Nortel-Magellan-Passport-GeneralVcInterfaceMIB DEFINITIONS ::= BEGIN IMPORTS OBJECT-TYPE FROM RFC-1212 components, passportMIBs FROM Nortel-Magellan-Passport-UsefulDefinitionsMIB Counter32, RowPointer, DisplayString, StorageType, RowStatus, InterfaceIndex, Gauge32, Integer32, Unsigned32 FROM Nortel-Magellan-Passport-StandardTextualConventionsMIB AsciiString, DashedHexString, NonReplicated, DigitString, HexString, EnterpriseDateAndTime, Hex, Link FROM Nortel-Magellan-Passport-TextualConventionsMIB; -- LAST-UPDATED "9905250000Z" -- ORGANIZATION "Nortel" -- CONTACT-INFO " -- Nortel Magellan Network Management -- -- Postal: P.O. Box 5080, Station F -- Ottawa, Ontario -- Canada K2C 3T1 -- -- Email: nm_plm@nt.com" -- DESCRIPTION -- "The module describing the Nortel Magellan Passport -- GeneralVcInterface Enterprise MIB." generalVcInterfaceMIB OBJECT IDENTIFIER ::= { passportMIBs 58 } -- GeneralVcInterface/n -- This component defines a transport service for SNA traffic between -- a LAN and a WAN. It uses Virtual Circuit connections for data -- transport between the source and destination. The virtual circuits -- could be reliable (Qllc) represented by the Lcn component or lossy -- (Lwvc) represented by the Dlci component. gvcIf OBJECT IDENTIFIER ::= { components 107 } gvcIfRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIf components." ::= { gvcIf 1 } gvcIfRowStatusEntry OBJECT-TYPE SYNTAX GvcIfRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIf component." INDEX { gvcIfIndex } ::= { gvcIfRowStatusTable 1 } GvcIfRowStatusEntry ::= SEQUENCE { gvcIfRowStatus RowStatus, gvcIfComponentName DisplayString, gvcIfStorageType StorageType, gvcIfIndex Integer32 } gvcIfRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIf components. These components can be added and deleted." ::= { gvcIfRowStatusEntry 1 } gvcIfComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfRowStatusEntry 2 } gvcIfStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIf tables." ::= { gvcIfRowStatusEntry 4 } gvcIfIndex OBJECT-TYPE SYNTAX Integer32 (0..15) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIf tables." ::= { gvcIfRowStatusEntry 10 } gvcIfCidDataTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfCidDataEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the attribute for a component's Customer Identifier (CID). Refer to the attribute description for a detailed explanation of CIDs." ::= { gvcIf 30 } gvcIfCidDataEntry OBJECT-TYPE SYNTAX GvcIfCidDataEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfCidDataTable." INDEX { gvcIfIndex } ::= { gvcIfCidDataTable 1 } GvcIfCidDataEntry ::= SEQUENCE { gvcIfCustomerIdentifier Unsigned32 } gvcIfCustomerIdentifier OBJECT-TYPE SYNTAX Unsigned32 (0 | 1..8191) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute holds the Customer Identifier (CID). Every component has a CID. If a component has a cid attribute, the component's CID is the provisioned value of that attribute; otherwise the component inherits the CID of its parent. The top- level component has a CID of 0. Every operator session also has a CID, which is the CID provisioned for the operator's user ID. An operator will see only the stream data for components having a matching CID. Also, the operator will be allowed to issue commands for only those components which have a matching CID. An operator CID of 0 is used to identify the Network Manager (referred to as 'NetMan' in DPN). This CID matches the CID of any component. Values 1 to 8191 inclusive (equivalent to 'basic CIDs' in DPN) may be assigned to specific customers." DEFVAL { 0 } ::= { gvcIfCidDataEntry 1 } gvcIfProvTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfProvEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group provides the administrative set of parameters for the GvcIf component." ::= { gvcIf 31 } gvcIfProvEntry OBJECT-TYPE SYNTAX GvcIfProvEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfProvTable." INDEX { gvcIfIndex } ::= { gvcIfProvTable 1 } GvcIfProvEntry ::= SEQUENCE { gvcIfLogicalProcessor Link, gvcIfMaxActiveLinkStation Unsigned32 } gvcIfLogicalProcessor OBJECT-TYPE SYNTAX Link ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the logical processor on which the General VC Interface service is running." ::= { gvcIfProvEntry 1 } gvcIfMaxActiveLinkStation OBJECT-TYPE SYNTAX Unsigned32 (1..5000) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the total number of link station connections that can be active on this service instance. In total maxActiveLinkStation determines the maximum number of Lcn components which may exist at a given time. Once this number is reached no calls will be initiated or accepted by this service instance." DEFVAL { 100 } ::= { gvcIfProvEntry 3 } gvcIfStateTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfStateEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the three OSI State attributes. The descriptions generically indicate what each state attribute implies about the component. Note that not all the values and state combinations described here are supported by every component which uses this group. For component-specific information and the valid state combinations, refer to NTP 241-7001-150, Passport Operations and Maintenance Guide." ::= { gvcIf 32 } gvcIfStateEntry OBJECT-TYPE SYNTAX GvcIfStateEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfStateTable." INDEX { gvcIfIndex } ::= { gvcIfStateTable 1 } GvcIfStateEntry ::= SEQUENCE { gvcIfAdminState INTEGER, gvcIfOperationalState INTEGER, gvcIfUsageState INTEGER } gvcIfAdminState OBJECT-TYPE SYNTAX INTEGER { locked(0), unlocked(1), shuttingDown(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Administrative State of the component. The value locked indicates that the component is administratively prohibited from providing services for its users. A Lock or Lock - force command has been previously issued for this component. When the value is locked, the value of usageState must be idle. The value shuttingDown indicates that the component is administratively permitted to provide service to its existing users only. A Lock command was issued against the component and it is in the process of shutting down. The value unlocked indicates that the component is administratively permitted to provide services for its users. To enter this state, issue an Unlock command to this component." DEFVAL { unlocked } ::= { gvcIfStateEntry 1 } gvcIfOperationalState OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Operational State of the component. The value enabled indicates that the component is available for operation. Note that if adminState is locked, it would still not be providing service. The value disabled indicates that the component is not available for operation. For example, something is wrong with the component itself, or with another component on which this one depends. If the value is disabled, the usageState must be idle." DEFVAL { disabled } ::= { gvcIfStateEntry 2 } gvcIfUsageState OBJECT-TYPE SYNTAX INTEGER { idle(0), active(1), busy(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Usage State of the component. The value idle indicates that the component is not currently in use. The value active indicates that the component is in use and has spare capacity to provide for additional users. The value busy indicates that the component is in use and has no spare operating capacity for additional users at this time." DEFVAL { idle } ::= { gvcIfStateEntry 3 } gvcIfOpTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the operational attributes of the GvcIf component." ::= { gvcIf 33 } gvcIfOpEntry OBJECT-TYPE SYNTAX GvcIfOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfOpTable." INDEX { gvcIfIndex } ::= { gvcIfOpTable 1 } GvcIfOpEntry ::= SEQUENCE { gvcIfActiveLinkStations Unsigned32, gvcIfIssueLcnClearAlarm INTEGER, gvcIfActiveQllcCalls Unsigned32 } gvcIfActiveLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of active link station connections on this service instance at the time of the query. It includes the link stations using the Qllc, the Frame-Relay BAN and the Frame-Relay BNN connections." ::= { gvcIfOpEntry 2 } gvcIfIssueLcnClearAlarm OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates whether alarm issuing is allowed or disallowed whenever an Lcn is cleared. Alarm issuing should be allowed only for monitoring problems." DEFVAL { disallowed } ::= { gvcIfOpEntry 5 } gvcIfActiveQllcCalls OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of active Qllc calls on this service instance at the time of the query. It includes incoming and outgoing calls." ::= { gvcIfOpEntry 6 } gvcIfStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the statistics for the GvcIf component." ::= { gvcIf 34 } gvcIfStatsEntry OBJECT-TYPE SYNTAX GvcIfStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfStatsTable." INDEX { gvcIfIndex } ::= { gvcIfStatsTable 1 } GvcIfStatsEntry ::= SEQUENCE { gvcIfCallsToNetwork Counter32, gvcIfCallsFromNetwork Counter32, gvcIfCallsRefusedByNetwork Counter32, gvcIfCallsRefusedByInterface Counter32, gvcIfPeakActiveLinkStations Unsigned32, gvcIfBcastFramesDiscarded Counter32, gvcIfDiscardedQllcCalls Counter32 } gvcIfCallsToNetwork OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of Qllc and Frame-Relay calls initiated by this interface into the subnet, including successful and failed calls. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfStatsEntry 1 } gvcIfCallsFromNetwork OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of Qllc and Frame-Relay calls received from the subnet by this interface, including successful and failed calls. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfStatsEntry 2 } gvcIfCallsRefusedByNetwork OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of outgoing Qllc and Frame-Relay calls refused by the subnetwork. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfStatsEntry 3 } gvcIfCallsRefusedByInterface OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of incoming Qllc and Frame-Relay calls refused by the interface. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfStatsEntry 4 } gvcIfPeakActiveLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the maximum value of concurrently active link station connections since the service became active." DEFVAL { 0 } ::= { gvcIfStatsEntry 6 } gvcIfBcastFramesDiscarded OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of broadcast frames that have been discarded because they do not meet one of the following criterias: - the source MAC address does not match the instance of at least one SourceMACFilter component, - the destination MAC address does not match the instance of at least one DestinationMACFilter component. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfStatsEntry 7 } gvcIfDiscardedQllcCalls OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of Qllc calls that are discarded because the maxActiveLinkStation threshold is exceeded. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfStatsEntry 8 } -- GvcIf/n Dna/n DirectCall/mac,sap -- This component defines direct call options for calls issued without -- operator intervention. It provides a mapping mechanism between -- the LAN destination (mac,sap) and the WAN called (npi,dna) -- addresses. -- One instance of this component is required for every remote device -- (mac,sap) pair that could be accessed from local devices through -- this general VC interface. gvcIfDc OBJECT IDENTIFIER ::= { gvcIf 2 } gvcIfDcRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDc components." ::= { gvcIfDc 1 } gvcIfDcRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDc component." INDEX { gvcIfIndex, gvcIfDcMacIndex, gvcIfDcSapIndex } ::= { gvcIfDcRowStatusTable 1 } GvcIfDcRowStatusEntry ::= SEQUENCE { gvcIfDcRowStatus RowStatus, gvcIfDcComponentName DisplayString, gvcIfDcStorageType StorageType, gvcIfDcMacIndex DashedHexString, gvcIfDcSapIndex Integer32 } gvcIfDcRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDc components. These components can be added and deleted." ::= { gvcIfDcRowStatusEntry 1 } gvcIfDcComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDcRowStatusEntry 2 } gvcIfDcStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDc tables." ::= { gvcIfDcRowStatusEntry 4 } gvcIfDcMacIndex OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDc tables." ::= { gvcIfDcRowStatusEntry 10 } gvcIfDcSapIndex OBJECT-TYPE SYNTAX Integer32 (2..254) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDc tables." ::= { gvcIfDcRowStatusEntry 11 } gvcIfDcOptionsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDcOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines attributes associated with direct call. It defines complete connection in terms of path and call options. This connection can be permanent (pvc) or switched (svc). It can have facilities. The total number of bytes of facilities including the facility codes, and all of the facility data from all of the four classes of facilities: CCITT_Facilities DTE_Facilities National_Facilities International_Facilities must not exceed 512 bytes." ::= { gvcIfDc 10 } gvcIfDcOptionsEntry OBJECT-TYPE SYNTAX GvcIfDcOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDcOptionsTable." INDEX { gvcIfIndex, gvcIfDcMacIndex, gvcIfDcSapIndex } ::= { gvcIfDcOptionsTable 1 } GvcIfDcOptionsEntry ::= SEQUENCE { gvcIfDcRemoteNpi INTEGER, gvcIfDcRemoteDna DigitString, gvcIfDcUserData HexString, gvcIfDcTransferPriority INTEGER, gvcIfDcDiscardPriority INTEGER } gvcIfDcRemoteNpi OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the remote Numbering Plan Indicator (Npi) used in the remoteDna." DEFVAL { x121 } ::= { gvcIfDcOptionsEntry 3 } gvcIfDcRemoteDna OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the Data Network Address (Dna) of the remote. This is the called (destination) DTE address (Dna) to which this direct call will be sent. Initially, the called DTE address attribute must be present, that is, there must be a valid destination address. However, it may be possible in the future to configure the direct call with a mnemonic address, in which case, this attribute will contain a zero-length Dna, and the mnemonic address will be carried as one of the facilities." ::= { gvcIfDcOptionsEntry 4 } gvcIfDcUserData OBJECT-TYPE SYNTAX HexString (SIZE (0..128)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute contains the user data which is appended to the call request packet that is presented to the called (destination) DTE. User data can be a 0 to 128 byte string for fast select calls; otherwise, it is 0 to 16 byte string. Fast select calls are indicated as such using the X.25 ITU-T CCITT facility for 'Reverse Charging'. The length of the user data attribute is not verified during service provisioning. If more than 16 bytes of user data is specified on a call without the fast select option, then the call is cleared with a clear cause of 'local procedure error', and a diagnostic code of 39 (as defined in ITU-T (CCITT) X.25)." DEFVAL { 'C3000000'H } -- "C3000000" ::= { gvcIfDcOptionsEntry 8 } gvcIfDcTransferPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(9), useDnaDefTP(255) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the default transfer priority to network for all outgoing calls using this particular Dna. It can overRide the outDefaultTransferPriority provisioned in the Dna component. The transfer priority is a preference specified by an application according to its time-sensitivity requirement. Frames with high transfer priority are served by the network before the frames with normal priority. The transfer priority in Passport determines two things in use: trunk queue (among interrupting, delay, throughput), and routing metric (between delay and throughput). The following table details each transfer priority. The default of outDefaultTransferPriority is useDnaDefTP." DEFVAL { useDnaDefTP } ::= { gvcIfDcOptionsEntry 9 } gvcIfDcDiscardPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1), useDnaDefPriority(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the discard priority for outgoing call using this DLCI. The discard priority has three provisioning values: normal, high, and useDnaDefPriority. Traffic with normal priority are discarded first than the traffic with high priority. The Dna default value (provisioned by outDefaultPriority) is taken if this attribute is set to the value useDnaDefPriority. The default of discardPriority is useDnaDefPriority." DEFVAL { useDnaDefPriority } ::= { gvcIfDcOptionsEntry 10 } gvcIfDcCfaTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDcCfaEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This is the i'th CCITT facility required for this direct call. Within the provisioning system, the user specifies the facility code along with the facility parameters. The facility is represented internally as a hexadecimal string following the X.25 CCITT representation for facility data. The user specifies the facility code when adding, changing or deleting a facility. The upper two bits of the facility code indicate the class of facility. From the class of the facility, one can derive the number of bytes of facility data, as follows: Class A - 1 byte of fax data Class B - 2 bytes of fax data Class C - 3 bytes of fax data Class D - variable length of fax data." ::= { gvcIfDc 490 } gvcIfDcCfaEntry OBJECT-TYPE SYNTAX GvcIfDcCfaEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDcCfaTable." INDEX { gvcIfIndex, gvcIfDcMacIndex, gvcIfDcSapIndex, gvcIfDcCfaIndex } ::= { gvcIfDcCfaTable 1 } GvcIfDcCfaEntry ::= SEQUENCE { gvcIfDcCfaIndex Integer32, gvcIfDcCfaValue HexString, gvcIfDcCfaRowStatus RowStatus } gvcIfDcCfaIndex OBJECT-TYPE SYNTAX Integer32 (1 | 2 | 3 | 4 | 9 | 66 | 67 | 68 | 71 | 72 | 73 | 196 | 198) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDcCfaTable." ::= { gvcIfDcCfaEntry 1 } gvcIfDcCfaValue OBJECT-TYPE SYNTAX HexString (SIZE (0..128)) ACCESS read-write STATUS mandatory DESCRIPTION "This variable represents an individual value for the gvcIfDcCfaTable." ::= { gvcIfDcCfaEntry 2 } gvcIfDcCfaRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS write-only STATUS mandatory DESCRIPTION "This variable is used to control the addition and deletion of individual values of the gvcIfDcCfaTable." ::= { gvcIfDcCfaEntry 3 } -- GvcIf/n RemoteDnaMap/npi,dna -- This component maps a NPI and DNA into a MAC and SAP. -- It is required when the user wants to implicitly map the calling NPI -- and DNA into the given MAC and SAP. -- -- If this component is not present and the X.25 call indication -- contains a calling address extension facility, this facility content is -- to be used as the source MAC and SAP; otherwise the source MAC -- and SAP is derived from the called DNA and the assigned called -- LCN (DLCI). -- -- When this component is used to map the calling DNA in a Frame -- Relay Call the sap attribute value is ignored. gvcIfRDnaMap OBJECT IDENTIFIER ::= { gvcIf 3 } gvcIfRDnaMapRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRDnaMapRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfRDnaMap components." ::= { gvcIfRDnaMap 1 } gvcIfRDnaMapRowStatusEntry OBJECT-TYPE SYNTAX GvcIfRDnaMapRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfRDnaMap component." INDEX { gvcIfIndex, gvcIfRDnaMapNpiIndex, gvcIfRDnaMapDnaIndex } ::= { gvcIfRDnaMapRowStatusTable 1 } GvcIfRDnaMapRowStatusEntry ::= SEQUENCE { gvcIfRDnaMapRowStatus RowStatus, gvcIfRDnaMapComponentName DisplayString, gvcIfRDnaMapStorageType StorageType, gvcIfRDnaMapNpiIndex INTEGER, gvcIfRDnaMapDnaIndex DigitString } gvcIfRDnaMapRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfRDnaMap components. These components can be added and deleted." ::= { gvcIfRDnaMapRowStatusEntry 1 } gvcIfRDnaMapComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfRDnaMapRowStatusEntry 2 } gvcIfRDnaMapStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfRDnaMap tables." ::= { gvcIfRDnaMapRowStatusEntry 4 } gvcIfRDnaMapNpiIndex OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfRDnaMap tables." ::= { gvcIfRDnaMapRowStatusEntry 10 } gvcIfRDnaMapDnaIndex OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfRDnaMap tables." ::= { gvcIfRDnaMapRowStatusEntry 11 } gvcIfRDnaMapLanAdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRDnaMapLanAdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the LAN MAC and SAP address for a given WAN NPI and DNA address." ::= { gvcIfRDnaMap 10 } gvcIfRDnaMapLanAdEntry OBJECT-TYPE SYNTAX GvcIfRDnaMapLanAdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfRDnaMapLanAdTable." INDEX { gvcIfIndex, gvcIfRDnaMapNpiIndex, gvcIfRDnaMapDnaIndex } ::= { gvcIfRDnaMapLanAdTable 1 } GvcIfRDnaMapLanAdEntry ::= SEQUENCE { gvcIfRDnaMapMac DashedHexString, gvcIfRDnaMapSap Hex } gvcIfRDnaMapMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a locally or globally administered MAC address of a LAN device." ::= { gvcIfRDnaMapLanAdEntry 2 } gvcIfRDnaMapSap OBJECT-TYPE SYNTAX Hex (2..254) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a SAP identifier on the LAN device identified by the mac." DEFVAL { 4 } ::= { gvcIfRDnaMapLanAdEntry 3 } -- -- *** THIS SUBTREE CURRENTLY NOT IMPLEMENTED *** -- -- GvcIf/n Lcn/n -- This component contains information about a specific logical -- channel of a GvcIf component. An LCN is created for every link -- connection between 2 devices. gvcIfLcn OBJECT IDENTIFIER ::= { gvcIf 4 } gvcIfLcnRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This entry controls the addition and deletion of gvcIfLcn components." ::= { gvcIfLcn 1 } gvcIfLcnRowStatusEntry OBJECT-TYPE SYNTAX GvcIfLcnRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfLcn component." INDEX { gvcIfIndex, gvcIfLcnIndex } ::= { gvcIfLcnRowStatusTable 1 } GvcIfLcnRowStatusEntry ::= SEQUENCE { gvcIfLcnRowStatus RowStatus, gvcIfLcnComponentName DisplayString, gvcIfLcnStorageType StorageType, gvcIfLcnIndex Integer32 } gvcIfLcnRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-only STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfLcn components. These components cannot be added nor deleted." ::= { gvcIfLcnRowStatusEntry 1 } gvcIfLcnComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfLcnRowStatusEntry 2 } gvcIfLcnStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfLcn tables." ::= { gvcIfLcnRowStatusEntry 4 } gvcIfLcnIndex OBJECT-TYPE SYNTAX Integer32 (1..4095) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfLcn tables." ::= { gvcIfLcnRowStatusEntry 10 } gvcIfLcnStateTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnStateEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This group contains the three OSI State attributes. The descriptions generically indicate what each state attribute implies about the component. Note that not all the values and state combinations described here are supported by every component which uses this group. For component-specific information and the valid state combinations, refer to NTP 241-7001-150, Passport Operations and Maintenance Guide." ::= { gvcIfLcn 11 } gvcIfLcnStateEntry OBJECT-TYPE SYNTAX GvcIfLcnStateEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfLcnStateTable." INDEX { gvcIfIndex, gvcIfLcnIndex } ::= { gvcIfLcnStateTable 1 } GvcIfLcnStateEntry ::= SEQUENCE { gvcIfLcnAdminState INTEGER, gvcIfLcnOperationalState INTEGER, gvcIfLcnUsageState INTEGER } gvcIfLcnAdminState OBJECT-TYPE SYNTAX INTEGER { locked(0), unlocked(1), shuttingDown(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Administrative State of the component. The value locked indicates that the component is administratively prohibited from providing services for its users. A Lock or Lock - force command has been previously issued for this component. When the value is locked, the value of usageState must be idle. The value shuttingDown indicates that the component is administratively permitted to provide service to its existing users only. A Lock command was issued against the component and it is in the process of shutting down. The value unlocked indicates that the component is administratively permitted to provide services for its users. To enter this state, issue an Unlock command to this component." DEFVAL { unlocked } ::= { gvcIfLcnStateEntry 1 } gvcIfLcnOperationalState OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Operational State of the component. The value enabled indicates that the component is available for operation. Note that if adminState is locked, it would still not be providing service. The value disabled indicates that the component is not available for operation. For example, something is wrong with the component itself, or with another component on which this one depends. If the value is disabled, the usageState must be idle." DEFVAL { disabled } ::= { gvcIfLcnStateEntry 2 } gvcIfLcnUsageState OBJECT-TYPE SYNTAX INTEGER { idle(0), active(1), busy(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Usage State of the component. The value idle indicates that the component is not currently in use. The value active indicates that the component is in use and has spare capacity to provide for additional users. The value busy indicates that the component is in use and has no spare operating capacity for additional users at this time." DEFVAL { idle } ::= { gvcIfLcnStateEntry 3 } gvcIfLcnLcnCIdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnLcnCIdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This group indicates the information about the LAN circuit." ::= { gvcIfLcn 12 } gvcIfLcnLcnCIdEntry OBJECT-TYPE SYNTAX GvcIfLcnLcnCIdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfLcnLcnCIdTable." INDEX { gvcIfIndex, gvcIfLcnIndex } ::= { gvcIfLcnLcnCIdTable 1 } GvcIfLcnLcnCIdEntry ::= SEQUENCE { gvcIfLcnCircuitId RowPointer } gvcIfLcnCircuitId OBJECT-TYPE SYNTAX RowPointer ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the component name of the Vr/n Sna SnaCircuitEntry which represents this connection in the SNA DLR service. This component contains operational data about the LAN circuit." ::= { gvcIfLcnLcnCIdEntry 1 } gvcIfLcnOperTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This group contains the operational Lcn attributes." ::= { gvcIfLcn 13 } gvcIfLcnOperEntry OBJECT-TYPE SYNTAX GvcIfLcnOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfLcnOperTable." INDEX { gvcIfIndex, gvcIfLcnIndex } ::= { gvcIfLcnOperTable 1 } GvcIfLcnOperEntry ::= SEQUENCE { gvcIfLcnState INTEGER, gvcIfLcnDnaMap RowPointer, gvcIfLcnSourceMac DashedHexString } gvcIfLcnState OBJECT-TYPE SYNTAX INTEGER { idle(0), localDeviceCalling(1), remoteDeviceCalling(2), callUp(3), serviceInitiatedClear(4), localDeviceClearing(5), remoteDeviceClearing(6), terminating(7), deviceMonitoring(8), deviceMonitoringSuspended(9) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the logical channel internal state." ::= { gvcIfLcnOperEntry 1 } gvcIfLcnDnaMap OBJECT-TYPE SYNTAX RowPointer ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the component name of the Ddm, Sdm or Ldev which contains the MAC address of the device being monitored by this Lcn." ::= { gvcIfLcnOperEntry 2 } gvcIfLcnSourceMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the source MAC address inserted by this LCN in the SA field of the 802.5 frames sent to the local ring." ::= { gvcIfLcnOperEntry 3 } -- -- *** THIS SUBTREE CURRENTLY NOT IMPLEMENTED *** -- -- ... Vc() -- This component defines display of general Vc dynamic attributes gvcIfLcnVc OBJECT IDENTIFIER ::= { gvcIfLcn 2 } gvcIfLcnVcRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnVcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This entry controls the addition and deletion of gvcIfLcnVc components." ::= { gvcIfLcnVc 1 } gvcIfLcnVcRowStatusEntry OBJECT-TYPE SYNTAX GvcIfLcnVcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfLcnVc component." INDEX { gvcIfIndex, gvcIfLcnIndex, gvcIfLcnVcIndex } ::= { gvcIfLcnVcRowStatusTable 1 } GvcIfLcnVcRowStatusEntry ::= SEQUENCE { gvcIfLcnVcRowStatus RowStatus, gvcIfLcnVcComponentName DisplayString, gvcIfLcnVcStorageType StorageType, gvcIfLcnVcIndex NonReplicated } gvcIfLcnVcRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-only STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfLcnVc components. These components cannot be added nor deleted." ::= { gvcIfLcnVcRowStatusEntry 1 } gvcIfLcnVcComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfLcnVcRowStatusEntry 2 } gvcIfLcnVcStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfLcnVc tables." ::= { gvcIfLcnVcRowStatusEntry 4 } gvcIfLcnVcIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfLcnVc tables." ::= { gvcIfLcnVcRowStatusEntry 10 } gvcIfLcnVcCadTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnVcCadEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This group represents operational call data related to General Vc. It can be displayed only for General Vc which is created by application." ::= { gvcIfLcnVc 10 } gvcIfLcnVcCadEntry OBJECT-TYPE SYNTAX GvcIfLcnVcCadEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfLcnVcCadTable." INDEX { gvcIfIndex, gvcIfLcnIndex, gvcIfLcnVcIndex } ::= { gvcIfLcnVcCadTable 1 } GvcIfLcnVcCadEntry ::= SEQUENCE { gvcIfLcnVcType INTEGER, gvcIfLcnVcState INTEGER, gvcIfLcnVcPreviousState INTEGER, gvcIfLcnVcDiagnosticCode Unsigned32, gvcIfLcnVcPreviousDiagnosticCode Unsigned32, gvcIfLcnVcCalledNpi INTEGER, gvcIfLcnVcCalledDna DigitString, gvcIfLcnVcCalledLcn Unsigned32, gvcIfLcnVcCallingNpi INTEGER, gvcIfLcnVcCallingDna DigitString, gvcIfLcnVcCallingLcn Unsigned32, gvcIfLcnVcAccountingEnabled INTEGER, gvcIfLcnVcFastSelectCall INTEGER, gvcIfLcnVcLocalRxPktSize INTEGER, gvcIfLcnVcLocalTxPktSize INTEGER, gvcIfLcnVcLocalTxWindowSize Unsigned32, gvcIfLcnVcLocalRxWindowSize Unsigned32, gvcIfLcnVcPathReliability INTEGER, gvcIfLcnVcAccountingEnd INTEGER, gvcIfLcnVcPriority INTEGER, gvcIfLcnVcSegmentSize Unsigned32, gvcIfLcnVcSubnetTxPktSize INTEGER, gvcIfLcnVcSubnetTxWindowSize Unsigned32, gvcIfLcnVcSubnetRxPktSize INTEGER, gvcIfLcnVcSubnetRxWindowSize Unsigned32, gvcIfLcnVcMaxSubnetPktSize Unsigned32, gvcIfLcnVcTransferPriorityToNetwork INTEGER, gvcIfLcnVcTransferPriorityFromNetwork INTEGER } gvcIfLcnVcType OBJECT-TYPE SYNTAX INTEGER { svc(0), pvc(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the type of call, pvc or svc. type is provided at provisioning time." ::= { gvcIfLcnVcCadEntry 1 } gvcIfLcnVcState OBJECT-TYPE SYNTAX INTEGER { creating(0), readyP1(1), dteWaitingP2(2), dceWaitingP3(3), dataTransferP4(4), unsupportedP5(5), dteClearRequestP6(6), dceClearIndicationP7(7), termination(8) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the state of call control. P5 state is not supported but is listed for completness. Transitions from one state to another take very short time. state most often displayed is dataTransferP4." ::= { gvcIfLcnVcCadEntry 2 } gvcIfLcnVcPreviousState OBJECT-TYPE SYNTAX INTEGER { creating(0), readyP1(1), dteWaitingP2(2), dceWaitingP3(3), dataTransferP4(4), unsupportedP5(5), dteClearRequestP6(6), dceClearIndicationP7(7), termination(8) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the previous state of call control. This is a valuable field to determine how the processing is progressing." ::= { gvcIfLcnVcCadEntry 3 } gvcIfLcnVcDiagnosticCode OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the internal substate of call control. It is used to further refine state of call processing." ::= { gvcIfLcnVcCadEntry 4 } gvcIfLcnVcPreviousDiagnosticCode OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the internal substate of call control. It is used to further refine state of call processing." ::= { gvcIfLcnVcCadEntry 5 } gvcIfLcnVcCalledNpi OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Numbering Plan Indicator (NPI) of the called end." ::= { gvcIfLcnVcCadEntry 6 } gvcIfLcnVcCalledDna OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Data Network Address (Dna) of the called (destination) DTE to which this call is sent. This address if defined at recieving end will complete Vc connection." ::= { gvcIfLcnVcCadEntry 7 } gvcIfLcnVcCalledLcn OBJECT-TYPE SYNTAX Unsigned32 (1..65535) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Logical Channel Number of the called end. It is valid only after both ends of Vc exchanged relevant information." ::= { gvcIfLcnVcCadEntry 8 } gvcIfLcnVcCallingNpi OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Numbering Plan Indicator (NPI) of the calling end." ::= { gvcIfLcnVcCadEntry 9 } gvcIfLcnVcCallingDna OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Data Network Address (Dna) of the calling end." ::= { gvcIfLcnVcCadEntry 10 } gvcIfLcnVcCallingLcn OBJECT-TYPE SYNTAX Unsigned32 (1..65535) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Logical Channel Number of the calling end." ::= { gvcIfLcnVcCadEntry 11 } gvcIfLcnVcAccountingEnabled OBJECT-TYPE SYNTAX INTEGER { yes(0), no(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates that this optional section of accounting record is suppressed or permitted. If accountingEnabled is yes, conditions for generation of accounting record were met. These conditions include billing options, vc recovery conditions and Module wide accounting data options." ::= { gvcIfLcnVcCadEntry 12 } gvcIfLcnVcFastSelectCall OBJECT-TYPE SYNTAX INTEGER { no(0), yes(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays that this is a fast select call." ::= { gvcIfLcnVcCadEntry 13 } gvcIfLcnVcLocalRxPktSize OBJECT-TYPE SYNTAX INTEGER { unknown(0), n16(4), n32(5), n64(6), n128(7), n256(8), n512(9), n1024(10), n2048(11), n4096(12) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the locally negotiated size of send packets." ::= { gvcIfLcnVcCadEntry 14 } gvcIfLcnVcLocalTxPktSize OBJECT-TYPE SYNTAX INTEGER { unknown(0), n16(4), n32(5), n64(6), n128(7), n256(8), n512(9), n1024(10), n2048(11), n4096(12) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the locally negotiated size of send packets." ::= { gvcIfLcnVcCadEntry 15 } gvcIfLcnVcLocalTxWindowSize OBJECT-TYPE SYNTAX Unsigned32 (0..127) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the send window size provided on incoming call packets or the default when a call request packet does not explicitly provide the window size." ::= { gvcIfLcnVcCadEntry 16 } gvcIfLcnVcLocalRxWindowSize OBJECT-TYPE SYNTAX Unsigned32 (0..127) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the receive window size provided on incoming call packets or the default when a call request does not explicitly provide the window sizes." ::= { gvcIfLcnVcCadEntry 17 } gvcIfLcnVcPathReliability OBJECT-TYPE SYNTAX INTEGER { high(0), normal(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the path reliability." ::= { gvcIfLcnVcCadEntry 19 } gvcIfLcnVcAccountingEnd OBJECT-TYPE SYNTAX INTEGER { callingEnd(0), calledEnd(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates if this end should generate an accounting record. Normally, callingEnd is the end to generate an accounting record." ::= { gvcIfLcnVcCadEntry 20 } gvcIfLcnVcPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays whether the call is a normal or a high priority call." ::= { gvcIfLcnVcCadEntry 21 } gvcIfLcnVcSegmentSize OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the segment size (in bytes) used on the call. It is used to calculate the number of segments transmitted and received." ::= { gvcIfLcnVcCadEntry 22 } gvcIfLcnVcSubnetTxPktSize OBJECT-TYPE SYNTAX INTEGER { unknown(0), n16(4), n32(5), n64(6), n128(7), n256(8), n512(9), n1024(10), n2048(11), n4096(12) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the locally negotiated size of the data packets on this Vc." ::= { gvcIfLcnVcCadEntry 23 } gvcIfLcnVcSubnetTxWindowSize OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the current send window size of Vc." ::= { gvcIfLcnVcCadEntry 24 } gvcIfLcnVcSubnetRxPktSize OBJECT-TYPE SYNTAX INTEGER { unknown(0), n16(4), n32(5), n64(6), n128(7), n256(8), n512(9), n1024(10), n2048(11), n4096(12) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the locally negotiated size of receive packets." ::= { gvcIfLcnVcCadEntry 25 } gvcIfLcnVcSubnetRxWindowSize OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the receive window size provided on incoming call packets and to the default when a call request does not explicitly provide the window sizes." ::= { gvcIfLcnVcCadEntry 26 } gvcIfLcnVcMaxSubnetPktSize OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the maximum packet size allowed on Vc." ::= { gvcIfLcnVcCadEntry 27 } gvcIfLcnVcTransferPriorityToNetwork OBJECT-TYPE SYNTAX INTEGER { normal(0), high(9) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the priority in which data is transferred to the network. The transfer priority is a preference specified by an application according to its delay-sensitivity requirement. Frames with high transfer priority are served by the network before the frames with normal priority. Each transfer priority contains a predetermined setting for trunk queue (interrupting, delay or throughput), and routing metric (delay or throughput). When the transfer priority is set at high, the trunk queue is set to high, the routing metric is set to delay. When the transfer priority is set at normal, the trunk queue is set to normal, the routing metric is set to throughput." ::= { gvcIfLcnVcCadEntry 28 } gvcIfLcnVcTransferPriorityFromNetwork OBJECT-TYPE SYNTAX INTEGER { normal(0), high(9) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the priority in which data is transferred from the network. The transfer priority is a preference specified by an application according to its delay-sensitivity requirement. Frames with high transfer priority are served by the network before the frames with normal priority. Each transfer priority contains a predetermined setting for trunk queue (interrupting, delay or throughput), and routing metric (delay or throughput). When the transfer priority is set at high, and the trunk queue is set to high, the routing metric is set to delay. When the transfer priority is set at normal, the trunk queue is set to normal, and the routing metric is set to throughput." ::= { gvcIfLcnVcCadEntry 29 } gvcIfLcnVcIntdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnVcIntdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This group defines display of interval data collected by Vc. Data in this group is variable and may depend on time when this display command is issued." ::= { gvcIfLcnVc 11 } gvcIfLcnVcIntdEntry OBJECT-TYPE SYNTAX GvcIfLcnVcIntdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfLcnVcIntdTable." INDEX { gvcIfIndex, gvcIfLcnIndex, gvcIfLcnVcIndex } ::= { gvcIfLcnVcIntdTable 1 } GvcIfLcnVcIntdEntry ::= SEQUENCE { gvcIfLcnVcCallReferenceNumber Hex, gvcIfLcnVcElapsedTimeTillNow Unsigned32, gvcIfLcnVcSegmentsRx Unsigned32, gvcIfLcnVcSegmentsSent Unsigned32, gvcIfLcnVcStartTime EnterpriseDateAndTime } gvcIfLcnVcCallReferenceNumber OBJECT-TYPE SYNTAX Hex (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the call reference number which is a unique number generated by the switch.The same Call Reference Number is stored in the interval data (accounting record) at both ends of the call. It can be used as one of the attributes in matching duplicate records generated at each end of the call." ::= { gvcIfLcnVcIntdEntry 1 } gvcIfLcnVcElapsedTimeTillNow OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the elapsed time representing the period of this interval data. It is elapsed time in 0.1 second increments since Vc started." ::= { gvcIfLcnVcIntdEntry 2 } gvcIfLcnVcSegmentsRx OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of segments received at the time command was issued. This is the segment received count maintained by accounting at each end of the Vc. This counter is updated only when the packet cannot be successfully delivered out of the sink Vc and to the sink AP Conditions in which packets may be discarded by the sink Vc include: missing packets due to subnet discards, segmentation protocol violations due to subnet discard, duplicated and out-of-ranged packets and packets that arrive while Vc is in path recovery state." ::= { gvcIfLcnVcIntdEntry 3 } gvcIfLcnVcSegmentsSent OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of segments sent at the time command was issued. This is the segment sent count maintained by accounting at the source Vc. Vc only counts packets that Vc thinks can be delivered successfully into the subnet. In reality, these packets may be dropped by trunking, for instance. This counter is not updated when splitting fails, when Vc is in a path recovery state, when packet forwarding fails to forward this packet and when subsequent packets have to be discarded as we want to minimize the chance of out-of-sequence and do not intentionally send out-of- sequenced packets into the subnet." ::= { gvcIfLcnVcIntdEntry 4 } gvcIfLcnVcStartTime OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the start time of this interval period. If Vc spans 12 hour time or time of day change startTime reflects new time as recorded at 12 hour periods or time of day changes." ::= { gvcIfLcnVcIntdEntry 5 } gvcIfLcnVcStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfLcnVcStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** ... Statistics(Stats) This group defines general attributes collected by general Vc. The purpose of Vc attributes is to aid end users and verification people to understand the Vc internal behavior. This is particularly useful when the network has experienced abnormality and we want to isolate problems and pinpoint trouble spots. Attributes are collected on a per Vc basis. Until a need is identified, statistics are not collected at a processor level. Each attribute is stored in a 32 bit field and is initialized to zero when a Vc enters into the data transfer state. When a PVC is disconnected and then connected again, the attributes will be reset. Attributes cannot be reset through other methods." ::= { gvcIfLcnVc 12 } gvcIfLcnVcStatsEntry OBJECT-TYPE SYNTAX GvcIfLcnVcStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfLcnVcStatsTable." INDEX { gvcIfIndex, gvcIfLcnIndex, gvcIfLcnVcIndex } ::= { gvcIfLcnVcStatsTable 1 } GvcIfLcnVcStatsEntry ::= SEQUENCE { gvcIfLcnVcAckStackingTimeouts Unsigned32, gvcIfLcnVcOutOfRangeFrmFromSubnet Unsigned32, gvcIfLcnVcDuplicatesFromSubnet Unsigned32, gvcIfLcnVcFrmRetryTimeouts Unsigned32, gvcIfLcnVcPeakRetryQueueSize Unsigned32, gvcIfLcnVcPeakOoSeqQueueSize Unsigned32, gvcIfLcnVcPeakOoSeqFrmForwarded Unsigned32, gvcIfLcnVcPeakStackedAcksRx Unsigned32, gvcIfLcnVcSubnetRecoveries Unsigned32, gvcIfLcnVcWindowClosuresToSubnet Unsigned32, gvcIfLcnVcWindowClosuresFromSubnet Unsigned32, gvcIfLcnVcWrTriggers Unsigned32 } gvcIfLcnVcAckStackingTimeouts OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of ack stacking timer expiries. It is used as an indicator of the acknowledgment behavior across the subnet when ack stacking is in effect. If it expires often, usually this means end users will experience longer delay. The ack stacking timer specifies how long the Vc will wait before finally sending the subnet acknowledgment. if this attribute is set to a value of 0, then the Vc will automatically return acknowledgment packets without delay. If this attribute is set to a value other than zero, then the Vc will wait for this amount of time in an attempt to piggyback the acknowledgment packet on another credit or data packet. If the Vc cannot piggyback the acknowledgment packet within this time, then the packet is returned without piggybacking." ::= { gvcIfLcnVcStatsEntry 1 } gvcIfLcnVcOutOfRangeFrmFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of subnet frames discarded due to the sequence number being out of range. Two Categories apply for the General Vc 1) lost Acks (previous Range) 2) unexpected Packets (next Range) Vc internally maintains its own sequence number of packet order and sequencing. Due to packet retransmission, Vc may receive duplicate packets that have the same Vc internal sequence number. Only 1 copy is accepted by the Vc and other copies of the same packets are detected through this count. This attribute can be used to record the frequency of packet retransmission due to Vc and other part of the subnet." ::= { gvcIfLcnVcStatsEntry 2 } gvcIfLcnVcDuplicatesFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of subnet packets discarded due to duplication. It is used to detect software error fault or duplication caused by retransmitting." ::= { gvcIfLcnVcStatsEntry 3 } gvcIfLcnVcFrmRetryTimeouts OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of frames which have retransmission time-out. If packets from Vc into the subnet are discarded by the subnet, the source Vc will not receive any acknowledgment. The retransmission timer then expires and packets will be retransmitted again. Note that the Vc idle probe may be retransmitted and is included in this count. This statistics does not show the distribution of how many times packets are retransmitted (e.g. first retransmission results in successful packet forwarding)." ::= { gvcIfLcnVcStatsEntry 4 } gvcIfLcnVcPeakRetryQueueSize OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the peak size of the retransmission queue. This attribute is used as an indicator of the acknowledgment behavior across the subnet. It records the largest body of unacknowledged packets." ::= { gvcIfLcnVcStatsEntry 5 } gvcIfLcnVcPeakOoSeqQueueSize OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the peak size of the out of sequence queue. This attribute is used as an indicator of the sequencing behavior across the subnet. It records the largest body of out of sequence packets." ::= { gvcIfLcnVcStatsEntry 6 } gvcIfLcnVcPeakOoSeqFrmForwarded OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the peak size of the sequence packet queue. This attribute is used as an indicator of the sequencing behavior across the subnet. It records the largest body of out of sequence packets, which by the receipt of an expected packet have been transformed to expected packets. The number of times this peak is reached is not recorded as it is traffic dependent." ::= { gvcIfLcnVcStatsEntry 7 } gvcIfLcnVcPeakStackedAcksRx OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the peak size of wait acks. This attribute is used as an indicator of the acknowledgment behavior across the subnet. It records the largest collective acknowledgment." ::= { gvcIfLcnVcStatsEntry 8 } gvcIfLcnVcSubnetRecoveries OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of successful Vc recovery attempts. This attribute is used as an indicator of how many times the Vc path is broken but can be recovered. This attribute is useful to record the number of network path failures." ::= { gvcIfLcnVcStatsEntry 9 } gvcIfLcnVcWindowClosuresToSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of window closures to subnet. A packet may have been sent into the subnet but its acknowledgment from the remote Vc has not yet been received. This is a 8 bit sequence number.This number is useful in detecting whether the Vc is sending any packet into the subnet." ::= { gvcIfLcnVcStatsEntry 10 } gvcIfLcnVcWindowClosuresFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of window closures from subnet. This attribute is useful in detecting whether the Vc is receiving any packet from the subnet." ::= { gvcIfLcnVcStatsEntry 11 } gvcIfLcnVcWrTriggers OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of times the Vc stays within the W-R region. The W-R region is a value used to determined the timing of credit transmission. Should the current window size be beneath this value, the credits will be transmitted immediately. Otherwise, they will be transmitted later with actual data. The wrTriggers statistic is therefore used to analyze the flow control and credit mechanism." ::= { gvcIfLcnVcStatsEntry 12 } -- GvcIf/n Dna/n -- This is the description of the Dna component. It includes all the -- attributes of the generic DNA component. Only a subset of these -- attributes are supported by the gvcIf interface. These supported -- attributes are given READWRITE access. gvcIfDna OBJECT IDENTIFIER ::= { gvcIf 5 } gvcIfDnaRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDna components." ::= { gvcIfDna 1 } gvcIfDnaRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDnaRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDna component." INDEX { gvcIfIndex, gvcIfDnaIndex } ::= { gvcIfDnaRowStatusTable 1 } GvcIfDnaRowStatusEntry ::= SEQUENCE { gvcIfDnaRowStatus RowStatus, gvcIfDnaComponentName DisplayString, gvcIfDnaStorageType StorageType, gvcIfDnaIndex Integer32 } gvcIfDnaRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDna components. These components can be added and deleted." ::= { gvcIfDnaRowStatusEntry 1 } gvcIfDnaComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDnaRowStatusEntry 2 } gvcIfDnaStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDna tables." ::= { gvcIfDnaRowStatusEntry 4 } gvcIfDnaIndex OBJECT-TYPE SYNTAX Integer32 (0..99) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDna tables." ::= { gvcIfDnaRowStatusEntry 10 } gvcIfDnaAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains attributes common to all DNAs. Every DNA used in the network is defined with this group of 2 attributes, a string of address digits and a NPI." ::= { gvcIfDna 11 } gvcIfDnaAddrEntry OBJECT-TYPE SYNTAX GvcIfDnaAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaAddrTable." INDEX { gvcIfIndex, gvcIfDnaIndex } ::= { gvcIfDnaAddrTable 1 } GvcIfDnaAddrEntry ::= SEQUENCE { gvcIfDnaNumberingPlanIndicator INTEGER, gvcIfDnaDataNetworkAddress DigitString } gvcIfDnaNumberingPlanIndicator OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the Numbering Plan Indicator (NPI) of the Dna that is entered. Address may belong to X.121 or E.164 plans." DEFVAL { x121 } ::= { gvcIfDnaAddrEntry 1 } gvcIfDnaDataNetworkAddress OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute contains digits which form the unique identifier of the customer interface. It can be compared (approximation only) to telephone number where the telephone number identifies a unique telephone set. Dna digits are selected and assigned by network operators." ::= { gvcIfDnaAddrEntry 2 } gvcIfDnaOutgoingOptionsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaOutgoingOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines call options of a Dna for calls which are made out of the interface represented by Dna." ::= { gvcIfDna 12 } gvcIfDnaOutgoingOptionsEntry OBJECT-TYPE SYNTAX GvcIfDnaOutgoingOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaOutgoingOptionsTable." INDEX { gvcIfIndex, gvcIfDnaIndex } ::= { gvcIfDnaOutgoingOptionsTable 1 } GvcIfDnaOutgoingOptionsEntry ::= SEQUENCE { gvcIfDnaOutDefaultPriority INTEGER, gvcIfDnaOutDefaultPathSensitivity INTEGER, gvcIfDnaOutDefaultPathReliability INTEGER, gvcIfDnaOutAccess INTEGER, gvcIfDnaDefaultTransferPriority INTEGER, gvcIfDnaTransferPriorityOverRide INTEGER } gvcIfDnaOutDefaultPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to normal indicates that the default priority for outgoing calls (from the DTE to the network) for this particular Dna is normal priority - if the priority is not specified by the DTE. If this attribute is set to high then the default priority for outgoing calls using this particular Dna is high priority. This option can also be included in X.25 signalling, in which case it will be overruled." DEFVAL { normal } ::= { gvcIfDnaOutgoingOptionsEntry 7 } gvcIfDnaOutDefaultPathSensitivity OBJECT-TYPE SYNTAX INTEGER { throughput(0), delay(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the default class of routing for delay/ throughput sensitive routing for all outgoing calls (from the DTE to the network)for this particular Dna. The chosen default class of routing applies to all outgoing calls established using this Dna, and applies to the packets travelling in both directions on all outgoing calls (local to remote, and remote to local). For incoming calls, the default class of routing is chosen by the calling party (as opposed to DPN, where either end of the call can choose the default routing class). This attribute, if set to a value of throughput, indicates that the default class of routing is throughput sensitive routing. If set to a value of delay, then the default class of routing is delay sensitive routing. In the future, the class of routing sensitivity may be overridden at the calling end of the call as follows: The default class of routing sensitivity can be overridden by the DTE in the call request packet through the TDS&I (Transit Delay Selection & Indication) if the DTE supports this facility. Whether or not the DTE is permitted to signal the TDS&I facility will depend on the DTE (i.e.: TDS&I is supported in X.25 only), and will depend on whether the port is configured to permit the TDS&I facility. In Passport, the treatment of DTE facilities (for example, NUI, RPOA, and TDS&I) not fully defined yet since it is not required. At the point in time when it is required, the parameter to control whether or not the DTE is permitted to signal the TDS&I will be in a Facility Treatment component. Currently, the default is to disallow the TDS&I facility from the DTE." DEFVAL { throughput } ::= { gvcIfDnaOutgoingOptionsEntry 11 } gvcIfDnaOutDefaultPathReliability OBJECT-TYPE SYNTAX INTEGER { high(0), normal(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the default class of routing for reliability routing for all outgoing calls (from the DTE to the network) this particular Dna. The chosen default class of routing applies to all outgoing calls established using this Dna, and applies to the packets travelling in both directions on all outgoing calls (local to remote, and remote to local). For incoming calls, the default class of routing is chosen by the calling party (as opposed to DPN, where either end of the call can choose the default routing class). This attribute, if set to a value of normal, indicates that the default class of routing is normal reliability routing. If set to a value of high, then the default class of routing is high reliability routing. High reliability is the standard choice for most DPN and Passport services. It usually indicates that packets are overflowed or retransmitted at various routing levels. Typically high reliability results in duplication and disordering of packets in the network when errors are detected or during link congestion. However, the Vc handles the duplication and disordering to ensure that packets are delivered to the DTE properly. For the Frame Relay service, duplication of packets is not desired, in which case, normal reliability may be chosen as the preferred class of routing." DEFVAL { high } ::= { gvcIfDnaOutgoingOptionsEntry 14 } gvcIfDnaOutAccess OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute is an extension of the Closed User Group (CUG), as follows: This attribute, if set to a value of allowed indicates that outgoing calls (from the DTE to the network) the open (non-CUG) of the network are permitted. It also permits outgoing calls to DTEs that have Incoming Access capabilities. If set to a value of disallowed, then such calls cannot be made using this Dna - such calls will be cleared by the local DCE. This attribute corresponds to the CCITT 'Closed User Group with Outgoing Access' feature for Dnas in that outgoing access is granted if this attribute is set to a value of allowed." DEFVAL { allowed } ::= { gvcIfDnaOutgoingOptionsEntry 17 } gvcIfDnaDefaultTransferPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(9) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the default transfer priority to network for all outgoing calls using this particular Dna. It can be overRide by the transferPriority provisioned in the DLCI Direct Call sub- component. The transfer priority is a preference specified by an application according to its time-sensitivity requirement. Frames with high transfer priority are served by the network before the frames with normal priority. The transfer priority in Passport determines two things in use: trunk queue (among interrupting, delay, throughput), and routing metric (between delay and throughput). The following table descibes the details of each transfer priority: The default of outDefaultTransferPriority is normal." DEFVAL { normal } ::= { gvcIfDnaOutgoingOptionsEntry 18 } gvcIfDnaTransferPriorityOverRide OBJECT-TYPE SYNTAX INTEGER { no(0), yes(1) } ACCESS read-write STATUS mandatory DESCRIPTION "When this attribute is set to yes in the call request, the called end will use the calling end provisioning data on transfer priority to override its own provisioning data. If it is set no, the called end will use its own provisioning data on transfer priority. The default of outTransferPriorityOverRide is yes." DEFVAL { yes } ::= { gvcIfDnaOutgoingOptionsEntry 19 } gvcIfDnaIncomingOptionsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaIncomingOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "IncomingOptions defines set of options for incoming calls. These options are used for calls arriving to the interface represented by Dna. For calls originated from the interface, IncomingOptions attributes are not used." ::= { gvcIfDna 13 } gvcIfDnaIncomingOptionsEntry OBJECT-TYPE SYNTAX GvcIfDnaIncomingOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaIncomingOptionsTable." INDEX { gvcIfIndex, gvcIfDnaIndex } ::= { gvcIfDnaIncomingOptionsTable 1 } GvcIfDnaIncomingOptionsEntry ::= SEQUENCE { gvcIfDnaIncCalls INTEGER, gvcIfDnaIncHighPriorityReverseCharge INTEGER, gvcIfDnaIncNormalPriorityReverseCharge INTEGER, gvcIfDnaIncIntlNormalCharge INTEGER, gvcIfDnaIncIntlReverseCharge INTEGER, gvcIfDnaIncSameService INTEGER, gvcIfDnaIncAccess INTEGER } gvcIfDnaIncCalls OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to a value of allowed indicates that incoming calls (from the network to the DTE) be made to this Dna. If set to a value of disallowed, then incoming calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute corresponds to the CCITT 'Incoming Calls Barred' feature for Dnas in that incoming calls are barred if this attribute is set to a value of disallowed. Either outCalls, or incCalls (or both) be set to a value of allowed for this Dna to be usable." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 1 } gvcIfDnaIncHighPriorityReverseCharge OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to a value of allowed indicates that incoming high priority, reverse charged calls (from the network to the DTE) be made to this Dna. If set to a value of disallowed, then such calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute, together with the incNormalPriorityReverseChargeCalls attribute corresponds to the CCITT 'Reverse Charging Acceptance' feature for Dnas in that reverse charged calls are accepted if both attributes are set to a value of allowed. This attribute is ignored if the corresponding attribute, incCalls is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 2 } gvcIfDnaIncNormalPriorityReverseCharge OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to a value of allowed indicates that incoming normal priority, reverse charged calls (from the network to the DTE) be made to this Dna. If set to a value of disallowed, then such calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute, together with the incHighPriorityReverseChargeCalls attribute corresponds to the CCITT 'Reverse Charging Acceptance' feature for Dnas in that reverse charged calls are accepted if both attributes are set to a value of allowed. This attribute is ignored if the corresponding attribute, incCalls is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 3 } gvcIfDnaIncIntlNormalCharge OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to a value of allowed indicates that incoming international normal charged calls (from the network to the DTE) be made to this Dna. If set to a value of disallowed, then such calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute also currently controls access to/from the E.164 numbering plan, and if set to a value of allowed, then cross- numbering plan calls (also normal charged) allowed. This attribute is ignored if the corresponding attribute, incCalls is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 4 } gvcIfDnaIncIntlReverseCharge OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to a value of allowed indicates that incoming international reverse charged calls (from the network to the DTE) be made to this Dna. If set to a value of disallowed, then such calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute also currently controls access to/from the E.164 numbering plan, and if set to a value of allowed, then cross- numbering plan calls (also normal charged) allowed. This attribute is ignored if the corresponding attribute, incCalls is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 5 } gvcIfDnaIncSameService OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute, if set to a value of allowed indicates that incoming calls from the same service type (e.g.: X.25, ITI, SNA) (from the network to the DTE) be made to this Dna. If set to a value of disallowed, then such calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute is ignored if the corresponding attribute, incCalls is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 7 } gvcIfDnaIncAccess OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute is an extension of the Closed User Group (CUG), as follows: This attribute, if set to a value of allowed indicates that incoming calls (from the network to the DTE) the open (non-CUG) of the network are permitted. It also permits incoming calls from DTEs that have Outgoing Access capabilities. If set to a value of disallowed, then such calls cannot be made to this Dna - such calls will be cleared by the local DCE. This attribute corresponds to the CCITT 'Closed User Group with Incoming Access' feature for Dnas in that incoming access is granted if this attribute is set to a value of allowed." DEFVAL { allowed } ::= { gvcIfDnaIncomingOptionsEntry 9 } gvcIfDnaCallOptionsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaCallOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "CallOptions group defines additional options for calls not related directly to direction of a call." ::= { gvcIfDna 14 } gvcIfDnaCallOptionsEntry OBJECT-TYPE SYNTAX GvcIfDnaCallOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaCallOptionsTable." INDEX { gvcIfIndex, gvcIfDnaIndex } ::= { gvcIfDnaCallOptionsTable 1 } GvcIfDnaCallOptionsEntry ::= SEQUENCE { gvcIfDnaServiceCategory INTEGER, gvcIfDnaPacketSizes OCTET STRING, gvcIfDnaDefaultRecvFrmNetworkPacketSize INTEGER, gvcIfDnaDefaultSendToNetworkPacketSize INTEGER, gvcIfDnaDefaultRecvFrmNetworkThruputClass Unsigned32, gvcIfDnaDefaultSendToNetworkThruputClass Unsigned32, gvcIfDnaDefaultRecvFrmNetworkWindowSize Unsigned32, gvcIfDnaDefaultSendToNetworkWindowSize Unsigned32, gvcIfDnaPacketSizeNegotiation INTEGER, gvcIfDnaCugFormat INTEGER, gvcIfDnaAccountClass Unsigned32, gvcIfDnaAccountCollection OCTET STRING, gvcIfDnaServiceExchange Unsigned32 } gvcIfDnaServiceCategory OBJECT-TYPE SYNTAX INTEGER { gsp(0), x25(1), enhancedIti(2), ncs(3), mlti(4), sm(5), ici(6), dsp3270(7), iam(8), mlhi(9), term3270(10), iti(11), bsi(13), hostIti(14), x75(15), hdsp3270(16), api3201(20), sdlc(21), snaMultiHost(22), redirectionServ(23), trSnaTpad(24), offnetNui(25), gasServer(26), vapServer(28), vapAgent(29), frameRelay(30), ipiVc(31), gvcIf(32) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute is assigned for each different type of service within which this Dna is configured. It is placed into the Service Category attribute in the accounting record by both ends of the Vc." DEFVAL { gvcIf } ::= { gvcIfDnaCallOptionsEntry 1 } gvcIfDnaPacketSizes OBJECT-TYPE SYNTAX OCTET STRING (SIZE (2)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the allowable packet sizes supported for call setup using this Dna. CCITT recommends that packet size 128 always be supported. Description of bits: n16(0) n32(1) n64(2) n128(3) n256(4) n512(5) n1024(6) n2048(7) n4096(8)" DEFVAL { 'ff80'H } ::= { gvcIfDnaCallOptionsEntry 2 } gvcIfDnaDefaultRecvFrmNetworkPacketSize OBJECT-TYPE SYNTAX INTEGER { n16(4), n32(5), n64(6), n128(7), n256(8), n512(9), n1024(10), n2048(11), n4096(12) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the default local receive packet size from network to DTE for all calls using this particular Dna." DEFVAL { n4096 } ::= { gvcIfDnaCallOptionsEntry 3 } gvcIfDnaDefaultSendToNetworkPacketSize OBJECT-TYPE SYNTAX INTEGER { n16(4), n32(5), n64(6), n128(7), n256(8), n512(9), n1024(10), n2048(11), n4096(12) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the default local send packet size from DTE to network for all calls using this particular Dna." DEFVAL { n4096 } ::= { gvcIfDnaCallOptionsEntry 4 } gvcIfDnaDefaultRecvFrmNetworkThruputClass OBJECT-TYPE SYNTAX Unsigned32 (0..15) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the default receive throughput class for all calls using this particular Dna." DEFVAL { 13 } ::= { gvcIfDnaCallOptionsEntry 5 } gvcIfDnaDefaultSendToNetworkThruputClass OBJECT-TYPE SYNTAX Unsigned32 (0..15) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the default send throughput class for all calls using this particular Dna." DEFVAL { 13 } ::= { gvcIfDnaCallOptionsEntry 6 } gvcIfDnaDefaultRecvFrmNetworkWindowSize OBJECT-TYPE SYNTAX Unsigned32 (1..7) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the default number of data packets that can be received by the DTE from the DCE before more packets can be received. This view is oriented with respect to the DTE." DEFVAL { 2 } ::= { gvcIfDnaCallOptionsEntry 7 } gvcIfDnaDefaultSendToNetworkWindowSize OBJECT-TYPE SYNTAX Unsigned32 (1..7) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the number of data packets that can be transmitted from the DTE to the DCE and must be acknowledged before more packets can be transmitted." DEFVAL { 2 } ::= { gvcIfDnaCallOptionsEntry 8 } gvcIfDnaPacketSizeNegotiation OBJECT-TYPE SYNTAX INTEGER { endToEnd(0), local(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to local indicates that packet sizes can be negotiated locally at the interface irrespective of the remote interface. If set to endtoEnd, then local negotiation is not permitted and packet sizes are negotiated between 2 ends of Vc." DEFVAL { local } ::= { gvcIfDnaCallOptionsEntry 9 } gvcIfDnaCugFormat OBJECT-TYPE SYNTAX INTEGER { basic(0), extended(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies which Cug format is used when DTE signals CUG indices, basic or extended. This attribute, if set to extended indicates that the DTE signals and receives CUG indices in extended CUG format. If set to a value of basic, then the DTE signals and receives CUG indices in the basic CUG format." DEFVAL { basic } ::= { gvcIfDnaCallOptionsEntry 10 } gvcIfDnaAccountClass OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the accounting class which is reserved for network operations usage. Its value is returned in the accounting record in the local and remote service type attributes. Use of this attribute is decided by network operator and it is an arbitrary number." DEFVAL { 0 } ::= { gvcIfDnaCallOptionsEntry 16 } gvcIfDnaAccountCollection OBJECT-TYPE SYNTAX OCTET STRING (SIZE (1)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates that accounting records are to be collected by the network for the various reasons: billing, test, study, auditing. The last of the parameters, force, indicates that accounting records are to be collected irrespective of other collection reasons. If none of these reasons are set, then accounting will be suppressed. Description of bits: bill(0) test(1) study(2) audit(3) force(4)" DEFVAL { '80'H } ::= { gvcIfDnaCallOptionsEntry 17 } gvcIfDnaServiceExchange OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute is an arbitrary number, entered by the network operator. The value of serviceExchange is included in the accounting record generated by Vc." DEFVAL { 0 } ::= { gvcIfDnaCallOptionsEntry 18 } -- GvcIf/n Dna/n ClosedUserGroup/n -- This component defines options associated with national or -- international Cug Identifier. Other Dnas in the network can have -- Cug's defined which groups these Dnas by Cug interlockCode. If -- Dnas are defined with Cugs, calls from Dnas which do not have the -- same interlockCode defined are refused. Attributes incAccess and -- outAccess can override this rule. gvcIfDnaCug OBJECT IDENTIFIER ::= { gvcIfDna 2 } gvcIfDnaCugRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaCugRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDnaCug components." ::= { gvcIfDnaCug 1 } gvcIfDnaCugRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDnaCugRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDnaCug component." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaCugIndex } ::= { gvcIfDnaCugRowStatusTable 1 } GvcIfDnaCugRowStatusEntry ::= SEQUENCE { gvcIfDnaCugRowStatus RowStatus, gvcIfDnaCugComponentName DisplayString, gvcIfDnaCugStorageType StorageType, gvcIfDnaCugIndex Integer32 } gvcIfDnaCugRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDnaCug components. These components can be added and deleted." ::= { gvcIfDnaCugRowStatusEntry 1 } gvcIfDnaCugComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDnaCugRowStatusEntry 2 } gvcIfDnaCugStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDnaCug tables." ::= { gvcIfDnaCugRowStatusEntry 4 } gvcIfDnaCugIndex OBJECT-TYPE SYNTAX Integer32 (1..255) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDnaCug tables." ::= { gvcIfDnaCugRowStatusEntry 10 } gvcIfDnaCugCugOptionsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaCugCugOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Attributes in this group defines ClosedUserGroup options associated with interlockCode. Dnas with the same Cug (interlockCode) make calls within this group. Various combinations which permit or prevent calls in the same Cug group are defined here." ::= { gvcIfDnaCug 10 } gvcIfDnaCugCugOptionsEntry OBJECT-TYPE SYNTAX GvcIfDnaCugCugOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaCugCugOptionsTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaCugIndex } ::= { gvcIfDnaCugCugOptionsTable 1 } GvcIfDnaCugCugOptionsEntry ::= SEQUENCE { gvcIfDnaCugType INTEGER, gvcIfDnaCugDnic DigitString, gvcIfDnaCugInterlockCode Unsigned32, gvcIfDnaCugPreferential INTEGER, gvcIfDnaCugOutCalls INTEGER, gvcIfDnaCugIncCalls INTEGER, gvcIfDnaCugPrivileged INTEGER } gvcIfDnaCugType OBJECT-TYPE SYNTAX INTEGER { national(0), international(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the Cug type - the Cug is either a national Cug, or an international Cug. International closed user groups are usually established between DTEs for which there is an X.75 Gateway between; whereas national closed user groups are usually established between DTEs for which there is no X.75 Gateway between. (National Cugs cannot normally traverse an X.75 Gateway). If this attribute is set to national, then the Cug is a national Cug, in which case, the dnic should be left at its default value since it is not part of a national Cug. If this attribute is set to international, then the Cug is an international Cug, in which case, the dnic should be set appropriately as part of the Cug interlockCode." DEFVAL { national } ::= { gvcIfDnaCugCugOptionsEntry 1 } gvcIfDnaCugDnic OBJECT-TYPE SYNTAX DigitString (SIZE (4)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the dnic (Data Network ID Code) the Cug by which packet networks are identified. This attribute is not applicable if the Cug is a national Cug, as specified by the Cug type attribute. There are usually 1 or 2 dnics assigned per country, for public networks. The U.S. is an exception where each BOC has a dnic. Also, a group of private networks can have its own dnic. dnic value is not an arbitrary number. It is assigned by international agreement and controlled by CCITT." DEFVAL { '30303030'H } -- "0000" ::= { gvcIfDnaCugCugOptionsEntry 2 } gvcIfDnaCugInterlockCode OBJECT-TYPE SYNTAX Unsigned32 (0..65535) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the Cug identifier of a national or international Cug call. It is an arbitrary number and it also can be called Cug in some descriptions. Interfaces (Dnas) with this number can make calls to Dnas with the same interlockCode." DEFVAL { 0 } ::= { gvcIfDnaCugCugOptionsEntry 3 } gvcIfDnaCugPreferential OBJECT-TYPE SYNTAX INTEGER { no(0), yes(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to yes indicates that this Cug is the preferential Cug, in which case it will be used during the call establishment phase if the DTE has not explicitly specified a Cug index in the call request packet. If set to no, then this Cug is not the preferential Cug. Only one of the Cugs associated with a particular Dna can be the preferential Cug - only one Cug can have this attribute set to yes." DEFVAL { no } ::= { gvcIfDnaCugCugOptionsEntry 4 } gvcIfDnaCugOutCalls OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to allowed indicates that outgoing calls (from the DTE into the network) be made using this particular Cug. If set to a value of disallowed, then outgoing calls cannot be made using this Cug - such calls will be cleared by the local DCE. This attribute corresponds to the CCITT 'Outgoing Calls Barred' feature for Cugs in that outgoing calls are barred if this attribute is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaCugCugOptionsEntry 5 } gvcIfDnaCugIncCalls OBJECT-TYPE SYNTAX INTEGER { disallowed(0), allowed(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to allowed indicates that incoming calls (from the network to the DTE) be made using this particular Cug. If set to disallowed, then incoming calls cannot be made using this Cug - such calls will be cleared by the local DCE. This attribute corresponds to the CCITT 'Incoming Calls Barred' feature for Cugs in that incoming calls are barred if this attribute is set to a value of disallowed." DEFVAL { allowed } ::= { gvcIfDnaCugCugOptionsEntry 6 } gvcIfDnaCugPrivileged OBJECT-TYPE SYNTAX INTEGER { no(0), yes(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute, if set to yes indicates that this Cug is a privileged Cug. In DPN, at least one side of a call setup within a Cug must have the Cug as a privileged Cug. If set to no, then the Cug is not privileged. If both the local DTE and the remote DTE subscribe to the Cug, but it is not privileged, then the call will be cleared. This attribute is typically used for a host DTE which must accept calls from many other DTEs in which case the other DTEs cannot call one another, but can call the host. In this example, the host would have the privileged Cug, and the other DTEs would belong to the same Cug, but it would not be privileged." DEFVAL { yes } ::= { gvcIfDnaCugCugOptionsEntry 7 } -- GvcIf/n Dna/n HgMember -- This component specifies the Hunt Groups to which this member -- belongs. A hunt group member subscribes to at least one hunt -- group. gvcIfDnaHgM OBJECT IDENTIFIER ::= { gvcIfDna 3 } gvcIfDnaHgMRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaHgMRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDnaHgM components." ::= { gvcIfDnaHgM 1 } gvcIfDnaHgMRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDnaHgMRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDnaHgM component." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaHgMIndex } ::= { gvcIfDnaHgMRowStatusTable 1 } GvcIfDnaHgMRowStatusEntry ::= SEQUENCE { gvcIfDnaHgMRowStatus RowStatus, gvcIfDnaHgMComponentName DisplayString, gvcIfDnaHgMStorageType StorageType, gvcIfDnaHgMIndex NonReplicated } gvcIfDnaHgMRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDnaHgM components. These components can be added and deleted." ::= { gvcIfDnaHgMRowStatusEntry 1 } gvcIfDnaHgMComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDnaHgMRowStatusEntry 2 } gvcIfDnaHgMStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDnaHgM tables." ::= { gvcIfDnaHgMRowStatusEntry 4 } gvcIfDnaHgMIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDnaHgM tables." ::= { gvcIfDnaHgMRowStatusEntry 10 } gvcIfDnaHgMIfTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaHgMIfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the interface parameters between the HuntGroupMember and the Hunt Group server." ::= { gvcIfDnaHgM 10 } gvcIfDnaHgMIfEntry OBJECT-TYPE SYNTAX GvcIfDnaHgMIfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaHgMIfTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaHgMIndex } ::= { gvcIfDnaHgMIfTable 1 } GvcIfDnaHgMIfEntry ::= SEQUENCE { gvcIfDnaHgMAvailabilityUpdateThreshold Unsigned32 } gvcIfDnaHgMAvailabilityUpdateThreshold OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the number of channels that have to be freed or occupied before the Availability Message Packet (AMP) is sent to the Hunt Group Server informing it of the status of this interface." DEFVAL { 1 } ::= { gvcIfDnaHgMIfEntry 1 } gvcIfDnaHgMOpTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaHgMOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the operational attributes of the HuntGroupMember component." ::= { gvcIfDnaHgM 11 } gvcIfDnaHgMOpEntry OBJECT-TYPE SYNTAX GvcIfDnaHgMOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaHgMOpTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaHgMIndex } ::= { gvcIfDnaHgMOpTable 1 } GvcIfDnaHgMOpEntry ::= SEQUENCE { gvcIfDnaHgMAvailabilityDelta INTEGER, gvcIfDnaHgMMaxAvailableLinkStations Unsigned32, gvcIfDnaHgMAvailableLinkStations Unsigned32 } gvcIfDnaHgMAvailabilityDelta OBJECT-TYPE SYNTAX INTEGER (-4096..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the net change in the available link station connections since the last Availability Message Packet (AMP) was sent to the Hunt Group. Once the absolute value of this attribute reaches the availabilityUpdateThreshold an AMP is sent to the host and the availabilityDelta is reset to 0. If this attribute is positive it means an increase of the number of available link station connections. If it is negative it means a decrease in the number of available link station connections." ::= { gvcIfDnaHgMOpEntry 3 } gvcIfDnaHgMMaxAvailableLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the maximum number of available link station connections that can be established by this HuntGroupMember." ::= { gvcIfDnaHgMOpEntry 4 } gvcIfDnaHgMAvailableLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of available link station connections reported to the hunt group in the Availability Message Packet (AMP). It is incremented by the application when a link station connection is freed and decremented when a link station connection is occupied." ::= { gvcIfDnaHgMOpEntry 6 } -- GvcIf/n Dna/n HgM HuntGroupAddress/n -- This component specifies the Hunt Group address to which this -- member belongs. A hunt group member belongs to at least one hunt -- group. gvcIfDnaHgMHgAddr OBJECT IDENTIFIER ::= { gvcIfDnaHgM 2 } gvcIfDnaHgMHgAddrRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaHgMHgAddrRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDnaHgMHgAddr components." ::= { gvcIfDnaHgMHgAddr 1 } gvcIfDnaHgMHgAddrRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDnaHgMHgAddrRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDnaHgMHgAddr component." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaHgMIndex, gvcIfDnaHgMHgAddrIndex } ::= { gvcIfDnaHgMHgAddrRowStatusTable 1 } GvcIfDnaHgMHgAddrRowStatusEntry ::= SEQUENCE { gvcIfDnaHgMHgAddrRowStatus RowStatus, gvcIfDnaHgMHgAddrComponentName DisplayString, gvcIfDnaHgMHgAddrStorageType StorageType, gvcIfDnaHgMHgAddrIndex Integer32 } gvcIfDnaHgMHgAddrRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDnaHgMHgAddr components. These components can be added and deleted." ::= { gvcIfDnaHgMHgAddrRowStatusEntry 1 } gvcIfDnaHgMHgAddrComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDnaHgMHgAddrRowStatusEntry 2 } gvcIfDnaHgMHgAddrStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDnaHgMHgAddr tables." ::= { gvcIfDnaHgMHgAddrRowStatusEntry 4 } gvcIfDnaHgMHgAddrIndex OBJECT-TYPE SYNTAX Integer32 (0..1) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDnaHgMHgAddr tables." ::= { gvcIfDnaHgMHgAddrRowStatusEntry 10 } gvcIfDnaHgMHgAddrAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaHgMHgAddrAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains attributes common to all DNAs. Every DNA used in the network is defined with this group of 2 attributes. String of address digits complemented by the NPI." ::= { gvcIfDnaHgMHgAddr 10 } gvcIfDnaHgMHgAddrAddrEntry OBJECT-TYPE SYNTAX GvcIfDnaHgMHgAddrAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaHgMHgAddrAddrTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaHgMIndex, gvcIfDnaHgMHgAddrIndex } ::= { gvcIfDnaHgMHgAddrAddrTable 1 } GvcIfDnaHgMHgAddrAddrEntry ::= SEQUENCE { gvcIfDnaHgMHgAddrNumberingPlanIndicator INTEGER, gvcIfDnaHgMHgAddrDataNetworkAddress DigitString } gvcIfDnaHgMHgAddrNumberingPlanIndicator OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute indicates the Numbering Plan Indicator (NPI) the Dna that is entered. Address may belong to X.121 or E.164 plans." DEFVAL { x121 } ::= { gvcIfDnaHgMHgAddrAddrEntry 1 } gvcIfDnaHgMHgAddrDataNetworkAddress OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute contains digits which form unique identifier of the customer interface. It can be compared (approximation only) telephone number where phone number identifies unique telephone set. Dna digits are selected and assigned by network operators." ::= { gvcIfDnaHgMHgAddrAddrEntry 2 } -- GvcIf/n Dna/n DefaultDnaMap -- This component maps its parent NPI and DNA pair into a MAC and -- SAP pair. -- -- This component must be provisioned when this GvcIf Dna receives -- calls that do not carry the DTE Class D facility for called and -- calling address extension in the X.25 call indication (this is the case -- of calls originating from a DPN TrSna or SDLC services). -- This component must also be provisioned for mapping the called -- DNA in a Frame Relay VC call, in which case the sap attribute -- value is not used. -- -- When mapping a called NPI and DNA, the destination MAC and -- SAP must be accessible from a locally attached Token Ring; -- otherwise, the call is cleared and backed up (hunted or redirected) if -- the GvcIf is subscribed to these services. -- The device address defined in the mac attribute is monitored by the -- SNA DLR service. gvcIfDnaDdm OBJECT IDENTIFIER ::= { gvcIfDna 4 } gvcIfDnaDdmRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaDdmRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDnaDdm components." ::= { gvcIfDnaDdm 1 } gvcIfDnaDdmRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDnaDdmRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDnaDdm component." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaDdmIndex } ::= { gvcIfDnaDdmRowStatusTable 1 } GvcIfDnaDdmRowStatusEntry ::= SEQUENCE { gvcIfDnaDdmRowStatus RowStatus, gvcIfDnaDdmComponentName DisplayString, gvcIfDnaDdmStorageType StorageType, gvcIfDnaDdmIndex NonReplicated } gvcIfDnaDdmRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDnaDdm components. These components can be added and deleted." ::= { gvcIfDnaDdmRowStatusEntry 1 } gvcIfDnaDdmComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDnaDdmRowStatusEntry 2 } gvcIfDnaDdmStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDnaDdm tables." ::= { gvcIfDnaDdmRowStatusEntry 4 } gvcIfDnaDdmIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDnaDdm tables." ::= { gvcIfDnaDdmRowStatusEntry 10 } gvcIfDnaDdmLanAdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaDdmLanAdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the LAN MAC and SAP address for a given WAN NPI and DNA address." ::= { gvcIfDnaDdm 10 } gvcIfDnaDdmLanAdEntry OBJECT-TYPE SYNTAX GvcIfDnaDdmLanAdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaDdmLanAdTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaDdmIndex } ::= { gvcIfDnaDdmLanAdTable 1 } GvcIfDnaDdmLanAdEntry ::= SEQUENCE { gvcIfDnaDdmMac DashedHexString, gvcIfDnaDdmSap Hex } gvcIfDnaDdmMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a locally or globally administered MAC address of a LAN device." ::= { gvcIfDnaDdmLanAdEntry 2 } gvcIfDnaDdmSap OBJECT-TYPE SYNTAX Hex (2..254) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a SAP identifier on the LAN device identified by the mac." DEFVAL { 4 } ::= { gvcIfDnaDdmLanAdEntry 3 } gvcIfDnaDdmDmoTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaDdmDmoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the device monitoring options." ::= { gvcIfDnaDdm 11 } gvcIfDnaDdmDmoEntry OBJECT-TYPE SYNTAX GvcIfDnaDdmDmoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaDdmDmoTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaDdmIndex } ::= { gvcIfDnaDdmDmoTable 1 } GvcIfDnaDdmDmoEntry ::= SEQUENCE { gvcIfDnaDdmDeviceMonitoring INTEGER, gvcIfDnaDdmClearVcsWhenUnreachable INTEGER, gvcIfDnaDdmDeviceMonitoringTimer Unsigned32, gvcIfDnaDdmTestResponseTimer Unsigned32, gvcIfDnaDdmMaximumTestRetry Unsigned32 } gvcIfDnaDdmDeviceMonitoring OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies wether device monitoring for the device specified in mac is enabled or disabled." DEFVAL { enabled } ::= { gvcIfDnaDdmDmoEntry 1 } gvcIfDnaDdmClearVcsWhenUnreachable OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies wether to clear or not existing VCs when deviceStatus changes from reachable to unreachable." DEFVAL { enabled } ::= { gvcIfDnaDdmDmoEntry 2 } gvcIfDnaDdmDeviceMonitoringTimer OBJECT-TYPE SYNTAX Unsigned32 (1..255) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the wait period between 2 consecutive device monitoring sequences. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 15 } ::= { gvcIfDnaDdmDmoEntry 3 } gvcIfDnaDdmTestResponseTimer OBJECT-TYPE SYNTAX Unsigned32 (1..30) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the wait period between 2 consecutive TEST commands sent during one device monitoring sequence. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 3 } ::= { gvcIfDnaDdmDmoEntry 4 } gvcIfDnaDdmMaximumTestRetry OBJECT-TYPE SYNTAX Unsigned32 (1..100) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the maximum number of TEST commands sent during one device monitoring sequence. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 10 } ::= { gvcIfDnaDdmDmoEntry 5 } gvcIfDnaDdmDevOpTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaDdmDevOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group specifies the operational attributes for devices that are potentially reachable by the SNA DLR service." ::= { gvcIfDnaDdm 12 } gvcIfDnaDdmDevOpEntry OBJECT-TYPE SYNTAX GvcIfDnaDdmDevOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaDdmDevOpTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaDdmIndex } ::= { gvcIfDnaDdmDevOpTable 1 } GvcIfDnaDdmDevOpEntry ::= SEQUENCE { gvcIfDnaDdmDeviceStatus INTEGER, gvcIfDnaDdmActiveLinkStations Unsigned32, gvcIfDnaDdmLastTimeUnreachable EnterpriseDateAndTime, gvcIfDnaDdmLastTimeReachable EnterpriseDateAndTime, gvcIfDnaDdmDeviceUnreachable Counter32, gvcIfDnaDdmMonitoringLcn INTEGER } gvcIfDnaDdmDeviceStatus OBJECT-TYPE SYNTAX INTEGER { unreachable(0), reachable(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates whether the local device specified by mac is reachable or unreachable from this SNA DLR interface. The device status is determined by the SNA DLR service by sending a TEST frame with the Poll bit set to the device periodically. If a TEST frame with the Final bit set is received from the device then the device status becomes reachable; otherwise the device status is unreachable. When the device status is reachable, connections to this device are accepted. When the device status is unreachable, existing connections to the device are cleared and new connections are cleared to hunt or redirection services." ::= { gvcIfDnaDdmDevOpEntry 1 } gvcIfDnaDdmActiveLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of active link station connections using this device mapping component. It includes the link stations using the Qllc and the Frame-Relay connections." ::= { gvcIfDnaDdmDevOpEntry 2 } gvcIfDnaDdmLastTimeUnreachable OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the last time the deviceStatus changed from reachable to unreachable." ::= { gvcIfDnaDdmDevOpEntry 3 } gvcIfDnaDdmLastTimeReachable OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the last time the deviceStatus changed from unreachable to reachable." ::= { gvcIfDnaDdmDevOpEntry 4 } gvcIfDnaDdmDeviceUnreachable OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of times the deviceStatus changed from reachable to unreachable. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfDnaDdmDevOpEntry 5 } gvcIfDnaDdmMonitoringLcn OBJECT-TYPE SYNTAX INTEGER (1..4095) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the instance of the GvcIf/n Lcn that is reserved for monitoring the device indicated by the mac." ::= { gvcIfDnaDdmDevOpEntry 6 } -- GvcIf/n Dna/n SubDnaMap/bcdstring -- This component maps a NPI and DNA pair into a MAC and SAP. -- The DNA is composed of the parent Dna component dna suffixed -- by this SubDnaMap instance. -- -- This component must be provisioned when this GvcIf Dna receives -- calls that do not carry the DTE Class D facility for called and -- calling address extension in the X.25 call indication (this is the case -- of calls originating from a DPN TrSna or SDLC services). -- This component must also be provisioned for mapping the called -- DNA in a Frame Relay VC call, in which case the sap attribute -- value is not used. -- -- When mapping a called NPI and DNA, the destination MAC and -- SAP must be accessible from a locally attached Token Ring; -- otherwise, the call is cleared and backed up (hunted or redirected) if -- the GvcIf is subscribed to these services. -- The device address defined in the mac attribute is monitored by the -- SNA DLR service. gvcIfDnaSdm OBJECT IDENTIFIER ::= { gvcIfDna 5 } gvcIfDnaSdmRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaSdmRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDnaSdm components." ::= { gvcIfDnaSdm 1 } gvcIfDnaSdmRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDnaSdmRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDnaSdm component." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaSdmIndex } ::= { gvcIfDnaSdmRowStatusTable 1 } GvcIfDnaSdmRowStatusEntry ::= SEQUENCE { gvcIfDnaSdmRowStatus RowStatus, gvcIfDnaSdmComponentName DisplayString, gvcIfDnaSdmStorageType StorageType, gvcIfDnaSdmIndex DigitString } gvcIfDnaSdmRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDnaSdm components. These components can be added and deleted." ::= { gvcIfDnaSdmRowStatusEntry 1 } gvcIfDnaSdmComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDnaSdmRowStatusEntry 2 } gvcIfDnaSdmStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDnaSdm tables." ::= { gvcIfDnaSdmRowStatusEntry 4 } gvcIfDnaSdmIndex OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDnaSdm tables." ::= { gvcIfDnaSdmRowStatusEntry 10 } gvcIfDnaSdmLanAdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaSdmLanAdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the LAN MAC and SAP address for a given WAN NPI and DNA address." ::= { gvcIfDnaSdm 10 } gvcIfDnaSdmLanAdEntry OBJECT-TYPE SYNTAX GvcIfDnaSdmLanAdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaSdmLanAdTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaSdmIndex } ::= { gvcIfDnaSdmLanAdTable 1 } GvcIfDnaSdmLanAdEntry ::= SEQUENCE { gvcIfDnaSdmMac DashedHexString, gvcIfDnaSdmSap Hex } gvcIfDnaSdmMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a locally or globally administered MAC address of a LAN device." ::= { gvcIfDnaSdmLanAdEntry 2 } gvcIfDnaSdmSap OBJECT-TYPE SYNTAX Hex (2..254) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a SAP identifier on the LAN device identified by the mac." DEFVAL { 4 } ::= { gvcIfDnaSdmLanAdEntry 3 } gvcIfDnaSdmDmoTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaSdmDmoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the device monitoring options." ::= { gvcIfDnaSdm 11 } gvcIfDnaSdmDmoEntry OBJECT-TYPE SYNTAX GvcIfDnaSdmDmoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaSdmDmoTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaSdmIndex } ::= { gvcIfDnaSdmDmoTable 1 } GvcIfDnaSdmDmoEntry ::= SEQUENCE { gvcIfDnaSdmDeviceMonitoring INTEGER, gvcIfDnaSdmClearVcsWhenUnreachable INTEGER, gvcIfDnaSdmDeviceMonitoringTimer Unsigned32, gvcIfDnaSdmTestResponseTimer Unsigned32, gvcIfDnaSdmMaximumTestRetry Unsigned32 } gvcIfDnaSdmDeviceMonitoring OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies wether device monitoring for the device specified in mac is enabled or disabled." DEFVAL { enabled } ::= { gvcIfDnaSdmDmoEntry 1 } gvcIfDnaSdmClearVcsWhenUnreachable OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies wether to clear or not existing VCs when deviceStatus changes from reachable to unreachable." DEFVAL { enabled } ::= { gvcIfDnaSdmDmoEntry 2 } gvcIfDnaSdmDeviceMonitoringTimer OBJECT-TYPE SYNTAX Unsigned32 (1..255) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the wait period between 2 consecutive device monitoring sequences. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 15 } ::= { gvcIfDnaSdmDmoEntry 3 } gvcIfDnaSdmTestResponseTimer OBJECT-TYPE SYNTAX Unsigned32 (1..30) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the wait period between 2 consecutive TEST commands sent during one device monitoring sequence. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 3 } ::= { gvcIfDnaSdmDmoEntry 4 } gvcIfDnaSdmMaximumTestRetry OBJECT-TYPE SYNTAX Unsigned32 (1..100) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the maximum number of TEST commands sent during one device monitoring sequence. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 10 } ::= { gvcIfDnaSdmDmoEntry 5 } gvcIfDnaSdmDevOpTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDnaSdmDevOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group specifies the operational attributes for devices that are potentially reachable by the SNA DLR service." ::= { gvcIfDnaSdm 12 } gvcIfDnaSdmDevOpEntry OBJECT-TYPE SYNTAX GvcIfDnaSdmDevOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDnaSdmDevOpTable." INDEX { gvcIfIndex, gvcIfDnaIndex, gvcIfDnaSdmIndex } ::= { gvcIfDnaSdmDevOpTable 1 } GvcIfDnaSdmDevOpEntry ::= SEQUENCE { gvcIfDnaSdmDeviceStatus INTEGER, gvcIfDnaSdmActiveLinkStations Unsigned32, gvcIfDnaSdmLastTimeUnreachable EnterpriseDateAndTime, gvcIfDnaSdmLastTimeReachable EnterpriseDateAndTime, gvcIfDnaSdmDeviceUnreachable Counter32, gvcIfDnaSdmMonitoringLcn INTEGER } gvcIfDnaSdmDeviceStatus OBJECT-TYPE SYNTAX INTEGER { unreachable(0), reachable(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates whether the local device specified by mac is reachable or unreachable from this SNA DLR interface. The device status is determined by the SNA DLR service by sending a TEST frame with the Poll bit set to the device periodically. If a TEST frame with the Final bit set is received from the device then the device status becomes reachable; otherwise the device status is unreachable. When the device status is reachable, connections to this device are accepted. When the device status is unreachable, existing connections to the device are cleared and new connections are cleared to hunt or redirection services." ::= { gvcIfDnaSdmDevOpEntry 1 } gvcIfDnaSdmActiveLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of active link station connections using this device mapping component. It includes the link stations using the Qllc and the Frame-Relay connections." ::= { gvcIfDnaSdmDevOpEntry 2 } gvcIfDnaSdmLastTimeUnreachable OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the last time the deviceStatus changed from reachable to unreachable." ::= { gvcIfDnaSdmDevOpEntry 3 } gvcIfDnaSdmLastTimeReachable OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the last time the deviceStatus changed from unreachable to reachable." ::= { gvcIfDnaSdmDevOpEntry 4 } gvcIfDnaSdmDeviceUnreachable OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of times the deviceStatus changed from reachable to unreachable. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfDnaSdmDevOpEntry 5 } gvcIfDnaSdmMonitoringLcn OBJECT-TYPE SYNTAX INTEGER (1..4095) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the instance of the GvcIf/n Lcn that is reserved for monitoring the device indicated by the mac." ::= { gvcIfDnaSdmDevOpEntry 6 } -- GvcIf/n GvcIfRemoteGroup/n -- This component allows LAN media to communicate through WAN -- media by using the GvcIf component. -- At least one RemoteGroup must exist on a General VC interface. gvcIfRg OBJECT IDENTIFIER ::= { gvcIf 6 } gvcIfRgRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRgRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfRg components." ::= { gvcIfRg 1 } gvcIfRgRowStatusEntry OBJECT-TYPE SYNTAX GvcIfRgRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfRg component." INDEX { gvcIfIndex, gvcIfRgIndex } ::= { gvcIfRgRowStatusTable 1 } GvcIfRgRowStatusEntry ::= SEQUENCE { gvcIfRgRowStatus RowStatus, gvcIfRgComponentName DisplayString, gvcIfRgStorageType StorageType, gvcIfRgIndex Integer32 } gvcIfRgRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfRg components. These components can be added and deleted." ::= { gvcIfRgRowStatusEntry 1 } gvcIfRgComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfRgRowStatusEntry 2 } gvcIfRgStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfRg tables." ::= { gvcIfRgRowStatusEntry 4 } gvcIfRgIndex OBJECT-TYPE SYNTAX Integer32 (0..0) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfRg tables." ::= { gvcIfRgRowStatusEntry 10 } gvcIfRgIfEntryTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRgIfEntryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the provisionable attributes for the ifEntry." ::= { gvcIfRg 10 } gvcIfRgIfEntryEntry OBJECT-TYPE SYNTAX GvcIfRgIfEntryEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfRgIfEntryTable." INDEX { gvcIfIndex, gvcIfRgIndex } ::= { gvcIfRgIfEntryTable 1 } GvcIfRgIfEntryEntry ::= SEQUENCE { gvcIfRgIfAdminStatus INTEGER, gvcIfRgIfIndex InterfaceIndex } gvcIfRgIfAdminStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), testing(3) } ACCESS read-write STATUS mandatory DESCRIPTION "The desired state of the interface. The up state indicates the interface is operational. The down state indicates the interface is not operational. The testing state indicates that no operational packets can be passed." DEFVAL { up } ::= { gvcIfRgIfEntryEntry 1 } gvcIfRgIfIndex OBJECT-TYPE SYNTAX InterfaceIndex (1..65535) ACCESS read-only STATUS mandatory DESCRIPTION "This is the index for the IfEntry. Its value is automatically initialized during the provisioning process." ::= { gvcIfRgIfEntryEntry 2 } gvcIfRgProvTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRgProvEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the provisioned attributes in the remote group component." ::= { gvcIfRg 11 } gvcIfRgProvEntry OBJECT-TYPE SYNTAX GvcIfRgProvEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfRgProvTable." INDEX { gvcIfIndex, gvcIfRgIndex } ::= { gvcIfRgProvTable 1 } GvcIfRgProvEntry ::= SEQUENCE { gvcIfRgLinkToProtocolPort Link } gvcIfRgLinkToProtocolPort OBJECT-TYPE SYNTAX Link ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies a two way link between this GvcIf RemoteGroup and a VirtualRouter/n ProtocolPort/name component which enables the communication between WAN addressable devices and LAN addressable devices." ::= { gvcIfRgProvEntry 1 } gvcIfRgOperStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfRgOperStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group includes the Operational Status attribute. This attribute defines the current operational state of this component." ::= { gvcIfRg 12 } gvcIfRgOperStatusEntry OBJECT-TYPE SYNTAX GvcIfRgOperStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfRgOperStatusTable." INDEX { gvcIfIndex, gvcIfRgIndex } ::= { gvcIfRgOperStatusTable 1 } GvcIfRgOperStatusEntry ::= SEQUENCE { gvcIfRgSnmpOperStatus INTEGER } gvcIfRgSnmpOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), testing(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the interface. The up state indicates the interface is operational and capable of forwarding packets. The down state indicates the interface is not operational, thus unable to forward packets. testing state indicates that no operational packets can be passed." DEFVAL { up } ::= { gvcIfRgOperStatusEntry 1 } -- GvcIf/n DataLinkConnectionIdentifier/n -- This component represents the data link connection identifier on the -- SNA DLR service using a light weight virtual circuit. gvcIfDlci OBJECT IDENTIFIER ::= { gvcIf 7 } gvcIfDlciRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlci components." ::= { gvcIfDlci 1 } gvcIfDlciRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlci component." INDEX { gvcIfIndex, gvcIfDlciIndex } ::= { gvcIfDlciRowStatusTable 1 } GvcIfDlciRowStatusEntry ::= SEQUENCE { gvcIfDlciRowStatus RowStatus, gvcIfDlciComponentName DisplayString, gvcIfDlciStorageType StorageType, gvcIfDlciIndex Integer32 } gvcIfDlciRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlci components. These components can be added and deleted." ::= { gvcIfDlciRowStatusEntry 1 } gvcIfDlciComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciRowStatusEntry 2 } gvcIfDlciStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlci tables." ::= { gvcIfDlciRowStatusEntry 4 } gvcIfDlciIndex OBJECT-TYPE SYNTAX Integer32 (16..4095) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlci tables." ::= { gvcIfDlciRowStatusEntry 10 } gvcIfDlciStateTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciStateEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the three OSI State attributes. The descriptions generically indicate what each state attribute implies about the component. Note that not all the values and state combinations described here are supported by every component which uses this group. For component-specific information and the valid state combinations, refer to NTP 241-7001-150, Passport Operations and Maintenance Guide." ::= { gvcIfDlci 10 } gvcIfDlciStateEntry OBJECT-TYPE SYNTAX GvcIfDlciStateEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciStateTable." INDEX { gvcIfIndex, gvcIfDlciIndex } ::= { gvcIfDlciStateTable 1 } GvcIfDlciStateEntry ::= SEQUENCE { gvcIfDlciAdminState INTEGER, gvcIfDlciOperationalState INTEGER, gvcIfDlciUsageState INTEGER } gvcIfDlciAdminState OBJECT-TYPE SYNTAX INTEGER { locked(0), unlocked(1), shuttingDown(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Administrative State of the component. The value locked indicates that the component is administratively prohibited from providing services for its users. A Lock or Lock - force command has been previously issued for this component. When the value is locked, the value of usageState must be idle. The value shuttingDown indicates that the component is administratively permitted to provide service to its existing users only. A Lock command was issued against the component and it is in the process of shutting down. The value unlocked indicates that the component is administratively permitted to provide services for its users. To enter this state, issue an Unlock command to this component." DEFVAL { unlocked } ::= { gvcIfDlciStateEntry 1 } gvcIfDlciOperationalState OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Operational State of the component. The value enabled indicates that the component is available for operation. Note that if adminState is locked, it would still not be providing service. The value disabled indicates that the component is not available for operation. For example, something is wrong with the component itself, or with another component on which this one depends. If the value is disabled, the usageState must be idle." DEFVAL { disabled } ::= { gvcIfDlciStateEntry 2 } gvcIfDlciUsageState OBJECT-TYPE SYNTAX INTEGER { idle(0), active(1), busy(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the OSI Usage State of the component. The value idle indicates that the component is not currently in use. The value active indicates that the component is in use and has spare capacity to provide for additional users. The value busy indicates that the component is in use and has no spare operating capacity for additional users at this time." DEFVAL { idle } ::= { gvcIfDlciStateEntry 3 } gvcIfDlciAbitTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciAbitEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the A-Bit status information for this Data Link Connection Identifier. A-Bit status information is only applicable for PVCs. For SVCs, the values of attributes under this group are all notApplicable." ::= { gvcIfDlci 11 } gvcIfDlciAbitEntry OBJECT-TYPE SYNTAX GvcIfDlciAbitEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciAbitTable." INDEX { gvcIfIndex, gvcIfDlciIndex } ::= { gvcIfDlciAbitTable 1 } GvcIfDlciAbitEntry ::= SEQUENCE { gvcIfDlciABitStatusFromNetwork INTEGER, gvcIfDlciABitReasonFromNetwork INTEGER, gvcIfDlciABitStatusToNetwork INTEGER, gvcIfDlciABitReasonToNetwork INTEGER } gvcIfDlciABitStatusFromNetwork OBJECT-TYPE SYNTAX INTEGER { inactive(0), active(1), notApplicable(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the most recent A-bit status received from the subnet. The A-bit status is part of the LMI protocol. It indicates willingness to accept data from the Protocol Port associated with this GvcIf. When an inactive status is sent out, the Frame Relay service discards any data offered from the Protocol Port. When an active status is sent out, the Frame Relay service tries to process all data offered from the Protocol Port." ::= { gvcIfDlciAbitEntry 1 } gvcIfDlciABitReasonFromNetwork OBJECT-TYPE SYNTAX INTEGER { notApplicable(0), remoteUserSignaled(1), localLmiError(2), remoteLmiError(3), localLinkDown(4), remoteLinkDown(5), pvcDown(6) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the reason (if any) for an inactive status to be sent to the Protocol Port associated with this GvcIf. This reason is notapplicable for an active status." ::= { gvcIfDlciAbitEntry 2 } gvcIfDlciABitStatusToNetwork OBJECT-TYPE SYNTAX INTEGER { inactive(0), active(1), notApplicable(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the most recent A-Bit status sent from this GvcIf to the subnet." ::= { gvcIfDlciAbitEntry 3 } gvcIfDlciABitReasonToNetwork OBJECT-TYPE SYNTAX INTEGER { notApplicable(0), remoteUserSignaled(1), localLmiError(2), localLinkDown(4), missingFromLmiReport(7) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the reason (if any) for an inactive status to be sent to the subnet from this GvcIf. This reason is not applicable for an active status." ::= { gvcIfDlciAbitEntry 4 } gvcIfDlciStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the operational statistics for the DLCI." ::= { gvcIfDlci 12 } gvcIfDlciStatsEntry OBJECT-TYPE SYNTAX GvcIfDlciStatsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciStatsTable." INDEX { gvcIfIndex, gvcIfDlciIndex } ::= { gvcIfDlciStatsTable 1 } GvcIfDlciStatsEntry ::= SEQUENCE { gvcIfDlciFrmFromNetwork Counter32, gvcIfDlciFrmToNetwork Counter32, gvcIfDlciFrmDiscardToNetwork Counter32, gvcIfDlciFramesWithUnknownSaps Counter32 } gvcIfDlciFrmFromNetwork OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the frames received from the subnet and sent to the Protocol Port associated with this GvcIf. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfDlciStatsEntry 1 } gvcIfDlciFrmToNetwork OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the frames sent to the subnet. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfDlciStatsEntry 2 } gvcIfDlciFrmDiscardToNetwork OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the frames which were received from the Protocol Port and discarded due to the aBitStatusFromNetwork being in an inactive state. When this count exceeds the maximum, it wraps to zero." ::= { gvcIfDlciStatsEntry 3 } gvcIfDlciFramesWithUnknownSaps OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of frames received from the subnet on a BNN DLCI VC containing an (lSap,rSap) pair that does not match any SapMapping component index." ::= { gvcIfDlciStatsEntry 4 } gvcIfDlciOperTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the Dlci operational attributes." ::= { gvcIfDlci 13 } gvcIfDlciOperEntry OBJECT-TYPE SYNTAX GvcIfDlciOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciOperTable." INDEX { gvcIfIndex, gvcIfDlciIndex } ::= { gvcIfDlciOperTable 1 } GvcIfDlciOperEntry ::= SEQUENCE { gvcIfDlciEncapsulationType INTEGER, gvcIfDlciLocalDeviceMac DashedHexString, gvcIfDlciRemoteDeviceMac DashedHexString } gvcIfDlciEncapsulationType OBJECT-TYPE SYNTAX INTEGER { ban(0), bnn(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the encapsulation type used on this Dlci. ban indicates that SNA frames exchanged on the VC are encapsulated in RFC 1490 BAN format. ban indicates that SNA frames exchanged on the VC are encapsulated in RFC 1490 BNN format." ::= { gvcIfDlciOperEntry 1 } gvcIfDlciLocalDeviceMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the MAC of the device located on this side of the VC, normally the host device. This address is inserted in the Destination Address (DA) field of the 802.5 frames sent, typically to a Token Ring interface. This address is expected in the SA field of the frames received from the local LAN. When this attribute is not empty All Route Explorer (ARE) and Single Route Explorer (SRE) frames received from the local LAN must have the SA field matching it, otherwise they are discarded." ::= { gvcIfDlciOperEntry 2 } gvcIfDlciRemoteDeviceMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the MAC of the device located at the far end of the VC. This is normally the host device. This address is inserted in the source address (SA) field of the 802.5 frames sent typically on a token ring interface. This address is expected in the destination address (DA) field of the 802.5 frames received, typically from a token ring interface. When this attribute is defined All Route Explorer (ARE) and Single Route Explorer (SRE) frames received from the local LAN must have the DA field matching it, otherwise they are discarded." ::= { gvcIfDlciOperEntry 3 } gvcIfDlciSpOpTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciSpOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the actual service parameters in use for this instance of Dlci." ::= { gvcIfDlci 14 } gvcIfDlciSpOpEntry OBJECT-TYPE SYNTAX GvcIfDlciSpOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciSpOpTable." INDEX { gvcIfIndex, gvcIfDlciIndex } ::= { gvcIfDlciSpOpTable 1 } GvcIfDlciSpOpEntry ::= SEQUENCE { gvcIfDlciRateEnforcement INTEGER, gvcIfDlciCommittedInformationRate Gauge32, gvcIfDlciCommittedBurstSize Gauge32, gvcIfDlciExcessInformationRate Gauge32, gvcIfDlciExcessBurstSize Gauge32, gvcIfDlciMeasurementInterval Gauge32 } gvcIfDlciRateEnforcement OBJECT-TYPE SYNTAX INTEGER { off(0), on(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates whether rate enforcement is in use for this Dlci." DEFVAL { off } ::= { gvcIfDlciSpOpEntry 1 } gvcIfDlciCommittedInformationRate OBJECT-TYPE SYNTAX Gauge32 (0..4294967295) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the current effective committed information rate (cir) in bits per second (bit/s). cir is the rate at which the network agrees to transfer data with Discard Eligiblity indication DE=0 under normal conditions. This attribute should be ignored when rateEnforcement is off." ::= { gvcIfDlciSpOpEntry 2 } gvcIfDlciCommittedBurstSize OBJECT-TYPE SYNTAX Gauge32 (0..4294967295) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the committed burst size (bc) in bits. bc is the amount of data that the network agrees to transfer under normal conditions over a measurement interval (t). bc is used for data with Discard Eligibility indication DE=0. DE=1 data does not use bc at all, excessBurstSize if is used instead. This attribute should be ignored when rateEnforcement is off." DEFVAL { 0 } ::= { gvcIfDlciSpOpEntry 3 } gvcIfDlciExcessInformationRate OBJECT-TYPE SYNTAX Gauge32 (0..4294967295) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the current effective excess information rate (eir) in bits per second (bit/s). eir is the rate at which the network agrees to transfer data with Discard Eligibility indication DE=1 under normal conditions. DE can be set by the user or the network. DE indication of a data frame is set to 1 by the network after cir has been exceeded while eir is still available for data transfer." ::= { gvcIfDlciSpOpEntry 4 } gvcIfDlciExcessBurstSize OBJECT-TYPE SYNTAX Gauge32 (0..2048000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the excess burst size (be) in bits. be is the amount of uncommitted data that the network will attempt to deliver over measurement interval (t). Data marked DE=1 by the user or by the network is accounted for here. This attribute should be ignored when rateEnforcement is off." DEFVAL { 0 } ::= { gvcIfDlciSpOpEntry 5 } gvcIfDlciMeasurementInterval OBJECT-TYPE SYNTAX Gauge32 (0..25500) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the time interval (in milliseconds) over which rates and burst sizes are measured. This attribute should be ignored when rateEnforcement is off." DEFVAL { 0 } ::= { gvcIfDlciSpOpEntry 6 } -- GvcIf/n Dlci/n DlciDirectCall -- This component defines the characteristics of a direct call or -- permanent virtual circuit. gvcIfDlciDc OBJECT IDENTIFIER ::= { gvcIfDlci 2 } gvcIfDlciDcRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciDcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlciDc components." ::= { gvcIfDlciDc 1 } gvcIfDlciDcRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciDcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciDc component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciDcIndex } ::= { gvcIfDlciDcRowStatusTable 1 } GvcIfDlciDcRowStatusEntry ::= SEQUENCE { gvcIfDlciDcRowStatus RowStatus, gvcIfDlciDcComponentName DisplayString, gvcIfDlciDcStorageType StorageType, gvcIfDlciDcIndex NonReplicated } gvcIfDlciDcRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-only STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciDc components. These components cannot be added nor deleted." ::= { gvcIfDlciDcRowStatusEntry 1 } gvcIfDlciDcComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciDcRowStatusEntry 2 } gvcIfDlciDcStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciDc tables." ::= { gvcIfDlciDcRowStatusEntry 4 } gvcIfDlciDcIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlciDc tables." ::= { gvcIfDlciDcRowStatusEntry 10 } gvcIfDlciDcOptionsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciDcOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Options group defines attributes associated with direct call. It defines complete connection in terms of path and call options. This connection can be permanent (PVC)." ::= { gvcIfDlciDc 10 } gvcIfDlciDcOptionsEntry OBJECT-TYPE SYNTAX GvcIfDlciDcOptionsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciDcOptionsTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciDcIndex } ::= { gvcIfDlciDcOptionsTable 1 } GvcIfDlciDcOptionsEntry ::= SEQUENCE { gvcIfDlciDcRemoteNpi INTEGER, gvcIfDlciDcRemoteDna DigitString, gvcIfDlciDcRemoteDlci Unsigned32, gvcIfDlciDcType INTEGER, gvcIfDlciDcTransferPriority INTEGER, gvcIfDlciDcDiscardPriority INTEGER } gvcIfDlciDcRemoteNpi OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the numbering plan used in the remoteDna." DEFVAL { x121 } ::= { gvcIfDlciDcOptionsEntry 3 } gvcIfDlciDcRemoteDna OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the Data Network Address (Dna) of the remote. This is the called (destination) DTE address (Dna) to which this direct call will be sent." ::= { gvcIfDlciDcOptionsEntry 4 } gvcIfDlciDcRemoteDlci OBJECT-TYPE SYNTAX Unsigned32 (0..4095) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the remote DLCI (Logical Channel Number) - it is used only for PVCs, where attribute type is set to permanentMaster or permanentSlave or permanentBackupSlave." DEFVAL { 0 } ::= { gvcIfDlciDcOptionsEntry 5 } gvcIfDlciDcType OBJECT-TYPE SYNTAX INTEGER { permanentMaster(1), permanentSlave(2), permanentBackupSlave(3), permanentSlaveWithBackup(4) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the type of Vc call: permanentMaster, permanentSlave, permanentSlaveWithBackup, permanentBackupSlave. If the value is set to permanentMaster, then a permanent connection will be established between 2 ends. The remote end must be defined as a permanentSlave, permanentBackupSlave or permanentSlaveWithBackup. The connection cannot be established if the remote end is defined as anything else. The end defined as permanentMaster always initiates the calls. It will attempt to call once per minute. If the value is set to permanentSlave then a permanent connection will be established between 2 ends. The remote end must be defined as a permanentMaster. The connection cannot be established if the remote end is defined as anything else. The permanentSlave end will attempt to call once per minute. If the value is set to permanentSlaveWithBackup then a permanent connection will be established between the 2 ends . The remote end must be defined as a permanentMaster. The Connection cannot be established if the remote end is defined as anything else. The permanentSlaveWithBackup end will attempt to call once per minute. If the value is set to permanentBackupSlave then a permanent connection will be established between the 2 ends only if the permanentMaster end is disconnected from the permanentSlaveWithBackup end and a backup call is established by the redirection system. If the permanentSlaveWithBackup interface becomes visible again, the permanentBackupSlave end is disconnected and the permanentSlaveWithBackup end is reconnected to the permanentMaster end. The permanentBackupSlave end does not try to establish pvc call." DEFVAL { permanentMaster } ::= { gvcIfDlciDcOptionsEntry 6 } gvcIfDlciDcTransferPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(9), useDnaDefTP(255) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the transfer priority to network for the outgoing calls using this particular DLCI. It overRides the defaultTransferPriority provisioned in its associated Dna component. The transfer priority is a preference specified by an application according to its delay-sensitivity requirement. Frames with high transfer priority are served by the network before the frames with normal priority. Each transfer priority contains a predetermined setting for trunk queue (interrupting, delay or throughput), and routing metric (delay or throughput). When the transfer priority is set at high, the trunk queue is set to high, the routing metric is set to delay. When the transfer priority is set at normal, the trunk queue is set to normal, the routing metric is set to throughput. The default of transferPriority is useDnaDefTP. It means using the provisioning value under defaultTransferPriority of its associated Dna for this DLCI." DEFVAL { useDnaDefTP } ::= { gvcIfDlciDcOptionsEntry 9 } gvcIfDlciDcDiscardPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1), useDnaDefPriority(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the discard priority for outgoing call using this DLCI. The discard priority has three provisioning values: normal, high, and useDnaDefPriority. Traffic with normal priority is discarded first than the traffic with high priority. The Dna default value (provisioned by outDefaultPriority) is taken if this attribute is set to the value useDnaDefPriority. The default of discardPriority is useDnaDefPriority." DEFVAL { useDnaDefPriority } ::= { gvcIfDlciDcOptionsEntry 10 } gvcIfDlciDcNfaTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciDcNfaEntry ACCESS not-accessible STATUS obsolete DESCRIPTION "Two explicit attributes discardPriority and transferPriority are created to replace H.01 and H.30 in the group VcsDirectCallOptionsProv of this file. The migrate escape here (DcComponent::migrateFaxEscape) propagates the old provisioning data under H.01 and H.30 into discardPriority and transferPriority. The rule of the above propagation are: 0 in H.01 is equivalent to discardPriority 0; 1 in H.01 is equivalent to discardPriority 1. And 0 in H.30 is equivalent to transferPriority normal; 1 in H.30 is equivalent to transferPriority high. Please refer to discardPriority and transferPriority for more information on how to use them." ::= { gvcIfDlciDc 482 } gvcIfDlciDcNfaEntry OBJECT-TYPE SYNTAX GvcIfDlciDcNfaEntry ACCESS not-accessible STATUS obsolete DESCRIPTION "An entry in the gvcIfDlciDcNfaTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciDcIndex, gvcIfDlciDcNfaIndex } ::= { gvcIfDlciDcNfaTable 1 } GvcIfDlciDcNfaEntry ::= SEQUENCE { gvcIfDlciDcNfaIndex Integer32, gvcIfDlciDcNfaValue HexString, gvcIfDlciDcNfaRowStatus RowStatus } gvcIfDlciDcNfaIndex OBJECT-TYPE SYNTAX Integer32 (1 | 48) ACCESS not-accessible STATUS obsolete DESCRIPTION "This variable represents the index for the gvcIfDlciDcNfaTable." ::= { gvcIfDlciDcNfaEntry 1 } gvcIfDlciDcNfaValue OBJECT-TYPE SYNTAX HexString (SIZE (0..128)) ACCESS read-write STATUS obsolete DESCRIPTION "This variable represents an individual value for the gvcIfDlciDcNfaTable." ::= { gvcIfDlciDcNfaEntry 2 } gvcIfDlciDcNfaRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS write-only STATUS obsolete DESCRIPTION "This variable is used to control the addition and deletion of individual values of the gvcIfDlciDcNfaTable." ::= { gvcIfDlciDcNfaEntry 3 } -- This component defines attributes collected by Frame Relay Vc. gvcIfDlciVc OBJECT IDENTIFIER ::= { gvcIfDlci 3 } gvcIfDlciVcRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciVcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlciVc components." ::= { gvcIfDlciVc 1 } gvcIfDlciVcRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciVcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciVc component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciVcIndex } ::= { gvcIfDlciVcRowStatusTable 1 } GvcIfDlciVcRowStatusEntry ::= SEQUENCE { gvcIfDlciVcRowStatus RowStatus, gvcIfDlciVcComponentName DisplayString, gvcIfDlciVcStorageType StorageType, gvcIfDlciVcIndex NonReplicated } gvcIfDlciVcRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-only STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciVc components. These components cannot be added nor deleted." ::= { gvcIfDlciVcRowStatusEntry 1 } gvcIfDlciVcComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciVcRowStatusEntry 2 } gvcIfDlciVcStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciVc tables." ::= { gvcIfDlciVcRowStatusEntry 4 } gvcIfDlciVcIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlciVc tables." ::= { gvcIfDlciVcRowStatusEntry 10 } gvcIfDlciVcCadTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciVcCadEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group represents operational call data related to Frame Relay Vc. It can be displayed only for Frame Relay Vc which is created by application." ::= { gvcIfDlciVc 10 } gvcIfDlciVcCadEntry OBJECT-TYPE SYNTAX GvcIfDlciVcCadEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciVcCadTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciVcIndex } ::= { gvcIfDlciVcCadTable 1 } GvcIfDlciVcCadEntry ::= SEQUENCE { gvcIfDlciVcType INTEGER, gvcIfDlciVcState INTEGER, gvcIfDlciVcPreviousState INTEGER, gvcIfDlciVcDiagnosticCode Unsigned32, gvcIfDlciVcPreviousDiagnosticCode Unsigned32, gvcIfDlciVcCalledNpi INTEGER, gvcIfDlciVcCalledDna DigitString, gvcIfDlciVcCalledLcn Unsigned32, gvcIfDlciVcCallingNpi INTEGER, gvcIfDlciVcCallingDna DigitString, gvcIfDlciVcCallingLcn Unsigned32, gvcIfDlciVcAccountingEnabled INTEGER, gvcIfDlciVcFastSelectCall INTEGER, gvcIfDlciVcPathReliability INTEGER, gvcIfDlciVcAccountingEnd INTEGER, gvcIfDlciVcPriority INTEGER, gvcIfDlciVcSegmentSize Unsigned32, gvcIfDlciVcMaxSubnetPktSize Unsigned32, gvcIfDlciVcRcosToNetwork INTEGER, gvcIfDlciVcRcosFromNetwork INTEGER, gvcIfDlciVcEmissionPriorityToNetwork INTEGER, gvcIfDlciVcEmissionPriorityFromNetwork INTEGER, gvcIfDlciVcDataPath AsciiString } gvcIfDlciVcType OBJECT-TYPE SYNTAX INTEGER { svc(0), pvc(1), spvc(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the type of call, pvc,svc or spvc." ::= { gvcIfDlciVcCadEntry 1 } gvcIfDlciVcState OBJECT-TYPE SYNTAX INTEGER { creating(0), readyP1(1), dteWaitingP2(2), dceWaitingP3(3), dataTransferP4(4), unsupportedP5(5), dteClearRequestP6(6), dceClearIndicationP7(7), termination(8) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the state of call control. P5 state is not supported but is listed for completness. Transitions from one state to another take very short time. state most often displayed is dataTransferP4." ::= { gvcIfDlciVcCadEntry 2 } gvcIfDlciVcPreviousState OBJECT-TYPE SYNTAX INTEGER { creating(0), readyP1(1), dteWaitingP2(2), dceWaitingP3(3), dataTransferP4(4), unsupportedP5(5), dteClearRequestP6(6), dceClearIndicationP7(7), termination(8) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the previous state of call control. This is a valuable field to determine how the processing is progressing." ::= { gvcIfDlciVcCadEntry 3 } gvcIfDlciVcDiagnosticCode OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the internal substate of call control. It is used to further refine state of call processing." ::= { gvcIfDlciVcCadEntry 4 } gvcIfDlciVcPreviousDiagnosticCode OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the internal substate of call control. It is used to further refine state of call processing." ::= { gvcIfDlciVcCadEntry 5 } gvcIfDlciVcCalledNpi OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Numbering Plan Indicator (NPI) of the called end." ::= { gvcIfDlciVcCadEntry 6 } gvcIfDlciVcCalledDna OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Data Network Address (Dna) of the called (destination) DTE to which this call is sent. This address if defined at recieving end will complete Vc connection." ::= { gvcIfDlciVcCadEntry 7 } gvcIfDlciVcCalledLcn OBJECT-TYPE SYNTAX Unsigned32 (1..65535) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Logical Channel Number of the called end. It is valid only after both ends of Vc exchanged relevant information." ::= { gvcIfDlciVcCadEntry 8 } gvcIfDlciVcCallingNpi OBJECT-TYPE SYNTAX INTEGER { x121(0), e164(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Numbering Plan Indicator (NPI) of the calling end." ::= { gvcIfDlciVcCadEntry 9 } gvcIfDlciVcCallingDna OBJECT-TYPE SYNTAX DigitString (SIZE (1..15)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Data Network Address (Dna) of the calling end." ::= { gvcIfDlciVcCadEntry 10 } gvcIfDlciVcCallingLcn OBJECT-TYPE SYNTAX Unsigned32 (1..65535) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Logical Channel Number of the calling end." ::= { gvcIfDlciVcCadEntry 11 } gvcIfDlciVcAccountingEnabled OBJECT-TYPE SYNTAX INTEGER { yes(0), no(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates that this optional section of accounting record is suppressed or permitted. If accountingEnabled is yes, conditions for generation of accounting record were met. These conditions include billing options, vc recovery conditions and Module wide accounting data options." ::= { gvcIfDlciVcCadEntry 12 } gvcIfDlciVcFastSelectCall OBJECT-TYPE SYNTAX INTEGER { no(0), yes(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays that this is a fast select call." ::= { gvcIfDlciVcCadEntry 13 } gvcIfDlciVcPathReliability OBJECT-TYPE SYNTAX INTEGER { high(0), normal(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the path reliability." ::= { gvcIfDlciVcCadEntry 19 } gvcIfDlciVcAccountingEnd OBJECT-TYPE SYNTAX INTEGER { callingEnd(0), calledEnd(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates if this end should generate an accounting record. Normally, callingEnd is the end to generate an accounting record." ::= { gvcIfDlciVcCadEntry 20 } gvcIfDlciVcPriority OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays whether the call is a normal or a high priority call." ::= { gvcIfDlciVcCadEntry 21 } gvcIfDlciVcSegmentSize OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the segment size (in bytes) used on the call. It is used to calculate the number of segments transmitted and received." ::= { gvcIfDlciVcCadEntry 22 } gvcIfDlciVcMaxSubnetPktSize OBJECT-TYPE SYNTAX Unsigned32 (0..4096) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the maximum packet size allowed on the Vc." ::= { gvcIfDlciVcCadEntry 27 } gvcIfDlciVcRcosToNetwork OBJECT-TYPE SYNTAX INTEGER { throughput(0), delay(1), multimedia(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the routing metric routing class of service to the network." ::= { gvcIfDlciVcCadEntry 28 } gvcIfDlciVcRcosFromNetwork OBJECT-TYPE SYNTAX INTEGER { throughput(0), delay(1), multimedia(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the routing metric Routing Class of Service from the Network." ::= { gvcIfDlciVcCadEntry 29 } gvcIfDlciVcEmissionPriorityToNetwork OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1), interrupting(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the network internal emission priotity to the network." ::= { gvcIfDlciVcCadEntry 30 } gvcIfDlciVcEmissionPriorityFromNetwork OBJECT-TYPE SYNTAX INTEGER { normal(0), high(1), interrupting(2) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the network internal emission priotity from the network." ::= { gvcIfDlciVcCadEntry 31 } gvcIfDlciVcDataPath OBJECT-TYPE SYNTAX AsciiString (SIZE (0..32)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the data path used by the connection. The data path is provisioned in Dna and DirectCall components. The displayed value of this attribute can be different from the provisioned value. If the connection is using dprsOnly data path, the string dprsOnly is displayed. (dynamic packet routing system) If the connection is using dprsMcsOnly data path, the string dprsMcsOnly is displayed. If the connection is using dprsMcsFirst data path, the string dprsMcsFirst is displayed." ::= { gvcIfDlciVcCadEntry 32 } gvcIfDlciVcIntdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciVcIntdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines display of interval data collected by Vc. Data in this group is variable and may depend on time when this display command is issued." ::= { gvcIfDlciVc 11 } gvcIfDlciVcIntdEntry OBJECT-TYPE SYNTAX GvcIfDlciVcIntdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciVcIntdTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciVcIndex } ::= { gvcIfDlciVcIntdTable 1 } GvcIfDlciVcIntdEntry ::= SEQUENCE { gvcIfDlciVcCallReferenceNumber Hex, gvcIfDlciVcElapsedTimeTillNow Unsigned32, gvcIfDlciVcSegmentsRx Unsigned32, gvcIfDlciVcSegmentsSent Unsigned32, gvcIfDlciVcStartTime EnterpriseDateAndTime } gvcIfDlciVcCallReferenceNumber OBJECT-TYPE SYNTAX Hex (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the call reference number which is a unique number generated by the switch.The same Call Reference Number is stored in the interval data (accounting record) at both ends of the call. It can be used as one of the attributes in matching duplicate records generated at each end of the call." ::= { gvcIfDlciVcIntdEntry 1 } gvcIfDlciVcElapsedTimeTillNow OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the elapsed time representing the period of this interval data. It is elapsed time in 0.1 second increments since Vc started." ::= { gvcIfDlciVcIntdEntry 2 } gvcIfDlciVcSegmentsRx OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of segments received at the time command was issued. This is the segment received count maintained by accounting at each end of the Vc. This counter is updated only when the packet cannot be successfully delivered out of the sink Vc and to the sink AP Conditions in which packets may be discarded by the sink Vc include: missing packets due to subnet discards, segmentation protocol violations due to subnet discard, duplicated and out-of-ranged packets and packets that arrive while Vc is in path recovery state." ::= { gvcIfDlciVcIntdEntry 3 } gvcIfDlciVcSegmentsSent OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of segments sent at the time command was issued. This is the segment sent count maintained by accounting at the source Vc. Vc only counts packets that Vc thinks can be delivered successfully into the subnet. In reality, these packets may be dropped by trunking, for instance. This counter is not updated when splitting fails, when Vc is in a path recovery state, when packet forwarding fails to forward this packet and when subsequent packets have to be discarded as we want to minimize the chance of out-of-sequence and do not intentionally send out-of- sequenced packets into the subnet." ::= { gvcIfDlciVcIntdEntry 4 } gvcIfDlciVcStartTime OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the start time of this interval period. If Vc spans 12 hour time or time of day change startTime reflects new time as recorded at 12 hour periods or time of day changes." ::= { gvcIfDlciVcIntdEntry 5 } gvcIfDlciVcFrdTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciVcFrdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines Frame Relay attributes collected by Frame Relay Vc. The purpose of Vc attributes is to aid end users and verification people to understand the Vc internal behavior. This is particularly useful when the network has experienced abnormality and we want to isolate problems and pinpoint trouble spots. Attributes are collected on a per Vc basis. Until a need is identified, statistics are not collected at a processor level. Each attribute is stored in a 32 bit field and is initialized to zero when a Vc enters into the data transfer state. When a PVC is disconnected and then connected again, the attributes will be reset. Attributes cannot be reset through other methods. Frame Relay Vc uses a best effort data packet delivery protocol and a different packet segmentation and combination methods from the General Vc. The Frame Relay Vc uses the same call setup and control mechanism (e.g. the support of non-flow control data packets) as in a General Vc. Most General Vc statistics and internal variables are used in a Frame Relay Vc and are displayed by software developers" ::= { gvcIfDlciVc 12 } gvcIfDlciVcFrdEntry OBJECT-TYPE SYNTAX GvcIfDlciVcFrdEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciVcFrdTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciVcIndex } ::= { gvcIfDlciVcFrdTable 1 } GvcIfDlciVcFrdEntry ::= SEQUENCE { gvcIfDlciVcFrmCongestedToSubnet Unsigned32, gvcIfDlciVcCannotForwardToSubnet Unsigned32, gvcIfDlciVcNotDataXferToSubnet Unsigned32, gvcIfDlciVcOutOfRangeFrmFromSubnet Unsigned32, gvcIfDlciVcCombErrorsFromSubnet Unsigned32, gvcIfDlciVcDuplicatesFromSubnet Unsigned32, gvcIfDlciVcNotDataXferFromSubnet Unsigned32, gvcIfDlciVcFrmLossTimeouts Unsigned32, gvcIfDlciVcOoSeqByteCntExceeded Unsigned32, gvcIfDlciVcPeakOoSeqPktCount Unsigned32, gvcIfDlciVcPeakOoSeqFrmForwarded Unsigned32, gvcIfDlciVcSendSequenceNumber Unsigned32, gvcIfDlciVcPktRetryTimeouts Unsigned32, gvcIfDlciVcPeakRetryQueueSize Unsigned32, gvcIfDlciVcSubnetRecoveries Unsigned32, gvcIfDlciVcOoSeqPktCntExceeded Unsigned32, gvcIfDlciVcPeakOoSeqByteCount Unsigned32 } gvcIfDlciVcFrmCongestedToSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of frames from link discarded due to lack of resources. It keeps track of the number of frames from link that have to be discarded. The discard reasons include insufficient memory for splitting the frame into smaller subnet packet size." ::= { gvcIfDlciVcFrdEntry 2 } gvcIfDlciVcCannotForwardToSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of discarded packets that can not be forwarded into the subnet because of subnet congestion. Number of frames from link discarded due to failure in forwarding a packet from Vc into the subnet.- This attribute is increased when packet forwarding fails to forward a packet into the subnet. If a frame is split into multiple subnet packets and a partial packet has to be discarded, all subsequent partial packets that have not yet been delivered to the subnet will be discarded as well." ::= { gvcIfDlciVcFrdEntry 3 } gvcIfDlciVcNotDataXferToSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute records the number of frames from link discarded when the Vc tries to recover from internal path failure." ::= { gvcIfDlciVcFrdEntry 4 } gvcIfDlciVcOutOfRangeFrmFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of frames from subnet discarded due to out of sequence range for arriving too late." ::= { gvcIfDlciVcFrdEntry 5 } gvcIfDlciVcCombErrorsFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute records the number of subnet packets discarded at the sink Vc due to the Vc segmentation and combination protocol error. Usually, this occurs when the subnet discards packets and thus this statistics can be used to guest the number of subnet packets that are not delivered to the Vc. It cannot be used as an actual measure because some subnet packets may have been delivered to Vc but have to be discarded because these are partial packets to a frame in which some other partial packets have not been properly delivered to Vc" ::= { gvcIfDlciVcFrdEntry 6 } gvcIfDlciVcDuplicatesFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of subnet packets discarded due to duplication. Although packets are not retransmitted by the Frame Relay Vc, it is possible for the subnet to retransmit packets. When packets are out-of-sequenced and copies of the same packets arrive, then this attribute is increased." ::= { gvcIfDlciVcFrdEntry 7 } gvcIfDlciVcNotDataXferFromSubnet OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of subnet packets discarded when data transfer is suspended in Vc recovery." ::= { gvcIfDlciVcFrdEntry 8 } gvcIfDlciVcFrmLossTimeouts OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of lost frame timer expiries. When this count is excessive, the network is very congested and packets have been discarded in the subnet." ::= { gvcIfDlciVcFrdEntry 9 } gvcIfDlciVcOoSeqByteCntExceeded OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number times that the out of sequence byte threshold is exceeded. When the threshold is exceeded, this condition is treated as if the loss frame timer has expired and all frames queued at the sink Vc are delivered to the AP. We need to keep this count to examine if the threshold is engineered properly. This should be used in conjunction with the peak value of out-of- sequenced queue and the number of times the loss frame timer has expired. This count should be relatively small when compared with loss frame timer expiry count." ::= { gvcIfDlciVcFrdEntry 10 } gvcIfDlciVcPeakOoSeqPktCount OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the frame relay peak packet count of the out of sequence queue. This attribute records the maximum queue length of the out-of-sequenced queue. The counter can be used to deduce the message buffer requirement on a Vc." ::= { gvcIfDlciVcFrdEntry 11 } gvcIfDlciVcPeakOoSeqFrmForwarded OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the frame relay peak size of the sequence packet queue. The subnet may deliver packets out-of- sequenced. These packets are then queued in an out-of-sequenced queue, waiting for a packet with the expected sequence number to come. When that packet arrives, this attribute records the maximum number of packets that were out-of-sequenced, but now have become in-sequenced. The statistics is used to measure expected queue size due to normal subnet packet disorder (not due to subnet packet discard). Current implementation also uses this statistics to set a maximum size for the out-of-sequenced queue." ::= { gvcIfDlciVcFrdEntry 12 } gvcIfDlciVcSendSequenceNumber OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the Vc internal packet's send sequence number. Note that a 'packet' in this context, may be either a user data packet, or an OAM frame." ::= { gvcIfDlciVcFrdEntry 13 } gvcIfDlciVcPktRetryTimeouts OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of packets which have retransmission time-outs. When this count is excessive, the network is very congested and packets have been discarded in the subnet." ::= { gvcIfDlciVcFrdEntry 15 } gvcIfDlciVcPeakRetryQueueSize OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the peak size of retransmission queue. This attribute is used as an indicator of the acknowledgment behavior across the subnet. Records the largest body of unacknowledged packets." ::= { gvcIfDlciVcFrdEntry 16 } gvcIfDlciVcSubnetRecoveries OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number of successful Vc recovery attempts." ::= { gvcIfDlciVcFrdEntry 17 } gvcIfDlciVcOoSeqPktCntExceeded OBJECT-TYPE SYNTAX Unsigned32 (0..255) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the number times that the out of sequence packet threshold is exceeded. When the threshold is exceeded, this condition is treated as if the loss frame timer has expired and all frames queued at the sink Vc are delivered to the AP. We need to keep this count to examine if the threshold is engineered properly. This should be used in conjunction with the peak value of out-of- sequenced queue and the number of times the loss frame timer has expired. This count should be relatively small when compared with loss frame timer expiry count." ::= { gvcIfDlciVcFrdEntry 19 } gvcIfDlciVcPeakOoSeqByteCount OBJECT-TYPE SYNTAX Unsigned32 (0..50000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute displays the frame relay peak byte count of the out of sequence queue. This attribute records the maximum queue length of the out-of-sequenced queue. The counter can be used to deduce the message buffer requirement on a Vc." ::= { gvcIfDlciVcFrdEntry 20 } gvcIfDlciVcDmepTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciVcDmepEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This attribute displays the data path used by the connection. Data path is provisioned in Dna and DirectCall components. If the connection is using dprsOnly data path, this attribute is empty. If the connection is using dprsMcsOnly or dprsMcsFirst data path, this attribute displays component name of the dprsMcsEndPoint." ::= { gvcIfDlciVc 417 } gvcIfDlciVcDmepEntry OBJECT-TYPE SYNTAX GvcIfDlciVcDmepEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciVcDmepTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciVcIndex, gvcIfDlciVcDmepValue } ::= { gvcIfDlciVcDmepTable 1 } GvcIfDlciVcDmepEntry ::= SEQUENCE { gvcIfDlciVcDmepValue RowPointer } gvcIfDlciVcDmepValue OBJECT-TYPE SYNTAX RowPointer ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents both the value and the index for the gvcIfDlciVcDmepTable." ::= { gvcIfDlciVcDmepEntry 1 } -- GvcIf/n Dlci/n ServiceParameters -- This component contains the rate enforcement parameters for this -- PVC connection. gvcIfDlciSp OBJECT IDENTIFIER ::= { gvcIfDlci 4 } gvcIfDlciSpRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciSpRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlciSp components." ::= { gvcIfDlciSp 1 } gvcIfDlciSpRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciSpRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciSp component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciSpIndex } ::= { gvcIfDlciSpRowStatusTable 1 } GvcIfDlciSpRowStatusEntry ::= SEQUENCE { gvcIfDlciSpRowStatus RowStatus, gvcIfDlciSpComponentName DisplayString, gvcIfDlciSpStorageType StorageType, gvcIfDlciSpIndex NonReplicated } gvcIfDlciSpRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciSp components. These components can be added and deleted." ::= { gvcIfDlciSpRowStatusEntry 1 } gvcIfDlciSpComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciSpRowStatusEntry 2 } gvcIfDlciSpStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciSp tables." ::= { gvcIfDlciSpRowStatusEntry 4 } gvcIfDlciSpIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlciSp tables." ::= { gvcIfDlciSpRowStatusEntry 10 } gvcIfDlciSpParmsTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciSpParmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the provisionable attributes for the Data Link Connection Identifier. These attributes reflect the service parameters specific to this instance of Dlci." ::= { gvcIfDlciSp 11 } gvcIfDlciSpParmsEntry OBJECT-TYPE SYNTAX GvcIfDlciSpParmsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciSpParmsTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciSpIndex } ::= { gvcIfDlciSpParmsTable 1 } GvcIfDlciSpParmsEntry ::= SEQUENCE { gvcIfDlciSpRateEnforcement INTEGER, gvcIfDlciSpCommittedInformationRate Unsigned32, gvcIfDlciSpCommittedBurstSize Unsigned32, gvcIfDlciSpExcessBurstSize Unsigned32, gvcIfDlciSpMeasurementInterval Unsigned32 } gvcIfDlciSpRateEnforcement OBJECT-TYPE SYNTAX INTEGER { off(0), on(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies whether rate enforcement is to be used on this DLCI. Turning on rate enforcement means that the data sent from the service to the virtual circuit is subjected to rate control." DEFVAL { on } ::= { gvcIfDlciSpParmsEntry 1 } gvcIfDlciSpCommittedInformationRate OBJECT-TYPE SYNTAX Unsigned32 (0..50000000) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the committed information rate (cir) in bits per second (bit/s). When rateEnforcement is set to on, cir is the rate at which the network agrees to transfer information under normal conditions. This rate is measured over a measurement interval (t) that is determined internally based on cir and the committed burst size (bc). An exception to this occurs when cir is provisioned to be zero, in which case the measurement interval (t) must be provisioned explicitly. This attribute is ignored when rateEnforcement is off. If rateEnforcement is on and this attribute is 0, bc must also be 0." DEFVAL { 64000 } ::= { gvcIfDlciSpParmsEntry 2 } gvcIfDlciSpCommittedBurstSize OBJECT-TYPE SYNTAX Unsigned32 (0..50000000) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the committed burst size (bc) in bits. bc is the amount of data that a network agrees to transfer under normal conditions over a measurement interval (t). Data marked DE=1 is not accounted for in bc. This attribute is ignored when rateEnforcement is off. If rateEnforcement is on and this attribute is 0, cir must also be 0." DEFVAL { 64000 } ::= { gvcIfDlciSpParmsEntry 3 } gvcIfDlciSpExcessBurstSize OBJECT-TYPE SYNTAX Unsigned32 (0..50000000) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the excess burst size (be) in bits. be is the amount of uncommitted data that the network will attempt to deliver over measurement interval (t). Data marked DE=1 by the user or by the network is accounted for here. cir, bc, and be cannot all be 0 when rateEnforcement is on." DEFVAL { 0 } ::= { gvcIfDlciSpParmsEntry 4 } gvcIfDlciSpMeasurementInterval OBJECT-TYPE SYNTAX Unsigned32 (0..25500) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the time interval (in milliseconds) over which rates and burst sizes are measured. When cir and bc are 0 and rateEnforcement is on, this attribute must be provisioned. When cir and bc are non-zero, the time interval is internally calculated. In that situation, this attribute is ignored, and is not representative of the time interval. This attribute is also ignored when rateEnforcement is off. If rateEnforcement is on and both cir and bc are 0, this field must be non-zero." DEFVAL { 0 } ::= { gvcIfDlciSpParmsEntry 5 } -- GvcIf/n Dlci/n BoundaryNetworkNode -- This component provides address mapping for Frame Relay RFC -- 1490 encapsulated SNA BNN frames. The presence of the Bnn -- component under the Dlci component indicates that all frames -- received on this DLCI are to be decoded by the service as BNN -- frames. The absence of this component indicates that the frames -- received on this DLCI are to be decoded by the service as BAN -- frames. gvcIfDlciBnn OBJECT IDENTIFIER ::= { gvcIfDlci 5 } gvcIfDlciBnnRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciBnnRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlciBnn components." ::= { gvcIfDlciBnn 1 } gvcIfDlciBnnRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciBnnRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciBnn component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciBnnIndex } ::= { gvcIfDlciBnnRowStatusTable 1 } GvcIfDlciBnnRowStatusEntry ::= SEQUENCE { gvcIfDlciBnnRowStatus RowStatus, gvcIfDlciBnnComponentName DisplayString, gvcIfDlciBnnStorageType StorageType, gvcIfDlciBnnIndex NonReplicated } gvcIfDlciBnnRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciBnn components. These components can be added and deleted." ::= { gvcIfDlciBnnRowStatusEntry 1 } gvcIfDlciBnnComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciBnnRowStatusEntry 2 } gvcIfDlciBnnStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciBnn tables." ::= { gvcIfDlciBnnRowStatusEntry 4 } gvcIfDlciBnnIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlciBnn tables." ::= { gvcIfDlciBnnRowStatusEntry 10 } -- GvcIf/n Dlci/n LocalDevice -- This component provides information about the device located at -- this end of the PVC and that is allowed to use this PVC. This -- component must be provisioned if the local device is a host. -- Provisioning this component restricts the use of this PVC to link -- connections with the local host. -- -- The device address defined in the mac attribute is monitored by the -- SNA DLR service. gvcIfDlciLdev OBJECT IDENTIFIER ::= { gvcIfDlci 6 } gvcIfDlciLdevRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciLdevRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlciLdev components." ::= { gvcIfDlciLdev 1 } gvcIfDlciLdevRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciLdevRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciLdev component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciLdevIndex } ::= { gvcIfDlciLdevRowStatusTable 1 } GvcIfDlciLdevRowStatusEntry ::= SEQUENCE { gvcIfDlciLdevRowStatus RowStatus, gvcIfDlciLdevComponentName DisplayString, gvcIfDlciLdevStorageType StorageType, gvcIfDlciLdevIndex NonReplicated } gvcIfDlciLdevRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciLdev components. These components can be added and deleted." ::= { gvcIfDlciLdevRowStatusEntry 1 } gvcIfDlciLdevComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciLdevRowStatusEntry 2 } gvcIfDlciLdevStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciLdev tables." ::= { gvcIfDlciLdevRowStatusEntry 4 } gvcIfDlciLdevIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlciLdev tables." ::= { gvcIfDlciLdevRowStatusEntry 10 } gvcIfDlciLdevAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciLdevAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the LAN MAC address." ::= { gvcIfDlciLdev 10 } gvcIfDlciLdevAddrEntry OBJECT-TYPE SYNTAX GvcIfDlciLdevAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciLdevAddrTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciLdevIndex } ::= { gvcIfDlciLdevAddrTable 1 } GvcIfDlciLdevAddrEntry ::= SEQUENCE { gvcIfDlciLdevMac DashedHexString } gvcIfDlciLdevMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the MAC of the device located on this side of the PVC, normally the host device. This address is inserted in the Destination Address (DA) field of the 802.5 frames sent typically to a Token Ring interface." ::= { gvcIfDlciLdevAddrEntry 1 } gvcIfDlciLdevDevOpTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciLdevDevOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group specifies the operational attributes for devices that are potentially reachable by the SNA DLR service." ::= { gvcIfDlciLdev 11 } gvcIfDlciLdevDevOpEntry OBJECT-TYPE SYNTAX GvcIfDlciLdevDevOpEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciLdevDevOpTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciLdevIndex } ::= { gvcIfDlciLdevDevOpTable 1 } GvcIfDlciLdevDevOpEntry ::= SEQUENCE { gvcIfDlciLdevDeviceStatus INTEGER, gvcIfDlciLdevActiveLinkStations Unsigned32, gvcIfDlciLdevLastTimeUnreachable EnterpriseDateAndTime, gvcIfDlciLdevLastTimeReachable EnterpriseDateAndTime, gvcIfDlciLdevDeviceUnreachable Counter32, gvcIfDlciLdevMonitoringLcn INTEGER } gvcIfDlciLdevDeviceStatus OBJECT-TYPE SYNTAX INTEGER { unreachable(0), reachable(1) } ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates whether the local device specified by mac is reachable or unreachable from this SNA DLR interface. The device status is determined by the SNA DLR service by sending a TEST frame with the Poll bit set to the device periodically. If a TEST frame with the Final bit set is received from the device then the device status becomes reachable; otherwise the device status is unreachable. When the device status is reachable, connections to this device are accepted. When the device status is unreachable, existing connections to the device are cleared and new connections are cleared to hunt or redirection services." ::= { gvcIfDlciLdevDevOpEntry 1 } gvcIfDlciLdevActiveLinkStations OBJECT-TYPE SYNTAX Unsigned32 (0..5000) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of active link station connections using this device mapping component. It includes the link stations using the Qllc and the Frame-Relay connections." ::= { gvcIfDlciLdevDevOpEntry 2 } gvcIfDlciLdevLastTimeUnreachable OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the last time the deviceStatus changed from reachable to unreachable." ::= { gvcIfDlciLdevDevOpEntry 3 } gvcIfDlciLdevLastTimeReachable OBJECT-TYPE SYNTAX EnterpriseDateAndTime (SIZE (0 | 19)) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the last time the deviceStatus changed from unreachable to reachable." ::= { gvcIfDlciLdevDevOpEntry 4 } gvcIfDlciLdevDeviceUnreachable OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of times the deviceStatus changed from reachable to unreachable. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfDlciLdevDevOpEntry 5 } gvcIfDlciLdevMonitoringLcn OBJECT-TYPE SYNTAX INTEGER (1..4095) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the instance of the GvcIf/n Lcn that is reserved for monitoring the device indicated by the mac." ::= { gvcIfDlciLdevDevOpEntry 6 } gvcIfDlciLdevDmoTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciLdevDmoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the device monitoring options." ::= { gvcIfDlciLdev 12 } gvcIfDlciLdevDmoEntry OBJECT-TYPE SYNTAX GvcIfDlciLdevDmoEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciLdevDmoTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciLdevIndex } ::= { gvcIfDlciLdevDmoTable 1 } GvcIfDlciLdevDmoEntry ::= SEQUENCE { gvcIfDlciLdevDeviceMonitoring INTEGER, gvcIfDlciLdevClearVcsWhenUnreachable INTEGER, gvcIfDlciLdevDeviceMonitoringTimer Unsigned32, gvcIfDlciLdevTestResponseTimer Unsigned32, gvcIfDlciLdevMaximumTestRetry Unsigned32 } gvcIfDlciLdevDeviceMonitoring OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies wether device monitoring for the device specified in mac is enabled or disabled." DEFVAL { enabled } ::= { gvcIfDlciLdevDmoEntry 1 } gvcIfDlciLdevClearVcsWhenUnreachable OBJECT-TYPE SYNTAX INTEGER { disabled(0), enabled(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies wether to clear or not existing VCs when deviceStatus changes from reachable to unreachable." DEFVAL { enabled } ::= { gvcIfDlciLdevDmoEntry 2 } gvcIfDlciLdevDeviceMonitoringTimer OBJECT-TYPE SYNTAX Unsigned32 (1..255) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the wait period between 2 consecutive device monitoring sequences. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 15 } ::= { gvcIfDlciLdevDmoEntry 3 } gvcIfDlciLdevTestResponseTimer OBJECT-TYPE SYNTAX Unsigned32 (1..30) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the wait period between 2 consecutive TEST commands sent during one device monitoring sequence. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 3 } ::= { gvcIfDlciLdevDmoEntry 4 } gvcIfDlciLdevMaximumTestRetry OBJECT-TYPE SYNTAX Unsigned32 (1..100) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the maximum number of TEST commands sent during one device monitoring sequence. A device monitoring sequence is characterized by one of the following: up to maxTestRetry TEST commands sent and a TEST response received or up to maxTestRetry of TEST commands sent and no TEST response received." DEFVAL { 10 } ::= { gvcIfDlciLdevDmoEntry 5 } -- GvcIf/n Dlci/n RemoteDevice -- This component provides information about the device located at -- the far end of the PVC and that is allowed to use this PVC. This -- component must be provisioned if the remote device is a host. -- Provisioning this component restricts the use of this PVC to link -- connections with the remote host. -- -- The device address defined in the mac attribute is not monitored by -- the SNA DLR service. gvcIfDlciRdev OBJECT IDENTIFIER ::= { gvcIfDlci 7 } gvcIfDlciRdevRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciRdevRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDlciRdev components." ::= { gvcIfDlciRdev 1 } gvcIfDlciRdevRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciRdevRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciRdev component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciRdevIndex } ::= { gvcIfDlciRdevRowStatusTable 1 } GvcIfDlciRdevRowStatusEntry ::= SEQUENCE { gvcIfDlciRdevRowStatus RowStatus, gvcIfDlciRdevComponentName DisplayString, gvcIfDlciRdevStorageType StorageType, gvcIfDlciRdevIndex NonReplicated } gvcIfDlciRdevRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciRdev components. These components can be added and deleted." ::= { gvcIfDlciRdevRowStatusEntry 1 } gvcIfDlciRdevComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciRdevRowStatusEntry 2 } gvcIfDlciRdevStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciRdev tables." ::= { gvcIfDlciRdevRowStatusEntry 4 } gvcIfDlciRdevIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDlciRdev tables." ::= { gvcIfDlciRdevRowStatusEntry 10 } gvcIfDlciRdevAddrTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciRdevAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group defines the LAN MAC address." ::= { gvcIfDlciRdev 10 } gvcIfDlciRdevAddrEntry OBJECT-TYPE SYNTAX GvcIfDlciRdevAddrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDlciRdevAddrTable." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciRdevIndex } ::= { gvcIfDlciRdevAddrTable 1 } GvcIfDlciRdevAddrEntry ::= SEQUENCE { gvcIfDlciRdevMac DashedHexString } gvcIfDlciRdevMac OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the MAC address that must be present in the Destination Address (DA) field of the 802.5 frames received (typically from a Token Ring interface) in order for the SNA DLR interface to copy them across this PVC. The MAC address in the frames is not necessarily the real MAC address of the remote device since it could be re-mapped at the remote end of the PVC using the Ddm or Sdm component or the equivalent mapping on another vendor's equipment." ::= { gvcIfDlciRdevAddrEntry 1 } -- -- *** THIS SUBTREE CURRENTLY NOT IMPLEMENTED *** -- -- GvcIf/n Dlci/n Bnn SapMapping/lSap,rSap -- This component provides the details of the Service Access Point -- mapping that the SNA DLR uses on this particular DLCI. -- The lSap and rSap indices specify the SAP values used on the VC -- to identify a unique link station connection between two devices. -- For a link station connection that is initiated by the local device, -- typically a terminal on the local Token Ring interface, the rSap -- value is the same as the value in the DSAP field received from the -- local device. The lSap value is assigned by the SNA DLR and it is -- either the same as the value in the SSAP field received from the -- terminal or the first available SAP value that makes a unique -- (lSap,rSap) couple on this particular VC. -- -- For a link connection that is initiated by the remote device, -- typically a terminal on the far end of this VC, the (lsap,rSap) couple -- is already assigned by the remote SNA DLR or the equivalent BNN -- provider. In this case the local SNA DLR uses the same indices. gvcIfDlciSap OBJECT IDENTIFIER ::= { gvcIfDlci 8 } gvcIfDlciSapRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciSapRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This entry controls the addition and deletion of gvcIfDlciSap components." ::= { gvcIfDlciSap 1 } gvcIfDlciSapRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciSapRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciSap component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciSapLocalSapIndex, gvcIfDlciSapRemoteSapIndex } ::= { gvcIfDlciSapRowStatusTable 1 } GvcIfDlciSapRowStatusEntry ::= SEQUENCE { gvcIfDlciSapRowStatus RowStatus, gvcIfDlciSapComponentName DisplayString, gvcIfDlciSapStorageType StorageType, gvcIfDlciSapLocalSapIndex Integer32, gvcIfDlciSapRemoteSapIndex Integer32 } gvcIfDlciSapRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-only STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciSap components. These components cannot be added nor deleted." ::= { gvcIfDlciSapRowStatusEntry 1 } gvcIfDlciSapComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciSapRowStatusEntry 2 } gvcIfDlciSapStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciSap tables." ::= { gvcIfDlciSapRowStatusEntry 4 } gvcIfDlciSapLocalSapIndex OBJECT-TYPE SYNTAX Integer32 (4 | 8 | 12 | 16 | 20 | 24 | 28 | 32 | 36 | 40 | 44 | 48 | 52 | 56 | 60 | 64 | 68 | 72 | 76 | 80 | 84 | 88 | 92 | 96 | 100 | 104 | 108 | 112 | 116 | 120 | 124 | 128 | 132 | 136 | 140 | 144 | 148 | 152 | 156 | 160 | 164 | 168 | 172 | 176 | 180 | 184 | 188 | 192 | 196 | 200 | 204 | 208 | 212 | 216 | 220 | 232 | 236 | 248 | 252) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDlciSap tables." ::= { gvcIfDlciSapRowStatusEntry 10 } gvcIfDlciSapRemoteSapIndex OBJECT-TYPE SYNTAX Integer32 (4 | 8 | 12 | 16 | 20 | 24 | 28 | 32 | 36 | 40 | 44 | 48 | 52 | 56 | 60 | 64 | 68 | 72 | 76 | 80 | 84 | 88 | 92 | 96 | 100 | 104 | 108 | 112 | 116 | 120 | 124 | 128 | 132 | 136 | 140 | 144 | 148 | 152 | 156 | 160 | 164 | 168 | 172 | 176 | 180 | 184 | 188 | 192 | 196 | 200 | 204 | 208 | 212 | 216 | 220 | 232 | 236 | 248 | 252) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDlciSap tables." ::= { gvcIfDlciSapRowStatusEntry 11 } -- -- *** THIS SUBTREE CURRENTLY NOT IMPLEMENTED *** -- -- GvcIf/n Dlci/n SapMap/, Circuit/ -- ,,, -- This component identifies the local and remote link stations that are -- using a BNN connection on this DLCI. gvcIfDlciSapCircuit OBJECT IDENTIFIER ::= { gvcIfDlciSap 2 } gvcIfDlciSapCircuitRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDlciSapCircuitRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "*** THIS TABLE CURRENTLY NOT IMPLEMENTED *** This entry controls the addition and deletion of gvcIfDlciSapCircuit components." ::= { gvcIfDlciSapCircuit 1 } gvcIfDlciSapCircuitRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDlciSapCircuitRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDlciSapCircuit component." INDEX { gvcIfIndex, gvcIfDlciIndex, gvcIfDlciSapLocalSapIndex, gvcIfDlciSapRemoteSapIndex, gvcIfDlciSapCircuitS1MacIndex, gvcIfDlciSapCircuitS1SapIndex, gvcIfDlciSapCircuitS2MacIndex, gvcIfDlciSapCircuitS2SapIndex } ::= { gvcIfDlciSapCircuitRowStatusTable 1 } GvcIfDlciSapCircuitRowStatusEntry ::= SEQUENCE { gvcIfDlciSapCircuitRowStatus RowStatus, gvcIfDlciSapCircuitComponentName DisplayString, gvcIfDlciSapCircuitStorageType StorageType, gvcIfDlciSapCircuitS1MacIndex DashedHexString, gvcIfDlciSapCircuitS1SapIndex Integer32, gvcIfDlciSapCircuitS2MacIndex DashedHexString, gvcIfDlciSapCircuitS2SapIndex Integer32 } gvcIfDlciSapCircuitRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-only STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDlciSapCircuit components. These components cannot be added nor deleted." ::= { gvcIfDlciSapCircuitRowStatusEntry 1 } gvcIfDlciSapCircuitComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDlciSapCircuitRowStatusEntry 2 } gvcIfDlciSapCircuitStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDlciSapCircuit tables." ::= { gvcIfDlciSapCircuitRowStatusEntry 4 } gvcIfDlciSapCircuitS1MacIndex OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDlciSapCircuit tables." ::= { gvcIfDlciSapCircuitRowStatusEntry 10 } gvcIfDlciSapCircuitS1SapIndex OBJECT-TYPE SYNTAX Integer32 (2..254) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDlciSapCircuit tables." ::= { gvcIfDlciSapCircuitRowStatusEntry 11 } gvcIfDlciSapCircuitS2MacIndex OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDlciSapCircuit tables." ::= { gvcIfDlciSapCircuitRowStatusEntry 12 } gvcIfDlciSapCircuitS2SapIndex OBJECT-TYPE SYNTAX Integer32 (2..254) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents an index for the gvcIfDlciSapCircuit tables." ::= { gvcIfDlciSapCircuitRowStatusEntry 13 } -- GvcIf/n FrameRelaySvc -- This component defines the characteristics of the Frame Relay -- incoming Switched Virtual Circuit (SVC) calls for the SNA DLR -- service. gvcIfFrSvc OBJECT IDENTIFIER ::= { gvcIf 8 } gvcIfFrSvcRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfFrSvcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfFrSvc components." ::= { gvcIfFrSvc 1 } gvcIfFrSvcRowStatusEntry OBJECT-TYPE SYNTAX GvcIfFrSvcRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfFrSvc component." INDEX { gvcIfIndex, gvcIfFrSvcIndex } ::= { gvcIfFrSvcRowStatusTable 1 } GvcIfFrSvcRowStatusEntry ::= SEQUENCE { gvcIfFrSvcRowStatus RowStatus, gvcIfFrSvcComponentName DisplayString, gvcIfFrSvcStorageType StorageType, gvcIfFrSvcIndex NonReplicated } gvcIfFrSvcRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfFrSvc components. These components can be added and deleted." ::= { gvcIfFrSvcRowStatusEntry 1 } gvcIfFrSvcComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfFrSvcRowStatusEntry 2 } gvcIfFrSvcStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfFrSvc tables." ::= { gvcIfFrSvcRowStatusEntry 4 } gvcIfFrSvcIndex OBJECT-TYPE SYNTAX NonReplicated ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfFrSvc tables." ::= { gvcIfFrSvcRowStatusEntry 10 } gvcIfFrSvcProvisionedTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfFrSvcProvisionedEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the provisonable parameters for the APPN service Frame Relay SVC calls." ::= { gvcIfFrSvc 11 } gvcIfFrSvcProvisionedEntry OBJECT-TYPE SYNTAX GvcIfFrSvcProvisionedEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfFrSvcProvisionedTable." INDEX { gvcIfIndex, gvcIfFrSvcIndex } ::= { gvcIfFrSvcProvisionedTable 1 } GvcIfFrSvcProvisionedEntry ::= SEQUENCE { gvcIfFrSvcMaximumFrameRelaySvcs Unsigned32, gvcIfFrSvcRateEnforcement INTEGER, gvcIfFrSvcMaximumCir Unsigned32 } gvcIfFrSvcMaximumFrameRelaySvcs OBJECT-TYPE SYNTAX Unsigned32 (1..3072) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the maximum number of concurrently active Frame Relay SVC calls that are allowed for this service. This attribute does not include the general switched virtual circuits (GSVC)." DEFVAL { 1000 } ::= { gvcIfFrSvcProvisionedEntry 1 } gvcIfFrSvcRateEnforcement OBJECT-TYPE SYNTAX INTEGER { off(0), on(1) } ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies whether rate enforcement is to be used for new Frame Relay SVCs on this service. When rate enforcement is on the rate of data sent by the service to individual Frame Relay SVCs is controlled." DEFVAL { on } ::= { gvcIfFrSvcProvisionedEntry 2 } gvcIfFrSvcMaximumCir OBJECT-TYPE SYNTAX Unsigned32 (0..52000000) ACCESS read-write STATUS mandatory DESCRIPTION "This attribute specifies the maximum rate enforcement CIR (Committed Information Rate) that is allowed for use with the Frame Relay SVCs on this service. During call setup negotiation, if the caller to this service requests a higher CIR value be used, the CIR used is reduced to the value of maximumCir." DEFVAL { 2048000 } ::= { gvcIfFrSvcProvisionedEntry 4 } gvcIfFrSvcOperationalTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfFrSvcOperationalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group contains the operational attributes for the APPN Frame Relay SVC calls." ::= { gvcIfFrSvc 12 } gvcIfFrSvcOperationalEntry OBJECT-TYPE SYNTAX GvcIfFrSvcOperationalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfFrSvcOperationalTable." INDEX { gvcIfIndex, gvcIfFrSvcIndex } ::= { gvcIfFrSvcOperationalTable 1 } GvcIfFrSvcOperationalEntry ::= SEQUENCE { gvcIfFrSvcCurrentNumberOfSvcCalls Gauge32 } gvcIfFrSvcCurrentNumberOfSvcCalls OBJECT-TYPE SYNTAX Gauge32 (0..3072) ACCESS read-only STATUS mandatory DESCRIPTION "This attribute indicates the number of Frame Relay SVCs currently existing on this service. This attribute does not include the general switched virtual circuits (GSVC)." DEFVAL { 0 } ::= { gvcIfFrSvcOperationalEntry 1 } -- GvcIf/n SourceMACFilter/mac -- This component defines a filter associated to the source MAC -- address (SA) in the 802.5 frames received from the token ring -- interface associated with the SNA DLR (GvcIf) service. The filter -- is applied to All Route Explorer (ARE) and Single Route Explorer -- (SRE) frames. if the SA field of the filtered frame matches the -- instance of this component then the frame is allowed through this -- interface otherwise it is discarded. -- When multiple MAC filters are defined under GvcIf a logical OR -- operation between all filter components determines if the frame is -- allowed into or discarded by the interface. gvcIfSMacF OBJECT IDENTIFIER ::= { gvcIf 9 } gvcIfSMacFRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfSMacFRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfSMacF components." ::= { gvcIfSMacF 1 } gvcIfSMacFRowStatusEntry OBJECT-TYPE SYNTAX GvcIfSMacFRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfSMacF component." INDEX { gvcIfIndex, gvcIfSMacFIndex } ::= { gvcIfSMacFRowStatusTable 1 } GvcIfSMacFRowStatusEntry ::= SEQUENCE { gvcIfSMacFRowStatus RowStatus, gvcIfSMacFComponentName DisplayString, gvcIfSMacFStorageType StorageType, gvcIfSMacFIndex DashedHexString } gvcIfSMacFRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfSMacF components. These components can be added and deleted." ::= { gvcIfSMacFRowStatusEntry 1 } gvcIfSMacFComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfSMacFRowStatusEntry 2 } gvcIfSMacFStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfSMacF tables." ::= { gvcIfSMacFRowStatusEntry 4 } gvcIfSMacFIndex OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfSMacF tables." ::= { gvcIfSMacFRowStatusEntry 10 } gvcIfSMacFOperTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfSMacFOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group provides the administrative set of parameters for the GvcIf component." ::= { gvcIfSMacF 11 } gvcIfSMacFOperEntry OBJECT-TYPE SYNTAX GvcIfSMacFOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfSMacFOperTable." INDEX { gvcIfIndex, gvcIfSMacFIndex } ::= { gvcIfSMacFOperTable 1 } GvcIfSMacFOperEntry ::= SEQUENCE { gvcIfSMacFFramesMatchingFilter Counter32 } gvcIfSMacFFramesMatchingFilter OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of frames containing a MAC address matching the instance of this component. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfSMacFOperEntry 1 } -- GvcIf/n DestinationMACFilter/mac -- This component defines a filter associated to the destination MAC -- address (DA) in the 802.5 frames received from the token ring -- interface associated with the SNA DLR (GvcIf) service. The filter -- is applied to All Route Explorer (ARE) and Single Route Explorer -- (SRE) frames. if the DA field of the filtered frame matches the -- instance of this component then the frame is allowed through this -- interface otherwise it is discarded. -- When multiple MAC filters are defined under GvcIf a logical OR -- operation between all filter components determines if the frame is -- allowed into or discarded by the interface. gvcIfDMacF OBJECT IDENTIFIER ::= { gvcIf 10 } gvcIfDMacFRowStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDMacFRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This entry controls the addition and deletion of gvcIfDMacF components." ::= { gvcIfDMacF 1 } gvcIfDMacFRowStatusEntry OBJECT-TYPE SYNTAX GvcIfDMacFRowStatusEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A single entry in the table represents a single gvcIfDMacF component." INDEX { gvcIfIndex, gvcIfDMacFIndex } ::= { gvcIfDMacFRowStatusTable 1 } GvcIfDMacFRowStatusEntry ::= SEQUENCE { gvcIfDMacFRowStatus RowStatus, gvcIfDMacFComponentName DisplayString, gvcIfDMacFStorageType StorageType, gvcIfDMacFIndex DashedHexString } gvcIfDMacFRowStatus OBJECT-TYPE SYNTAX RowStatus ACCESS read-write STATUS mandatory DESCRIPTION "This variable is used as the basis for SNMP naming of gvcIfDMacF components. These components can be added and deleted." ::= { gvcIfDMacFRowStatusEntry 1 } gvcIfDMacFComponentName OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "This variable provides the component's string name for use with the ASCII Console Interface" ::= { gvcIfDMacFRowStatusEntry 2 } gvcIfDMacFStorageType OBJECT-TYPE SYNTAX StorageType ACCESS read-only STATUS mandatory DESCRIPTION "This variable represents the storage type value for the gvcIfDMacF tables." ::= { gvcIfDMacFRowStatusEntry 4 } gvcIfDMacFIndex OBJECT-TYPE SYNTAX DashedHexString (SIZE (6)) ACCESS not-accessible STATUS mandatory DESCRIPTION "This variable represents the index for the gvcIfDMacF tables." ::= { gvcIfDMacFRowStatusEntry 10 } gvcIfDMacFOperTable OBJECT-TYPE SYNTAX SEQUENCE OF GvcIfDMacFOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This group provides the administrative set of parameters for the GvcIf component." ::= { gvcIfDMacF 11 } gvcIfDMacFOperEntry OBJECT-TYPE SYNTAX GvcIfDMacFOperEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the gvcIfDMacFOperTable." INDEX { gvcIfIndex, gvcIfDMacFIndex } ::= { gvcIfDMacFOperTable 1 } GvcIfDMacFOperEntry ::= SEQUENCE { gvcIfDMacFFramesMatchingFilter Counter32 } gvcIfDMacFFramesMatchingFilter OBJECT-TYPE SYNTAX Counter32 ACCESS read-only STATUS mandatory DESCRIPTION "This attribute counts the number of frames containing a MAC address matching the instance of this component. When the maximum count is exceeded the count wraps to zero." ::= { gvcIfDMacFOperEntry 1 } -- -- Version and Compliance statements -- -- Object-Group Statement: -- A list of all current accessible leaf objects. -- OBJECTS { gvcIfDnaSdmLastTimeReachable, -- gvcIfDlciBnnStorageType, -- gvcIfDcComponentName, -- gvcIfDnaDefaultRecvFrmNetworkPacketSize, -- gvcIfComponentName, -- gvcIfLcnRowStatus, -- gvcIfDlciLdevStorageType, -- gvcIfDnaHgMComponentName, -- gvcIfDlciVcPktRetryTimeouts, -- gvcIfDnaDdmActiveLinkStations, -- gvcIfDnaSdmMaximumTestRetry, -- gvcIfRgIfAdminStatus, -- gvcIfLcnVcOutOfRangeFrmFromSubnet, -- gvcIfDlciVcPriority, -- gvcIfLcnVcCalledDna, -- gvcIfLcnUsageState, -- gvcIfDlciVcCombErrorsFromSubnet, -- gvcIfDlciLdevDeviceStatus, -- gvcIfLcnVcSegmentsSent, -- gvcIfDcUserData, -- gvcIfDlciVcSegmentsRx, -- gvcIfDnaIncIntlReverseCharge, -- gvcIfLcnVcSubnetRecoveries, -- gvcIfDlciDcRemoteDlci, -- gvcIfLcnVcLocalTxPktSize, -- gvcIfLcnOperationalState, -- gvcIfDnaSdmDeviceStatus, -- gvcIfDlciSpCommittedBurstSize, -- gvcIfDnaIncHighPriorityReverseCharge, -- gvcIfDlciDcStorageType, -- gvcIfRDnaMapRowStatus, -- gvcIfLcnVcSegmentSize, -- gvcIfCallsRefusedByInterface, -- gvcIfDnaCugRowStatus, -- gvcIfDlciStorageType, -- gvcIfDlciVcDmepValue, -- gvcIfDlciVcAccountingEnabled, -- gvcIfFrSvcCurrentNumberOfSvcCalls, -- gvcIfLcnVcPriority, -- gvcIfLcnVcFastSelectCall, -- gvcIfDlciVcStartTime, -- gvcIfLcnVcComponentName, -- gvcIfDMacFComponentName, -- gvcIfRDnaMapSap, -- gvcIfLcnVcPeakOoSeqQueueSize, -- gvcIfLcnVcWindowClosuresFromSubnet, -- gvcIfDnaSdmDeviceMonitoringTimer, -- gvcIfDlciCommittedBurstSize, -- gvcIfDnaDdmDeviceUnreachable, -- gvcIfActiveQllcCalls, -- gvcIfCallsToNetwork, -- gvcIfRgLinkToProtocolPort, -- gvcIfDlciAdminState, -- gvcIfLcnVcLocalRxPktSize, -- gvcIfDnaSdmMonitoringLcn, -- gvcIfLcnSourceMac, -- gvcIfLcnVcAckStackingTimeouts, -- gvcIfDlciVcFastSelectCall, -- gvcIfLcnStorageType, -- gvcIfDnaComponentName, -- gvcIfDnaDdmSap, -- gvcIfDlciSpComponentName, -- gvcIfDnaAccountClass, -- gvcIfLcnVcSubnetTxWindowSize, -- gvcIfDlciSapCircuitStorageType, -- gvcIfDlciLdevLastTimeUnreachable, -- gvcIfDlciABitStatusFromNetwork, -- gvcIfDcRowStatus, -- gvcIfDnaHgMHgAddrComponentName, -- gvcIfLcnVcState, -- gvcIfRowStatus, -- gvcIfDlciEncapsulationType, -- gvcIfDnaHgMRowStatus, -- gvcIfDlciVcFrmLossTimeouts, -- gvcIfDlciDcDiscardPriority, -- gvcIfDlciVcDuplicatesFromSubnet, -- gvcIfDlciVcPreviousState, -- gvcIfDlciABitStatusToNetwork, -- gvcIfDlciFramesWithUnknownSaps, -- gvcIfDlciABitReasonFromNetwork, -- gvcIfDnaHgMAvailabilityUpdateThreshold, -- gvcIfDlciVcPeakRetryQueueSize, -- gvcIfDlciLdevDeviceUnreachable, -- gvcIfUsageState, -- gvcIfDlciVcDataPath, -- gvcIfDlciBnnComponentName, -- gvcIfDlciDcTransferPriority, -- gvcIfDlciRdevComponentName, -- gvcIfDlciLdevComponentName, -- gvcIfDlciExcessBurstSize, -- gvcIfDlciVcRcosToNetwork, -- gvcIfDnaDdmComponentName, -- gvcIfFrSvcRowStatus, -- gvcIfRDnaMapComponentName, -- gvcIfOperationalState, -- gvcIfDlciSpRateEnforcement, -- gvcIfDnaSdmClearVcsWhenUnreachable, -- gvcIfLcnVcSubnetTxPktSize, -- gvcIfLcnVcCalledNpi, -- gvcIfDlciSapCircuitComponentName, -- gvcIfDnaAccountCollection, -- gvcIfDlciVcCalledDna, -- gvcIfDnaCugFormat, -- gvcIfLcnVcTransferPriorityToNetwork, -- gvcIfDnaCugType, -- gvcIfDnaHgMHgAddrDataNetworkAddress, -- gvcIfDnaSdmMac, -- gvcIfDnaSdmDeviceMonitoring, -- gvcIfLcnVcRowStatus, -- gvcIfDnaOutDefaultPathReliability, -- gvcIfDlciVcPathReliability, -- gvcIfDlciVcCannotForwardToSubnet, -- gvcIfFrSvcRateEnforcement, -- gvcIfDlciVcSegmentsSent, -- gvcIfDnaIncAccess, -- gvcIfDlciVcCallReferenceNumber, -- gvcIfDnaSdmStorageType, -- gvcIfDnaDdmTestResponseTimer, -- gvcIfDnaOutDefaultPriority, -- gvcIfLcnVcSubnetRxPktSize, -- gvcIfLcnVcWrTriggers, -- gvcIfDnaRowStatus, -- gvcIfCallsFromNetwork, -- gvcIfDlciVcCallingLcn, -- gvcIfDMacFRowStatus, -- gvcIfDlciSpCommittedInformationRate, -- gvcIfDlciSapStorageType, -- gvcIfLcnVcSegmentsRx, -- gvcIfLcnVcFrmRetryTimeouts, -- gvcIfDnaHgMHgAddrRowStatus, -- gvcIfDnaTransferPriorityOverRide, -- gvcIfFrSvcMaximumFrameRelaySvcs, -- gvcIfBcastFramesDiscarded, -- gvcIfLcnCircuitId, -- gvcIfDnaCugInterlockCode, -- gvcIfDnaServiceCategory, -- gvcIfDnaNumberingPlanIndicator, -- gvcIfDnaServiceExchange, -- gvcIfDlciVcStorageType, -- gvcIfRgSnmpOperStatus, -- gvcIfDlciBnnRowStatus, -- gvcIfLogicalProcessor, -- gvcIfRgIfIndex, -- gvcIfDlciVcRowStatus, -- gvcIfSMacFStorageType, -- gvcIfDlciCommittedInformationRate, -- gvcIfDnaPacketSizes, -- gvcIfDMacFFramesMatchingFilter, -- gvcIfDnaHgMHgAddrNumberingPlanIndicator, -- gvcIfDlciDcComponentName, -- gvcIfDcRemoteDna, -- gvcIfDlciVcElapsedTimeTillNow, -- gvcIfDlciComponentName, -- gvcIfDlciVcPeakOoSeqPktCount, -- gvcIfDnaDdmRowStatus, -- gvcIfActiveLinkStations, -- gvcIfLcnVcStartTime, -- gvcIfDlciSpRowStatus, -- gvcIfDnaDefaultSendToNetworkWindowSize, -- gvcIfLcnAdminState, -- gvcIfLcnVcDiagnosticCode, -- gvcIfDnaDdmLastTimeUnreachable, -- gvcIfLcnVcCallingNpi, -- gvcIfDlciSapCircuitRowStatus, -- gvcIfRDnaMapMac, -- gvcIfDnaHgMMaxAvailableLinkStations, -- gvcIfLcnVcLocalRxWindowSize, -- gvcIfDnaOutDefaultPathSensitivity, -- gvcIfLcnVcCallingLcn, -- gvcIfLcnVcWindowClosuresToSubnet, -- gvcIfDlciVcEmissionPriorityFromNetwork, -- gvcIfDlciSapComponentName, -- gvcIfDlciSpStorageType, -- gvcIfRgRowStatus, -- gvcIfRDnaMapStorageType, -- gvcIfDlciVcCallingDna, -- gvcIfDnaIncIntlNormalCharge, -- gvcIfDnaCugStorageType, -- gvcIfRgComponentName, -- gvcIfLcnVcType, -- gvcIfDnaCugPrivileged, -- gvcIfDnaDdmLastTimeReachable, -- gvcIfLcnDnaMap, -- gvcIfLcnVcAccountingEnabled, -- gvcIfDnaCugIncCalls, -- gvcIfDlciVcPeakOoSeqFrmForwarded, -- gvcIfDlciVcFrmCongestedToSubnet, -- gvcIfLcnVcPreviousState, -- gvcIfDlciExcessInformationRate, -- gvcIfSMacFComponentName, -- gvcIfDlciLdevRowStatus, -- gvcIfDlciLocalDeviceMac, -- gvcIfLcnVcPeakRetryQueueSize, -- gvcIfDnaDdmMaximumTestRetry, -- gvcIfDnaDefaultSendToNetworkThruputClass, -- gvcIfDlciVcAccountingEnd, -- gvcIfDnaSdmActiveLinkStations, -- gvcIfDnaSdmComponentName, -- gvcIfDnaDdmDeviceMonitoringTimer, -- gvcIfAdminState, -- gvcIfFrSvcComponentName, -- gvcIfDnaPacketSizeNegotiation, -- gvcIfDlciABitReasonToNetwork, -- gvcIfDnaSdmSap, -- gvcIfPeakActiveLinkStations, -- gvcIfDlciVcRcosFromNetwork, -- gvcIfDlciVcSegmentSize, -- gvcIfDcStorageType, -- gvcIfDcCfaValue, -- gvcIfLcnVcDuplicatesFromSubnet, -- gvcIfStorageType, -- gvcIfDnaDdmDeviceStatus, -- gvcIfDlciLdevLastTimeReachable, -- gvcIfDnaHgMStorageType, -- gvcIfDnaCugOutCalls, -- gvcIfDnaCugDnic, -- gvcIfDlciDcRowStatus, -- gvcIfDlciDcRemoteNpi, -- gvcIfDlciRowStatus, -- gvcIfLcnVcPathReliability, -- gvcIfDnaDefaultSendToNetworkPacketSize, -- gvcIfDlciVcPreviousDiagnosticCode, -- gvcIfDlciVcOoSeqByteCntExceeded, -- gvcIfDlciLdevMaximumTestRetry, -- gvcIfDlciVcCalledLcn, -- gvcIfLcnVcCallReferenceNumber, -- gvcIfDlciVcNotDataXferFromSubnet, -- gvcIfDlciVcOutOfRangeFrmFromSubnet, -- gvcIfDlciLdevDeviceMonitoringTimer, -- gvcIfDlciRateEnforcement, -- gvcIfDcCfaRowStatus, -- gvcIfDlciUsageState, -- gvcIfFrSvcStorageType, -- gvcIfLcnVcLocalTxWindowSize, -- gvcIfDlciLdevActiveLinkStations, -- gvcIfDnaDdmMonitoringLcn, -- gvcIfIssueLcnClearAlarm, -- gvcIfCustomerIdentifier, -- gvcIfDcRemoteNpi, -- gvcIfLcnVcSubnetRxWindowSize, -- gvcIfDlciFrmToNetwork, -- gvcIfDnaSdmDeviceUnreachable, -- gvcIfDlciVcSubnetRecoveries, -- gvcIfLcnVcPeakStackedAcksRx, -- gvcIfDnaDdmClearVcsWhenUnreachable, -- gvcIfDlciOperationalState, -- gvcIfSMacFFramesMatchingFilter, -- gvcIfDiscardedQllcCalls, -- gvcIfDcDiscardPriority, -- gvcIfLcnVcStorageType, -- gvcIfDMacFStorageType, -- gvcIfSMacFRowStatus, -- gvcIfLcnVcPreviousDiagnosticCode, -- gvcIfDnaDefaultTransferPriority, -- gvcIfDlciVcDiagnosticCode, -- gvcIfDlciVcComponentName, -- gvcIfDcTransferPriority, -- gvcIfDnaStorageType, -- gvcIfLcnVcAccountingEnd, -- gvcIfDnaSdmTestResponseTimer, -- gvcIfLcnVcElapsedTimeTillNow, -- gvcIfLcnComponentName, -- gvcIfDlciVcCallingNpi, -- gvcIfDlciRdevStorageType, -- gvcIfDnaDefaultRecvFrmNetworkWindowSize, -- gvcIfDnaIncNormalPriorityReverseCharge, -- gvcIfDnaOutAccess, -- gvcIfDlciLdevMonitoringLcn, -- gvcIfDnaIncCalls, -- gvcIfDlciVcSendSequenceNumber, -- gvcIfDlciLdevClearVcsWhenUnreachable, -- gvcIfDnaHgMHgAddrStorageType, -- gvcIfDlciRdevRowStatus, -- gvcIfDlciFrmFromNetwork, -- gvcIfDlciVcMaxSubnetPktSize, -- gvcIfFrSvcMaximumCir, -- gvcIfDlciSpExcessBurstSize, -- gvcIfDlciVcType, -- gvcIfDlciVcState, -- gvcIfDlciLdevTestResponseTimer, -- gvcIfDlciDcType, -- gvcIfDnaHgMAvailabilityDelta, -- gvcIfDnaDdmMac, -- gvcIfLcnState, -- gvcIfLcnVcCallingDna, -- gvcIfDlciRdevMac, -- gvcIfMaxActiveLinkStation, -- gvcIfLcnVcCalledLcn, -- gvcIfLcnVcPeakOoSeqFrmForwarded, -- gvcIfDnaCugComponentName, -- gvcIfDlciVcEmissionPriorityToNetwork, -- gvcIfDlciDcRemoteDna, -- gvcIfDlciVcPeakOoSeqByteCount, -- gvcIfDnaDdmStorageType, -- gvcIfDnaIncSameService, -- gvcIfDnaDefaultRecvFrmNetworkThruputClass, -- gvcIfDnaSdmRowStatus, -- gvcIfCallsRefusedByNetwork, -- gvcIfDnaDdmDeviceMonitoring, -- gvcIfLcnVcMaxSubnetPktSize, -- gvcIfLcnVcTransferPriorityFromNetwork, -- gvcIfDnaDataNetworkAddress, -- gvcIfDlciSpMeasurementInterval, -- gvcIfDnaSdmLastTimeUnreachable, -- gvcIfDlciVcOoSeqPktCntExceeded, -- gvcIfDlciSapRowStatus, -- gvcIfDlciFrmDiscardToNetwork, -- gvcIfDlciVcCalledNpi, -- gvcIfDnaHgMAvailableLinkStations, -- gvcIfRgStorageType, -- gvcIfDlciVcNotDataXferToSubnet, -- gvcIfDlciRemoteDeviceMac, -- gvcIfDnaCugPreferential, -- gvcIfDlciLdevMac, -- gvcIfDlciLdevDeviceMonitoring, -- gvcIfDlciMeasurementInterval } -- STATUS mandatory -- DESCRIPTION -- "A list of all current accessible leaf objects." generalVcInterfaceGroup OBJECT IDENTIFIER ::= { generalVcInterfaceMIB 1 } generalVcInterfaceGroupBE OBJECT IDENTIFIER ::= { generalVcInterfaceGroup 5 } generalVcInterfaceGroupBE01 OBJECT IDENTIFIER ::= { generalVcInterfaceGroupBE 2 } generalVcInterfaceGroupBE01A OBJECT IDENTIFIER ::= { generalVcInterfaceGroupBE01 2 } -- Agent-Capabilities Statement: -- PRODUCT-RELEASE "Passport Release 7.0 GeneralVcInterface." -- STATUS mandatory -- DESCRIPTION "GeneralVcInterface MIB: MIB Version BE01A, -- Software Version BG00S4C." -- SUPPORTS Nortel-Magellan-Passport-GeneralVcInterfaceMIB -- INCLUDES { generalVcInterfaceGroupBE01A } generalVcInterfaceCapabilities OBJECT IDENTIFIER ::= { generalVcInterfaceMIB 3 } generalVcInterfaceCapabilitiesBE OBJECT IDENTIFIER ::= { generalVcInterfaceCapabilities 5 } generalVcInterfaceCapabilitiesBE01 OBJECT IDENTIFIER ::= { generalVcInterfaceCapabilitiesBE 2 } generalVcInterfaceCapabilitiesBE01A OBJECT IDENTIFIER ::= { generalVcInterfaceCapabilitiesBE01 2 } END