAddressPkg PRESENT IF "the supporting 
   equipment object (identified by the inherited supportedByObjectList attribute) supports multiple instances of 
this object class",
  "Bellcore GR-836":tPTimingSourcePkg PRESENT IF "an instance supports it",
  "Bellcore GR-836":lineBuildOutPkg PRESENT IF "an instance supports it";
REGISTERED AS {atmfM4ObjectClass j2LineTTPSource(64)};


j2PathTTPBidirectional MANAGED OBJECT CLASS
 DERIVED FROM  
  "ITU-T Rec. M.3100 : 1995":trailTerminationPointBidirectional,
  j2PathTTPSink,
  j2PathTTPSource;
REGISTERED AS {atmfM4ObjectClass j2PathTTPBidirectional(65)};
 

j2PathTTPSink   MANAGED OBJECT CLASS
 DERIVED FROM         "ITU-T Rec. M.3100 : 1995":trailTerminationPointSink;
 CHARACTERIZED BY  
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":availabilityStatusPackage,  -- Additional Package
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage,
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":tmnCommunicationsAlarmInformationPackage,
 j2PathTTPSinkPkg PACKAGE
  BEHAVIOUR 
  j2PathTTPSinkBeh   BEHAVIOUR
  DEFINED AS  "
This managed object represents a termination point where the J2 framed path trail (6.312 Mbps) is terminated, 
i.e., the J2 path overhead is removed from the incoming signal and processed.

A communicationsAlarm notification shall be emitted if a loss of frame (LOF) condition is detected. 
The probableCause parameter of the notification shall indicate M.3100: lossOfFrame.

A communicationsAlarm notification shall be emitted if a J2 path alarm indication 
signal (AIS) condition is detected. 
The probableCause parameter of the notification shall indicate M.3100:aIS.

A communicationsAlarm notification shall be emitted if a yellow-alarm
signal condition is detected. 
The probableCause parameter of the notification shall indicate
 M.3100:transmissionError.

A change in the value of the administrativeState attribute (in the administrativeStatePackage, which is defined 
in the system object class in Rec. X.721 | ISO/IEC 10165-2) shall cause a stateChange notification.

A change in the value of any of the following attributes, provided the attribute is present in the managed 
object, shall cause an attributeValueChange notification:

supportedByObjectList (inherited)
upstreamConnectivityPointer (inherited)
alarmStatus (in the inherited tmnCommunicationsAlarmInformationPackage)
currentProblemList (in the inherited tmnCommunicationsAlarmInformationPackage)
alarmSeverityAssignmentProfilePointer (in the inherited alarmSeverityAssignmentPointerPackage)
supportableClientList (in the inherited supportableClientListPackage)
The termination point should be placed in the locked administrativeState
before the change.";         ;
  ATTRIBUTES  
   j2PathTTPId
      GET;;;
REGISTERED AS {atmfM4ObjectClass j2PathTTPSink(66)};


    j2PathTTPSinkCurrentData MANAGED OBJECT CLASS
  DERIVED FROM "ITU-T Rec. Q.822":currentData;
  CHARACTERIZED BY
  "ANSI T1.247 : 1995":cVPkg,
  "ANSI T1.247 : 1995":eSPkg,
  "ANSI T1.247 : 1995":sESPkg,
  "ANSI T1.247 : 1995":uASPkg,
  fCPkg,           -- added package
  j2PathTTPSinkCurrentDataPkg PACKAGE
  BEHAVIOUR j2PathTTPSinkCurrentDataBehaviour BEHAVIOUR
  DEFINED AS
  "The j2PathTTPSinkCurrentData object class is a class of managed support object 
  that is used to monitor performance aspects of J2 path TTPs.
  Instances of this object class may be created either by a managing system or  
  automatically by a managed system. These are contained in the observed trail
  termination point object at the J2 rate.";;;;
   REGISTERED AS {atmfM4ObjectClass j2PathTTPSinkCurrentData(67)};

    j2PathTTPSinkHistoryData MANAGED OBJECT CLASS
  DERIVED FROM "ITU-T Rec. Q.822":historyData;
  CHARACTERIZED BY 
  "ANSI T1.247 : 1995":cVHistoryPkg,
  "ANSI T1.247 : 1995":eSHistoryPkg,
  "ANSI T1.247 : 1995":sESHistoryPkg,
  "ANSI T1.247 : 1995":uASHistoryPkg,
  fCHistoryPkg, 
  j2PathTTPSinkHistoryDataPkg PACKAGE
  BEHAVIOUR 
  j2PathTTPSinkHistoryDataBehaviour BEHAVIOUR
  DEFINED AS
  "Instances of this object class are used to store the observed measurements of the
  observed J2PathTTPSinkCurrentData object at the end of an observation interval.";;;;
  REGISTERED AS {atmfM4ObjectClass j2PathTTPHistoryData(68)};

j2PathTTPSource   MANAGED OBJECT CLASS
 DERIVED FROM         "ITU-T Rec. M.3100 : 1995":trailTerminationPointSource;
 CHARACTERIZED BY  
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":availabilityStatusPackage,  -- Additional Package
  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage,
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  j2PathTTPSourcePkg PACKAGE
  BEHAVIOUR 
  j2PathTTPSourceBeh   BEHAVIOUR
  DEFINED AS  "
This managed object represents a termination point where the J2 framed path trail is originated, i.e., the J2 
path overhead is generated and added to the outgoing signal.

A change in the value of the administrativeState attribute (in the administrativeStatePackage, which is defined 
in the system object class in Rec. X.721 | ISO/IEC 10165-2) shall cause a stateChange notification.

A change in the value of any of the following attributes, provided the attribute is present in the managed 
object, shall cause an attributeValueChange notification:

supportedByObjectList (inherited)
downstreamConnectivityPointer (inherited)
alarmStatus (in the inherited tmnCommunicationsAlarmInformationPackage)
currentProblemList (in the inherited tmnCommunicationsAlarmInformationPackage)
alarmSeverityAssignmentProfilePointer (in the inherited alarmSeverityAssignmentPointerPackage)
supportableClientList (in the inherited supportableClientListPackage)";         ;
  ATTRIBUTES  
   j2PathTTPId  
       GET;;;
REGISTERED AS {atmfM4ObjectClass j2PathTTPSource(69)};


latestOccurrenceLog MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":log;
        CHARACTERIZED BY
                latestOccurrenceLogPkg  PACKAGE
                        BEHAVIOUR 
                        latestOccurrenceLogBeh BEHAVIOUR
                        DEFINED AS
"The latestOccurrenceLog object class is a specialization of the log object class. New behaviour 
introduced in this object class includes the ability to store log records based on the keyAttributeList 
attribute. Specifically, log records shall be automatically created and deleted such that for each 
keyAttributeList value, only the latest log record exists.

The inherited maxLogSize attribute of an instance of the latestOccurrenceLog object must be large 
enough to contain all possible combinations of values that can be placed on the attributes identified 
by the keyAttributeList attribute.";;
                        ATTRIBUTES
                                keyAttributeList
                                        GET;;;
REGISTERED AS {atmfM4ObjectClass latestOccurrenceLog(16)};


mtpAccessPointR1 MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. Q.2751.1": mtpAccessPoint;
  CHARACTERIZED BY
   mtpAccessPointR1Pkg PACKAGE
     BEHAVIOUR
     mtpAccessPointR1Beh BEHAVIOUR
        DEFINED AS
         "This object class provides information on an MTP signaling entity. It adds an optional 
          attributeValueChange notification. The inherited providerEntityNames
         attribute may be used to identify associated atmSignLinkSetTp objects.";;;;
CONDITIONAL PACKAGES
    "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage 
      PRESENT IF "An instance supports it";
REGISTERED AS {atmfM4ObjectClass mtpAccessPointR1(70)};


multipointBridge MANAGED OBJECT CLASS 
        DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top; 
        CHARACTERIZED BY 
                "ITU-T Rec. M.3100 : 1995": createDeleteNotificationsPackage,
                "ITU-T Rec. M.3100 : 1995": attributeValueChangeNotificationPackage,
                "ITU-T Rec. M.3100 : 1995": stateChangeNotificationPackage,
                multipointBridgePkg PACKAGE
                        BEHAVIOUR 
                        multipointBridgeBeh BEHAVIOUR
                        DEFINED AS
" The multipointBridge object class is a class of managed objects that represent the multipoint 
bridging function used to support multipoint VP/VC cross-connections.  An instance of this object 
class shall exist for each multipoint VP/VC cross-connection supported by the managed system.

Instances of this object class shall be explicitly created and deleted by the managing system using 
the CMIS M-CREATE and M-DELETE services, respectively. Instances of this object class shall 
not be deleted until all associated instances of the atmCrossConnection object class are also 
deleted. When explicitly created by a managing system, the primaryCTP and 
multipointConnectionType attributes shall be set to NULL and the commonCTPs attribute shall be 
set to the EMPTY SET. 

This object class is used to support four types of multipoint VP/VC connections. They are as 
follows: 

        •       broadcast 
        •       merge 
        •       composite 
        •       full multipoint 

The primaryCTP attribute identifies the vpCTPBidirectionalR1 or vcCTPBidirectionalR1 object 
that generates traffic to broadcast and/or receives merged traffic for broadcast, merge, or composite 
multipoint cross-connection types.  For full multipoint connections (i.e., all legs communicate with 
all other legs), the value of this attribute shall be set to NULL. The primaryCTP attribute value 
shall remain fixed during the life of the multipoint cross-connection.

The commonCTPs attribute identifies all legs of the multipoint connection except the leg identified 
via the primaryCTP attribute.  This attribute provides a pointer to one or more instances of the 
vpCTPBidirectionalR1 object class or vcCTPBidirectionalR1 object class. For full multipoint 
cross-connections, all the legs of the multipoint cross-connection shall be identified by this 
attribute. The legs represented by the commonCTPs attribute may be added or removed from an 
existing multipoint connection by performing the addTpsToMultipointBridge and 
removeTpsFromMultipointBridge operations, respectively, on the appropriate instance of the 
atmMpFabric object class. 

The administrativeState attribute may be used by the management system to inhibit (lock) and 
allow (unlock) ATM cell flow through all multipoint cross-connections supported by the 
multipointBridge.";;
                        ATTRIBUTES
                                multipointBridgeId 
                                        GET,
                                "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": administrativeState 
                                        GET-REPLACE,
                                primaryCTP 
                                        GET,
                                commonCTPs 
                                        GET,
                                multipointConnectionType 
                                        GET;;; 
REGISTERED AS {atmfM4ObjectClass multipointBridge(17)};


pduLogRecord MANAGED OBJECT CLASS 
  DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":logRecord; 
  CHARACTERIZED BY pduLogRecordPkg PACKAGE
   BEHAVIOUR 
   pduLogRecordBeh BEHAVIOUR
   DEFINED AS
" Instances of this object class are used to capture transmitted and received protocol data units (PDUs), e.g., 
SSCOP received and transmitted PDUs. These log records are used to provide information about PDUs for 
fault and performance trouble analysis. Instances of this object class are created and deleted by the ATM NE. 
An instance of this record is created by the managed system for each PDU that is to be logged. A separate 
instance of the superior log object class shall be created for each monitored entity, e.g., a signaling channel. 
A single log should be used for received PDUs, transmitted PDUs, and any associated 
timerExpirationLogRecord objects. When the log becomes full, the newest log record should replace the 
oldest one regardless of type. The inherited loggingTime attribute identifies the time that the record was 
entered into the log. It shall be accurate to the nearest millisecond. This time must preserve the actual 
sequence of events. The sourceEntity attribute is a pointer to a managed object that represents the source of 
the PDU being logged, e.g., a signaling channel. The eventType attribute identifies the type of event or 
abnormality, if any, that caused logging of the PDU. The pduOctets attribute contains the entire contents of 
the received or transmitted PDU.";;
   ATTRIBUTES
     sourceEntity 
       GET,
     eventType 
       GET,
     pduOctets 
       GET;;; 
REGISTERED AS {atmfM4ObjectClass pduLogRecord(34)};


signVCTTPBidirectional MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. I.751": vcTTPBidirectional;
  CHARACTERIZED BY
   signVCTTPBidirectionalPkg PACKAGE
     BEHAVIOUR
      signVCTTPBidirectionalBeh BEHAVIOUR
        DEFINED AS
         "An instance of this object class represents a virtual channel trail
         termination points where AAL5 interworking functions for a
         signalingchannel occur. At this point ATM cells are generated from
         signaling messages or signaling messages are recovered from ATM
         cells. Instances of this object class are explicitly created and
         deleted by the managing system.";;
     ATTRIBUTES
      signLink GET-REPLACE;;;
REGISTERED AS {atmfM4ObjectClass signVCTTPBidirectional(71)};

sscopReceiveCurrentData MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. Q.822": currentData;
  CHARACTERIZED BY
   sscopReceiveCurrentDataPkg PACKAGE
     BEHAVIOUR
      sscopReceiveCurrentDataBeh BEHAVIOUR
        DEFINED AS
         "Each instance of this object class allows monitoring the SSCOP
         protocol layer of the receive side of one access or interoffice
         signaling channel. One instance of this object class is provided for
         each dss2SignChannelTp or atmSignLinkTp object that is to be monitored.
         Instances of this object may be created and deleted by either the
         managed or managing system. At least ten percent of the total number
         of access signaling channels and all interoffice signaling links
         should be capable of being monitored simultaneously.";;
     ATTRIBUTES
      sscopConnectionMonitoring
        REPLACE-WITH-DEFAULT
        DEFAULT VALUE AtmMIBModV2.integerZero
       GET,
      sscopErroredPdus
        REPLACE-WITH-DEFAULT
        DEFAULT VALUE AtmMIBModV2.integerZero
       GET;;;
  CONDITIONAL PACKAGES
   sscopNNIPkg PRESENT IF "an instance is monitoring an interoffice
     signaling link";
REGISTERED AS {atmfM4ObjectClass sscopReceiveCurrentData(72)};


sscopReceiveHistoryData MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. Q.822": historyData;
  CHARACTERIZED BY
   sscopReceiveHistoryDataPkg PACKAGE
     BEHAVIOUR
      sscopReceiveHistoryDataBeh BEHAVIOUR
        DEFINED AS
         "Each instance of this object class contains the past performance
         monitoring data on the SSCOP protocol level for the receive side of
         an individual signaling channel collected by a
         sscopReceiveCurrentData object. Instances of this object class are
         created and deleted by the managed system according to the value of
         the historyRetention attribute specified in the associated
         sscopReceiveCurrentData object.";;
     ATTRIBUTES
      sscopConnectionMonitoring GET,
      sscopErroredPdus GET;;;
  CONDITIONAL PACKAGES
   sscopNNIHistoryPkg PRESENT IF "an instance is monitoring an
     interoffice signaling link";
REGISTERED AS {atmfM4ObjectClass sscopReceiveHistoryData(73)};


tapPP MANAGED OBJECT CLASS 
  DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top; 
  CHARACTERIZED BY "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  tapPPPkg PACKAGE
   BEHAVIOUR 
   tapPPBeh BEHAVIOUR
   DEFINED AS
" Instances of this object class are used to manage the physical Test Access Path (TAP) that is used between 
the ATM NE and a test system. This object class is used with the Physical Port Mirroring (PP) test access 
function. Instances are of this object class inherently created by the ATM NE. They may be deleted by either 
the ATM NE or a managing system. The resourceUnderTest attribute is a pointer to an instance of the 
tcAdaptorTTPBidirectional object class that represents the ATM cell stream to be monitored. The 
suportedByObject attribute is a pointer to a physical path termination point object that represents the physical 
port on the ATM NE that is providing access to the TAP PP. The accessMode attribute indicates the direction 
of traffic being mirrored by the TAP PP (relative to the tcAdaptorTTPBidirectional under test). For this 
object class the valid values of accessMode are monitor egress traffic, monitor ingress traffic, and NULL (not 
in use). Valid values of the administrativeState attribute are locked and unlocked. If the administrativeState 
attribute is set to locked, then the TAP may not be used for test access until it is set to unlocked. The 
shuttingDown state does not apply to instances of this object class. An attributeValueChange notification is 
generated for changes in the value of the resourceUnderTest, accessMode, or supportedByObject attribute.";;
   ATTRIBUTES
     tapPPId 
       GET,
     resourceUnderTest 
       GET,
     accessMode 
       GET,
     supportedByObject 
       GET,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeState 
       GET-REPLACE,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":operationalState 
       GET;
   ACTIONS
     disconnectTap;;; 
REGISTERED AS {atmfM4ObjectClass tapPP(35)};


tapVC MANAGED OBJECT CLASS 
  DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top; 
  CHARACTERIZED BY "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
  "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
  "ITU-T Rec. M.3100 : 1995":stateChangeNotificationPackage,
  tapVCPkg PACKAGE
   BEHAVIOUR 
   tapVCBeh BEHAVIOUR
   DEFINED AS
" Instances of this object class are used to manage the physical Test Access Path (TAP) that is used between 
the ATM NE and a test system. This object class is used with the Virtual Connection Access (VC) test access 
function. Instances of this object class are inherently created by the ATM NE. They may be deleted by the 
ATM NE or a managing system. The resourceUnderTest attribute is a pointer to an instance of a 
tcAdaptorTTPBidirectional object class, a VPI value, and , if necessary, a VCI value that identify the ATM 
connection to be monitored. The suportedByObject attribute points to a vcCTPBidirectionalR1 or 
vpCTPBidirectionalR1 object that represents the path to a remote test system, i.e., the TAP. The accessMode 
attribute indicates if the TAP VC is performing a monitor of ingress traffic, a monitor of egress traffic, a split 
toward the NE, or a split out from the NE test access function. If the tap is not in use it is set to NULL. Valid 
values of the administrativeState attribute are locked and unlocked. If the administrativeState attribute is set 
to locked, then the TAP may not be used for test access until it is unlocked. The shuttingDown state does not 
apply to instances of this object class. An attributeValueChange notification is generated for changes in the 
value of the resourceUnderTest, accessMode, or supportedByObject attribute.";;
   ATTRIBUTES
     tapVCId 
       GET,
     resourceUnderTest 
       GET,
     accessMode 
       GET,
     supportedByObject 
       GET,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeState 
       GET-REPLACE,
     "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":operationalState 
       GET;
   ACTIONS
disconnectTap;;;
CONDITIONAL PACKAGES
        changeAccessModePkg
                PRESENT IF "an instance supports it"; 
REGISTERED AS {atmfM4ObjectClass tapVC(36)};


timerExpirationLogRecord MANAGED OBJECT CLASS 
  DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":logRecord; 
  CHARACTERIZED BY timerExpirationLogRecordPkg PACKAGE
   BEHAVIOUR 
   timerExpirationLogRecordBeh BEHAVIOUR
   DEFINED AS
" Instances of this object class are used to record timer expiration events. These log records are used to 
provide information about timer expirations for fault and performance trouble analysis. Instances of this 
object class are created and deleted by the ATM NE. An instance of this object class is created by the 
managed system for each timer expiry that is to be logged. A separate instance of the log object class shall 
be created for each monitored entity, e.g., a signaling channel. A single log should be used for 
timerExpirationLogRecord objects, and any associated pduLogRecordObjects. When the log becomes full, 
the newest log record should replace the oldest one regardless of type. The inherited loggingTime attribute 
identifies the time that the record was entered into the log. It shall be accurate to the nearest millisecond. 
This time must preserve the actual sequence of events. The sourceEntity attribute is a pointer to a managed 
object that represents the source of the timer expiry being logged, e.g., a signaling channel. In the case of 
BISUP or DSS2 timer expirations additional information about the source of the timer expiry is given in the 
conditional signalingIdentifier or callReference attribute. The timerType and timerValue attributes identify 
the type of timer that expired and its value at the time it expired.";;
   ATTRIBUTES
     sourceEntity 
       GET,
     timerType 
       GET,
     timerValue 
       GET;;; 
  CONDITIONAL PACKAGES
   signalingIdentifierPkg
      PRESENT IF "the instance is logging a BISUP timer expiry",
   callReferencePkg
      PRESENT IF "the instance is logging a DSS2 timer expiry";
REGISTERED AS {atmfM4ObjectClass timerExpirationLogRecord(37)};


uniInfo MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":top;
  CHARACTERIZED BY
   "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
uniInfoPkg PACKAGE
     BEHAVIOUR
      uniInfoBeh BEHAVIOUR
        DEFINED AS
         "This managed object class represents individual UNI users. It may
         be associated with a single-user UNI interface, or with one Virtual
         UNI from a multiple-user UNI interface.
  
         If ILMI is active on the individual user interface, the values of
         maxNumActiveVCCsAllowed, maxNumVciBitsSupported,
         maxNumActiveVPCsAllowed, maxNumVpiBitsSupported, actualMaxSvccVpi,
         and actualMinSvccVci are calculated by ILMI functions.
  
         Instances of this object class shall be explicitly created and
         deleted by a management system.";;
     ATTRIBUTES
      uniInfoId GET SET-BY-CREATE,
      atmTermPointer GET-REPLACE ADD-REMOVE;;;
  CONDITIONAL PACKAGES
   "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage PRESENT IF "an instance supports 
it",
   vcLevelUniInfoPkg PRESENT IF "Associated UNI represents multiple
     users and ILMI is active for the individual user, or if the
     associated UNI represent multiple users, ILMI is not active for the
     individual user and an instance supports it",
   vpLevelUniInfoPkg PRESENT IF "Associated UNI represents multiple
     users and ILMI is active for the individual user, or if the
     associated UNI represent multiple users, ILMI is not active for the
     individual user and an instance supports it",
   svcUniInfoPkg PRESENT IF "SVC service is supported and ILMI is
     active for the individual user, or it an instance supports it.",
   ilmiPkg PRESENT IF "ILMI is active
     for the individual user",
   ilmiConnectivityPkg PRESENT IF "ILMI is active for the individual
     user and an instance supports it",
   signChannelPointerPkg PRESENT IF "SVC service is supported for the
     individual user",
   chargeNumberPkg PRESENT IF "Required to support SVC service for the
     individual user",
   originatingLineInfoPkg PRESENT IF "required to support SVC service
     for the individual user";
REGISTERED AS { atmfM4ObjectClass uniInfo(75)};


vcCTPBidirectionalR1    MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. M.3100 : 1995":connectionTerminationPointBidirectional; 
        CHARACTERIZED BY 
                "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
                "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
                "ITU-T Rec. M.3100 : 1995":crossConnectionPointerPackage,
                vcCTPBidirectionalR1Pkg PACKAGE
                        BEHAVIOUR 
                        vcCTPBidirectionalR1Beh BEHAVIOUR
                        DEFINED AS
"The vcCTPBidirectionalR1 object class is a class of managed objects that delimit Virtual 
Channel (VC) links. From a configuration management perspective, instances of this object 
class represent VC link terminations that are (1) cross-connected to other VC link terminations, 
or are available for such cross-connection, or (2) associated to a vcTTPBidirectional instance 
or are available for such an association. 

Note that the vcCTPId attribute value identifies the VCI value for the VCL being terminated 
and is also used as the RDN for naming instances of this object class. The vcCTPId attribute 
value may be provided by the managing system upon creation of this managed object instance 
or it may be absent in the M-CREATE message and thus selected by the managed system. 
When selected by the managed system, the value chosen shall be reported to the managing 
system as a parameter in the response to the successfully carried out M-CREATE request. 

From a performance and fault management perspective, instances of this object class represent 
logical points along VCCs at which various maintenance and network traffic management 
functions may be performed. 

When an instance of this object is configured as a segment end-point (i.e., segmentEndPoint is 
TRUE), it represents a logical point in the managed system where the segment F5 flow (i.e., 
OAM cells with PTI=4) for the VC terminates.

In the event that the related vcTTPBidirectional is created, this instance points to the 
vcTTPBidirectional and its crossConnectionPointer points to the atmFabricR1 or 
atmMpFabricR1 instance.  

The conditional package loopbackOAMCellPkg provides the M-ACTION used to request the 
termination point to insert an OAM cell for downstream loopbacking and report whether or not 
the cell was returned within the required time.  

Note that, when configured as a segment end-point, all Segment F5 Loopback cells with a 
default Loopback Location field value of all ones would be looped-back at this point.

When a VC-AIS or VC-RDI failure is detected, the vcCTPBidirectionalR1 object shall 
generate a communicationsAlarm notification (if the 
tmnCommunicationsAlarmInformationPackage is present) with the probableCause parameter 
value set equal to aIS or farEndReceiveFailure, respectively. 

The administrativeState attribute may be used by the management system to inhibit (lock) and 
allow (unlock) the flow of cells through the vcCTPBidirectionalR1. However, when the 
vcCTPBidirectionalR1 object is configured as a segment end-point, the value of the 
administrativeState attribute shall not affect the ability of the vcCTPBidirectionalR1 to 
perform segment OAM cell processing functions. 

Instances of this object class may be created and deleted by the managing system using the 
CMIS M-CREATE and M-DELETE services, respectively. Instances of this managed object 
class may also be automatically created by the managed system in response to actions 
performed on instances of the atmFabricR1 or atmMpFabricR1 object class.";;
                        ATTRIBUTES
                                "ITU-T Rec. I.751":vcCTPId 
                                        GET,
                                "ITU-T Rec. I.751":segmentEndPoint 
                                        DEFAULT VALUE AtmMIBModV2.booleanFalseDefault
                                        GET-REPLACE,
                trafficDescriptorPtr
                    GET-REPLACE;;;
                CONDITIONAL PACKAGES
                        "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage
                                PRESENT IF "supported by the managed system", 
                        "ITU-T Rec. I.751":loopbackOAMCellPkg
                                PRESENT IF "the link termination point supports initiation of OAM cell loopbacks",
            frameDiscardPkg
                PRESENT IF "supplied by the managing system";
REGISTERED AS {atmfM4ObjectClass vcCTPBidirectionalR1 (76)};


vpciTp MANAGED OBJECT CLASS
  DERIVED FROM    "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": top;
  CHARACTERIZED BY
    "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
   vpciTpPkg PACKAGE
     BEHAVIOUR
      vpciTpBeh BEHAVIOUR
        DEFINED AS
         "Instances of this object class allow management of an ATM VP
         connection that is used for SVC bearer channels. Each instance is
         identified by a Virtual Path Connection Identifier (VPCI) that is
         unique among the VPCIs controlled by a single interoffice link set.
         Instances of this object class are created and deleted by a managing
         system.
         One instance of this object class is contained by each
         vpTTPBidirectional object that terminates a VPC which may contain
         SVCs.
  
         The administrativeState attribute allows the VPCI to be activated
         (unlocked) or deactivated (locked or shutting down). If locked, no
         connections, except test connections, may exist for the VPCI. If
         shutting down, the VPCI is not available for new SVCs. The
         administrative state may be set to locked, shutting down, or
         unlocked either by a management system or automatically by the ATM
         NE. An administrativeState change to locked will occur if the
         managed system automatically initiates VPCI blocking. Unlocking
         requires confirmation from the remote signaling entity before it
         becomes locally effective.

         If present, the remoteBlocking attribute indicates the remote blocking state
         of the virtual path. Ablocked virtual path cannot be selected for new, non-test
         traffic. Hovever, it can be used for test calls. The blocking of a virtual path has
         no influence on existing calls (non-test calls and test calls).
  
         The onOccEvent notifications are generated with ProbableCause
         'timerExpiry' in cases of remote blocking unconfirmed, i.e., Timer
         T12b expired after a request of initiate blocking on VPCI was sent
         to a remote signaling entity, and in cases of unblocking failure,
         i.e., Timer 14b expired after a request to remove blocking on a VPCI
         was sent to a remote signaling entity.";;
     ATTRIBUTES
      vpciTpId GET SET-BY-CREATE,
      vpci GET SET-BY-CREATE,
      assigningNode GET SET-BY-CREATE,
"ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": administrativeState GET-REPLACE;
     NOTIFICATIONS
       "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": stateChange,
      atmOnOccEvent;;;
  CONDITIONAL PACKAGES
    "ITU-T Rec. Q.824.6":remoteBlockingPkg PRESENT IF "An instance supports it",
    "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage 
      PRESENT IF "An instance supports it";
REGISTERED AS {atmfM4ObjectClass vpciTp(77)};


-- Note: The logical MIB attribute "VPL type" has not been included to vpCTPBidirectionalR1.

vpCTPBidirectionalR1    MANAGED OBJECT CLASS
        DERIVED FROM "ITU-T Rec. M.3100 : 1995":connectionTerminationPointBidirectional; 
        CHARACTERIZED BY 
                "ITU-T Rec. M.3100 : 1995":attributeValueChangeNotificationPackage,
                "ITU-T Rec. M.3100 : 1995":createDeleteNotificationsPackage,
                "ITU-T Rec. M.3100 : 1995":crossConnectionPointerPackage,
                vpCTPBidirectionalR1Pkg PACKAGE
                        BEHAVIOUR 
                        vpCTPBidirectionalR1Beh BEHAVIOUR
                        DEFINED AS
"The vpCTPBidirectionalR1 object class is a class of managed objects that delimit Virtual Path 
(VP) links. From a configuration management perspective, instances of this object class 
represent VP link terminations that are (1) cross-connected to other VP link terminations, or 
are available for such cross-connection, or (2) associated to a vpTTPBidirectional instance or 
are available for such an association. 

Note that the vpCTPId attribute value identifies the VPI value for the VPL being terminated 
and is also used as the RDN for naming instances of this object class. The vpCTPId attribute 
value may be provided by the managing system upon creation of this managed object instance 
or it may be absent in the M-CREATE message and thus selected by the managed system. 
When selected by the managed system, the value chosen shall be reported to the managing 
system as a parameter in the response to the successfully carried out M-CREATE request. 

From a performance and fault management perspective, instances of this object class represent 
logical points along VPCs at which various maintenance and network traffic management 
functions may be performed. 

When an instance of this object is configured as a segment end-point (i.e., segmentEndPoint is 
TRUE), it represents a logical point in the managed system where the segment F4 flow (i.e., 
OAM cells with VCI=3) for the VP terminates.

In the event that the related vpTTPBidirectional is created, this instance points to the 
vpTTPBidirectional and its crossConnectionPointer points to the atmFabricR1 or 
atmMpFabricR1 instance.  

The conditional package loopbackOAMCellPkg provides the M-ACTION used to request the 
termination point to insert an OAM cell for downstream loopbacking and report whether or not 
the cell was returned within the required time. 

Note that, when configured as a segment end-point, all Segment F4 Loopback cells with a 
default Loopback Location field value of all ones would be looped-back at this point.

When a VP-AIS or VP-RDI failure is detected, the vpCTPBidirectionalR1 object shall 
generate a communicationsAlarm notification (if the 
tmnCommunicationsAlarmInformationPackage is present) with the probableCause parameter 
value set equal to aIS or farEndReceiveFailure, respectively. 

The administrativeState attribute may be used by the management system to inhibit (lock) and 
allow (unlock) the flow of cells through the vpCTPBidirectionalR1. However, when the 
vpCTPBidirectionalR1 object is configured as a segment end-point, the value of the 
administrativeState attribute shall not affect the ability of the vpCTPBidirectionalR1 to 
perform segment OAM cell processing functions. 

Instances of this object class may be created and deleted by the managing system using the 
CMIS M-CREATE and M-DELETE services, respectively. Instances of this managed object 
class may also be automatically created by the managed system in response to actions 
performed on instances of the atmFabricR1 or atmMpFabricR1 object class.";;
                        ATTRIBUTES
                                "ITU-T Rec. I.751":vpCTPId 
                                        GET,
                                "ITU-T Rec. I.751":segmentEndPoint 
                                        DEFAULT VALUE AtmMIBModV2.booleanFalseDefault
                                        GET-REPLACE,
                trafficDescriptorPtr
                    GET-REPLACE;;;
                CONDITIONAL PACKAGES
                        "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":administrativeStatePackage
                                PRESENT IF "supported by the managed system",
                        "ITU-T Rec. I.751":loopbackOAMCellPkg
                PRESENT IF "the link termination point supports initiation of OAM cell loopbacks";
REGISTERED AS {atmfM4ObjectClass vpCTPBidirectionalR1(78)};

vpTTPBidirectionalR1 MANAGED OBJECT CLASS 
        DERIVED FROM "ITU-T Rec. I.751":vpTTPBidirectional; 
        CHARACTERIZED BY 
                vpTTPBidirectionalR1Pkg PACKAGE
                        BEHAVIOUR 
vpTTPBidirectionalR1Beh BEHAVIOUR
                        DEFINED AS
"The 'supportedServiceCategories' attribute may be used to restrict the use of the VP 
to VCs of selected service categories only. The 'propagationDelayPkg' is used to 
support the accumulation of propagation delay during the setup of an SVC.";;
                        ATTRIBUTES
                                supportedServiceCategories 
                                        GET-REPLACE
                                        ADD-REMOVE;;; 
                        CONDITIONAL PACKAGES
                                "ITU-T Rec. Q.824.6":propagationDelayPkg
                                        PRESENT IF "required for the support of SVCs.";
REGISTERED AS {atmfM4ObjectClass vpTTPBidirectionalR1(79)};


abortDiagnosticPkg PACKAGE
  ACTIONS
   abortDiagnostic;
REGISTERED AS {atmfM4Package abortDiagnosticPkg(32)};


aBROptSigPkg PACKAGE
  ATTRIBUTES
   egressNrm
    DEFAULT VALUE AtmMIBModV2.nrmDefault
    GET SET-BY-CREATE,
   ingressNrm
    DEFAULT VALUE AtmMIBModV2.nrmDefault
    GET SET-BY-CREATE,
   egressTrm
    DEFAULT VALUE AtmMIBModV2.trmDefault
    GET SET-BY-CREATE,
   ingressTrm 
    DEFAULT VALUE AtmMIBModV2.trmDefault
    GET SET-BY-CREATE,
   egressCDF
    DEFAULT VALUE AtmMIBModV2.cdfDefault
    GET SET-BY-CREATE,
   ingressCDF 
    DEFAULT VALUE AtmMIBModV2.cdfDefault
    GET SET-BY-CREATE,
   egressADTF 
    DEFAULT VALUE AtmMIBModV2.adtfDefault
    GET SET-BY-CREATE,
   ingressADTF
    DEFAULT VALUE AtmMIBModV2.adtfDefault
    GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package aBROptSigPkg(33)};


aBRPkg PACKAGE
  ATTRIBUTES
   egressMinCellRate GET SET-BY-CREATE,
   ingressMinCellRate GET SET-BY-CREATE,
   egressInitialCellRate GET SET-BY-CREATE,
   ingressInitialCellRate GET SET-BY-CREATE,
   egressTransientBufferExposure GET SET-BY-CREATE,
   ingressTransientBufferExposure GET SET-BY-CREATE,
   egressRateDecreaseFactor GET SET-BY-CREATE,
   ingressRateDecreaseFactor GET SET-BY-CREATE,
   egressRateIncreaseFactor GET SET-BY-CREATE,
   ingressRateIncreaseFactor GET SET-BY-CREATE,
   fixedRoundTripTime GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package aBRPkg(34)};


accessSignallingFeaturesPkg PACKAGE
        ATTRIBUTES
                accessSignallingFeatures
                        GET-REPLACE;
REGISTERED AS {atmfM4Package accessSignallingFeaturesPkg(70)};


activeFeedbackModesPkg PACKAGE
        ATTRIBUTES
                activeFeedbackModes
                        GET-REPLACE;
REGISTERED AS {atmfM4Package activeFeedbackModesPkg (35)};

activeOperationModePkg PACKAGE
        ATTRIBUTES
                activeOperationMode
                        GET-REPLACE;
REGISTERED AS {atmfM4Package activeOperationModePkg (36)};

automaticCongestionControlPkg PACKAGE
  ATTRIBUTES
   congestionLevel1 GET,
   congestionLevel2 GET,
   controlDuration GET SET-BY-CREATE,
   trafficAmount GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package automaticCongestionControlPkg(37)};


bandwidthPkg PACKAGE
        ATTRIBUTES
                egressBandwidth
                        GET-REPLACE,
                ingressBandwidth
                        GET-REPLACE;
REGISTERED AS {atmfM4Package bandwidthPkg(38)};


bisupInterNniFeaturesPkg PACKAGE
  ATTRIBUTES
   bisupInterNniFeatures
     DEFAULT VALUE AtmMIBModV2.bisupInterNniFeaturesDefault
    ADD-REMOVE;
REGISTERED AS {atmfM4Package bisupInterNniFeaturesPkg(39)};


callReferencePkg PACKAGE
  ATTRIBUTES
   callReference 
      GET;
REGISTERED AS {atmfM4Package callReferencePkg(29)};


cBRPkg PACKAGE
  ATTRIBUTES
   egressCLR GET SET-BY-CREATE,
   ingressCLR GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package cBRPkg(40)};


cDVTolerancePCRPkg PACKAGE
  ATTRIBUTES
   "ITU-T Rec. I.751":egressCDVTolerancePCR GET SET-BY-CREATE,
   "ITU-T Rec. I.751":ingressCDVTolerancePCR GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package cDVTolerancePCRPkg(41)};


changeAccessModePkg PACKAGE
  ACTIONS
     changeAccessMode;
REGISTERED AS {atmfM4Package changeAccessModePkg(30)};


farEndCarrierNetworkPkg PACKAGE
  ATTRIBUTES
   farEndCarrierNetwork 
      GET-REPLACE;
REGISTERED AS {atmfM4Package 6};


chargeNumberPkg PACKAGE
  ATTRIBUTES
   chargeNumber GET-REPLACE;
REGISTERED AS {atmfM4Package chargeNumberPkg (42)};

 
fCPkg PACKAGE
 ATTRIBUTES
  fC 
  REPLACE-WITH-DEFAULT
  DEFAULT VALUE AtmMIBModV2.defaultMeasurementValue
  GET;
 REGISTERED AS {atmfM4Package fCPkg(43)};


fCHistoryPkg PACKAGE
 ATTRIBUTES
  fC GET;
 REGISTERED AS {atmfM4Package fCHistoryPkg(44)};


frameDiscardPkg PACKAGE
        ATTRIBUTES
                egressFrameDiscardEnabled
                        GET-REPLACE,
                ingressFrameDiscardEnabled
                        GET-REPLACE;
REGISTERED AS {atmfM4Package frameDiscardPkg (45)};

-- Note: This package is aligned with UNI 4.0 (AF-SIG-61.000) and the logical MIB (AF-NM-0020.001).
-- Therefore egress and ingress directions are distinguished,
-- but is not possible to distinguish between different types of frame discard like EPD, PPD


ilmiConnectivityPkg PACKAGE
  ATTRIBUTES
   ilmiEstabConnectivityPollInterval
     DEFAULT VALUE AtmMIBModV2.ilmiEstabConnectivityPollIntervalDefault
    GET-REPLACE,
   ilmiCheckConnectivityPollInterval
     DEFAULT VALUE AtmMIBModV2.ilmiCheckConnectivityPollIntervalDefault
    GET-REPLACE,
   ilmiConnectivityPollFactor
     DEFAULT VALUE AtmMIBModV2.ilmiConnectivityPollFactorDefault
    GET-REPLACE,
   ilmiConnectivityState GET;
REGISTERED AS {atmfM4Package ilmiConnectivityPkg (46)};


ilmiPkg PACKAGE
  ATTRIBUTES
   ilmiChannelIdentifier 
      GET-REPLACE;
REGISTERED AS {atmfM4Package 7};


iscPtCodePkg PACKAGE
  ATTRIBUTES
   iscPointCode GET-REPLACE,
   iscIncludeInfo GET-REPLACE;
REGISTERED AS {atmfM4Package iscPtCodePkg(47)};


networkIndicatorPkg PACKAGE
  ATTRIBUTES
    "ITU-T Rec. Q.751.1 : 1995": networkIndicator GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package networkIndicatorPkg(48)};


nniAccessPointerPkg PACKAGE
  ATTRIBUTES
    nniAccessPointer GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package nniAccessPointerPkg(49)};


originatingLineInfoPkg PACKAGE
  ATTRIBUTES
   originatingLineInfo GET-REPLACE;
REGISTERED AS {atmfM4Package originatingLineInfoPkg (50)};


policingPkg PACKAGE
  ATTRIBUTES
        upcNpc
        DEFAULT VALUE DERIVATION RULE upcNpcDvdrBeh
        GET-REPLACE;
REGISTERED AS {atmfM4Package policingPkg(51)};

upcNpcDvdrBeh BEHAVIOUR 
DEFINED AS
"For an 'atmAccessProfile' object contained in a 'tcAdaptorTTPBidirectional' object the value is set by the 
managed system to true unless the 'tcAdaptorTTPBidirectional' object is associated with an 'intraNNI' object, in 
which case the value is set to false. For an 'atmAccessProfileR1' object contained in a 'vpTTPBidirectional' 
object the value is set to the value defined for the associated 'tcAdaptorTTPBidirectional' object";


reportDiagnosticStatusPkg PACKAGE
  ACTIONS
   reportDiagnosticStatus;
REGISTERED AS {atmfM4Package reportDiagnosticStatusPkg(53)};


signalingIdentifierPkg PACKAGE
  ATTRIBUTES
   signalingIdentifier 
      GET;
REGISTERED AS {atmfM4Package signalingIdentifierPkg(31)};


signChannelPointerPkg PACKAGE
  ATTRIBUTES
   signChannelPointer GET-REPLACE ADD-REMOVE;
REGISTERED AS {atmfM4Package signChannelPointerPkg (54)};


sscopNNIHistoryPkg PACKAGE
  ATTRIBUTES
   sscfAlignmentFailures GET,
   sscopLostPdus GET,
   sscopNoCreditDelay GET;
REGISTERED AS {atmfM4Package sscopNNIHistoryPkg(55)};


sscopNNIPkg PACKAGE
  ATTRIBUTES
   sscfAlignmentFailures
     REPLACE-WITH-DEFAULT
     DEFAULT VALUE AtmMIBModV2.integerZero
    GET,
   sscopLostPdus
     REPLACE-WITH-DEFAULT
     DEFAULT VALUE AtmMIBModV2.integerZero
    GET,
   sscopNoCreditDelay
     REPLACE-WITH-DEFAULT
     DEFAULT VALUE AtmMIBModV2.integerZero
    GET;
REGISTERED AS {atmfM4Package sscopNNIPkg(56)};


supportedOperationModesPkg PACKAGE
        ATTRIBUTES
                supportedOperationModes
                        GET-REPLACE;
REGISTERED AS {atmfM4Package activeOperationModePkg (57)};


svcUniInfoPkg PACKAGE
  BEHAVIOUR
   svcUniInfoPkgBeh BEHAVIOUR
     DEFINED AS
      "If ILMI is active for the individual user, the attributes
      actualMaxSvccVpi and actualMinSvccVci are calculated by ILMI functions and
      shall not be modified by management system request.";;
  ATTRIBUTES
   localMaxSvccVpi GET SET-BY-CREATE,
   actualMaxSvccVpi GET-REPLACE,
   localMinSvccVci GET SET-BY-CREATE,
   actualMinSvccVci GET-REPLACE;
REGISTERED AS {atmfM4Package svcUniInfoPkg (58)};


tpAndVpciPtrListPkg PACKAGE
  ATTRIBUTES
   "ITU-T Rec. Q.824.6":tpAndVpciPtrList GET ADD-REMOVE;
REGISTERED AS {atmfM4Package tpAndVpciPtrListPkg(59)};


useItOrLoseItPkg PACKAGE
        ATTRIBUTES
                useItOrLoseItPolicy
                        GET;
REGISTERED AS {atmfM4Package useItOrLoseItPkg (60)};


vBRPkg PACKAGE
  ATTRIBUTES
   "ITU-T Rec. I.751":egressSustainableCellRate GET SET-BY-CREATE,
   "ITU-T Rec. I.751":ingressSustainableCellRate GET SET-BY-CREATE,
   "ITU-T Rec. I.751":egressMaxBurstSize GET SET-BY-CREATE,
   "ITU-T Rec. I.751":ingressMaxBurstSize GET SET-BY-CREATE,
   egressCLR GET SET-BY-CREATE,
   ingressCLR GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package vBRPkg(61)};


vcLevelUniInfoPkg PACKAGE
  BEHAVIOUR
   vcLevelUniInfoPkgBeh BEHAVIOUR
     DEFINED AS
      "If ILMI is active for the individual user, the values of the attributes
      maxNumVCIBitsSupported and maxNumActiveVCCsAllowed are calculated by ILMI
      functions and shall not be modified by a management system request.";;
  ATTRIBUTES
   localMaxNumVccsSupportable GET-REPLACE,
   "ITU-T Rec. I.751":maxNumActiveVCCsAllowed GET-REPLACE,
   localMaxNumAllocatedVciBits GET-REPLACE,
   "ITU-T Rec. I.751":maxNumVCIBitsSupported GET-REPLACE;
REGISTERED AS {atmfM4Package vcLevelUniInfoPkg(62)};


vpcisAllowedPkg PACKAGE
  ATTRIBUTES
   vpcisAllowed ADD-REMOVE;
REGISTERED AS {atmfM4Package vpcisAllowedPkg(63)};


vpisAllowedPkg PACKAGE
  ATTRIBUTES
   vpisAllowed ADD-REMOVE;
REGISTERED AS {atmfM4Package vpisAllowedPkg(64)};


vpLevelUniInfoPkg PACKAGE
  BEHAVIOUR
   vpLevelUniInfoPkgBeh BEHAVIOUR
     DEFINED AS
      "If ILMI is active for the individual user, then the values of the
      attributes maxNumActiveVPCsAllowed and maxNumVPIBitsSupported are
      calculated by ILMI functions and shall not be modified by management system
      request.";;
  ATTRIBUTES
   localMaxNumVpcsSupportable GET-REPLACE,
   "ITU-T Rec. I.751":maxNumActiveVPCsAllowed GET-REPLACE,
   networkMaxNumAllocatedVpiBits GET-REPLACE,
   "ITU-T Rec. I.751":maxNumVPIBitsSupported GET-REPLACE;
REGISTERED AS {atmfM4Package vpLevelUniInfoPkg (65)};


vsVdActivePkg PACKAGE
        ATTRIBUTES
                vsVdActive
                        GET SET-BY-CREATE;
REGISTERED AS {atmfM4Package vsVdActivePkg(66)};


vsVdSupportPkg PACKAGE
        ATTRIBUTES
                vsVdSupport
                        GET;
REGISTERED AS {atmfM4Package vsVdSupportPkg (67)};

abrFeedbackControlId ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.NameType;
        MATCHES FOR EQUALITY;
        BEHAVIOUR abrFeedbackControlIdBeh BEHAVIOUR
        DEFINED AS
"This attribute is used to name instances of the abrFeedbackControl managed object class.";; 
REGISTERED AS {atmfM4Attribute abrFeedbackControlId(226) };


accessMode ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.AccessMode;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  accessModeBeh BEHAVIOUR
  DEFINED AS
" The value of this attribute indicates the access mode that a test access path (TAP) is using. The value is with 
respect to the object that represents the resource under test. Valid values for the access mode include monitor 
egress traffic, monitor ingress traffic, split toward the NE (TAP VC only), split out from the NE (TAP VC 
only), and NULL (TAP not in use).";; 
REGISTERED AS {atmfM4Attribute accessMode(96)};


accessSignallingFeatures ATTRIBUTE
        WITH ATTRIBUTE SYNTAX  AtmMIBModV2.AccessSignallingFeatures;
        MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
        BEHAVIOUR 
accessSignallingFeaturesBeh BEHAVIOUR
        DEFINED AS
"This attribute lists supported features for the access signalling channel.";;
REGISTERED AS {atmfM4Attribute accessSignallingFeatures(111)};


activeFeedbackModes ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.FeedbackModes;
        MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
        BEHAVIOUR 
activeFeedbackModesBeh BEHAVIOUR
        DEFINED AS
"This attribute describes the ABR feedback modes which are currently active in the network element.";; 
REGISTERED AS {atmfM4Attribute activeFeedbackModes(112)};


activeOperationMode ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.OperationMode;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
activeOperationModeBeh BEHAVIOUR
        DEFINED AS
"This attribute describes which operations mode will be used by an intermediate ATM NE for ABR 
connections, i.e. whether backward RM cells are generated or modified.";; 
REGISTERED AS {atmfM4Attribute activeOperationMode(113)};


actualMaxSvccVpi ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    actualMaxSvccVpiBeh BEHAVIOUR
     DEFINED AS
     "The value of this attribute is the maximum VPI value that may be used for SVCCs for the associated user. If
     ILMI is active, this value is calculated by the ILMI functions as the smaller of the local maximum SVCC VPI
     values at near and far ends.";;
REGISTERED AS {atmfM4Attribute actualMaxSvccVpi(114)};


actualMinSvccVci ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    actualMinSvccVciBeh BEHAVIOUR
     DEFINED AS
     "The value of this attribute is the minimum VCI value that may be used for SVCCs for the associated user. If 
     ILMI is active, this value is calculated by the ILMI functions as the larger of the local minimum SVCC VCI 
     values at the near and far ends.";;
REGISTERED AS {atmfM4Attribute actualMinSvccVci(115)};


addrPresentationFormat ATTRIBUTE
        WITH ATTRIBUTE SYNTAX  AtmMIBModV2.AddrPresentationFormat;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
addrPresentationFormatBeh BEHAVIOUR 
        DEFINED AS
"This attribute identifies the address formats supported by the managed entity.";; 
REGISTERED AS {atmfM4Attribute addrPresentationFormat(116)};


aesaDirectoryNumber ATTRIBUTE
        WITH ATTRIBUTE SYNTAX  AtmMIBModV2.AESADN;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
aesaDirectoryNumberBeh BEHAVIOUR
        DEFINED AS
"This attribute represents an ATM endsystem address (AESA) based on
ISO NSAP according to the ATM Forum UNI 4.0 Signalling Specification.";;
REGISTERED AS {atmfM4Attribute aesaDirectoryNumber(117)};


allCellsDiscarded ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
    allCellsDiscardedBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a count of the number of user or other ATM cells with either CLP=0 or CLP=1
       that have been discarded at the associated UNI or NNI interface due to congestion during the
       measurement interval.";;
REGISTERED AS {atmfM4Attribute allCellsDiscarded(118)};


alpha ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Real;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   alphaBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the exponential smoothing factor used
      within the SAAL protocol layer for interoffice signaling links.";;
REGISTERED AS {atmfM4Attribute alpha(119)};


assigningNode ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Boolean;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   assigningNodeBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute indicates whether or not the ATM NE assigns
      the VCI values for the vpciTp object that contains this attribute. If the
      value of this attribute is TRUE, then the ATM NE is the assigning node. If
      the value of this attribute is FALSE,
      then the far-end ATM NE is the assigning node.";;
REGISTERED AS {atmfM4Attribute assigningNode(120)};


atmMtpSignPointId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   atmMtpSignPointIdBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is used as the RDN for instances of the
      atmMtpSignPoint object class.";;
REGISTERED AS {atmfM4Attribute atmMtpSignPointId(121)};


atmSignLinkTpId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   atmSignLinkTpIdBeh BEHAVIOUR
     DEFINED AS
      "This attribute is used as the RDN for naming instances of the
       atmSignLinkTp object class Its value shall be equal to the Signaling Link Code for the signaling link. The
       Signaling link code is unique within a signaling link set and is the same for both ends of a signaling link.
       The allowed range is 0-15.";;
REGISTERED AS {atmfM4Attribute atmSignLinkTpId(122)};


atmTermPointer ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ObjectList;
  MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
  BEHAVIOUR
    atmTermPointerBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is either the distinguished names of the local vpCTPBidirectional objects that 
        terminate VP from a remote UNI or the distinguished name of the tcAdaptorTTPBidirectional object 
        associated with a single-user local UNI.";;
REGISTERED AS {atmfM4Attribute atmTermPointer(123)};


atmTestAccessFunctionId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  atmTestAccessFunctionIdBeh BEHAVIOUR
  DEFINED AS
" This attribute is used to name instances of the atmTestAccessFunction managed object class. ";; 
REGISTERED AS {atmfM4Attribute atmTestAccessFunctionId(97)};


atmTestAccessFunctionType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.AtmTestAccessFunctionType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  atmTestAccessFunctionTypeBeh BEHAVIOUR
  DEFINED AS
" The value of this attribute identifies the type of test access function to be supported. Valid types include 
physical port mirroring (PP) and virtual connection access (VC).";; 
REGISTERED AS {atmfM4Attribute atmTestAccessFunctionType(98)};


atmTrafficDescriptorId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  atmTrafficDescriptorIdBeh BEHAVIOUR
  DEFINED AS
   "This attribute can be used as an RDN when naming an instance of the
   atmTrafficDescriptor managed object class.";  ;
REGISTERED AS {atmfM4Attribute atmTrafficDescriptorId(216)};


bisupInterNniFeatures ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.BisupFeatureList;
  MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
  BEHAVIOUR
   bisupInterNniFeaturesBeh BEHAVIOUR
     DEFINED AS
      "This set-valued attribute provides a list of the active features being
      used on the BICI associated with the bisupAccessPoint object containing
      it.";;
REGISTERED AS {atmfM4Attribute bisupInterNniFeatures(124)};


bisupSignPointId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   bisupSignPointIdBeh BEHAVIOUR
     DEFINED AS
      "This attribute is used as the RDN when naming an instance of the
      bisupSignPoint managed object class.";;
REGISTERED AS {atmfM4Attribute bisupSignPointId(125)};


bisupTimersProfileId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   bisupTimersProfileIdBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is used as the RDN for instances of the
      bisupTimersProfile object class.";;
REGISTERED AS {atmfM4Attribute bisupTimersProfileId(126)};


callReference ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.BitString;
  MATCHES FOR EQUALITY, SUBSTRINGS;
  BEHAVIOUR 
  callReferenceBeh BEHAVIOUR
  DEFINED AS
" The value of this attribute is the call reference value associated with a call by a DSS2 access signaling 
entity.";; 
REGISTERED AS {atmfM4Attribute callReference(99)};


cellHeaderAbnormalityType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.CellHeaderAbnormalityType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  cellHeaderAbnormalityTypeBeh BEHAVIOUR
  DEFINED AS
" This attribute identifies the abnormality associated with the log record. Valid values for this attribute are: 
Unassigned VPI/VCI Value and Out-Of-Range VPI/VCI Value. This attribute type will be used as part of the 
keyAttributeList in the containing latestOccurrenceLog object.";; 
REGISTERED AS {atmfM4Attribute 4};


chargeNumber ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.AtmSubscriberAddress;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
    chargeNumberBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the subscriber address that will be billed for SVC services provided to the
       associated UNI or V-UNI.";;
REGISTERED AS {atmfM4Attribute chargeNumber(127)};


conformanceDefinition ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ConformanceDefinition;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  conformanceDefinitionBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the type of conformance as defined in ATM-Forum TM
   4.0. Valid values are CBR.1, VBR.1, VBR.2, VBR.3, UBR.1, UBR.2, ABR. The
   correspondence between conformanceDefinition and serviceCategory as specified in
   ATM-Forum 4.0 should be enforced by the NE.";  ;
REGISTERED AS {atmfM4Attribute conformanceDefinition(128)};


commonCTPs ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.ExistingCTPs;
  MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
  BEHAVIOUR 
  commonCTPsBeh BEHAVIOUR
  DEFINED AS
" This attribute identifies all legs of the multipoint connection except the leg identified via the primaryCTP 
attribute.  This attribute provides a pointer to one or more instances of the vpCTPBidirectionalR1 object class 
or vcCTPBidirectionalR1 object class. For full multipoint cross-connections, all the legs of the multipoint 
cross-connection shall be identified by this attribute. ";; 
REGISTERED AS {atmfM4Attribute commonCTPs(6)};


congestionLevel1 ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   congestionLevel1Beh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the level 1 congestion threshold for BISUP
      automatic congestion control. The measure of congestion used is implementation dependent.";;
REGISTERED AS {atmfM4Attribute congestionLevel1(129)};


congestionLevel2 ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   congestionLevel2Beh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the level 2 congestion threshold for BISUP
      automatic congestion control. The measure of congestion used is implementation dependent.";;
REGISTERED AS {atmfM4Attribute congestionLevel2(130)};


controlDuration ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   controlDurationBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the control duration in milliseconds for BISUP automatic
      congestion control.";;
REGISTERED AS {atmfM4Attribute controlDuration(131)};


diagnosticControlId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.SimpleNameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   diagnosticControlIdBeh BEHAVIOUR
     DEFINED AS
      " The value of this attribute identifies an instance of
      the diagnosticControl managed object class. ";;
REGISTERED AS {atmfM4Attribute diagnosticControlId(132)};


diagnosticObjectList ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.DiagnosticObjectList;
  MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
  BEHAVIOUR
   diagnosticObjectListBeh BEHAVIOUR
     DEFINED AS
      " This attribute specifies a list of object instances that represent 
      things for which diagnostics are supported and which are to be diagnosed. ";;
REGISTERED AS {atmfM4Attribute diagnosticObjectList(133)};


diagnosticReportMode ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.DiagnosticReportMode;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   diagnosticReportModeBeh BEHAVIOUR
     DEFINED AS
      " This attribute specifies how to report the result of a
      failed diagnostic, i.e., the thing being tested did not pass the test. 
      Valid report modes are summary mode
      and detailed mode . For the summary report mode, if an
      object failed in one or more test phases, only an overall
      indication of failure will be reported for that object.
      For the detailed report mode, if an object failed in one
      or more test phases, the phases in which failure occurs will also
      be reported (non-reported phases imply pass). ";;
REGISTERED AS {atmfM4Attribute diagnosticReportMode(134)};


diagnosticTerminateMode ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.DiagnosticTerminateMode;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   diagnosticTerminateModeBeh BEHAVIOUR
     DEFINED AS
      " This attribute specifies how a diagnostic will
      terminate in the event that a failure result occurs in
      one of the diagnostic phases. Valid modes are Normal
      mode and Immediate mode. For normal terminate mode, the
      diagnostic will try to complete, if possible, the entire
      set of specified phases and iterations regardless of any
      failed phases encountered on that object. For immediate
      terminate mode, the diagnostic will skip the remaining
      phases if upon failure occurs on the object. ";;
REGISTERED AS {atmfM4Attribute diagnosticTerminateMode(135)};


diagnosticType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.DiagnosticType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   diagnosticTypeBeh BEHAVIOUR
     DEFINED AS
      " This attribute specifies the type of the diagnostic
      routine to be performed. It may also
      specifiy the phases and number of iterations for each
      phase to be run. Diagnostic test types may be locally defined or 
      may be globally available standardized test types";;
REGISTERED AS {atmfM4Attribute diagnosticType(136)};


ds3PLCPPathCTPId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  ds3PLCPPathCTPIdBeh BEHAVIOUR
  DEFINED AS
" This attribute is used to name instances of the ds3PLCPPathCTPBidirectional managed object class.";; 
REGISTERED AS {atmfM4Attribute ds3PLCPPathCTPId(11)};


dss2SignChannelTpId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
 dss2SignChannelTpIdBeh BEHAVIOUR
     DEFINED AS
      " The value of this attribute identifies an instance of
      the dss2SignChannelTp managed object class. ";;
REGISTERED AS {atmfM4Attribute dss2SignChannelTpId (227)};


egressADTF ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ADTF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  egressADTFBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates egress (with respect to the managed system) the
   Allowed Cell Rate Decrease Time Factor that has been assigned to the VPL or VCL
   being terminated.";  ;
REGISTERED AS {atmfM4Attribute egressADTF(137)};


egressBandwidth ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Integer ;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
egressBandwidthBeh BEHAVIOUR
        DEFINED AS
"This attribute determines the total amount of egress bandwidth for the interface in cells per second. 
Attribute values are limited by the underlying physical bandwidth.";;
REGISTERED AS {atmfM4Attribute egressBandwidth(138)};


egressCDF ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.CDF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  egressCDFBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system) Cutoff
    Decrease Factor that has been assigned to the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute egressCDF(139)};


egressCLR ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.CLR;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  egressCLRBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system)
   maximum permissible Cell Loss Ratio Factor that has been assigned to the VPL or
   VCL being terminated. This attribute applies to CBR and realtime and
   non-realtime VBR. It applies to CLP=0+1 flow for CBR.1 and VBR.1, and it applies
   to CLP=0 flow for VBR.2 and VBR.3.";  ;
REGISTERED AS {atmfM4Attribute egressCLR(140)};


egressFrameDiscardEnabled ATTRIBUTE 
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Boolean;
        MATCHES FOR EQUALITY; 
        BEHAVIOUR 
egressFrameDiscardEnabledBeh BEHAVIOUR
        DEFINED AS
"This attribute indicates whether the network element is allowed to treat data leaving the NE as frames 
and to apply frame discard.";;
REGISTERED AS {atmfM4Attribute egressFrameDiscardEnabled(141)};


egressInitialCellRate ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  egressInitialCellRateBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system) cell
   rate at which the source is allowed to send cells initially and after an idle
   period across the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute egressInitialCellRate(142)};


egressMinCellRate ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
 egressMinCellRateBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system)
   Minimum Cell Rate at which the source is always allowed to send across the VPL
   or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute egressMinCellRate(143)};


egressNrm ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Nrm;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
 egressNrmBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system)
   maximum number of cells a source may send for each forward Resource Management
   cell across the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute egressNrm(144)};


egressRateDecreaseFactor ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.RDF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
 egressRateDecreaseFactorBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system) Rate
   Decrease Factor, which controls the decrease in the cell transmission rate
   across the VPL or VCL being terminated." ; ;
REGISTERED AS {atmfM4Attribute egressRateDecreaseFactor(145)};


egressRateIncreaseFactor ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.RIF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
 egressRateIncreaseFactorBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system) Rate
   Increase Factor, which controls the amount by which the cell transmission rate
   may increase upon reception of a resource management cell across the VPL or VCL
   being terminated. ";  ;
REGISTERED AS {atmfM4Attribute egressRateIncreaseFactor(146)};


egressTransientBufferExposure ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  egressTransientBufferExposureBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system)
   negotiated number of cells that the network limits the source to sending across
   the VPL or VCL being terminated during startup periods, or before the first
   resource management cell returns.";  ;
REGISTERED AS {atmfM4Attribute egressTransientBufferExposure(147)};


egressTrm ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Trm;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  egressTrmBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the egress (with respect to the managed system) upper
   bound on the time between forward Resource Management cells assigned to the VPL
   or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute egressTrm(148)};


eventType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.GraphicStringOrNull;
  MATCHES FOR EQUALITY, SUBSTRINGS;
  BEHAVIOUR 
  eventTypeBeh BEHAVIOUR
  DEFINED AS
" The value of this attribute identifies the type of event or abnormality, if any, that caused information to be 
logged. If the event type is not applicable, or cannot be determined, the value of this attribute should be 
NULL.";; 
REGISTERED AS {atmfM4Attribute eventType(100)};


farEndCarrierNetwork ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.FarEndCarrierNetwork;
  MATCHES FOR EQUALITY;
  BEHAVIOUR farEndCarrierNetworkBeh BEHAVIOUR
 DEFINED AS
" This attribute identifies the adjacent (far-end) carrier to which the Inter-NNI is connected. ";; 
REGISTERED AS {atmfM4Attribute 18};


fC ATTRIBUTE
 DERIVED FROM "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":counter;
 BEHAVIOUR 
  fCBeh BEHAVIOUR
 DEFINED AS 
  " This attribute defines the failure counter.";;
REGISTERED AS {atmfM4Attribute fC(149) };


fixedRoundTripTime ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  fixedRoundTripTimeBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the fixed round-trip time, which is the sum of the
   fixed and propagation delays from the source to a destination and back.";  ;
REGISTERED AS {atmfM4Attribute fixedRoundTripTime(150)};


ilmiChannelIdentifier ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.IlmiChannelIdentifier;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  ilmiChannelIdentifierBeh BEHAVIOUR
   DEFINED AS
" This attribute identifies the VPI/VCI pair that is used to provide the user connectivity to the Interim Local 
Management Interface (ILMI) Server in the managed system. The default value for this attribute is VPI=0 and 
VCI=16. ";; 
REGISTERED AS {atmfM4Attribute 19};


ilmiCheckConnectivityPollInterval ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    ilmiCheckConnectivityPollIntervalBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the amount of time in seconds between successive transmissions of ILMI
      messages on the interface for the purpose of detecting loss of ILMI connectivity. A value of zero disables 
      ILMI connectivity procedures on the interface.";;
REGISTERED AS {atmfM4Attribute ilmiCheckConnectivityPollInterval(151)};


ilmiConnectivityPollFactor ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    ilmiConnectivityPollFactorBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the number of consecutive polls on the associated UNI or V-UNI interface 
      for which no ILMI response message is received before ILMI connectivity is declared lost.";;
REGISTERED AS {atmfM4Attribute ilmiConnectivityPollFactor(152)};


ilmiConnectivityState ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ConnectivityState;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
    ilmiConnectivityStateBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute indicates the connectivity state of ILMI for the UNI or V-UNI. If ILMI is 
      defined for the interface, the value of this attribute is connectionUp or connectionDown. If ILMI is not
      defined, the value is unknown.";;
REGISTERED AS {atmfM4Attribute ilmiConnectivityState(153)};


ilmiEstabConnectivityPollInterval ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    ilmiEstabConnectivityPollIntervalBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the amount of time in seconds between successive transmissions of ILMI 
      messages on this interface for the purpose of detecting establishment of ILMI connectivity";;
REGISTERED AS {atmfM4Attribute ilmiEstabConnectivityPollInterval(154)};


ingressADTF ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ADTF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressADTFBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system)
   Allowed Cell Rate Decrease Time Factor assigned to the VPL or VCL being
   terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressADTF(155)};


ingressBandwidth ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Integer ;
        MATCHES FOR EQUALITY;
  BEHAVIOUR 
  ingressBandwidthBeh BEHAVIOUR
  DEFINED AS
"This attribute determines the total amount of ingress bandwidth for the interface in cells per second. Attribute 
values are limited by the underlying physical bandwidth.";;
REGISTERED AS {atmfM4Attribute ingressBandwidth(156)};


ingressCDF ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.CDF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressCDFBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system)
   Cutoff Decrease Factor assigned to the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressCDF(157)};



ingressCLR ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.CLR;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressCLRBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system)
   maximum permissible Cell Loss Ratio assigned to the VPL or VCL being terminated.
   This attribute applies to CBR and realtime and non-realtime VBR. It applies to
   CLP=0+1 flow for CBR.1 and VBR.1, and it applies to CLP=0 flow for VBR.2 and
   VBR.3.";  ;
REGISTERED AS {atmfM4Attribute ingressCLR(158)};


ingressFrameDiscardEnabled ATTRIBUTE 
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Boolean;
        MATCHES FOR EQUALITY; 
        BEHAVIOUR 
ingressFrameDiscardEnabledBeh BEHAVIOUR
        DEFINED AS
"This attribute indicates whether the network element is allowed to data received by the NE as frames 
and to apply frame discard.";;
REGISTERED AS {atmfM4Attribute ingressFrameDiscardEnabled(159)};


ingressInitialCellRate ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressInitialCellRateBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system) cell
   rate at which the source is allowed to send cells initially and after an idle
   period across the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressInitialCellRate(160)};


ingressMinCellRate ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressMinCellRateBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system)
   minimum cell rate at which the source is always allowed to send cells across the
   VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressMinCellRate(161)};


ingressNrm ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Nrm;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressNrmBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system)
   maximum number of cells a source may send for each forward Resource Management
   cell across the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressNrm(162)};


ingressRateDecreaseFactor ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.RDF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressRateDecreaseFactorBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system) rate
   decrease factor, which controls the decrease in the cell transmission rate
   across the VPL or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressRateDecreaseFactor(163)};


ingressRateIncreaseFactor ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.RIF;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressRateIncreaseFactorBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system) rate
   increase factor, which controls the amount by which the cell transmission rate
   may increase upon reception of a resource management cell across the VPL or VCL
   being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressRateIncreaseFactor(164)};


ingressTransientBufferExposure ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressTransientBufferExposureBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system)
   negotiated number of cells that the network limits the source to sending across
   the VPL or VCL being terminated during startup periods, or before the first
   resource management cell returns.";  ;
REGISTERED AS {atmfM4Attribute ingressTransientBufferExposure(165)};


ingressTrm ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Trm;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  ingressTrmBeh BEHAVIOUR
  DEFINED AS
   "This attribute indicates the ingress (with respect to the managed system) upper
   bound on the time between forward Resource Management cells assigned to the VPL
   or VCL being terminated.";  ;
REGISTERED AS {atmfM4Attribute ingressTrm(166)};


interfacePointer ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.InterfacePointer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  interfacePointerBeh BEHAVIOUR
  DEFINED AS
" This attribute identifies the object instance Id of the uni, interNNI, or intraNNI object with which the cell 
header abnormality is associated. This attribute type will be used as part of the keyAttributeList in the containing 
latestOccurrenceLog object.";; 
REGISTERED AS {atmfM4Attribute 25};


iscIncludeInfo ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.IscIncludeInfo;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   iscIncludeInfoBeh BEHAVIOUR
     DEFINED AS
      "This attribute is used to control the handling of ISC point codes within
      a BISUP signaling point. If the ISC point code is not received, it
      determines whether to include or not include the originating ISC point
      code in Initial Address Messages (IAMs) for outgoing international calls.
      If the ISC point code is received, it determines whether to discard or
      include the received originating ISC point code in the outgoing IAMs.";;
REGISTERED AS {atmfM4Attribute iscIncludeInfo(167)};


iscPointCode ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.PointCode;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   iscPointCodeBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the International Switching Center (ISC)
      point code for a BISUP signaling point.";;
REGISTERED AS {atmfM4Attribute iscPointCode(169)};


j2CTPId ATTRIBUTE WITH ATTRIBUTE SYNTAX
 AtmMIBModV2.NameType;
 MATCHES FOR EQUALITY;
 BEHAVIOUR 
  j2CTPIdBeh BEHAVIOUR
  DEFINED AS
  " This Is an attribute whose distinguished value can be used as an RDN when
   naming an instance of the j2CTPSink, j2CTPSource, or j2CTPBidirectional.";;
REGISTERED AS {atmfM4Attribute j2CTPId(170)};


j2LineTTPId ATTRIBUTE WITH ATTRIBUTE SYNTAX
 AtmMIBModV2.NameType;
 MATCHES FOR EQUALITY;
 BEHAVIOUR 
 j2LineTTPIdBeh BEHAVIOUR
 DEFINED AS
  "This is an attribute whose distinguished value can be used as an RDN when
  naming an instance of the j2LineTTPSink, j2LineTTPSource, or j2LineTTPBidirectional.";;
REGISTERED AS {atmfM4Attribute j2LineTTPId(171)};


j2PathTTPId ATTRIBUTE WITH ATTRIBUTE SYNTAX
 AtmMIBModV2.NameType;
 MATCHES FOR EQUALITY;
 BEHAVIOUR 
 j2PathTTPIdBeh BEHAVIOUR
 DEFINED AS
" This is an attribute whose distinguished value can be used as an RDN when naming an  instance of the 
j2PathTTPSink, j2PathTTPSource, or j2PathTTPBidirectional.";;
REGISTERED AS {atmfM4Attribute j2PathTTPId(172)};


keyAttributeList ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.AttributeList;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
 keyAttributeListBeh BEHAVIOUR
 DEFINED AS
"This attribute indicates the list of attribute types to be used as keys to uniquely identify the entries in a 
latestOccurrenceLog.";; 
REGISTERED AS {atmfM4Attribute keyAttributeList(28)};


localMaxNumAllocatedVciBits ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    localMaxNumAllocatedVciBitsBeh BEHAVIOUR
     DEFINED AS
       "The value of this attribute is the number of allocated bits of the VCI sub-field that the local ATM NE can
       support at its end of the interface for the associated user. It must be equal to or less than the
       maxNumVCIBitsSupported for an associated uni object. ";;
REGISTERED AS {atmfM4Attribute localMaxNumAllocatedVciBits(173)};


localMaxNumVccsSupportable ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    localMaxNumVccsSupportableBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the maximum number of VCCs that the local ATM NE can support for the 
      associated user.";;
REGISTERED AS {atmfM4Attribute localMaxNumVccsSupportable(174)};


localMaxNumVpcsSupportable ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    localMaxNumVpcsSupportableBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the maximum number of VPCs that the local ATM NE can support for the 
      associated user.";;
REGISTERED AS {atmfM4Attribute localMaxNumVpcsSupportable(175)};


localMaxSvccVpi ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
    localMaxSvccVpiBeh BEHAVIOUR
     DEFINED AS
     "The value of this attribute is the maximum VPI value that the ATM NE can use for SVCCs for the 
associated
       user.";;
REGISTERED AS {atmfM4Attribute localMaxSvccVpi(176)};


localMinSvccVci ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
  localMinSvccVciBeh BEHAVIOUR
  DEFINED AS
"The value of this attribute is the minimum VCI value that the ATM NE can use for SVCCs for the associated
user.";;
REGISTERED AS {atmfM4Attribute localMinSvccVci(177)};


multipointBridgeId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  multipointBridgeIdBeh BEHAVIOUR
  DEFINED AS
  "This attribute is used to name instances of the multipointBridge managed object class. ";; 
REGISTERED AS {atmfM4Attribute multipointBridgeId(36)};


multipointConnectionType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.MultipointConnectionType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  multipointConnectionTypeBeh BEHAVIOUR
  DEFINED AS
"This attribute represents the type of cross-connection established by the multipoint bridge. Valid values are 
broadcast, merge, composite, and full multipoint. ";; 
REGISTERED AS {atmfM4Attribute multipointConnectionType(37)};


nBlk ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   nBlkBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the number of monitoring intervals in a
      block for interoffice signaling SAAL protocol layer Algorithm 2. Algorithm
      2 is concerned with intermediate error rates.";;
REGISTERED AS {atmfM4Attribute nBlk(178)};


nDelay ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   nDelayBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the number of monitoring intervals needed
      to span the time when interoffice signaling messages are not released from
      buffers as a result of a 400 ms error event.";;
REGISTERED AS {atmfM4Attribute nDelay(179)};


networkMaxNumAllocatedVpiBits ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
  networkMaxNumAllocatedVpiBitsBeh BEHAVIOUR
  DEFINED AS
  "This attribute is the number of allocated bits of the VPI sub-field that can be supported for the associated user 
  on the UNI for multiple-user UNI cases.";;
REGISTERED AS {atmfM4Attribute networkMaxNumAllocatedVpiBits(180)};


nniAccessPointer ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.PointerOrNull;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   nniAccessPointerBeh BEHAVIOUR
     DEFINED AS
      "This attribute is a pointer to an ITU-T Rec. Q.824.6 nniAccess object asscociated with the
      managed object that contains it.";;
REGISTERED AS {atmfM4Attribute nniAccessPointer(181)};


originatingLineInfo ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.OriginatingLineInfo;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
    originatingLineInfoBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides information needed to process charging information
      when interconnecting through an interexchange carrier in ANSI based
      networks.";;
REGISTERED AS {atmfM4Attribute originatingLineInfo(182)};


pduOctets ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.OctetString;
  MATCHES FOR EQUALITY, SUBSTRINGS;
  BEHAVIOUR 
  pduOctetsBeh BEHAVIOUR
  DEFINED AS
" This attribute contains the entire contents of a protocol data unit (PDU) that is to be retained in a log.";; 
REGISTERED AS {atmfM4Attribute pduOctets(101)};


primary ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Boolean;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   primaryBeh BEHAVIOUR
     DEFINED AS
      "This attribute is used to designate a signaling entity as the primary
      entity for an ATM NE. If the value of this attribute is TRUE, the object
      containing it represents the primary signaling entity. If the value is
      FALSE, the object represents a secondary signaling entity.";;
REGISTERED AS {atmfM4Attribute primary(183)};


primaryCTP ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.PointerOrNull;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  primaryCTPBeh BEHAVIOUR
  DEFINED AS
"The primaryCTP attribute identifies the vpCTPBidirectionalR1 or vcCTPBidirectionalR1 object that 
generates traffic to broadcast and/or receives merged traffic for broadcast, merge, or composite multipoint 
cross-connection types.  For full multipoint connections (i.e., all legs communicate with all other legs), the 
value of this attribute shall be set to NULL. The primaryCTP attribute value shall remain fixed during the life 
of the associated multipoint cross-connection. ";; 
REGISTERED AS {atmfM4Attribute primaryCTP(40)};


priorityCellsDiscarded ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
   priorityCellsDiscardedBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a count of the number of user or other ATM cells with CLP=0 have been discarded
       at the associated UNI or NNI interface due to congestion during the measurement interval.";;
REGISTERED AS {atmfM4Attribute priorityCellsDiscarded(184)};


protocolPointer ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.PointerOrNull;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   protocolPointerBeh BEHAVIOUR
     DEFINED AS
      "This attribute is a pointer to protocol information that applies to the
      managed object that contains it.";;
REGISTERED AS {atmfM4Attribute protocolPointer(186)};


provingInfo ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ProvingInfo;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   provingInfoBeh BEHAVIOUR
     DEFINED AS
      "This attribute controls whether the SAAL layer will always provide normal
      proving, always provide emergency proving, or will provide proving as requested by
      the MTP3 layer.";;
REGISTERED AS {atmfM4Attribute provingInfo(187)};


recoveryType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.RecoveryType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  recoveryTypeBeh BEHAVIOUR
  DEFINED AS
"The recoveryType attribute identifies whether the ATM cross-connection is recoverable (default) or non-
recoverable. Recoverable cross-connections remain intact regardless of the operational state of the cross-
connection. Non-recoverable ATM cross-connections are cross-connections that are automatically released 
by the managed system upon detection of a service affecting failure.";; 
REGISTERED AS {atmfM4Attribute 41};


resourceUnderTest ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.ResourceUnderTest;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  resourceUnderTestBeh BEHAVIOUR
  DEFINED AS
" This attribute identifies an ATM cell stream or connection that is connected to a test access path (TAP). It 
will point to a tcAdaptorTTPBidirectional object and for virtual connection (VC) test access, it will also 
identify the VPI value and if necessary the VCI value of the connection under test. If the associated TAP is 
idle, the value of this attribute will be NULL.";; 
REGISTERED AS {atmfM4Attribute resourceUnderTest(102)};


serviceCategory ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.ServiceCategory;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
  serviceCatagoryBeh BEHAVIOUR
  DEFINED AS
  "This attribute indicates the service category as defined in ATM-Forum TM 4.0.
  Valid values include CBR, rt-VBR, nrt-VBR, UBR, ABR., and such other values as may be agreed in the 
future";  ;
REGISTERED AS {atmfM4Attribute serviceCategory(188)};

signalingIdentifier ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.BitString;
  MATCHES FOR EQUALITY, SUBSTRINGS;
  BEHAVIOUR 
  signalingIdentifierBeh BEHAVIOUR
  DEFINED AS
"The value of this attribute is a BISUP Originating Signaling Identifier or  Destination Signaling Identifier.";; 
REGISTERED AS {atmfM4Attribute signalingIdentifier(103)};


signChannelPointer ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.PointerOrNull;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   signChannelPointerBeh BEHAVIOUR
     DEFINED AS
        "The value of this attribute is the distinguished name of the signVcTTPBidirectional object that
         represents the termination point for the associated user's signaling channel. If no signaling channel is 
         assigned, the value is NULL.";;
REGISTERED AS {atmfM4Attribute signChannelPointer(189)};


signDataLink ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.PointerOrNull;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   signDataLinkBeh BEHAVIOUR
     DEFINED AS
      "This attribute is a pointer to the object that represents the AAL5
      interworking functions of a signaling link.";;
REGISTERED AS {atmfM4Attribute signDataLink(190)};


signLink ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.PointerOrNull;
  MATCHES FOR EQUALITY;
  BEHAVIOUR signLinkBeh BEHAVIOUR
   DEFINED AS
    "This attribute is a pointer to the object that represents an associated access
    signaling channel termination point or interoffice signaling
    link termination point.";;
REGISTERED AS {atmfM4Attribute signLink(191)};


signMode ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.SignMode;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   signModeBeh BEHAVIOUR
     DEFINED AS
      "This attribute identifies if the managed object that contains it is
      controlling associated mode or quasi-associated mode signaling.";;
REGISTERED AS {atmfM4Attribute signMode(192)};


sourceEntity ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.ObjectInstance;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  sourceEntityBeh BEHAVIOUR
  DEFINED AS
" This attribute is a pointer to the object instance that represents the source of information to be logged.";; 
REGISTERED AS {atmfM4Attribute sourceEntity(104)};


sscfAlignmentFailures ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
   sscfAlignmentFailuresBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a count of the number of times the SSCF-NNI
      returns to the out-of-service state because of alignment failure.";;
REGISTERED AS {atmfM4Attribute sscfAlignmentFailures(193)};


sscopConnectionMonitoring ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
   sscopConnectionMonitoringBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a count of the number of times during the
      measurement period that any of the following events occur on the receive
      side of the monitoried signaling channel: SSCOP connection disconnect
      (which is characterized by the expiry of Timer_NO_RESPONSE and receipt of
      MAA-ERROR code P);SSCOP connection initiation failure (which is
      characterized by the number of expiries of the connection control Timer_CC
      exceeding MaxCC and receipt of MAA-ERROR code O); or receipt of a BGREJ
      PDU, SSCOP connection re-establishment or resynchronization (which is
      characterized by receipt of a BGN or RESYNC PDU).";;
REGISTERED AS {atmfM4Attribute sscopConnectionMonitoring(194)};


sscopErroredPdus ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
   sscopErroredPdusBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides an aggregate count of the following events
      occurring on the receive side of a signaling channel during the
      measurement period: Unexpected PDUs received (which are characterized by
      MAA-ERRORs A-M), Invalid PDUs received (which are characterized by
      MAA-ERROR code U, undefined PTU type code (i.e.,
      0000), or not 32 bit aligned), Unexpected PDU values (which are
      characterized by PDU N(S), N(PS), N(R) or list elements error in
      STAT/USTAT PDUs and by receipt of MAA-ERRORs Q-T).";;
REGISTERED AS {atmfM4Attribute sscopErroredPdus(195)};


sscopLostPdus ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
   sscopLostPdusBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a count of the number of SD PDUs that have been
      lost on the associated SSCOP signaling connection during the measurement
      interval.";;
REGISTERED AS {atmfM4Attribute sscopLostPdus(196)};


sscopNoCreditDelay ATTRIBUTE
  DERIVED FROM  "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": counter;
  BEHAVIOUR
   sscopNoCreditDelayBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the time during the measurement period
      that the local end of an interoffice SSCOP connection has PDUs to send to
      its peer but cannot do so because it has insufficient credit.";;
REGISTERED AS {atmfM4Attribute sscopNoCreditDelay(197)};


supportedByObject ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.ObjectInstance;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  supportedByObjectBeh BEHAVIOUR
  DEFINED AS
" This attribute points to an object that represents supporting functions for the given object.";; 
REGISTERED AS {atmfM4Attribute supportedByObject(105)};


supportedFeedbackModes ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.FeedbackModes;
        MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
        BEHAVIOUR 
supportedFeedbackModesBeh BEHAVIOUR
        DEFINED AS
"This attribute describes the ABR feedback modes which are supported in the network element.";; 
REGISTERED AS {atmfM4Attribute supportedFeedbackModes(198)};


supportedOperationModes ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.OperationModes;
        MATCHES FOR EQUALITY, SET-COMPARISON, SET-INTERSECTION;
        BEHAVIOUR supportedOperationModesBeh BEHAVIOUR
        DEFINED AS
        "This attribute describes which ABR operation modes are supported in the network element.";; 
REGISTERED AS {atmfM4Attribute supportedOperationModes(199)};


supportedServiceCategories ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.SupportedServiceCategories ;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
supportedServiceCategoriesBeh BEHAVIOUR
        DEFINED AS
"This attribute specifies the set of service categories which are supported by the managed entity.";;
REGISTERED AS {atmfM4Attribute supportedServiceCategories(200)};


t12b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t12bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Blocking Acknowledgment
      timer value in seconds.";;
REGISTERED AS {atmfM4Attribute t12b(201)};


t14b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t14bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Unblocking Acknowledgment
      timer value in seconds.";;
REGISTERED AS {atmfM4Attribute t14b(202)};


t16b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t16bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Reset Acknowledgment timer
      value in seconds.";;
REGISTERED AS {atmfM4Attribute t16b(203)};


t17b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t17bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Repeat Reset timer value in
      minutes.";;
REGISTERED AS {atmfM4Attribute t17b(204)};


t1b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t1bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Release Complete timer
      value in seconds.";;
REGISTERED AS {1 3 17 104 attribute(2) gr1114(24) t1b(150)};


t34b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t34bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Segmentation timer value in
      milliseconds.";;
REGISTERED AS {1 3 17 104 attribute(2) gr1114(24) t34b(151)};


t40b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t40bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await IAM Acknowledgment timer
      value in milliseconds.";;
REGISTERED AS {atmfM4Attribute t40b(205)};


t41b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t41bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Consistency Check Request
      Acknowledgment timer value in seconds.";;
REGISTERED AS {atmfM4Attribute t41b(206)};


t42b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t42bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Consistency Check End
      Acknowledgment timer value in seconds.";;
REGISTERED AS {atmfM4Attribute t42b(207)};


t4b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t4bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP User Part Availability timer
      value in minutes.";;
REGISTERED AS {atmfM4Attribute t4b(208)};


t7b ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   t7bBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the BISUP Await Address Complete timer
      value in seconds.";;
REGISTERED AS {atmfM4Attribute t7b(209)};


tapPPId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  tapPPIdBeh BEHAVIOUR
  DEFINED AS
  " This attribute is used for naming instances of the tapPP managed object class.";; 
REGISTERED AS {atmfM4Attribute tapPPId(106)};


tapVCId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR 
  tapVCIdBeh BEHAVIOUR
  DEFINED AS
" This attribute is used for naming instances of the tapVC managed object class.";; 
REGISTERED AS {atmfM4Attribute tapVCId(107)};


tau ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   tauBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the length of the error 
      monitoring
      interval in milliseconds within the SAAL protocol layer for 
      interoffice
      signaling links.";;
REGISTERED AS {atmfM4Attribute tau(213)};


thres ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Real;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   thresBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is used as the threshold for 
      comparing the
      running QOS within the SAAL protocol layer for interoffice 
      signaling
      links.";;
REGISTERED AS {atmfM4Attribute thres(214)};


timerType ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.TimerType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR timerTypeBeh BEHAVIOUR
  DEFINED AS
"The value of this attribute is the name of the timer that expired 
and caused creation of the given timerExpirationLogRecord 
object.";; REGISTERED AS {atmfM4Attribute timerType(108)};


timerValue ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.TimerValue;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR timerValueBeh BEHAVIOUR
  DEFINED AS
" The value of this attribute is the value of the associated timer 
when it expired and caused the creation of the given 
timerExpirationLogRecord object.";; REGISTERED AS {atmfM4Attribute 
timerValue(109)};


tLoss ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   tLossBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the STAT loss limit in milliseconds.";;
REGISTERED AS {atmfM4Attribute tLoss(210)};


trafficAmount ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   trafficAmountBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the amount of traffic in 
      cells per second to control with
      BISUP automatic congestion control.";;
REGISTERED AS {atmfM4Attribute trafficAmount(215)};


trafficDescriptorPtr ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.PointerOrNull;
        MATCHES FOR EQUALITY;
        BEHAVIOUR trafficDescriptorPtrBeh BEHAVIOUR
        DEFINED AS 
"This attribute is used as a pointer to an instance of the atmTrafficDescriptor managed object class.";;
REGISTERED AS {atmfM4Attribute trafficDescriptorPtr(211)};


tSup ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.Integer;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   tSupBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is the superblock size in seconds.";;
REGISTERED AS {atmfM4Attribute tSup(212)};



uniInfoId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
 uniInfoIdBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute is used as the RDN for instances of the uniInfo object class.";;
REGISTERED AS {atmfM4Attribute uniInfoId(217)};


upcNpc ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Boolean;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
upcNpcBeh BEHAVIOUR
        DEFINED AS
        "This attribute determines whether or not policing is performed.";;
REGISTERED AS {atmfM4Attribute upcNpc(218)};


useItOrLoseItPolicy ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Boolean;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
useItOrLoseItPolicyBeh BEHAVIOUR
        DEFINED AS
"This attribute indicates whether the NE implements a use-it-or-lose-it policy for ABR connections.";; 
REGISTERED AS {atmfM4Attribute useItOrLoseItPolicy(219)};


vciValue ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.VciValue;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR 
  vciValueBeh BEHAVIOUR
  DEFINED AS
" This attribute represents the VCI Value in the header of the discarded ATM cell. ";; 
REGISTERED AS {atmfM4Attribute 50};


vpci ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.VpciValue;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR
   vpciBeh BEHAVIOUR
     DEFINED AS
      "The value of this attribute specifies a virtual path connection
      identifier that is associated with the managed object instance that
      contains it.";;
REGISTERED AS {atmfM4Attribute vpci(220)};


vpciTpId ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.NameType;
  MATCHES FOR EQUALITY;
  BEHAVIOUR
   vpciTpIdBeh BEHAVIOUR
     DEFINED AS
      "This attribute is used to define the RDN for instances of the vpciTp
      managed object class.";;
REGISTERED AS {atmfM4Attribute vpciTpId(221)};

vpcisAllowed ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.VpciValues;
  MATCHES FOR EQUALITY, ORDERING, SET-COMPARISON, SET-INTERSECTION;
  BEHAVIOUR
   vpcisAllowedBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a list of permitted VPCI values that may be used
      with an interoffice signaling link set.";;
REGISTERED AS {atmfM4Attribute vpcisAllowed(222)};


vpisAllowed ATTRIBUTE
  WITH ATTRIBUTE SYNTAX  AtmMIBModV2.VpiValues;
  MATCHES FOR EQUALITY, ORDERING, SET-COMPARISON, SET-INTERSECTION;
  BEHAVIOUR
   vpisAllowedBeh BEHAVIOUR
     DEFINED AS
      "This attribute provides a list of permitted VPI values that may be used
      with a signaling link set.";;
REGISTERED AS {atmfM4Attribute vpisAllowed(223)};


vpiValue ATTRIBUTE
  WITH ATTRIBUTE SYNTAX AtmMIBModV2.VpiValue;
  MATCHES FOR EQUALITY, ORDERING;
  BEHAVIOUR 
  vpiValueBeh BEHAVIOUR
  DEFINED AS
" This attribute represents the VPI value in the header of the discarded ATM cell. ";; 
REGISTERED AS {atmfM4Attribute 53};


vsVdActive ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Boolean ;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
vsVdActiveBeh BEHAVIOUR
        DEFINED AS
        "This attribute determines whether or not VS/VD control for ABR service is active.";;
REGISTERED AS {atmfM4Attribute vsVdActive(224)};


vsVdSupport ATTRIBUTE
        WITH ATTRIBUTE SYNTAX AtmMIBModV2.Boolean ;
        MATCHES FOR EQUALITY;
        BEHAVIOUR 
vsVdSupportBeh BEHAVIOUR
        DEFINED AS
"This attribute provides an indication whether or not VS/VD control for ABR service is supported.";;
REGISTERED AS {atmfM4Attribute vsVdSupport(225)};


atmFabric-managedElementR1 NAME BINDING
   SUBORDINATE OBJECT CLASS atmFabricR1 AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElementR1 
   AND SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. I.751":atmFabricId;
REGISTERED AS {atmfM4NameBinding atmFabric-managedElementR1(36)};

abrFeedbackControl-managedElement NAME BINDING
        SUBORDINATE OBJECT CLASS abrFeedbackControl
                AND SUBCLASSES; 
        NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElement 
                AND SUBCLASSES;
        WITH ATTRIBUTE abrFeedbackControlId;
REGISTERED AS {atmfM4NameBinding abrFeedbackControl-managedElementR1(37)};

atmMtpSignPoint-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS atmMtpSignPoint AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElement AND 
SUBCLASSES;
  WITH ATTRIBUTE atmMtpSignPointId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding atmMtpSignPoint-managedElement(38)};


atmSignLinkSetTp-atmMtpSignPoint NAME BINDING
  SUBORDINATE OBJECT CLASS atmSignLinkSetTp AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS atmMtpSignPoint AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. Q.751.1 : 1995": signLinkSetTpId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding atmSignLinkSetTp-atmMtpSignPoint(39)};


atmSignLinkTp-atmSignLinkSetTp NAME BINDING
  SUBORDINATE OBJECT CLASS atmSignLinkTp AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS atmSignLinkSetTp AND SUBCLASSES;
  WITH ATTRIBUTE atmSignLinkTpId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding atmSignLinkTp-atmSignLinkSetTpR1(40)};


atmTestAccessFunction-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS atmTestAccessFunction AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElement AND 
  SUBCLASSES;
  WITH ATTRIBUTE atmTestAccessFunctionId;
REGISTERED AS {atmfM4NameBinding atmTestAccessFunction-managedElement(33)};


atmTrafficDescriptor-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS atmTrafficDescriptor AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElementR1 AND 
SUBCLASSES;
  WITH ATTRIBUTE atmTrafficDescriptorId;
  CREATE WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding atmTrafficDescriptor-managedElementR1(65)};


atmTrafficLoadCurrentData-vcCTPBidirectionalR1 NAME BINDING
   SUBORDINATE OBJECT CLASS "ITU-T Rec. I.751":atmTrafficLoadCurrentData 
                AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS vcCTPBidirectionalR1 AND SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993":scannerId;
   CREATE
      WITH-REFERENCE-OBJECT,
      WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
      DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding atmTrafficLoadCurrentData-vcCTPBidirectionalR1 (41)};


atmTrafficLoadCurrentData-vpCTPBidirectionalR1 NAME BINDING
   SUBORDINATE OBJECT CLASS "ITU-T Rec. I.751":atmTrafficLoadCurrentData 
                AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS vpCTPBidirectionalR1 AND SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993":scannerId;
   CREATE
      WITH-REFERENCE-OBJECT,
      WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
      DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding atmTrafficLoadCurrentData-vpCTPBidirectionalR1(42)};


bidirectionalContinuityMonitor-vcCTPBidirectionalR1 NAME BINDING
        SUBORDINATE OBJECT CLASS        "ITU-T Rec. I.751":bidirectionalContinuityMonitor;
        NAMED BY SUPERIOR OBJECT CLASS  vcCTPBidirectionalR1;
        WITH ATTRIBUTE  "ITU-T Rec. I.751":continuityMonitorId;
        CREATE
                WITH-REFERENCE-OBJECT,
                WITH-AUTOMATIC-INSTANCE-NAMING;
        DELETE
                DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding bidirectionalContinuityMonitor-vcCTPBidirectionalR1(43)};


bidirectionalContinuityMonitor-vpCTPBidirectionalR1 NAME BINDING
        SUBORDINATE OBJECT CLASS        "ITU-T Rec. I.751":bidirectionalContinuityMonitor;
        NAMED BY SUPERIOR OBJECT CLASS  vpCTPBidirectionalR1;
        WITH ATTRIBUTE  "ITU-T Rec. I.751":continuityMonitorId;
        CREATE
                WITH-REFERENCE-OBJECT,
                WITH-AUTOMATIC-INSTANCE-NAMING;
        DELETE
                DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding bidirectionalContinuityMonitor-vpCTPBidirectionalR1(44)};

bidirectionalPerformanceMonitor-vcCTPBidirectionalR1 NAME BINDING
        SUBORDINATE OBJECT CLASS        "ITU-T Rec. I.751":bidirectionalPerformanceMonitor;
        NAMED BY SUPERIOR OBJECT CLASS  vcCTPBidirectionalR1 AND SUBCLASSES;
        WITH ATTRIBUTE  "ITU-T Rec. I.751":performanceMonitorId;
        CREATE
                WITH-REFERENCE-OBJECT,
                WITH-AUTOMATIC-INSTANCE-NAMING;
        DELETE
                DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding bidirectionalPerformanceMonitor-vcCTPBidirectionalR1(45)};

bidirectionalPerformanceMonitor-vpCTPBidirectionalR1  NAME BINDING
        SUBORDINATE OBJECT CLASS        "ITU-T Rec. I.751":bidirectionalPerformanceMonitor;
        NAMED BY SUPERIOR OBJECT CLASS  vpCTPBidirectionalR1  AND SUBCLASSES;
        WITH ATTRIBUTE  "ITU-T Rec. I.751":performanceMonitorId;
        CREATE
                WITH-REFERENCE-OBJECT,
                WITH-AUTOMATIC-INSTANCE-NAMING;
        DELETE
                DELETES-CONTAINED-OBJECTS;
REGISTERED AS 
{atmfM4NameBinding bidirectionalPerformanceMonitor-vpCTPBidirectionalR1(46)};


bisupAccessPoint-bisupSignPoint NAME BINDING
  SUBORDINATE OBJECT CLASS bisupAccessPoint AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS bisupSignPoint AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.723 | ISO/IEC 10165-5 : 1993": sapId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding bisupAccessPoint-bisupSignPoint(47)};


bisupSignPoint-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS bisupSignPoint AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElement AND 
SUBCLASSES;
  WITH ATTRIBUTE bisupSignPointId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding bisupSignPoint-managedElement(48)};


bisupTimersProfile-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS bisupTimersProfile AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElement AND 
SUBCLASSES;
  WITH ATTRIBUTE bisupTimersProfileId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding bisupTimersProfile-managedElement(49)};


callingNumberScreeningBb-dss2SignChannelTp NAME BINDING
        SUBORDINATE OBJECT CLASS "ITU-T Rec. Q.824.6":callingNumberScreeningBb 
                AND SUBCLASSES; 
        NAMED BY SUPERIOR OBJECT CLASS dss2SignChannelTp
                AND SUBCLASSES;
        WITH ATTRIBUTE "ITU-T Rec. Q.824.1":callingNumberScreeningId;
        CREATE
                WITH-AUTOMATIC-INSTANCE-NAMING;
        DELETE
                ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding callingNumberScreeningBb-dss2SignChannelTp(50)};


congestionDiscardCurrentData-interNni NAME BINDING
  SUBORDINATE OBJECT CLASS congestionDiscardCurrentData AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. I.751":interNNI AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993": scannerId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding congestionDiscardCurrentData-interNni(51)};


congestionDiscardCurrentData-intraNni NAME BINDING
  SUBORDINATE OBJECT CLASS congestionDiscardCurrentData AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. I.751":intraNNI AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993": scannerId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding congestionDiscardCurrentData-intraNni(52)};


congestionDiscardCurrentData-uni NAME BINDING
  SUBORDINATE OBJECT CLASS congestionDiscardCurrentData AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. I.751":uni AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993": scannerId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding congestionDiscardCurrentData-uni(53)};


connectedNumberScreeningBb-dss2SignChannelTp NAME BINDING
        SUBORDINATE OBJECT CLASS "ITU-T Rec. Q.824.6":connectedNumberScreeningBb 
                AND SUBCLASSES; 
        NAMED BY SUPERIOR OBJECT CLASS dss2SignChannelTp
                AND SUBCLASSES;
        WITH ATTRIBUTE "ITU-T Rec. Q.824.6":connectedNumberScreeningId;
        CREATE
                WITH-AUTOMATIC-INSTANCE-NAMING;
        DELETE
                ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding connectedNumberScreeningBb-dss2SignChannelTp(54)};


diagnosticControl-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS diagnosticControl AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElement AND 
SUBCLASSES;
  WITH ATTRIBUTE diagnosticControlId;
CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding diagnosticControl-managedElement(55)};


directoryNumber-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS "ITU-T Rec. Q.824.0":directoryNumber AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElement AND 
SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. Q.824.0":directoryNumberId;
  CREATE WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE;
REGISTERED AS {atmfM4NameBinding directoryNumber-managedElement(56)};


ds3PLCPPathCTPBidirectional-ds3PathTTPBidirectional NAME BINDING
  SUBORDINATE OBJECT CLASS ds3PLCPPathCTPBidirectional AND 
  SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "Bellcore GR-836":ds3PathTTPBidirectional
  AND SUBCLASSES;
  WITH ATTRIBUTE ds3PLCPPathCTPId;
REGISTERED AS {atmfM4NameBinding ds3PLCPPathCTPBidirectional-ds3PathTTPBidirectional(8)};


ds3PLCPPathTTPBidirectional-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS ds3PLCPPathTTPBidirectional AND 
  SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE "Bellcore GR-836":ds3PathTTPId;
  CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding ds3PLCPPathTTPBidirectional-managedElementR1(9)};


electricalSPITTPBidirectional-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS "ITU-T Rec. G.774":electricalSPITTPBidirectional 
  AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. G.774":electricalSPITTPId;
  CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding electricalSPITTPBidirectional-managedElementR1(10)};


equipmentHolder-equipmentR1 NAME BINDING
  SUBORDINATE OBJECT CLASS "ITU-T Rec. M.3100 : 1995":equipmentHolder  
  AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": equipmentR1 AND 
  SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. M.3100 : 1995": equipmentId;
  CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding equipmentHolder-equipmentR1(11)};


j2CTPBidirectional-j2LineTTPBidirectional   NAME BINDING
 SUBORDINATE OBJECT CLASS            j2CTPBidirectional AND SUBCLASSES;
 NAMED BY SUPERIOR OBJECT CLASS    j2LineTTPBidirectional AND SUBCLASSES;
 WITH ATTRIBUTE          j2CTPId;
 BEHAVIOUR 
  j2CTPBidirectional-j2LineTTPBidirectionalBeh BEHAVIOUR
  DEFINED AS  "
The name binding represents a relationship in which a TTP sends and receives
information (traffic) to/from a bidirectional CTP.

The subordinate managed object is automatically instantiated when the superior managed object is 
instantiated, according to the make-up and mode of operation of the network element.

The subordinate managed object is automatically deleted when the superior managed object is deleted.";;
REGISTERED AS {atmfM4NameBinding j2CTPBidirectional-j2LineTTPBidirectional(57)};


j2LineTTPBidirectional-managedElement   NAME BINDING
 SUBORDINATE OBJECT CLASS       j2LineTTPBidirectional AND SUBCLASSES;
 NAMED BY SUPERIOR OBJECT CLASS    "ITU-T Rec. M.3100 : 1995":managedElement AND 
SUBCLASSES;
 WITH ATTRIBUTE            j2LineTTPId;
  CREATE  
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING
   "ITU-T Rec. M.3100 : 1995":createErrorParameter;
  DELETE
    DELETES-CONTAINED-OBJECTS; 
REGISTERED AS {atmfM4NameBinding j2LineTTPBidirectional-managedElement(58)};


   j2LineTTPSinkCurrentData-terminationPoint NAME BINDING
   SUBORDINATE OBJECT CLASS j2LineTTPSinkCurrentData AND
   SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS 
   "ITU-T Rec. M.3100 : 1995":terminationPoint AND SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993":scannerId;
  BEHAVIOUR 
  j2LineTTPSinkCurrentData-terminationPointBeh BEHAVIOUR
  DEFINED AS  "
If the containing managed object of the j2LineTTPSinkCurrentData instance is to be deleted, this contained 
j2LineTTPSinkCurrentData instance shall also be deleted automatically by the managed system.

  When a j2LineTTPSinkCurrentData instance is to be deleted, all its contained objects shall be deleted 
automatically by the managed system.";              ;
   CREATE
     WITH-REFERENCE-OBJECT,
     WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
     DELETES-CONTAINED-OBJECTS;
  REGISTERED AS {atmfM4NameBinding j2LineTTPSinkCurrentData-terminationPoint(59)};
 

j2PathTTPBidirectional-managedElement   NAME BINDING
  SUBORDINATE OBJECT CLASS 
    j2PathTTPBidirectional AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS 
    "ITU-T Rec. M.3100 : 1995":managedElement AND SUBCLASSES;
  WITH ATTRIBUTE 
    j2PathTTPId;
  CREATE  
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING
   "ITU-T Rec. M.3100 : 1995":createErrorParameter;
  DELETE  
   DELETES-CONTAINED-OBJECTS
   ;
REGISTERED AS {atmfM4NameBinding j2PathTTPBidirectional-managedElement(60)};
 

    j2PathTTPSinkCurrentData-terminationPoint NAME BINDING
      SUBORDINATE OBJECT CLASS j2PathTTPSinkCurrentData AND
      SUBCLASSES; 
      NAMED BY SUPERIOR OBJECT CLASS 
        "ITU-T Rec. M.3100 : 1995":terminationPoint AND SUBCLASSES;
     WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993":scannerId;
       BEHAVIOUR 
      j2PathTTPSinkCurrentData-j2PathTTPBidirectionalBeh BEHAVIOUR
       DEFINED AS  
"If the containing managed object of the j2PathTTPSinkCurrentData instance is to be deleted, this 
contained j2PathTTPSinkCurrentData instance shall also be deleted automatically by the managed 
system.

  When a j2PathTTPSinkCurrentData instance is to be deleted, all its contained objects shall be deleted 
automatically by the managed system.";   ;
     CREATE
      WITH-REFERENCE-OBJECT,
      WITH-AUTOMATIC-INSTANCE-NAMING;
     DELETE
      DELETES-CONTAINED-OBJECTS;
   REGISTERED AS {atmfM4NameBinding j2PathTTPSinkCurrentData-j2PathTTPBidirectional(61)};


latestOccurrenceLog-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS latestOccurrenceLog AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992":logId;
 CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding latestOccurrenceLog-managedElementR1(14)};


msTTPBidirectional-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS "ITU-T Rec. G.774":msTTPBidirectional AND 
  SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. G.774":msTTPId;
  CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding msTTPBidirectional-managedElementR1(15)};


multipointBridge-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS multipointBridge AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE multipointBridgeId;
  CREATE
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding multipointBridge-managedElementR1(16)};


mtpAccessPointR1-atmMtpSignPoint NAME BINDING
SUBORDINATE OBJECT CLASS mtpAccessPointR1 AND SUBCLASSES;
NAMED BY SUPERIOR OBJECT CLASS atmMtpSignPoint AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.723 | ISO/IEC 10165-5 : 1993": sapId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE ONLY-IF-NO-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding mtpAccessPointR1-atmMtpSignPoint(62)};


opticalSPITTPBidirectional-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS "ITU-T Rec. G.774":opticalSPITTPBidirectional AND 
  SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. G.774":opticalSPITTPId;
  CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding opticalSPITTPBidirectional-managedElementR1(17)};


rsTTPBidirectional-managedElementR1 NAME BINDING
  SUBORDINATE OBJECT CLASS "ITU-T Rec. G.774":rsTTPBidirectional AND 
  SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995": managedElementR1 
  AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. G.774":rsTTPId;
  CREATE
   WITH-REFERENCE-OBJECT,
   WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding rsTTPBidirectional-managedElementR1(18)};


sscopReceiveCurrentData-atmSignLinkTp NAME BINDING
  SUBORDINATE OBJECT CLASS sscopReceiveCurrentData AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS atmSignLinkTp AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993": scannerId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding sscopReceiveCurrentData-atmSignLinkTp(63)};


sscopReceiveCurrentData-dss2SignChannelTp NAME BINDING
  SUBORDINATE OBJECT CLASS sscopReceiveCurrentData AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS dss2SignChannelTp AND SUBCLASSES;
  WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993": scannerId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding sscopReceiveCurrentData-dss2SignChannelTp(64)};


tapPP-atmTestAccessFunction NAME BINDING
  SUBORDINATE OBJECT CLASS tapPP AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS atmTestAccessFunction AND SUBCLASSES;
  WITH ATTRIBUTE tapPPId;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding tapPP-atmTestAccessFunction(34)};


tapVC-atmTestAccessFunction NAME BINDING
  SUBORDINATE OBJECT CLASS tapVC AND SUBCLASSES; 
  NAMED BY SUPERIOR OBJECT CLASS atmTestAccessFunction AND SUBCLASSES;
  WITH ATTRIBUTE tapVCId;
  DELETE
   DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding tapVC-atmTestAccessFunction(35)};


uniInfo-managedElement NAME BINDING
  SUBORDINATE OBJECT CLASS uniInfo AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. M.3100 : 1995":managedElement AND 
SUBCLASSES;
  WITH ATTRIBUTE uniInfoId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding uniInfo-managedElement(66)};


upcNpcCurrentData-vcCTPBidirectionalR1 NAME BINDING
   SUBORDINATE OBJECT CLASS "ITU-T Rec. I.751":upcNpcCurrentData AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS vcCTPBidirectionalR1 AND SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993":scannerId;
   CREATE
      WITH-REFERENCE-OBJECT,
      WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
      DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding upcNpcCurrentData-vcCTPBidirectionalR1(67)};



upcNpcCurrentData-vpCTPBidirectionalR1 NAME BINDING
   SUBORDINATE OBJECT CLASS "ITU-T Rec. I.751":upcNpcCurrentData AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS vpCTPBidirectionalR1 AND SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. X.739 | ISO/IEC 10164-11 : 1993":scannerId;
   CREATE
      WITH-REFERENCE-OBJECT,
      WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
      DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding upcNpcCurrentData-vpCTPBidirectionalR1(68)};


vcCTPBidirectionalR1-vpTTPBidirectional NAME BINDING
   SUBORDINATE OBJECT CLASS vcCTPBidirectionalR1 AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. I.751":vpTTPBidirectional AND 
SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. I.751":vcCTPId;
   CREATE
      WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
      DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding vcCTPBidirectionalR1-vpTTPBidirectional(69)};


vpciTp-vpTTPBidirectional NAME BINDING
  SUBORDINATE OBJECT CLASS vpciTp AND SUBCLASSES;
  NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. I.751":vpTTPBidirectional AND SUBCLASSES;
  WITH ATTRIBUTE vpciTpId;
  CREATE WITH-REFERENCE-OBJECT, WITH-AUTOMATIC-INSTANCE-NAMING;
  DELETE DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding vpciTp-vpTTPBidirectional(70)};


vpCTPBidirectionalR1-tcAdaptorTTPBidirectional NAME BINDING
   SUBORDINATE OBJECT CLASS vpCTPBidirectionalR1 AND SUBCLASSES; 
   NAMED BY SUPERIOR OBJECT CLASS "ITU-T Rec. I.751":tcAdaptorTTPBidirectional AND 
SUBCLASSES;
   WITH ATTRIBUTE "ITU-T Rec. I.751":vpCTPId;
   CREATE
      WITH-AUTOMATIC-INSTANCE-NAMING;
   DELETE
      DELETES-CONTAINED-OBJECTS;
REGISTERED AS {atmfM4NameBinding vpCTPBidirectionalR1-tcAdaptorTTPBidirectional(71)};


abortDiagnostic ACTION
  BEHAVIOUR
   abortDiagnosticBeh BEHAVIOUR
     DEFINED AS
      " The abortDiagnostic service is used by a managing
      system to abort a currently active (running) diagnostic
      on one or more objects. The active diagnostic to be
      aborted may be conducted according to a previously
      invoked M-ACTION (such as diagnostic or
      invokeDiagnosticControl) or according to a schedule
      defined in a managementOperationsSchedule for a
      diagnosticControl object. Two abort modes are provided
      for aborting a diagnostic, namely, cancel-mode and
      truncate-mode. For the truncate-mode, the diagnostic
      will be aborted and the result of the partially
      completed diagnostic will be returned in the Action
      Reply parameter of the abortDiagnostic M-ACTION. For
      the cancel-mode, the diagnostic will be aborted and the
      result of the partially completed diagnostic will be
      discarded. The Action Type parameter shall indicate abortDiagnostic. The
      Action Information parameter shall indicate the mode of
      the abortion mode, i.e., cancel-mode or truncate-mode. The
      Action Reply parameter shall indicate the result of the
      abortion, i.e., aborted (for cancel-mode), aborted with
      partial result (for truncate-mode), or no active
      diagnostic to be aborted. ";;
  MODE CONFIRMED;
  PARAMETERS
   specificErrorParameter;
  WITH INFORMATION SYNTAX AtmMIBModV2.AbortDiagnosticInfo;
  WITH REPLY SYNTAX AtmMIBModV2.AbortDiagnosticReply;
REGISTERED AS {atmfM4Action abortDiagnostic(13)};


addTpsToMultipointBridgeR1 ACTION
        BEHAVIOUR 
        addTpsToMultipointBridgeR1Beh BEHAVIOUR
        DEFINED AS
"This action is used to add one or more vpCTPBidirectionalR1 objects or vcCTPBidirectionalR1 objects (or 
subclasses) to the identified multipoint connection. 

Supplied with this action is the following information: 

New CTPs - This parameter identifies the additional CTPs (e.g., the vpCTPBidirectionalR1 or 
vcCTPBidirectionalR1 object instances) to add to the existing multipoint connection. 

MultipointBridge - This parameter identifies the instance of the multipointBridge object class to which the 
additional legs need to be connected. 

If the request is granted, the commonCTPs attribute, in the multipointBridge object, shall be reset to reflect 
the new legs added to the multipoint connection. ";;
        MODE CONFIRMED;
        WITH INFORMATION SYNTAX AtmMIBModV2.AddTpsToMultipointBridgeInfoR1;
        WITH REPLY SYNTAX AtmMIBModV2.AddTpsToMultipointBridgeReply;
REGISTERED AS {atmfM4Action addTpsToMultipointBridgeR1(14)};

cancelReset ACTION
  BEHAVIOUR
   cancelResetBeh BEHAVIOUR
     DEFINED AS
      "This action stops a BISUP signaling entity from continually trying to
      reset a VPCI when the far end does not respond.";;
  MODE CONFIRMED;
WITH REPLY SYNTAX AtmMIBModV2.CancelResetReply;
REGISTERED AS {atmfM4Action cancelReset(15)};


changeAccessMode ACTION
  BEHAVIOUR 
  changeAccessModeBeh BEHAVIOUR
  DEFINED AS
" This action is used to change the access mode of a test access that has already been established. The action 
request indicates the new value for the accessMode attribute.";;
  MODE CONFIRMED;
  WITH INFORMATION SYNTAX AtmMIBModV2.ChangeAccessModeInfo;
  WITH REPLY SYNTAX AtmMIBModV2.ChangeAccessModeReply;
REGISTERED AS {atmfM4Action changeAccessMode(10)};


connectMultipointBridgeR1 ACTION
        BEHAVIOUR 
        connectMultipointBridgeR1Beh BEHAVIOUR
        DEFINED AS
"This action is used to establish a multipoint connection between vpCTPBidirectionalR1 or 
vcCTPBidirectionalR1 objects (or subclasses). Four types of multipoint connections can be established 
using this action: broadcast, merge, broadcast/merge (composite), and full multipoint. The 
multipointConnectionType attribute of this action is used to identify the desired connection type. Note that 
this action will result in the cross-connection of CTP objects to an instance of the multipointBridge object. 

Also supplied with this action is the following information: 

Primary CTP - This parameter identifies a termination point (e.g., vpCTPBidirectionalR1 or 
vcCTPBidirectionalR1 object) or termination point descriptor for the termination point that generates traffic 
to broadcast and/or receives merged traffic for broadcast, merge, or composite multipoint connection types. 
For full multipoint connections (i.e., all legs communicate with all other legs), the value of this attribute 
shall be set to NULL. The termination point identified by this parameter shall serve as the basis for the 
primaryCTP attribute of the multipointBridge object.

Common CTPs - This identifies termination point descriptor or CTP object instances (e.g., 
vpCTPBidirectionalR1 object class or vcCTPBidirectionalR1 object class) of all legs of the multipoint 
connection except the leg identified via the primaryCTP attribute. For full multipoint cross-connections, all 
the legs of the multipoint cross-connection shall be identified by this attribute. The termination points 
derived from this parameter shall serve as the basis for the commonCTPs attribute of the multipointBridge. 

Recovery Type - This parameter indicates if the multipoint session should be recovered in case of service 
interruption. This parameter serves as the initial values for the recoveryType attribute in all the associated 
cross-connection objects. 

Administrative State - This parameter will be used as the initial value for the administrativeState attribute in 
multipointBridge and its associated cross-connection objects.

The action will fail if the primaryCTP is specified but cannot be connected or none of the commonCTPs can 
be connected. If the action is accepted, the result would return the primaryCTP termination point, the 
connected common CTPs, and a problem cause for each of the non-connected common CTPs.";;
        MODE CONFIRMED;
        WITH INFORMATION SYNTAX AtmMIBModV2.ConnectMultipointBridgeInfoR1;
        WITH REPLY SYNTAX AtmMIBModV2.ConnectMultipointBridgeReply;
REGISTERED AS {atmfM4Action connectMultipointBridgeR1(16)};


connectR1 ACTION
        BEHAVIOUR connectBeh BEHAVIOUR
        DEFINED AS
"This action is used to establish a point-to-point ATM connection two between termination points. The 
termination points to be connected can be identified explicitly by specifying the associated 
vcCTPBidirectionalR1 objects or vpCTPBidirectionalR1 objects (or subclasses), or by specifying the 
characteristics of each termination point.  Multiple point-to-point connections may be requested with a single 
connect ACTION.

If a valid end point descriptor is provided and the connect request can be successfully carried out, the NE will 
reserve the necessary resources such as the VPI and/or VCI value, and automatically create the necessary VP/VC 
termination points (e.g., the VP CTPs, VP TTPs, and VC CTPs) for the cross-connection.

The result, if successful, always returns an explicit list of termination points.

Successful execution of this action will result in the creation of an instance of the atmCrossConnectionR1 object. 
This cross-connection object has the fromTermination and toTermination attributes pointing to the two 
termination points. The administrativeState and recoveryType attributes in the cross-connection object are 
initialized according to the values provided in the action request information. If the administrativeState 
parameter is omitted, the administrative state will be set to 'unlocked'. If the recoveryType parameter is omitted, 
the recovery type will be set to recoverable. 

If the administrativeState in the atmCrossConnectionR1 object is unlocked, the upstreamConnectivityPointer and 
downstreamConnectivityPointer in the two termination points are set to the local distinguished name of the 
(peer) termination point to which it is connected. Also, the crossConnectionObjectPointer in the termination 
points shall point to the atmCrossConnectionR1 object. 

This action will fail if any of the termination points specified are already involved in a cross-connection, any of 
the termination point descriptors specified cannot be satisfied, or the two termination points do not have 
compatible termination point descriptors.";;
        MODE  CONFIRMED;
        WITH INFORMATION SYNTAX AtmMIBModV2.ConnectInformationR1;
        WITH REPLY SYNTAX AtmMIBModV2.ConnectReply;
REGISTERED AS {atmfM4Action connectR1(17)};


connectTap ACTION
  BEHAVIOUR 
  connectTapBeh BEHAVIOUR
  DEFINED AS
" This action will connect one TAP-PP or one TAP-VC to a resource to be tested. Each invocation will allow 
monitoring one direction of a cell stream. To monitor both sides of a bi-directional cell stream requires the 
connection of two TAP objects The action request contains the name of the resource to be monitored. For 
physical port mirroring (PP) or virtual connection access (VC), this parameter contains a pointer to the 
tcAdaptor object that represents the cell stream to be monitored. For virtual connection access, this parameter 
will also identify the VPI value, and if necessary, the VCI value of the connection under test. The test access 
path to be used is identified in the action request by a pointer to a tapPP or tapVC object. If a value is not 
supplied, the ATM NE should select an available TAP of the appropriate type. The name of the selected tapPP 
or tapVC object shall be returned in the action reply. If the requested TAP is not available or if all TAPs of the 
requested type are unavailable, the action reply should indicate TAP not available. The value of the 
accessMode attribute of the TAP object is also defined in the action request.";;
  MODE CONFIRMED;
  WITH INFORMATION SYNTAX AtmMIBModV2.ConnectTapInfo;
  WITH REPLY SYNTAX AtmMIBModV2.ConnectTapReply;
REGISTERED AS {atmfM4Action connectTap(11)};


disconnectMultipointBridge ACTION
        BEHAVIOUR 
        disconnectMultipointBridgeBeh BEHAVIOUR
        DEFINED AS
"This action is used to release a multipoint cross-connection. Supplied with this action is the instance of the 
multipointBridge object supporting the multipoint cross-connection. 

If any of the commonCTPs cannot be disconnected, the primaryCTP, if any, should not be disconnected. If 
the multipointBridge is not completely disconnected, the action result would indicate which commonCTPs 
have been disconnected and which commonCTPs are not disconnected and why.";;
        MODE CONFIRMED;
        WITH INFORMATION SYNTAX AtmMIBModV2.DisconnectMultipointBridgeInfo;
        WITH REPLY SYNTAX AtmMIBModV2.DisconnectMultipointBridgeReply;
REGISTERED AS {atmfM4Action 5};


disconnectTap ACTION
  BEHAVIOUR disconnectTapBeh BEHAVIOUR
  DEFINED AS
" This action will disconnect the given test access path and return the resource under test to its normal state. 
The value of the resourceUnderTest and directionality attributes in a given tapPP object will be set to NULL, 
or the value of the resourceUnderTest, directionality, and accessMode in a given tapVC object will be set to 
NULL.";;
  MODE CONFIRMED;
  WITH INFORMATION SYNTAX AtmMIBModV2.DisconnectTapInfo;
  WITH REPLY SYNTAX AtmMIBModV2.DisconnectTapReply;
REGISTERED AS {atmfM4Action disconnectTap(12)};


invokeDiagnosticControl ACTION
  BEHAVIOUR
   invokeDiagnosticControlBeh BEHAVIOUR
     DEFINED AS
      " The invokeDiagnosticControl service is used by a
      managing system to 'stimulate' the diagnosticControl object to
      perform a diagnostic on a set of object instances. The
      type of diagnostic and the set of object instances to be
      diagnosed are specified in the diagnosticControl object.
      The Action Type parameter shall indicate invokeDiagnosticControl. 
      The type of diagnostic and the set of object
      instances to be diagnosed are those specified in the
      diagnosticControl object. The Action Reply parameter
      shall indicate the result of the test. If the
      diagnostic process is aborted (by using the
      abortDiagnostic M-ACTION) before the completion of the
      diagnostic, then the value 'aborted' shall be returned in the Action Reply 
      If the abort mode of the abortDiagnostic M-ACTION is 'truncate', then the
      result of the truncated diagnostic (i.e., the part of
      the diagnostic that already has completed), should be
      return in the Action Reply parameter of the
      abortDiagnostic M-ACTION. ";;
  MODE CONFIRMED;
  PARAMETERS
   specificErrorParameter;
  WITH REPLY SYNTAX AtmMIBModV2.InvokeDiagnosticControlReply;
REGISTERED AS {atmfM4Action invokeDiagnosticControl(18)};


removeTpsFromMultipointBridge ACTION
        BEHAVIOUR 
        removeTpsFromMultipointBridgeBeh BEHAVIOUR
        DEFINED AS
"This action is used to remove one or more legs (leaf CTPs) from the identified multipoint connection.

Supplied with this action is the following information:

Existing CTPs - This parameter identifies the existing CTPs to remove from the multipoint connection.

MultipointBridge - This parameter identifies the instance of the multipointBridge object class from which 
the identified legs should be removed (disconnected).
 
If the request is granted, the commonCTPs attribute, in the multipointBridge object, shall be reset to reflect 
the remaining legs of the multipoint connection. ";;
        MODE CONFIRMED;
        WITH INFORMATION SYNTAX         AtmMIBModV2.RemoveTpsFromMultipointBridgeInfo;
        WITH REPLY SYNTAX AtmMIBModV2.RemoveTpsFromMultipointBridgeReply;
REGISTERED AS {atmfM4Action 7};


reportDiagnosticStatus ACTION
  BEHAVIOUR
   reportDiagnosticStatusBeh BEHAVIOUR
     DEFINED AS
      " The reportDiagnosticStatus service is used by a managing
      system to determine the status of a supposedly active (running) diagnostic
      on one or more objects. The status will be reported as 'running', 'not running', 
      or 'stalled'. Optionally, if requested in the M-ACTION request, the result of a partially
      completed diagnostic will be returned with the Action
      Reply. The type of report to be returned is that specified by
      the diagnosticReportMode attribure in the diagnosticControl object.";;
  MODE CONFIRMED;
  PARAMETERS
   specificErrorParameter;
WITH INFORMATION SYNTAX AtmMIBModV2.ReportDiagnosticStatusInfo;
WITH REPLY SYNTAX AtmMIBModV2.ReportDiagnosticStatusReply;
REGISTERED AS {atmfM4Action reportDiagnosticStatus(19)};


reset ACTION
  BEHAVIOUR
   resetBeh BEHAVIOUR
     DEFINED AS
      "This action returns resources to an idle state. Resets may be for a
      single VPCI. Future implementations of this action may be required to
      support reset of other resources.";;
  MODE CONFIRMED;
WITH REPLY SYNTAX AtmMIBModV2.ResetReply;
REGISTERED AS {atmfM4Action reset(20)};


restartSvcs ACTION
        BEHAVIOUR 
restartSvcsBeh BEHAVIOUR
        DEFINED AS 
"This action is used to restart all SVCs under the control of the associated signalling channel.";;
        MODE CONFIRMED;
WITH REPLY SYNTAX AtmMIBModV2.RestartSvcsReply;
REGISTERED AS {atmfM4Action restartSvcs(21)};


atmOnOccEvent NOTIFICATION
  BEHAVIOUR
   atmOnOccEventBeh BEHAVIOUR
     DEFINED AS
      "This notification is used to report events within the ATM NE that are not
      reported by an alarm notification. These are events which do not represent
      a persistent condition,
      and for which no clear notifications are needed.";;
  WITH INFORMATION SYNTAX AtmMIBModV2.AtmOnOccEventInfo
   AND ATTRIBUTE IDS
     additionalInformation          "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": additionalInformation,
     additionalText             "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": additionalText,
     correlatedNotifications         "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": correlatedNotifications,
     notificationIdentifier         "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": notificationIdentifier,
     perceivedSeverity            "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": perceivedSeverity,
     probableCause              "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": probableCause,
     specificProblems            "ITU-T Rec. X.721 | ISO/IEC 10165-2 : 1992": specificProblems;
REGISTERED AS {atmfM4Notification atmOnOccEvent(1)};

diagnosticReport NOTIFICATION
  BEHAVIOUR
   diagnosticReportBeh BEHAVIOUR
     DEFINED AS
      " The diagnosticReport notification is emitted
      periodically from the diagnosticControl object to report
      the result of the diagnostic performed on
      objects specified in the diagnosticControl. The
      periodicity of the diagnostic is scheduled in a
      managementOperationsSchedule object. If the currently
      running diagnostic process is aborted (by using the
      abortDiagnostic M-ACTION) before the completion of the
      diagnostic, then the value 'aborted' shall be returned in the parameter of the
      notification. If the abort mode of the abortDiagnostic
      M-ACTION is 'truncate', then the result of the truncated
      diagnostic (i.e., the part of the diagnostic that has
      already completed), should be return in the
      notification. ";;
  WITH INFORMATION SYNTAX AtmMIBModV2. DiagnosticReport;
REGISTERED AS {atmfM4Notification diagnosticReport(2)};


specificErrorParameter PARAMETER
  CONTEXT SPECIFIC-ERROR;
  WITH SYNTAX AtmMIBModV2.ObjectSpecificErrorParameter;
  BEHAVIOUR
   specificErrorParameterBeh BEHAVIOUR
     DEFINED AS
      " If a requested service (e.g., M-CREATE, M-SET, M-
      DELETE, M-ACTION, etc.) failed for errors other than
      those already defined in CMIP-1 (ITU-T Rec. X.711 | ISO/IEC IS 9596-1), the
      attempt will result in return of a CMIP Processing
      Failure error where the SpecificErrorInfo field is of
      the form:
  
      SpecificErrorInfo ::= SEQUENCE {errorid OBJECT
      IDENTIFIER, errorinfo ANY DEFINED BY errorid }
  
      The OBJECT IDENTIFIER carried in errorid shall be the
      value under which this parameter definition is
      registered. The type carried in errorinfo shall be the
      type identified by the WITH SYNTAX construct of this
      parameter definition. ";;
REGISTERED AS {atmfM4Parameter specificErrorParameter(1)};

-- END OF GDMO Definitions

-- BEGIN OF ASN.1 Module

AtmMIBModV2
-- {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1)
-- atmfCmipNEView(1) informationModel(0) asn1Module(2) 
-- atmMIBModVersion2(1)}

-- Note: If deprecated object classes from Annex B are to be implemented, the
-- additional productions in 
-- Annex B should be merged with these productions.
  
DEFINITIONS IMPLICIT TAGS ::= BEGIN
  
  -- exports everything
  IMPORTS
  Boolean,
  Failed,
  NameType,
  ObjectList,
  PointerOrNull,
  ProblemCause
  FROM
  ASN1DefinedTypesModule {ccitt(0) recommendation(0) m(13) gnm(3100) 
   informationModel(0) asn1Modules(2) asn1DefinedTypesModule(0)}
-- ITU-T Rec. M.3100

  Attribute,
  AttributeId,
  EventTypeId,
  ObjectInstance
  FROM
  CMIP-1 {joint-iso-ccitt ms(9) cmip(1) modules(0) protocol(3)}
  -- ITU-T Rec. X.711


  AdditionalText,
  AdditionalInformation,
  AdministrativeState,
  AttributeList,
  CorrelatedNotifications,
  NotificationIdentifier,
  PerceivedSeverity,
  ProbableCause,
  SimpleNameType,
  SpecificProblems
  FROM
  Attribute-ASN1Module {joint-iso-ccitt ms(9) smi(3) part2(2) asn1Module(2) 1}
-- ITU-T Rec. X.721


  ConnectionIdOffering,
  E164DN,
  PropagationDelay,
  VpciValue
  FROM 
  ASN1DefinedTypesModule {itu-t(0) recommendation(0) q(17) ca(824) dot(127) bsm(6) informationModel(0) 
asn1Module(2) asn1TypeModule(0)} 
-- ITU-T Rec. Q.824.6

  PointCode
  FROM MTPDefinedTypesModule{itu-t(0) recommendation(0) q(17) omap(751) mtp(1) informationModel(0) 
asn1Modules(2) mtpDefinedTypesModule(0)}
-- ITU-T Rec. Q.751.1


  VciValue,
  VpiValue
  FROM AtmMIBMod {itu-t(0) recommendation(0) i(9) atmm(751) informationModel(0) asn1Module(2) 
atm(0)}
-- ITU-T Rec. I.751


  Count
  FROM Attribute-ASN1Module {joint-iso-ccitt ms(9) smi(3) part2(2) asn1Module(2) 1};

  -- End of IMPORTS

  atmfM4ObjectClass OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) informationModel(0) managedObjectClass(3)}

  atmfM4Package OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) informationModel(0) package(4)}

  atmfM4Attribute OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) informationModel(0) attribute(7)}

  atmfM4NameBinding OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) 
atmfM4(1) atmfCmipNEView(1) informationModel(0) nameBinding(6)}

  atmfM4Action OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) informationModel(0) action(9)}

atmfM4Notification OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) informationModel(0) notification(10)}

atmfM4Parameter OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) informationModel(0) parameter(11)}

  -- default value definitions

  addrPresentationFormatDefault AddrPresentationFormat ::= {nativeE164, aesa }

  adtfDefault INTEGER ::= 50

  alphaNniDefault Real ::= {1, 10, -1}

  bisupInterNniFeaturesDefault BisupFeatureList ::= {}

  booleanFalseDefault Boolean ::= FALSE

  booleanTrueDefault Boolean ::= TRUE

  cdfDefault CDF ::= cDF1over16

  connectionIdOfferingDefault ConnectionIdOffering ::= exclusiveVpciExclusiveVci

  defaultMeasurementValue Count ::= 0

  defaultNULL Null ::= NULL

  ilmiEstabConnectivityPollIntervalDefault INTEGER ::= 1

  ilmiCheckConnectivityPollIntervalDefault INTEGER ::= 5

  ilmiConnectivityPollFactorDefault INTEGER ::= 4

  nBlkNniDefault Integer ::= 3

  nDelayNniDefault Integer ::= 9

  nrmDefault Nrm ::= nrm32

  provingInfoDefault ProvingInfo ::= followMtp3Request

  tauNniDefault Integer ::= 100

  thresNniDefault Real ::= {244, 10, -3}

  tLossNniDefault Integer ::= 1300

  trmDefault Trm ::= trm1

  tSupNniDefault Integer ::= 120

  -- other parameters

  integerZero INTEGER ::= 0

  -- additional value definitions to probableCause production

  atmProbableCause OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) atmMIB(99) standardSpecificExtension(0) atmProbableCause(0)}
  
  lossOfCellDelineation ProbableCause ::= globalValue : {atmProbableCause 1}

  congestion ProbableCause ::= globalValue : {atmProbableCause 2}

  unspecified ProbableCause ::= globalValue : {atmProbableCause 3}

  failedRestart ProbableCause ::= globalValue : {atmProbableCause 4}

  -- additional eventTypes

  atmEventType OBJECT IDENTIFIER ::= {1 3 6 1 4 1 353 atmForumNetworkManagement(5) atmfM4(1) 
atmfCmipNEView(1) atmMIB(99) standardSpecificExtension(0) atmEventType(1)}

  cellHeaderAbnormalityEvent EventTypeId ::= globalForm : {atmEventType 1}

  -- supporting productions

  AbortDiagnosticInfo ::= ENUMERATED{
   cancel (0),
   truncate (1)}

  AbortDiagnosticReply ::= CHOICE {
   noOutStandingDiagnostic      [0]     NULL,
   diagnosticCancelled          [1]     NULL,
   resultOfPartialDiagnostic    DiagnosticReportInfo}

  AccessMode ::= CHOICE {
   noMode       [0] NULL,
   mode         [1] AccessModeUsage}
  
  AccessModeUsage ::= ENUMERATED {
   monitorEgressTraffic         (0), -- monitor traffic leaving NE
   monitorIngressTraffic (1), -- monitor traffic entering NE
   splitIn              (2), -- split in towards the NE
   splitOut             (3)} -- split out from the NE
  

  AccessSignallingFeature ::= ENUMERATED {
   bHLIxfer     (0),            --Broadband Higher Layer Information Transfer
   bLLIxfer     (1),            --Broadband Lower Layer Information Transfer
   bLLIsel      (2),            --Broadband Lower Layer Information Selection
   aalParxfer   (3)             --AAL Parameters Transfer
   }

  AccessSignallingFeatures ::= SET OF AccessSignallingFeature

  AddressFormat ::= ENUMERATED {
   nativeE164   (0),
   aesa         (1)
   }

  AddrPresentationFormat ::= SET OF AddressFormat

AddTpsToMultipointBridgeInfoR1 ::= SEQUENCE {
        newCTPsR1 NewCTPsR1,
        multipointBridgeInstance ObjectInstance}
  
AddTpsToMultipointBridgeReply ::= SEQUENCE OF SEQUENCE{
        legAdded        ObjectInstance,
        legNotAdded     ProblemCause OPTIONAL}
  
  ADTF ::= INTEGER (1 .. 1023) -- in 10 ms increments, i.e., 1=10ms and 1023=10.23 seconds

  AESADN ::= SEQUENCE {
   authAndFormatIdent [0] DigitString(SIZE(0..2)),
   formatDepSubstring [1] AESASubstring,
   endSystemIdent   [2] DigitString(SIZE(0..12)),
   selector      [3] DigitString(SIZE(0..2))
}

  AESAE164Substring ::= SEQUENCE {
  idiE164      [0] E164DN,
  hoDomainSpecPart  [1] DigitString(SIZE (0..8))
}

  AESANonE164Substring ::= SEQUENCE {
  idiNonE164     [0] DigitString(SIZE (0..4)),
  hoDomainSpecPart  [1] DigitString(SIZE (0..20))
}

  AESASubstring ::= CHOICE {
  aesaE164     [0] AESAE164Substring,
  aesaNonE164    [1] AESANonE164Substring
}

  AssociatedEntityUnavailable ::= SET OF        SEQUENCE {
   name         Name,
   unavailability               Unavailability  OPTIONAL}

  AtmOnOccEventInfo ::=  SEQUENCE {
   probableCause                ProbableCause,
   specificProblems             [1] SpecificProblems            OPTIONAL,
   perceivedSeverity            PerceivedSeverity,
   notificationIdentifier               [5] NotificationIdentifier              OPTIONAL,
   correlatedNotifications              [6] CorrelatedNotifications     OPTIONAL,
   additionalText               AdditionalText                  OPTIONAL,
   additionalInformation                [10] AdditionalInformation      OPTIONAL
  }

  AtmSubscriberAddress ::= SEQUENCE OF PrintableString
  
  AtmTestAccessFunctionType ::= ENUMERATED {
   pp   (0), -- physical port mirroring
   vc   (1)} -- virtual connection access

  BisupFeature ::= ENUMERATED {
   carrierIdParmDel              (0),   --Carrier Identification Parameter delivery
   carrierSelInfoParmDel                 (1),   --Carrier Selection Information Parameter delivery
   orgLineInfoAndChargeNumDel    (2),   --Originating Line Information/Charge Number delivery
   callgPartyNumDel              (3),   --Calling Party Number delivery
   callgPartySubAddTrans         (4),   --Calling Party Sub-address transfer
   calldPartySubAddTrans         (5),   --Called Party Sub-address transfer
   aesaCallgPartyTrans           (6),   --AESA for calling party transfer
   bbHighLayerInfoTrans          (7),   --Broadband High layer Information transfer
   bbLowLayerInfoTrans           (8),   --Broadband Low Layer Information transfer
   aalParmTrans                  (9),   --AAL Parameters transfer
   includeUnrecogIamParms       (10),   --Include unrecognized IAM parameters in outgoing IAM
   includeUnrecogIamParmValues  (11)}   --Include IAM parameters with unrecognized values in outgoing IAM

  BisupFeatureList ::= SET OF   BisupFeature

  BitString ::= BIT STRING 
  
  CancelResetReply ::= ENUMERATED       {
   resetCanceled         (0),
   resetNotCanceled (1)}

  CDF ::= ENUMERATED {
   cDF0         (0), -- = 0,
   cDF1over64   (1), -- = 1/64,
   cDF1over32   (3), -- = 1/32,
   cDF1over16   (4), -- = 1/16,
   cDF1over8    (5), -- = 1/8,
   cDF1over4    (6), -- = 1/4,
   cDF1over2    (7), -- = 1/2,
   cDF1 (8)} -- = 1}

CellHeaderAbnormalityType ::= ENUMERATED {
   unassignedVpiVciValue (0),
   outOfRangeVpiVciValue (1)}

  ChangeAccessModeInfo ::= AccessModeUsage
  
  ChangeAccessModeReply ::= CHOICE {
   changed      [0] NULL,
   notChanged   [1] ProblemCause}
  
  CLR ::= SEQUENCE {
        cellLossRatioCLP0plus1 [1] INTEGER OPTIONAL,
        cellLossRatioCLP0 [2] INTEGER OPTIONAL}

  CommonCTPsR1 ::= SEQUENCE OF CtpOrDescriptorR1

  ConformanceDefinition ::= ENUMERATED {
        cBR1 (0),
        vBR1 (1),
        vBR2 (2),
        vBR3 (3),
        uBR1 (4),
        uBR2 (5),
        aBR (6) }

  ConnectCtpStatus ::= CHOICE {
        ctpConnected    [0] ObjectInstance,
        ctpFailed       [1] ProblemCause}

Connected ::= SEQUENCE {
        fromTp  ObjectInstance,
        toTp    ObjectInstance,
        xCon    ObjectInstance}

  ConnectInformationR1 ::= SEQUENCE OF SEQUENCE {
        fromTerminationR1       [0] CtpOrDescriptorR1,
        toTerminationR1 [1] CtpOrDescriptorR1,
        recoveryType    [2] RecoveryType        OPTIONAL,
        administrativeState     [3] AdministrativeState OPTIONAL}

  ConnectivityState ::= ENUMERATED {
    unknown             (0),
    connectionUp        (1),
    connectionDown      (2)}

ConnectMultipointBridgeInfoR1 ::= SEQUENCE {
        primaryCTP      [0] PrimaryCTPR1,
        commonCTPs      [1] CommonCTPsR1        OPTIONAL,
        multipointBridgeInstance        [2] ObjectInstance,
        multipointConnectionType        [3] MultipointConnectionType,
        recoveryType    [4] RecoveryType        OPTIONAL, 
        -- the recoveryType value is shared by all legs
        administrativeState     [5] AdministrativeState OPTIONAL} 
        -- the administrativeState value is shared by all legs

  ConnectMultipointBridgeReply ::= CHOICE {
        mpConnected     MpConnected,
        mpFailed        MpFailed}

  ConnectReply ::= SEQUENCE OF CHOICE {
        connected       [0] Connected,
        failed  [1] Failed} -- import from M.3100

  ConnectTapInfo ::= SEQUENCE {
   resourceToBeTested   ResourceId,
   accessMode           AccessModeUsage,
   tapToSelect          ObjectInstance OPTIONAL}
  
  ConnectTapReply ::= CHOICE {
   tapConnected         [0] NULL,
   tapNotConnected      [1] ProblemCause}

CtpOrDescriptorR1 ::= CHOICE {
        ctp     [0] ObjectInstance,
        descriptorR1    [1] DescriptorR1}

CtpStatus ::= CHOICE {
        disconnected    [0] NULL,
        failed  [1] ProblemCause}

DescriptorR1 ::= SEQUENCE {
        interfaceId [0] ObjectInstance, -- a uni, intraNNI, or interNNI
        vpi [1] INTEGER OPTIONAL, -- assigned by NE if absent
        vci [2] INTEGER OPTIONAL, -- set to 0 for VP cross connect
        segmentEndPoint [3] Boolean,
        vpTrafficDescriptor [4] ObjectInstance OPTIONAL, 
-- mandatory for VP cross connect, optional for VC cross connect
        vcTrafficDescriptor [5] ObjectInstance OPTIONAL, -- not provided for VP cross connect
egressFrameDiscardEnabled [6] Boolean OPTIONAL,
 -- if required for vcCTPBidirectionalR1 auto-creation
ingressFrameDiscardEnabled [7] Boolean OPTIONAL,
 -- if required for vcCTPBidirectionalR1 auto-creation
supportedServiceCategories [8] SupportedServiceCategories OPTIONAL,
                        -- if required for vpTTPBidirectionalR1 auto-creation
propagationDelay [9] PropagationDelay OPTIONAL
                        -- if required for auto-creation of vpTTPBidirectionalR1 used for SVCs
}
  DiagnosticObjectList ::= SET OF       ObjectInstance
 
  DiagnosticReport ::= SET OF SEQUENCE {
   objectInstance       ObjectInstance,
   result               CHOICE {
      noDiagnosis        [0] NULL,
      pass               [1] NULL,
      failed-summary     [2] NULL,
      failed-detail     SET OF  SEQUENCE {
         phase          [3]     INTEGER,
         iteration      [4]     INTEGER OPTIONAL}
}}

  DiagnosticReportInfo ::= CHOICE {
   diagnosticReportResults      DiagnosticReport,
   aborted                      NULL}

  DiagnosticReportMode ::= ENUMERATED {
   summary (0),
   detailed (1)}

  DiagnosticTerminateMode ::= ENUMERATED {
   normalMode (0),
   immediateMode (1)}

  DiagnosticType ::= SEQUENCE {
   typeOfDiagnostic     CHOICE {
      localType         PrintableString,
      globalType        OBJECT IDENTIFIER},
   phasesToBeRun        CHOICE {
      phases    SEQUENCE OF     INTEGER,
      all       NULL},
   iterationsPerPhase    [0] INTEGER    OPTIONAL}

  DigitString ::= PrintableString
   (FROM("1"|"2"|"3"|"4"|"5"|"6"|"7"|"8"|"9"|"0"|"A"|"B"|"C"|"D"|"E"|"F"))

  DisconnectMultipointBridgeInfo ::= ObjectInstance -- multipointBridge

  DisconnectMultipointBridgeReply ::= CHOICE {
        disconnected    NULL,
        notDisconnected SEQUENCE OF DisconnectCtpStatus}

  DisconnectCtpStatus ::= SEQUENCE OF SEQUENCE {
        ctpInstance     ObjectInstance,
        ctpStatus       CtpStatus}

  DisconnectTapInfo ::= NULL
  
  DisconnectTapReply ::= CHOICE {
   tapDisconnected      [0] NULL,
   tapNotDisconnected   [1] ProblemCause}
  
  EntityName ::= CHOICE {
   knownObjectClass     OBJECT IDENTIFIER,
   knownObjectInstance  ObjectInstance,
   unknownEntity        NULL}

  ExistingCTPs ::= SEQUENCE OF ObjectInstance
  
  FarEndCarrierNetwork ::= GraphicString

  FeedbackMode ::= INTEGER {
        efciMarking             (0),
        relativeRateMarking     (1),
        explicitRateMarking     (2)}

  FeedbackModes ::= SET OF FeedbackMode

  GraphicStringOrNull ::= CHOICE {
   graphicString GraphicString,
   null NULL}
  
  IlmiChannelIdentifier ::= SEQUENCE {
   vpiValue INTEGER,
   vciValue INTEGER}
  
  Integer ::= INTEGER

  IntegerNameType ::= numericName < NameType

  IntegerOrReal ::= CHOICE {
   integer      Integer,
   real         Real}
  
  InterfacePointer ::= ObjectInstance -- uni, interNNI, or intraNNI
  
  InvokeDiagnosticControlReply ::= CHOICE {
   diagnosticReportInfo DiagnosticReportInfo,
   aborted              NULL}

  IscIncludeInfo ::= SEQUENCE {
   includeIfNotReceived BOOLEAN,
   includeIfReceived    BOOLEAN}

  MpConnected ::= SEQUENCE {
   primary      [0] ObjectInstance,
   commonCTPs   [1] SEQUENCE OF ConnectCtpStatus}
-- in the same sequence as the ConnectMultipointBridgeInfo

  MpFailed ::= ProblemCause
  
  MultipointConnectionType ::= CHOICE {
   typeNotAssigned NULL,
   multipointType ENUMERATED {
     broadcast (0), -- point-to-multipoint
     merge (1), -- multipoint-to-point
     composite (2), -- root-to-leaves & leaves-to-root
     multipoint (3) -- multipoint-to-multipoint
  }}

  Name ::= CHOICE {
   supporting            [0] EntityName,
   supported             [1] EntityName,
   indeterminate         [2] EntityName}

  NewCTPsR1 ::= SEQUENCE OF CtpOrDescriptorR1

Nrm ::= ENUMERATED {
   nrm2           (1), -- = 2,
   nrm4           (2), -- = 4,
   nrm8           (3), -- = 8,
   nrm16         (4), -- = 16,
   nrm32         (5), -- = 32,
   nrm64         (6), -- = 64,
   nrm128       (7), -- = 128,
   nrm256       (8)} -- = 256}
  
  Null ::= NULL

  ObjectSpecificErrorParameter ::= CHOICE        {
   improperCondition            [0] SET OF      Attribute,
   corruptedMemoryError [1] SET OF      AttributeId,
   alreadyInCondition           [2] SET OF      Attribute,
   associatedEntityUnavailable  [3] AssociatedEntityUnavailable,
   errorDescription             [4] PrintableString,
   containingObjectInstance     [5]SET OF       ObjectInstance}

  OctetString ::= OCTET STRING

  OperationMode ::= ENUMERATED {
        generateBackwardRMCells (0),
        modifyBackwardRMCells           (1)}

  OperationModes ::= SET OF OperationMode

  OriginatingLineInfo ::= OCTET STRING

  PrimaryCTPR1 ::= CHOICE {
        null    NULL,
        ctp     ObjectInstance,
        descriptorR1    DescriptorR1}

  ProvingInfo ::= ENUMERATED {
   alwaysNormalProving   (0),
   alwaysEmergencyProving (1),
   followMtp3Request (2)}

RateChangeFactor ::= ENUMERATED {
   rCF1over32768        (0),     -- 1/32768
    rCF1over16384       (1),     -- 1/16384
    rCF1over8192        (2),     -- 1/8192
    rCF1over4096        (3),     -- 1/4096
    rCF1over2048        (4),     -- 1/2048
    rCF1over1024        (5),     -- 1/1024
    rCF1over512 (6),     -- 1/512
    rCF1over256 (7),     -- 1/256
    rCF1over128 (8),     -- 1/128
    rCF1over64          (9),     -- 1/64
    rCF1over32          (10),    -- 1/32
    rCF1over16          (11),    -- 1/16
    rCF1over8           (12),    -- 1/8
    rCF1over4           (13),    -- 1/4
    rCF1over2           (14),    -- 1/2
    rCF1                (15)}    -- 1

  RDF ::=RateChangeFactor

  Real ::= REAL

  RecoveryType ::= ENUMERATED {
   recoverable (0),
   nonrecoverable (1)}
  
  RemoveTpsFromMultipointBridgeInfo ::= SEQUENCE {
        existingCTPs                    ExistingCTPs,
        multipointBridgeInstance        ObjectInstance}

  RemoveTpsFromMultipointBridgeReply ::= SEQUENCE OF SEQUENCE {
        ctpInstance             ObjectInstance,
        legRemovalProblem       ProblemCause OPTIONAL
        -- absent if ctpInstance is disconnected
        }
  
  ReportDiagnosticStatusInfo ::= ENUMERATED {
        withDiagnosticReport (0),
        noDiagnosticReport (1)}

  ReportDiagnosticStatusReply ::= SEQUENCE {
   diagnosticStatus     ENUMERATED {
        running (0),
        notRunning (1),
        stalled (2)},
   diagnosticReport DiagnosticReport OPTIONAL}

  ResetReply ::= ENUMERATED {
   resetCompleted (0),
   resetFailed (1)}

  ResourceId ::= SEQUENCE {
    tcAdaptor ObjectInstance,
    vpi       [0] Integer OPTIONAL, --required for VC test access
    vci       [1] Integer OPTIONAL} --required for VC test Access to VC connection

  ResourceUnderTest ::=CHOICE {
    idle        [0] NULL,
    resourceId  [1] ResourceId}  

  RestartSvcsReply ::= ENUMERATED {
   restartSuccessful    (0),
   restartNotSuccessful (1) }

  RIF ::= RateChangeFactor

  ServiceCategory ::= INTEGER {
        cBR             (0),
        rt-VBR          (1),
        nrt-VBR         (2),
        aBR             (3),
        uBR             (4) }

  SignMode ::= ENUMERATED {
   associatedMode       (0),
   quasiAssociatedMode  (1)}

  SupportedServiceCategories ::= SET OF ServiceCategory

  SustainableCellRate ::= SEQUENCE {
   sustainableCellRateCLP0plus1 [1] INTEGER OPTIONAL,
   sustainableCellRateCLP0 [2] INTEGER OPTIONAL}

  TimerType ::= GraphicString
  
  TimerValue ::= IntegerOrReal

  Trm ::= ENUMERATED {
   trm1 (0), -- 100 ms
   trm2 (1), -- 100 * 2^(-1) = 50 ms
   trm3 (2), -- 100 * 2^(-2) = 25 ms
   trm4 (3), -- 100 * 2^(-3) = 12.5 ms
   trm5 (4), -- 100 * 2^(-4) = 6.25 ms
   trm6 (5), -- 100 * 2^(-5) = 3.125 ms
   trm7 (6), -- 100 * 2^(-6) = 1.5626 ms
   trm8 (7)} -- 100 * 2^(-7) = 0.78125ms

  Unavailability ::= CHOICE {
   improperCondition    SET OF  Attribute,
   busy                  [1] NULL,
   failure               [2] NULL}

VpciValues ::= SET OF VpciValue

VpiValues ::= SET OF VpiValue

END

-- END OF ASN.1 Module