Table Of Contents

Network MIB

Network Table

Access Methods

Node Table

Access Methods

Node Group Scalar Objects

Access Method

Trunk Table

Access Methods

Sample Query

Circuit Line Table

Traps Config Group

Trap Configuration Table

Trap Upload Table

Trap Group—Scalar Objects

Traps

Virtual Switch Table

VSI Resource Partition Table

Network MIB

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This appendix describes the Network MIB and its associated tables and access methods. See these sections:

•Network Table

•Node Table

•Node Group Scalar Objects

•Trunk Table

•Circuit Line Table

•Traps Config Group

•Virtual Switch Table

•VSI Resource Partition Table

Network Table

This section describes the Network table (svNetworkTable). This table lists all networks being managed by Cisco WAN Manager (CWM). The table is indexed by network name, and contains the CWM ID assigned to the network, as well as the network domain ID. Configure the network name and network CWM ID in the /usr/users/svplus/config/network.conf file.

Table B-1 lists the objects associated with the svNetworkTable.

Table B-1 svNetworkTable 

MIB Object	Related Node Types	Description	Values
svNetworkName	Not applicable	Name of the network as assigned by the CWM user. Access: read-only	The value returned by the RtmProxy is a string with a size of 0 to 10 characters.
svNetworkId	Not applicable	Unique ID of the network as assigned by the CWM system. Access: read-only	The unique ID is specified in network.conf + 1 (integer value starting from 1).
svNetworkIpxId	Not applicable	Network ID. Access: read-only	—

Access Methods

The RtmProxy does not validate the community string for the network table.

To obtain a list of all network names, perform an SNMP Walk on the svNetworkName object using the following query format:

SNMP GETNext Query Format:

OID: 1.3.6.1.4.1.351.1.100.2.1.1.1

Name: svNetworkName

Community: public (RtmProxy ignores the community string for this object).

Type			: DisplayString

Sample query (using HP OpenView snmpwalk):

> snmpwalk -p 8161 nm20fst7 svNetworkName

stratacom.svplus.topologyGroup.svNetworkGroup.svNetworkTable.svNetworkEntry.svNetworkName.
8.78.101.116.119.111.114.107.49 : DISPLAY STRING- (ascii): Network1

stratacom.svplus.topologyGroup.svNetworkGroup.svNetworkTable.svNetworkEntry.svNetworkName.
8.78.101.116.119.111.114.107.50 : DISPLAY STRING- (ascii):  Network2

To obtain the network ID for a given network name, perform an SNMP GET on the networkId object using the following query format:

OID: 			1.3.6.1.4.1.351.1.100.2.1.1.2.$NetworkName

where, $NetworkName is the encoded form of the network name.

Name:			 svNetworkId

Community:			 public (RtmProxy ignores the community string for this object).

Type:			 Integer

Example Query:

The following query obtains the network ID for the network "Network1":

> snmpGET -p 8161 -c public nm20fst7 svNetworkId.8.78.101.116.119.111.114.107.49

stratacom.svplus.topologyGroup.svNetworkGroup.svNetworkTable.svNetworkEntry.svNetworkId.8.
78.101.116.119.111.114.107.49 : INTEGER: 1

Node Table

This section describes the Node table (svNodeTable). This table lists all nodes (routing and feeder) managed and monitored by CWM. The Network MIB does not provide enough information for you to distinguish between a routing node and a feeder node. The svNodeTable is indexed by svNodeNetworkName and svNodeName.

Table B-2 lists the objects associated with the svNodeTable.

Table B-2 svNodeTable 

MIB Object	Related Node Types	Description	Values
svNodeNetworkName	Not applicable	Name of the network to which this node is attached. Access: read-only	The value returned by the RtmProxy is a string from 0 to 10 characters.
svNodeName	BPX 8600 IGX 8400 MGX 8220 MGX 8230 MGX 8250 MGX 8850 DAS DNS BPX SES INSD MC3810	Node name. Access: read-only	The value returned by the RtmProxy is a string from 0 to 32 characters.

Access Methods

The RtmProxy does not validate the community string for the Node table.

To obtain a list of all nodes managed by CWM, perform an SNMP Walk on svNodeName. To obtain a list of nodes in a particular network, perform an SNMP Walk on svNodeName.$Network, where $Network is the encoded form of the network name.

In Example B-1, the following set up for an SNMP GETNext query format is used:

•OID: 1.3.6.1.4.1.351.1.100.1.20.1.2.$NetworkName

where, $NetworkName is encoded form of the network name.

•Name: svNodeName

•Community: public (ignored)

•Type: DisplayString

To obtain the list of all nodes in the network "Network1", use the syntax in Example B-1.

Example B-1 Using snmpwalk to List Nodes

> snmpwalk -p 8161 -c public nm20fst7 svNodeName.8.78.101.116.119.111.114.107.49

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.7.97.120.105.115.49.53.56 : DISPLAY STRING- (ascii): axis158

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.7.97.120.105.115.49.54.53 : DISPLAY STRING- (ascii): axis165

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.7.97.120.105.115.50.53.48 : DISPLAY STRING- (ascii): axis250

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.8.110.109.115.98.112.120.48.49 : DISPLAY STRING- (ascii): nmsbpx01

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.8.110.109.115.98.112.120.48.56 : DISPLAY STRING- (ascii): nmsbpx08

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.8.110.109.115.98.112.120.48.57 : DISPLAY STRING- (ascii): nmsbpx09

stratacom.svplus.topologyGroup.svNodeGroup.svNodeTable.svNodeEntry.svNodeName.8.78.101.116
.119.111.114.107.49.8.110.109.115.98.112.120.49.49 : DISPLAY STRING- (ascii): nmsbpx11

Node Group Scalar Objects

The svNodeGroup contains a set of scalar objects in addition to the svTrunkTable, lineTable, and svNodeTable. These objects specify certain characteristics of the node, such as the node alarm state, platform type (BPX 8600, IGX 8400, MGX 8800 series, or MGX 8220), and ForeSight increase and decrease rates.

The node group scalar objects provide information by node; they require community strings of the form <Networkname>.<Nodename> for access to the proper instance of the objects (see Table B-3).

Table B-3 svNodeGroup 

MIB Object	Related Node Types	Description	Value
svNodeGrpName	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Node group name. Access: read-only	The value returned by the RtmProxy is a string from 0 to 32 characters.
svNodeGrpNetName	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Name of the network to which the node is attached. Access: read-only	The value returned by the RtmProxy is a string from 0 to 10 characters.
svNodeGrpAlarmState	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Node alarm state. Only the low 6 bits are valid. Access: read-only	1 = clear 2 = minor 3 = major 4 = unreachable
svNodeGrpGateway	IGX 8400 BPX 8600 MGX 8800 series	Object to specify whether this node is acting as a gateway. Access: read-only	1 = not-a-gateway 2 = gateway
svNodeGrpActive	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Object to specify whether this node is currently active or inactive. Access: read-only	—
svNodeGrpPlatform	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Platform type of the node. Access: read-only	1 = ipx-platform 2 = bpx-platform 3 = igx-platform 4 = axis-platform 5 = ins-platform 6 = vns-platform 7 = insd-platform 13 = esp-platform 14 = c3810-platform 15 = MGX8850 (PXM1) platform 16 = MGX 8850 (PXM45) platform
svNodeModel	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Model number of a switch/node. The default model number is 0 when no number is available. Access: read-only	String from 0 to 32 characters
svNodeGrpFiltered AlarmState	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Node filtered alarm state. Access: read-only	1 = clear 2 = minor 3 = major 4 = unreachable 5 = critical 6 = notSupported
svNodeGrpRelease	IGX 8400 MGX 8220 BPX 8600 MGX 8800 series C3810	Release version of the CWM software. Access: read-only	String from 0 to 10 characters
svNodeFsIncRate	IGX 8400 BPX 8600 MGX 8800 series	Node ForeSight increase rate. Access: read-only	—
svNodeFsDecRate	IGX 8400 BPX 8600 MGX 8800 series	Node ForeSight normal decrease rate. Access: read-only	—
svNodeFsFastRate	IGX 8400 BPX 8600 MGX 8800 series	Node ForeSight fast decrease rate. Access: read-only	—
svNodeRstTimeout	IGX 8400 BPX 8600	Timeout (in seconds) for resetting of the permanent virtual connection (PVC) rate to quiescent information rate (QIR). Access: read-only	—
svNodeSubtype	—	Node subtype, for example, routing, feeder, or standalone. Access: read-only	1 = routing-node 2 = feeder-node 3 = access-node 5 = standalone node
svNodeId	—	Unique node ID assigned by CWM to a node in the network. The svNodeId remains the same even when the node is deleted and added back to the network, as long as the CWM database is not cleared. When CWM is warm started and the database is not cleared, the CWM node ID remains unchanged. Access: read-only	—
svNodeOldName	—	Name previously assigned to the node. This information is passed when a node name is changed and a corresponding trap generated by CWM remains unchanged. Access: read-only	String from 0-32 characters
svNodeOldIpAddress	—	IP address previously assigned to the node. svNodeOldIpAddress is used in the trap to indicate that a node's IP address has changed. Access: read-only	—
svNodeIpAddress	—	IP address of a node in the CWM network. Access: read-only	—

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Note The svNodeSubtype, svNodeId, svNodeOldName, svNodeOldIpAddress, and svNodeIpAddress objects are used for traps only, and no values are returned by snmpGET.

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Access Method

You can access the scalar objects in the Node group using the SNMP GET command. These objects require a community string of the form

<networkname>.<nodename>

where <networkname> is the network name to which node <nodename> is attached.

You can use the following procedure to read the Node Alarm state for all the nodes in all networks:

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Step 1 Perform SNMP Walk on svNetworkName to obtain the list of network names.

Step 2 For each network, perform an SNMP Walk on svNodeName.$Network to obtain a list of nodes in a network (where $Network is the encoded form of the network name).

Step 3 For each node perform an SNMP GET on svNodeGrpAlarmState.0 with community <networkname>.<nodename>.

In Example B-2, the following SNMP GET query format is used:

•OID: 1.3.6.1.4.1.351.1.100.1.7.0

•Name: svNodeGrpAlarmState

•Community: <networkname>.<nodename>

•Type: Integer

Example B-2 Syntax for the Alarm State

> snmpGET -p 8161 -c "Network1.nmsnode03" nm20fst7 svNodeGrpAlarmState.0

stratacom.svplus.topologyGroup.svNodeGroup.svNodeGrpAlarmState.0 : INTEGER: minor

Step 4 To obtain the alarm state of the node nmsnode03 in the network Network1, use the syntax in Example B-2.

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Trunk Table

The Trunk table (svTrunkTable) contains the list of all trunk lines in the network (see Table B-4).

This table provides information on a per node basis. Therefore, nodal community of the form <networkname>.<nodename> must be used the in the queries.

This table is indexed by the following objects:

•svTrunkLocalSlot

•svTrunkLocalPort

•svTrunkLocalVtrkId

Table B-4 svTrunkTable 

MIB Object	Related Node Types	Description	Values
svTrunkLocalSlot	IGX 8400 BPX 8600 MGX 8800 series	Slot number of the local end (numbered starting at 1). Access: read-only	Integer starting from 1
svTrunkLocalPort	IGX 8400 BPX 8600 MGX 8800 series	Local port number (numbered starting at 1). Access: read-only	Integer starting from 1
svTrunkLocalLine	IGX 8400 BPX 8600 MGX 8800 series	Line number of the local end (numbered starting at 1). Unique logical line numbers reported by the BPX and IGX nodes. Access: read-only	Integer starting from 1
svTrunkCardType	IGX 8400 BPX 8600 MGX 8850	Card type supporting the trunk line. The card type depends on the value of node platform. Access: read-only	Values for the card type field have the following format: CARD-IF-PORTS-MODE where: CARD = card type IF = interface type PORTS = number of ports MODE = media Mode Mode can be one of the following: mmf—multi mode fiber smf—single mode fiber snm—mixed mode smflr—single mode fiber long range Values are 3 = txr 4 = bni 22 = ntc 31 = atm 34 = ait 41 = uxm 103 = bni-t3 104 = bni-e3 110 = bni-oc3 117 = bxp BXM 117 (kept for backward compatibility). The following BXM card values are used directly from software interface without any mapping: smf—single mode fiber mmf—multi mode fiber smflr—single mode fiber long range snm—mixed mode 180 = bxm-t3-8-smf 181 = bxm-t3-8-mmf
svTrunkCardType (continued)	IGX 8400 BPX 8600 MGX 8850	Card type supporting the trunk line. The card type is dependent on the value of node platform. Access: read-only	182 = bxm-t3-8-smflr 183 = bxm-t3-8-snm 184 = bxm-t3-12-smf 185 = bxm-t3-12-mmf 186 = bxm-t3-12-smflr 187 = bxm-t3-12-snm 188 = bxm-e3-8-smf 189 = bxm-e3-8-mmf 190 = bxm-e3-8-smflr 191 = bxm-e3-8-snm 192 = bxm-e3-12-smf 193 = bxm-e3-12-mmf 194 = bxm-e3-12-smflr 195 = bxm-e3-12-snm 196 = bxm-oc3-4-smf 197 = bxm-oc3-4-mmf 198 = bxm-oc3-4-smflr 199 = bxm-oc3-4-snm 200 = bxm-oc3-8-smf 201 = bxm-oc3-8-mmf 202 = bxm-oc3-8-smflr 203 = bxm-oc3-8-snm 204 = bxm-oc12-1-smf 205 = bxm-oc12-1-mmf 206 = bxm-oc12-1-smflr 207 = bxm-oc12-1-snm 208 = bxm-oc12-2-smf 209 = bxm-oc12-2-mmf 210 = bxm-oc12-2-smflr 211 = bxm-oc12-2-snm 212 = bme-oc12-1-smf 213 = bme-oc12-1-mmf 214 = bme-oc12-1-smflr 215 = bme-oc12-1-snm
svTrunkCardType (continued)	IGX 8400 BPX 8600 MGX 8850	Card type supporting the trunk line. The card type is dependent on the value of node platform. Access: read-only	216 = bme-oc12-2-smf 217 = bme-oc12-2-mmf 218 = bme-oc12-2-smflr 219 = bme-oc12-2-snm 220 = bxm-oc3-4-stm1e 221 = bxm-oc3-8-stm1e 222 = bxm-oc3-4-xlr 223 = bxm-oc3-8-xlr 224 = bxm-oc12-1-xlr 225 = bxm-oc12-2-xlr 226 = bxm-t3-12-enh 227 = bxm-e3-12-enh 228 = bxm-oc3-4-smf-enh 229 = bxm-oc3-4-mmf-enh 230 = bxm-oc3-4-smflr-enh 231 = bxm-oc3-4-stm1e-enh 232 = bxm-oc3-4-xlr-enh 233 = bxm-oc3-8-smf-enh 234 = bxm-oc3-8-mmf-enh 235 = bxm-oc3-8-smflr-enh 236 = bxm-oc3-8-stm1e-enh 237 = bxm-oc3-8-xlr-enh 238 = bxm-oc12-1-smf-enh 239 = bxm-oc12-1-mmf-enh 240 = bxm-oc12-1-smflr-enh 241 = bxm-oc12-1-xlr-enh 242 = bxm-oc12-2-smf-enh 243 = bxm-oc12-2-mmf-enh 244 = bxm-oc12-2-smflr-enh 245 = bxm-oc12-2-xlr-enh 246 = bme-oc12-1-smf-enh 247 = bme-oc12-2-smf-enh 248 = bme-oc12-2-smflr-enh 249 = bme-oc12-2-snm-enh
svTrunkInterface	IGX 8400 BPX 8600 MGX 8850	Trunk line interface type. The interface type indicates the format of the packet line. Access: read-only	Values are 1 = unknown 2 = t1 3 = e1 4 = subrate 5 = oc3 6 = oc12 7 = t3 8 = e3 9 = broadband
svTrunkLineLoad	IGX 8400 BPX 8600 MGX 8850	Line load in packets per second. Access: read-only	—
svTrunkRemNodeId	IGX 8400 BPX 8600 MGX 8850	Remote CWM node ID. Access: read-only	—
svTrunkRemLineNumber	IGX 8400 BPX 8600 MGX 8850	Remote line number. Access: read-only	—
svTrunkRemSlot	IGX 8400 BPX 8600 MGX 8850	Slot number of the remote end. Access: read-only	—
svTrunkRemPort	IGX 8400 BPX 8600 MGX 8850	Remote port number. Access: read-only	—
svTrunkAlarmState	IGX 8400 BPX 8600 MGX 8850	Trunk line alarm state. Access: read-only	1 = clear 2 = minor 3 = major
svTrunkActive	IGX 8400 BPX 8600 MGX 8850	Trunk active state. Access: read-only	—
svTrunkStatus	IGX 8400 BPX 8600 MGX 8850	Trunk line status. Access: read-only	1 = inactive 2 = clear 3 = fail 4 = down
svTrunkStatReserve	IGX 8400 BPX 8600 MGX 8850	Trunk line statistical reserve field. Access: read-only	—
svTrunkBurstyDataBQDepth	IGX 8400 BPX 8600 MGX 8850	Trunk line bursty data B queue depth. This queue depth includes Frame Relay with ForeSight traffic data. Access: read-only	—
svTrunkBurstyDataBQEfcnThreshold	IGX 8400 BPX 8600 MGX 8850	Trunk line bursty data B queue EFCN/EFCI threshold. This queue threshold includes Frame Relay with ForeSight traffic data. Access: read-only	—
svTrunkClpHighDropThreshold	IGX 8400 BPX 8600 MGX 8850	Trunk line CLP high dropping threshold. Access: read-only	—
svTrunkClpLowDropThreshold	IGX 8400 BPX 8600 MGX 8850	Trunk line CLP low dropping threshold. Access: read-only	—
svTrunkLocalVtrkId	IGX 8400 BPX 8600 MGX 8850	Local virtual trunk ID. The IDs are numbered starting at 1. Value 255 is used when no virtual trunk is defined. Access: read-only	—
svTrunkRemVtrkId	IGX 8400 BPX 8600 MGX 8850	Remote virtual trunk ID. These are numbered starting at 1. Access: read-only	—
svTrunkRemNodeName	IGX 8400 BPX 8600 MGX 8850	Remote end node name. Access: read-only	String from 0 to 32 characters

Access Methods

Each objects in the Trunk table requires a community string of the form <networkname>.<nodename>

where <networkname> is the network to which node <nodename> is attached.

To obtain the list of all trunks attached to a node, perform an SNMP Walk on svTrunkTable.

Sample Query

To obtain the list of trunks on the node nmsbpx01 in the network Network1, use the syntax in Example B-3.

Example B-3 Using snmpwalk To List Trunks on a Node

> snmpwalk -p 8161 -c "Network1.nmsbpx01" nm20fst7 svTrunkTable

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkLoc
alSlot.3.1.255 : INTEGER: 3

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkLoc
alSlot.3.2.255 : INTEGER: 3

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkLoc
alPort.3.1.255 : INTEGER: 1

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkLoc
alPort.3.2.255 : INTEGER: 2

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkLoc
alLine.3.1.255 : INTEGER: 1

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkLoc
alLine.3.2.255 : INTEGER: 2

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkCar
dType.3.1.255 : INTEGER: bni-e3

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkCar
dType.3.2.255 : INTEGER: bni-e3

stratacom.svplus.topologyGroup.svNodeGroup.trunkGroup.svTrunkTable.svTrunkEntry.svTrunkInt
erface.3.1.255 : INTEGER: e3

Circuit Line Table

The Circuit Line table (lineTable) contains read-only configuration information about a specified node circuit line. This table is indexed by circuit line number and port number (see Table B-5).

Table B-5 lineTable 

MIB Object	Related Node Types	Description	Values
lineLineNumber	IGX 8400 BPX	Circuit line number. For physical lines this value is the unique physical line number for each card. For example, trunk 11.4 has the value of 4. Access: read-only	—
lineCardType	IGX 8400 BPX	Circuit card type. Access: read-only	Values are 3 = txr 21 = cip 25 = frp 29 = cdp 41 = uxm 106 = asi-t3-2 107 = asi-e3-2 110 = asi-oc3-smf 111 = asi-oc3-mmf 117 = bxm (kept for backward compatibility) The following BXM card values are used directly from software interface without any mapping: smf—single mode fiber mmf—multi mode fiber smflr—single mode fiber long range snm—mixed mode 180 = bxm-t3-8-smf 181 = bxm-t3-8-mmf 182 = bxm-t3-8-smflr 183 = bxm-t3-8-snm 184 = bxm-t3-12-smf 185 = bxm-t3-12-mmf 186 = bxm-t3-12-smflr 187 = bxm-t3-12-snm 188 = bxm-e3-8-smf 189 = bxm-e3-8-mmf 190 = bxm-e3-8-smflr 191 = bxm-e3-8-snm 192 = bxm-e3-12-smf 193 = bxm-e3-12-mmf 194 = bxm-e3-12-smflr 195 = bxm-e3-12-snm
lineCardType (continued)	IGX 8400 BPX	Circuit card type. Access: read-only	196 = bxm-oc3-4-smf 197 = bxm-oc3-4-mmf 198 = bxm-oc3-4-smflr 199 = bxm-oc3-4-snm 200 = bxm-oc3-8-smf 201 = bxm-oc3-8-mmf 202 = bxm-oc3-8-smflr 203 = bxm-oc3-8-snm 204 = bxm-oc12-1-smf 205 = bxm-oc12-1-mmf 206 = bxm-oc12-1-smflr 207 = bxm-oc12-1-snm 208 = bxm-oc12-2-smf 209 = bxm-oc12-2-mmf 210 = bxm-oc12-2-smflr 211 = bxm-oc12-2-snm 212 = bme-oc12-1-smf 213 = bme-oc12-1-mmf 214 = bme-oc12-1-smflr 215 = bme-oc12-1-snm 216 = bme-oc12-2-smf 217 = bme-oc12-2-mmf 218 = bme-oc12-2-smflr 219 = bme-oc12-2-snm 220 = bxm-oc3-4-stm1e 221 = bxm-oc3-8-stm1e 222 = bxm-oc3-4-xlr 223 = bxm-oc3-8-xlr 224 = bxm-oc12-1-xlr 225 = bxm-oc12-2-xlr 226 = bxm-t3-12-enh 227 = bxm-e3-12-enh 228 = bxm-oc3-4-smf-enh 229 = bxm-oc3-4-mmf-enh
lineCardType (continued)	IGX 8400 BPX	Circuit card type. Access: read-only	230 = bxm-oc3-4-smflr-enh 231 = bxm-oc3-4-stm1e-enh 232 = bxm-oc3-4-xlr-enh 233 = bxm-oc3-8-smf-enh 234 = bxm-oc3-8-mmf-enh 235 = bxm-oc3-8-smflr-enh 236 = bxm-oc3-8-stm1e-enh 237 = bxm-oc3-8-xlr-enh 238 = bxm-oc12-1-smf-enh 239 = bxm-oc12-1-mmf-enh 240 = bxm-oc12-1-smflr-enh 241 = bxm-oc12-1-xlr-enh 242 = bxm-oc12-2-smf-enh 243 = bxm-oc12-2-mmf-enh 244 = bxm-oc12-2-smflr-enh 245 = bxm-oc12-2-xlr-enh 246 = bme-oc12-1-smf-enh 247 = bme-oc12-2-smf-enh 248 = bme-oc12-2-smflr-enh 249 = bme-oc12-2-snm-enh
lineInterface	IGX 8400 BPX	Type of the line interface. Access: read-only	1 = t1 4 = oc3 5 = e1 8 = e3 9 = t3 10 = oc12 200 = unknown
lineActive	IGX 8400	Circuit line active state. Access: read-only	Active
lineStatus	IGX 8400	Circuit line status. Access: read-only	1 = inactive 2 = clear 3 = fail 4 = down
linePortNumber	IGX 8400	Port number. For physical lines, this number is the same as the trunk number. For example, for IMA trunk 11.2-5 for all physical lines 2, 3, 4, and 5, the port number is 2, which is the trunk number for IMA trunk 11.2-5. Access: read-only.	—

Traps Config Group

Use the objects in the trapsConfig group to access to the Robust Trap Mechanism (RTM) of CWM. This group contains two tables: trapConfigTable and trapUploadTable. The trapsConfig group also contains the scalar objects shown in Table B-6.

Table B-6 trapsConfig 

MIB Object	Related Node Types	Description	Values
managerNumOfValidEntries	Not applicable	Number of managers in the trapConfigTable registered to receive traps. The maximum number of managers that can register for traps is 16, which includes 1 reserved for CWM. Access: read-only.	Range: 1-16
lastSequenceNumber	Not applicable	The sequence number of the last trap generated on the CWM RtmProxy. Access: read-only.	Not applicable

Trap Configuration Table

The Trap Config table (trapConfigTable) contains the list of all Managers subscribed for the robust traps from CWM (see Table B-7). Using the objects in this table, you can register for robust traps, SET asynchronous trap retrieval mode, and SET normal trap reception mode.

The trapConfigTable is indexed by the managerIpAddress object.

Table B-7 trapConfigTable 

MIB Object	Description	Values
managerIPaddress	Manager IP address. Access: read-write	Value returned is in ASN.1 IP Address format.
managerPortNumber	Manager port number. This number is the UDP port on which the Manager is receiving traps. Default value: 162. Access: read-write	—
managerRowStatus	When managerRowStatus is set to addRow (1), the Manager is registered with the RtmProxy to receive the new traps generated. Access: read-write	1 = addRow 2 = delRow
readingTrapFlag	Flag set by the Manager to indicate missing traps are retrieved. During registration, this flag must be SET to false. When this flag is SET to true, the RtmProxy does not forward traps asynchronously to the Manager. Access: read-write	1 = false 2 = true
nextTrapSeqNum	Object to set the sequence number of the trap to be retrieved. If this object is SET to a negative number (-n) during registration, RtmProxy retrieves back n previous traps that were sent by RtmProxy before manager was registered. The value of n must be greater than 1. Access: read-write	—
trapFilterRegisterCategory	Categories of traps that a client can register with RtmProxy. The trap categories are •bit 0 SET = Node Object Alarm Status Change Traps •bit 1 SET = Node Object Config Status Change Traps •bit 2 SET = Peripheral Object Alarm Status Change Traps •bit 3 SET = Peripheral Object Configuration Status Change Traps •bit 4 SET = Card Object Alarm Status Change Traps •bit 5 SET = Card Object Configuration Status Change Traps •bit 6 SET = Trunk Object Alarm Status Change Traps •bit 7 SET = Trunk Object Configuration Status Change Traps •bit 8 SET = Line Object Alarm Status Change Traps •bit 9 SET = Line Object Configuration Status Change Traps •bit 10 SET = Port Object Alarm Status Change Traps •bit 11 SET = Port Object Configuration Status Change Traps •bit 12 SET = User Connection Object Alarm Status Change Traps •bit 13 SET = User Connection Object Configuration Status Change Traps •bit 14 SET = Protocol Groups Object Alarm Status Change Traps •bit 15 SET = Protocol Groups Object Configuration Status Change Traps •bit 16 SET = Link Station Object Alarm Status Change Traps •bit 17 SET = Link Station Object Configuration Status Change Traps •bit 18 SET = SNA Routes Object Alarm Status Change Traps •bit 19 SET = SNA Routes Object Configuration Status Change Traps •bit 20 SET = Network Connectivity Status Change Traps •bit 21 SET = Automatic Protection Switching (APS) Traps •bit 22 SET = SCM Health Monitor Traps •bit 23 SET = Virtual Switch Interface Traps •bit 24 SET = Reliability, Availability, Serviceability (RAS) Traps •bit 25 SET = STG Traps for IOS-based devices Access: read-write	Octet string size: 0-8 Default: Register for all trap categories.
trapRedeliverFlag	Flag to trigger whether or not traps are delivered again. Access: read-write	1 = false 2 = true
managerNumOf ValidEntries	Number of managers in the table that are programmed to receive traps. Access: read-only	1-16
lastSequenceNumber	Sequence number of the last trap generated on the SNMP proxy for a manager. Access: read-only	—

Trap Upload Table

The SNMP manager uses the trapUploadTable to recover lost traps from the RtmProxy. Table B-8 describes the trapUploadTable objects.

Table B-8 trapUploadTable 

MIB Object	Description	Values
mgrIpAddress	Manager IP address. Access: read-only	—
trapSequenceNum	Sequence number associated with the trap. Access: read-only	—
trapPduString	PDU string associated with the trap. Access: read-only	—
endofQueueflag	End of the queue associated with the trap. Access: read-only	1 = false 2 = true

Trap Group—Scalar Objects

In addition to the tables described in previous sections, the aagTrapGroup also contains a set of scalar objects allowing you to obtain additional trap information in a simplified manner. Table B-9 lists these scalar objects.

Table B-9 aagTraps Group 

MIB Objects	Description	Values
trapSeverity	Severity of the trap generated from the Asynchronous Alarm Generator (AAG) alarm. Access: read-only	1 = clear 2 = warning 3 = minor 4 = major 5 = critical 6 = info
trapReason	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	Values for lines and trunks are 1 = ok 2 = deactivated 3 = activated 4 = bipolar-violations 5 = tx-voice-packets-dropped 6 = tx-ts-packets-dropped 7 = tx-bda-packets 8 = tx-bdb-packets 9 = frames-slips 10 = frames-bit-errors 11 = packet-out-of-frames 12 = out-of-frames 13 = losses-of-signal 14 = bad-clock-errors 15 = crc-errors 16 = tx-nts-packets 17 = packet-crc-errors 18 = out-of-multi-frames 19 = all-ones-in-timeslot-16 20 = line-code-violations 21 = line-parity-errors 22 = path-parity-errors 23 = bip-8-code-violations 24 = rx-voice-pkts-dropped 25 = rx-ts-pkts-dropped 26 = rx-bda-pkts-dropped 27 = rx-bdb-pkts-dropped 28 = rx-nts-pkts-dropped 29 = rx-hi-pri-pkts-dropped 30 = atm-cell-header-hec-errs 31 = frame-sync-errors 32 = rx-spacer-pkts-drpd 33 = bad-clock-path 34 = bad-clock-source
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	35 = communication-failure 36 = looped-back 37 = remote-cga 38 = remote-framing 39 = rmt-oom 40 = remote-alarm 41 = remote-yellow 42 = remote-e3-ferf 43 = path-yellow 44 = rmt-oof 45 = local-cga 46 = frame-sync-alarm 47 = out-of-mfm 48 = loss-of-cell 49 = loss-of-pointer 50 = path-ais 51 = ais-16 52 = out-of-pkt-frm 53 = frm-err-rate 54 = ais 55 = out-of-frm 56 = loss-of-signal 57 = bad-clock 58 = txr-missing 59 = pic-missing 60 = backcard-missing 61 = pic-cip-missing 62 = ntc-missing 63 = cdp-missing 64 = frp-missing 65 = atm-missing 66 = bni-t3-missing 67 = bni-e3-missing 68 = asi-t3-missing 69 = asi-e3-missing
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	70 = ait-missing 71 = asi0-t3-missing 72 = asi0-e3-missing 73 = asi-oc3-missing 74 = bni-oc3-missing 75 = ftc-missing 76 = bxm-missing 77 = btm-hp-missing 78 = path-trace-failure 79 = section-trace-failure 80 = cgw-discard-pkts 81 = cgw-discard-cells 83 = tx-hp-cells-dropped 84 = tx-vbr-cells-dropped 85 = tx-ubr-abr-cells-dropped 86 = tx-cbr-cells-dropped 91 = rmt-path-trace-failure 92 = rmt-section-trace-failure 93 = qbin-tx-nts-cells-discarded 94 = qbin-tx-hi-pri-cells-discarded 95 = qbin-tx-voice-cells-discarded 96 = qbin-tx-ts-cells-discarded 97 = qbin-tx-bdata-a-cells-discarded 98 = qbin-tx-bdata-b-cells-discarded 99 = qbin-tx-vbr-cells-discarded 100 = qbin-tx-abr-cells-discarded 101 = qbin-tx-cbr-cells-discarded 102 = inverse-mux-failure 103 = inverse-mux-link-disabled 104 = front-card-missing 105 = card-mismatch 997 = comm-break-node-degraded 998 = comm-break-clear 999 = comm-break-alarm
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	The following values are applicable to ports: 1001 = port-communication-failure 1002 = communication-failure-cleared 1003 = ftc-communication-failure 1004 = ftc-communication-failure-cleared 2001 = connection-failed 2002 = connection-down 2003 = connection-clear The following values are applicable to cards: 3001 = programming-aborted 3002 = failure-cleared 3003 = intermittent-failure 3004 = failed 3005 = failed-no-backup-available 3006 = failed-activated-backup 3007 = missing-card-freed 3008 = removed 3009 = removed-no-backup-available 3010 = removed-activated-failed-backup 3011 = failed-card-removed 3012 = failed-card-removed-no-backup-available 3013 = failed-card-removed-activated-failed- backup 3014 = hardware-failure 3015 = hardware-failure-no-backup-available 3016 = hardware-failure-activated-backup 3017 = hardware-failure-activated-failed-backup 3018 = failed-due-to-hardware-failure 3019 = failed-due-to-hardware-failure-no-backup- available 3020 = failed-due-to-hardware-failure-activated- backup
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	3021 = failed-due-to-hardware-failure-activ-failed- backup 3022 = power-supply-monitor-hardware-failure The following values are applicable to connections: 3023 = failed-power-supply-monitor-hardware- failure 3024 = asm-hardware-failure 3025 = card-inserted 3026 = failed-card-inserted 3027 = power-supply-monitor-failure-cleared 3028 = asm-failure-cleared 3029 = power-supply-monitor-intermittent-failure 3030 = asm-intermittent-failure 3031 = power-supply-monitor-failed 3032 = asm-failed 3033 = power-supply-monitor-hardware-failure 3034 = asm-hardware-failure 3035 = power-supply-monitor-inserted 3036 = asm-inserted 3037 = power-supply-monitor-remove 3038 = failed-power-supply-monitor-removed 3039 = asm-removed 3040 = failed-asm-removed 3041 = bus-failed 3042 = bus-failed-no-backup-available 3043 = bus-failed-activated-backup 3044 = bus-failed-activated-failed-backup 3045 = card-not-responding 3046 = failed-card-freed 3047 = card-freed 3048 = card-sar-failure
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	3049 = card-sar-clear 3050 = card-up-failure 3051 = card-up-clear 3052 = card-arbiter-failure 3053 = card-arbiter-clear 3056 = bcc-card-fail 3057 = card-update 3058 = card-cleared 3059 = card-unavailable 3060 = card-downloading 3061 = card-downloader 3062 = card-downloaded 3063 = card-program 3064 = card-upgrading 3065 = card-upgraded 3067 = card-frozen 3068 = controlcard-restarted 3069 = controlcard-restarted-probe-reSET 3070 = controlcard-restarted-system-reSET 3071 = controlcard-restarted-powerfailure 3072 = controlcard-restarted-watchdog-timeout 3073 = controlcard-restarted-software-abort 3074 = controlcard-restarted-switchover 3075 = controlcard-restarted-clear-all-config 3076 = controlcard-restarted-user-reSET-request 3077 = controlcard-restarted-reSET-request 3078 = controlcard-restarted-reSET-bus-diagnostics 3079 = controlcard-restarted-bus-diagnostics 3080 = controlcard-restarted-manual-bus-diagnostic 3081 = controlcard-restarted-bus-diag-cc-switch
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	3082 = controlcard-restarted-manual-bus-diagnostics controlcard-restarted-clear-partial-config 3083 = controlcard-restarted-cc-failure 3084 = controlcard-restarted-incomplete-nvc- memory 3085 = controlcard-restarted-primary-revision- change 3086 = controlcard-restarted-revision-change 3087 = controlcard-restarted-bad-crc 3088 = controlcard-restarted-completed-download 3089 = controlcard-restarted-configuration-restoral 3090 = controlcard-restarted-soft-reSET 3091 = controlcard-restarted-rebuild-fail 3092 = controlcard-restarted-y-redundancy-alarm 3093 = controlcard-restarted-cc-redundancy-alarm The following values are for slot alarms that are reported by the switch in a card alarm: 3094 = standby-PRBS-err 3095 = rx-invalid-port-err 3096 = poll-A-parity-err 3097 = poll-B-parity-err 3098 = bad-grant-err 3099 = tx-bip-16-err 3100 = rx-bip-16-err 3101 = bframe-parity-err 3102 = siu-phase-err 3103 = rx-fifo-sync-err 3104 = polling-clock-err 3105 = clock-192-err 3106 = suspected-card-failure 3107 = hitless-rebuild-occurred 3108 = full-rebuild-occurred
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	3109 = informational-message The following values are applicable to peripherals: 4001 = power-supply-clear 4002 = power-supply-failed 4003 = power-supply-removed 4004 = failed-power-supply-removed 4005 = pwer-supply-hardware-failure 4006 = power-supply-inserted 4007 = cabinet-fans-alarm 4008 = cabinet-temperature-alarm 4009 = cabinet-fan-alarm-cleared 4010 = cabinet-temperature-alarm-cleared 4011 = dc-voltage-alarm 4012 = dc-voltage-alarm-cleared 4013 = bus-clear 4014 = control-bus-failed 4015 = cell-or-mux-bus-failed 4016 = clock-bus-failed 4017 = standby-clock-bus-failed 4018 = comm-bus-failed 4019 = polling-bus-failed 4020 = external-clock-los 4021 = external-clock-bad-source 4022 = external-clock-clear 4023 = external-clock-deactivated 4024 = invalid-login-alarm 4025 = invalid-login-alarm-cleared 4026 = cpu-utilization-alarm 4027 = cpu-utilization-alarm-cleared 4028 = memory-utilization-alarm 4029 = memory-utilization-alarm-cleared 4030 = control-bus-need-diagnostics
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	The following values are applicable to feeders: 5001 = ipx-fdr-communication-failure 5002 = axis-fdr-communication-failure 5003 = ipx-hub-communication-failure 5004 = bpx-hub-communication-failure 5005 = ipx-fdr-alarm-cleared 5006 = axis-fdr-alarm-cleared 5007 = ipx-hub-alarm-cleared 5008 = bpx-hub-alarm-cleared 5009 = ipx-fdr-major-alarm 5010 = axis-fdr-major-alarm 5011 = ipx-hub-major-alarm 5012 = bpx-hub-major-alarm 5013 = igx-hub-communication-failure 5014 = igx-hub-alarm-cleared 5015 = igx-hub-major-alarm 5016 = igx-fdr-communication-failure 5017 = igx-fdr-alarm-cleared 5018 = igx-fdr-major-alarm 5019 = mgx-fdrtrk-comm-failure 5020 = mgx-fdrtrk-alarm-cleared 5021 = mgx-fdrtrk-majororminor-alarm The following values are applicable to APS: 7000 = aps-card-protocol-mismatch 7001 = aps-red-prot-bkcd-missing-mismatch 7002 = aps-red-work-bkcd-missing-mismatch 7003 = aps-1plus1-prot-hw-frcd-missing 7004 = aps-1plus1-work-hw-frcd-missing 7005 = aps-1plus1-hw-frcd-missing 7006 = aps-half-chans-frcd-param-mismatch 7007 = aps-fw-missing-prot-cd 7008 = aps-fw-missing-work-cd 7010 = aps-card-missing 7013 = aps-card-mismatch
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	7019 = aps-active 7020 = aps-clear 7021 = aps-deactivated 7022 = aps-line-loop-in-process 7023 = aps-remote-signal-fail-onstby-line 7024 = aps-channel-mismatch 7025 = aps-prot-switch-byte-failed 7026 = aps-farend-prot-line-failed 7027 = aps-config-mismatch-btwn-2-ends 7028 = aps-signal-degrade-bit-error 7029 = aps-signal-failure-bit-error 7040 = aps-clear-revertive-switch 7041 = aps-revertive-switch-failed 7042 = aps-manual-switch 7043 = aps-manual-switch-failed 7044 = aps-signal-degrade-low-prior-switch 7045 = aps-signal-degrade-low-prior-switch-failed 7046 = aps-signal-degrade-hi-prior-switch 7047 = aps-signal-degrade-hi-prior-switch-failed 7048 = aps-signal-fail-low-prior-switch 7049 = aps-signal-fail-low-prior-switch-failed 7050 = aps-signal-fail-hi-prior-switch 7051 = aps-signal-fail-hi-prior-switch-failed 7052 = aps-forced-switch 7053 = aps-forced-switch-failed 7054 = aps-lockout-of-prot-other-end 7055 = aps-lockout-of-prot-other-end-failed 7056 = aps-wait-to-restore-switch 7057 = aps-wait-to-restore-switch-failed 7058 = aps-exercise-switch 7059 = aps-exercise-switch-failed 7060 = aps-reverse-request-switch 7061 = aps-reverse-request-switch-failed
trapReason (continued)	String describing why the trap is generated. This object is used to provide more detailed information on the cause of the trap. This field is SET to the trap number for all releases prior to the Switch Software Release 8.4. Access: read-only	7062 = aps-do-not-revert-switch 7063 = aps-do-not-revert-switch-failed 7070 = aps-stby-line-secondary-trc 7071 = aps-stby-line-path-trc 7072 = aps-line-path-yellow 7073 = aps-stby-line-path-ais 7074 = aps-stby-line-lop 7075 = aps-stby-line-loc 7076 = aps-stby-line-plcp-yellow 7077 = aps-stby-line-plcp-lof 7078 = aps-stby-line-yellow 7079 = aps-line-stby-ais 7080 = aps-stby-line-lof 7081 = aps-stby-line-los
trapConnEndPointString	This object has both the local and remote endpoint description of the connection in the following formats: For Frame Relay connections: <lslot>.<lport>.<lDLCI>-<rslot>.<rport>.<rDLCI> For ATM connections: <lslot>.<lport>.<lVPI><lVCI>-<rslot>.<rport>.<rVPI><rVCI> For FastPad connections: <lslot>.<lport>.<lfpdslot><lfpdport><lfpdDLCI>- <rslot>.<rport>.<rfpdslot><rfpdport><rfpdDLCI> Access: read-only	—
trapLineIdString	This object has the following format for various ports: For multi-port cards (for example, ASI): <slot>.<port> For single-port cards: <slot>.255 For physical lines: <slot>.<trk#>.<line> Access: read-only	—
trapTrunkType	Indicates the trunk type. Access: read-only	1 = unknown 2 = physical-trunk 3 = virtual-trunk 4 = feeder-trunk 5 = ima-trunk 6 = ima-virtual-trunk 7 = ima-feeder-trunk
trapVirtualTrunkId	Virtual trunk ID. Access: read-only	For virtual trunks the value can be 1-254. For physical trunks the value reported is 255.
trapTrunkIdString	This object contains values in the following formats: For virtual trunks: <slot>.<port>.<vtrkid> For physical trunks: <slot>.<port>.255 Access: read-only	—
trapPortIdString	This object has the following format for various ports: For multi-port cards <slot>.<line>.<port> For single-port cards: <slot> For ASI ports: line = 0 Access: read-only	—
trapCardStatus	The alarm status of the card. Access: read-only	1 = clear (refers to Empty state on the CLI 2 = failed 3 = down 4 = standby 5 = mismatch 6 = failed-no-backup 7 = no-card (refers to Empty state on the CLI) 8 = update 9 = cleared (a transient state when card is inserted but not ready) 10 = unavailable 11 = downloading 12 = downloader 13 = downloaded 14 = locked 15 = program 16 = upgrading 17 = upgraded 18 = frozen
trapCardType	The specific type of card from which the trap is generated. Access: read-only	1 = ipx-pcc 2 = vdp 3 = txr 4 = pic 5 = vcd 6 = vdp-vcd 7 = psm 8 = ps 9 = sdp 10 = bslot 11 = mback 12 = sdp-back-cd 13 = txr2 14 = xdp 15 = ldp 16 = xdp-back-cd 17 = ldp-back-cd 18 = sback-cd 19 = lback-cd 20 = fdp 21 = cip 22 = ntc 23 = uback-cd 24 = uni 25 = frp 26 = fback-cd 27 = frp-back-cd 28 = mt3 29 = cdp 30 = e1t1-port 31 = atm 32 = npc 33 = arc 34 = ait 35 = ftc
trapCardType (continued)	The specific type of card from which the trap is generated. Access: read-only	36 = ftcback-cd 37 = ufm1 38 = ufm1-u 39 = btm-hp 101 = bcc 102 = asm 103 = bni-t3 104 = bin-e3 105 = mfrp 106 = asi-t3-2 107 = asi-e3-2 108 = asi0-t3 109 = asi0-e3 110 = bni-oc3 111 = asi-oc3 112 = bpx-bslot 113 = bcc3 114 = unknown 117 = bxm (kept for backward compatibility) The following BXM card values are used directly from software interface without any mapping: smf—single mode fiber mmf—multi mode fiber smflr—single mode fiber long range snm—mixed mode 180 = bxm-t3-8-smf 181 = bxm-t3-8-mmf 182 = bxm-t3-8-smflr 183 = bxm-t3-8-snm 184 = bxm-t3-12-smf 185 = bxm-t3-12-mmf 186 = bxm-t3-12-smflr 187 = bxm-t3-12-snm 188 = bxm-e3-8-smf
trapCardType (continued)	The specific type of card from which the trap is generated. Access: read-only	189 = bxm-e3-8-mmf 190 = bxm-e3-8-smflr 191 = bxm-e3-8-snm 192 = bxm-e3-12-smf 193 = bxm-e3-12-mmf 194 = bxm-e3-12-smflr 195 = bxm-e3-12-snm 196 = bxm-oc3-4-smf 197 = bxm-oc3-4-mmf 198 = bxm-oc3-4-smflr 199 = bxm-oc3-4-snm 200 = bxm-oc3-8-smf 201 = bxm-oc3-8-mmf 202 = bxm-oc3-8-smflr 203 = bxm-oc3-8-snm 204 = bxm-oc12-1-smf 205 = bxm-oc12-1-mmf 206 = bxm-oc12-1-smflr 207 = bxm-oc12-1-snm 208 = bxm-oc12-2-smf 209 = bxm-oc12-2-mmf 210 = bxm-oc12-2-smflr 211 = bxm-oc12-2-snm 212 = bme-oc12-1-smf 213 = bme-oc12-1-mmf 214 = bme-oc12-1-smflr 215 = bme-oc12-1-snm 216 = bme-oc12-2-smf 217 = bme-oc12-2-mmf 218 = bme-oc12-2-smflr 219 = bme-oc12-2-snm 220 = bxm-oc3-4-stm1e 221 = bxm-oc3-8-stm1e 222 = bxm-oc3-4-xlr 223 = bxm-oc3-8-xlr
trapCardType (continued)	The specific type of card from which the trap is generated. Access: read-only	224 = bxm-oc12-1-xlr 225 = bxm-oc12-2-xlr 226 = bxm-t3-12-enh 227 = bxm-e3-12-enh 228 = bxm-oc3-4-smf-enh 229 = bxm-oc3-4-mmf-enh 230 = bxm-oc3-4-smflr-enh 231 = bxm-oc3-4-stm1e-enh 232 = bxm-oc3-4-xlr-enh 233 = bxm-oc3-8-smf-enh 234 = bxm-oc3-8-mmf-enh 235 = bxm-oc3-8-smflr-enh 236 = bxm-oc3-8-stm1e-enh 2378 = bxm-oc3-8-xlr-enh 238 = bxm-oc12-1-smf-enh 239 = bxm-oc12-1-mmf-enh 240 = bxm-oc12-1-smflr-enh 241 = bxm-oc12-1-xlr-enh 242 = bxm-oc12-2-smf-enh 243 = bxm-oc12-2-mmf-enh 244 = bxm-oc12-2-smflr-enh 245 = bxm-oc12-2-xlr-enh 246 = bme-oc12-1-smf-enh 247 = bme-oc12-2-smf-enh 248 = bme-oc12-2-smflr-enh 249 = bme-oc12-2-snm-enh
trapCardSlotNumber	The slot number of the card. Access: read-only	—
trapPeripheralType	The type of peripheral on which the trap is generated. Access: read-only	1= unknown 2 = power-supply 3 = cabinet-fan 4 = local-bus 5 = temperature-sensor 6 = dc-voltage-monitor 7 = external-clock-source 8 = invalid-login-monitor
trapPeripheralStatus	The alarm status of the peripheral. Access: read-only	1 = clear 2 = failed
trapPeripheralUnitNumber	The unit number of the peripheral on which the trap is generated. Different types of peripheral units are listed below: •Power Supply (IGX 8400): 1-6 •Power Supply (BPX 8600): 1-2 •Cabinet Temp Sensor: 1 •Fan (IGX 8400): 1 •Fan (BPX 8600): 1-3 •DC Voltage Monitor (IGX 8400): 1 •DC Voltage Monitor (BPX 8600): 1-2 •Bus •B Bus: 1 •A Bus: 2 •Invalid Login Monitor: 1 External Clock Source: •EXT-1 1.544 MHz: 1 •EXT-1 2.048 MHz: 2 •EXT-2 1.544 MHz: 3 •EXT-2 2.048 MHz: 4 Access: read-only	—
trapFeederStatus	The alarm status of the feeder. Access: read-only	1 = clear 2 = failed
trapPhysicalLineIdString	The list of physical lines associated with an IMA trunk. Different physical lines in the IMA group are delimited by dots. Access: read-only	String: 1-15 characters
trapCommBreakNode	Name of the node where communication break has occurred. Access: read-only	String: 0-32 characters
trapCommBreakRptNode	Name of the node which reported the communication break. Access: read-only	String: 0-32 characters
trapOccurTime	Indicates the time the event occurred in the following format: <MM/DD/YY HH:MM:SS> Access: read-only	—
trapMsgFormatTime	Indicates the time of the event message prepared on the switch. The format for this variable is <MM/DD/YY HH:MM:SS> Access: read-only	—
trapTimeZone	Indicates the time zone associated with times for the trap. Access: read-only	—
trapSeverityStr	Indicates the severity of the trap. Access: read-only	—
trapMsgStr	Message text associated with the trap. Access: read-only	String: 1-255 characters
trapSvStationName	Name of the CWM workstation where the trap is generated. Access: read-only	String: 0-32 characters
trapSvStationIpAddress	IP address of the CWM workstation. Access: read-only	—
trapSvProcessName	Name of the CWM process that was terminated or restarted. Access: read-only	String: 0-64 characters
trapSvProcessId	Process ID of the CWM process that was terminated. Access: read-only	—
trapSvProcessRestartCount	Count of the number of times a CWM process restarted. Access: read-only	—
trapDbFullThreshold	Threshold percentage setting for a full database. Access: read-only	String: 1-100 characters
trapDbPercentFreeSpace	Current free database space percentage. Access: read-only	String: 1-100 characters
trapDiskSpaceLowThreshold	Indicates the threshold percentage setting for free disk space low. Access: read-only	String: 1-100 characters
trapAvailableMegaByte	Current /usr/users partition free disk spaces in megabytes. Access: read-only	—
trapTftpErrorType	Describes the type of TFTP error. Access: read-only	1 = daemon—The error was generated by the CWM daemon process. 2 = system—The error was generated in response to UNIX system errors. 3 = node—The error was generated on the node from which the file was received.
trapTftpErrorDetail	Describes the type of TFTP error in greater detail. Access: read-only	String: 0-255 characters
trapSvChildProcessNumber	The child process number of a CWM process that was restarted. For a nonchild process, the default is 0. Access: read-only	—
trapStatsFileName	The name of the statistics file containing the statistics data from a node. Access: read-only	String: 1-128 characters
trapBackCardType	Back card type reported by the switch. Access: read-only	Back card types for IGX 8400 and BPX 8600. 1 = rs232-bcd 2 = rs449-bcd 3 = v35-bcd 4 = rs232d-bcd 5 = rs232-8-bcd 6 = rs232-4-bcd 7 = friv35-4-bcd 8 = e1-bcd 9 = t1-bcd 10 = pccb-bcd 11 = dds-4-bcd 12 = dds-8-bcd 13 = sr-bcd 14 = mt3-bcd 15 = fri-e1-bcd 16 = fri-t1-bcd 17 = j1-bcd 18 = y1-bcd 19 = ipx-t3-bcd 20 = ipx-e3-bcd 21 = fri-x21-bcd 22 = ari-bcd 23 = ait-t3-bcd 24 = ait-e3-bcd 25 = ftiv35-4-bcd 26 = fti-x21-bcd 27 = fti-e1-bcd 28 = fti-t1-bcd 29 = ait-e2-bcd 30 = ait-hssi-bcd 31 = ufi-t1d-bcd 32 = ufi-e1d-bcd 33 = ufi-e1b-bcd 34 = ufi-hssi-bcd
trapBackCardType (continued)	Back card type reported by the switch. Access: read-only	35 = ufi-v35-bcd 36 = ufi-x21-bcd 37 = btm-hp-t3-bcd 38 = btm-hp-e3-bcd 101 = bcc-bcd 102 = lm-asm-bcd 103 = t3-bcd 104 = e3-bcd 105 = t3-2-bcd 106 = e3-2-bcd 107 = smf-bcd 108 = mmf-bcd 109 = bcclm2-bcd 110 = stm1-bcd 111 = utp-bcd 112 = stp-bcd 113 = mnch-bcd 114 = smflr-bcd 115 = unkwn-bcd 116 = init-bcd 150 = uai-4oc3-mmf 151 = uai-4oc3-smf 152 = uai-2oc3-smf 153 = uai-6t3 154 = uai-3t3 155 = uai-6e3 156 = uai-3e3 157 = uai-8t1-ima 158 = uai-8e1-ima-db15 159 = uai-8e1-ima-bnc 160 = uai-4t1-ima 161 = uai-4e1-ima-db15 162 = uai-4e1-ima-bnc 163 = uai-4stm1
apsLineIString	This object has trunk and line formats. For lines on multi-port cards: <slot>.<line> For lines on single-port cards: <slot> For ASI ports: line = 0 For virtual trunks: <slot>.<port>.<vtrkid> For physical trunks: <slot>.<port>.255 Access: read-only	String from 1 to 255 characters
apsWorkSlot	Working line slot number of the APS configured line pair. Access: read-only	—
apsWorkLine	Working line number of the APS configured line pair. Access: read-only	—
apsProtectSlot	Protection line slot number of the APS configured line pair. Access: read-only	—
apsProtectLine	Protection line number of the APS configured line pair. Access: read-only	—
apsInterface	Interface of the APS configured line pair. Access: read-only	1 = line 2 = trunk
apsActiveLine	Active line of the APS configured line pair. Access: read-only	1 = working line 2 = protection line
oldTrapReason	Previous APS alarm on this APS line before a clear trap is received. Access: read-only	—
trapSvStationRole	Role of a CWM workstation. Access: read-only	1 = primary 2 = secondary
trapSvPeerStationName	Name of the peer CWM workstation for CWM-CWM communication-related traps. Access: read-only	String: 0-32 characters
trapSwapSpaceLowThreshold	Lowest threshold percentage setting for free swap space. Access: read-only.	Range: 1-100

Traps

Table B-10 provides a list of CWM generated traps.

Table B-10 Traps 

Trap Name	Description	Varbinds
svUserConnCleared	The user connection has recovered from a failed/downed state after the CWM database was in sync with the network. This trap is now obsolete. Trap number: 25010	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnAbitStatus svConnAISStatus svConnOAMLoopbackStatus svConnType
svUserConnFailed	The user connection has failed after the CWM database was in sync with the network. This trap is now obsolete. Trap number: 25011	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnAbitStatus svConnAISStatus svConnOAMLoopbackStatus svConnType
svUserConnDown	The user connection has been downed after the CWM database was in sync with the network. Trap number: 25012	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnAbitStatus svConnAISStatus svConnOAMLoopbackStatus svConnType
IGX/BPX Traps
connectionAlarm	This trap is generated whenever a connection alarm status is received. Trap number: 20000	lastSequenceNumber svNodeGrpName trapSeverity trapReason svConnOpStatus svConnType trapConnEndPointString
lineAlarm	This trap is generated whenever a line alarm status is received. Trap number: 20001	lastSequenceNumber svNodeGrpName trapSeverity trapReason lineStatus lineCardType lineInterface lineLineNumber linePortNumber trapLineIdString
trunkAlarm	This trap is generated whenever a trunk alarm status is received. Trap number: 20002	lastSequenceNumber svNodeGrpName trapSeverity trapReason svTrunkStatus svTrunkCardType trapTrunkType svTrunkLocalSlot svTrunkLocalPort trapVirtualTrunkId trapTrunkIdString
portAlarm	This trap is generated whenever a port alarm status is received. (The svPortPort object continues to refer to logical port.) For UFM, svPortPort refers to logical port; whereas, svPortPhysicalPort refers to the first DS0 used in the port time slot bitmap. For example, a UFM port on slot 8, line 1 is configured with 128 kbps port speed. The 2 DS0s used correspond to timeslots 3 and 4. The svPortPhysicalPort is 3 (lowest available timeslot). Trap number: 20011	lastSequenceNumber svNodeGrpName trapSeverity trapReason svPortState trapCardType svPortSlot svPortLine svPortPort svPortPhysicalPort trapPortIdString
cardAlarm	This trap is generated whenever a card alarm status is received. Trap number: 20004	lastSequenceNumber svNodeGrpName trapSeverity trapReason trapCardStatus trapCardType trapCardSlotNumber
peripheralAlarm	This trap is generated whenever a peripheral alarm status is received. Peripheral alarms include the node level alarms listed below: •External Clock Source Failure •Too many invalid login attempts Trap number: 20005	lastSequenceNumber svNodeGrpName trapSeverity trapReason trapPeripheralStatus trapPeripheralType trapPeripheralUnitNumber
commBreakAlarm	This trap is generated whenever commbreak is reported. It is reported by all routing nodes in the network when one or more routing nodes become unreachable. trapCommBreakRptNode—Indicates the node which reported the commbreak. trapCommBreakNode—Indicates the node where the commbreak occurred. The trapReason codes for this trap are comm-break-node-degraded (997) and comm-break-alarm (999). When a trunk between two routing nodes fails and makes some nodes unreachable, each of the routing nodes in the network generates a commBreakAlarm trap, as shown in the following example: Example: A network of 4 routing nodes (A1, A2, B1 and B2) and one CWM station connected to node A1. CWM   |    |    A1 ----- A2 ---X --- B1 ---- B2 When the trunk between A2 and B1 goes into fail state, nodes generate commBreakAlarm messages as indicated below: (trapCommBreakRptNode) (trapCommBreakNode) Generating Node Reporting Node commBreak Node A1 A1  B1 A1 A1  B2 A2 A2  B1 A2 A2  B2 B1 B1 A1 B1 B1 A2 B2 B2  A1 B2 B2  A2 Note Robust messages from nodes B1 and B2 might not reach CWM, depending on the IP routing path. After a node has entered the degraded mode, the node cannot be reached by other devices in the network. All other nodes are informed of the transition of this node to the degraded mode. This trap is cleared by trap number 20017, commBreakClear. Trap number: 20016	lastSequenceNumber trapCommBreakRptNode trapCommBreakNode trapReason
commBreakClear	These nodes declare a communication break with the degraded node. If the communication break happens due to a node entering degraded mode, the reason code is 997. The commBreakClear trap is issued after the degraded mode is cleared. This trap clears trap number 20016, commBreakAlarm. This trap is generated whenever commbreak, caused by a node entering degraded mode or by some other event, is cleared. The trap is generated by every routing node in the network when one or more routing nodes become reachable after having been in an unreachable state. trapCommBreakRptNode—Indicates the node that reported the commbreak. trapCommBreakNode—Indicates the node where commbreak is cleared. The trapReason code for this trap is comm-break-clear (998). Trap number: 20017	lastSequenceNumber trapCommBreakRptNode trapCommBreakNode trapReason
feederAlarm	This trap is triggered by communication failure between a feeder and the routing node. The feederAlarm trap is also triggered when the feeder status changes to Major or to Clear. When a communication failure occurs between the routing node and the feeder, the routing node generates feederAlarm with one of the following trapReason codes: ipx-fdr-communication-failure (5001)—IPX feeder axis-fdr-communication-failure (5002)— MGX 8220 feeder igx-fdr-communication-failure (5016)—IGX 8400 feeder When feeder status changes to Major, the routing node generates feederAlarm with one of the following trapReason codes: ipx-fdr-major-alarm (5009)—IPX feeder axis-fdr-major-alarm (5010)—MGX 8220 feeder igx-fdr-major-alarm (5018)—IGX 8400 feeder When communication between a routing node and feeder becomes normal or when feeder status changes to Clear, the routing node generates feederAlarm with one of the following trapReason codes: ipx-fdr-alarm-cleared (5005)—IPX feeder axis-fdr-alarm-cleared (5006)—MGX 8220 feeder igx-fdr-alarm-cleared (5017)—IGX 8400 feeder Note The feeder itself does not generate feederAlarm. Trap number: 20008	lastSequenceNumber svNodeGrpName trapSeverity trapReason trapFeederStatus svTrunkLocalSlot svTrunkLocalPort
physicalLineAlarm	This trap is generated whenever a physical line alarm status is received. Trap number: 20009	lastSequenceNumber svNodeGrpName trapSeverity trapReason lineStatus lineCardType lineInterface lineSlotNumber lineLineNumber linePortNumber trapLineIdString
imaTrunkAlarm	This trap is generated whenever IMA trunk alarm status is received. Trap number: 20010	lastSequenceNumber svNodeGrpName trapSeverity trapReason svTrunkStatus svTrunkCardType trapTrunkType svTrunkLocalSlot svTrunkLocalPort trapVirtualTrunkId trapTrunkIdString trapPhysicalLineIdString
imaVirtualTrunkAlarm	This trap is generated whenever IMA trunk alarm status is received. Trap number: 20012	lastSequenceNumber svNodeGrpName trapSeverity trapReason svTrunkStatus svTrunkCardType trapTrunkType svTrunkLocalSlot svTrunkLocalPort trapVirtualTrunkId trapTrunkIdString trapPhysicalLineIdString
cpuUtilizationAboveNormal	This trap is generated whenever an IGX 8400 or BPX 8600 processor CPU utilization is above the threshold. The alarm is reported from the node. The threshold is based on statistics collected about the node's performance. Caution This trap affects service. This trap is cleared by trap number 20022, cpuUtilizationNormal. Trap number: 20021	lastSequenceNumber svNodeGrpName trapSeverity trapReason
cpuUtilizationNormal	This trap is generated whenever an IGX 8400 or BPX 8600 processor CPU utilization falls back below the threshold. The alarm is reported from the node. The threshold is based on statistics collected about the node's performance. Caution This trap affects service. This trap clears trap number 20021, cpuUtilizationAboveNormal. Trap number: 20022	lastSequenceNumber svNodeGrpName trapSeverity trapReason
memoryUtilizationAbove Normal	This trap is generated whenever an IGX 8400 or BPX 8600 processor dynamic memory utilization exceeds a fixed threshold. The alarm is reported from the node. The threshold is based on statistics collected about the node's performance. Caution This trap affects service. This trap is cleared by trap number 20024, memoryUtilizationNormal. Trap number: 20023	lastSequenceNumber svNodeGrpName trapSeverity trapReason
memoryUtilizationNormal	This trap is generated whenever an IGX 8400 or BPX 8600 processor's dynamic memory utilization falls below a lower threshold, indicating that the memory allocation has returned to a safe level. The alarm is reported from the node. The threshold is based on statistics collected about the node's performance. Caution This trap affects service. This trap clears trap number 20023, memoryUtilizationAboveNormal. Trap number: 20024	lastSequenceNumber svNodeGrpName trapSeverity trapReason
busFailure	This trap is generated whenever an IGX 8400 or BPX 8600 bus fails. Caution This trap affects service. This trap is cleared by trap number 20026, busNormal. Trap number: 20025	lastSequenceNumber svNodeGrpName trapSeverity trapReason trapPeripheralUnitNumber
busNormal	This trap is generated whenever an IGX 8400 or BPX 8600 bus failure is cleared. Caution This trap affects service. This trap clears trap number 20025, busFailure. Trap number: 20026	lastSequenceNumber svNodeGrpName trapSeverity trapReason
normalSwitchEvent	This event is originated by the switch in text format whenever something occurs on a node that would interest someone responsible for node maintenance. This trap indicates that a normal event has occurred on the switch. Trap number: 1004	svNodeGrpNetName svNodeGrpName trapOccurTime trapMsgFormatTime trapTimeZone trapSeverityStr trapMsgStr
minorSwitchEvent	This event is originated by the switch in text format whenever something occurs on a node that would interest someone responsible for node maintenance. This trap indicates that a minor event has occurred on the switch. Trap number: 1005	svNodeGrpNetName svNodeGrpName trapOccurTime trapMsgFormatTime trapTimeZone trapSeverityStr trapMsgStr
majorSwitchEvent	This event is originated by the switch in text format whenever something occurs on a node that would interest someone responsible for node maintenance. This trap indicates that a major event has occurred on the switch. Trap number: 1006	svNodeGrpNetName svNodeGrpName trapOccurTime trapMsgFormatTime trapTimeZone trapSeverityStr trapMsgStr
criticalSwitchEvent	This event is originated by the switch in text format whenever something occurs on a node that would interest someone responsible for node maintenance. This trap indicates that a critical event has occurred on the switch. Trap number: 1007	svNodeGrpNetName svNodeGrpName trapOccurTime trapMsgFormatTime trapTimeZone trapSeverityStr trapMsgStr
CWM Health Monitor Traps
svProcessRestarted	This trap is sent when a process within CWM, trapSvProcessName, is restarted. This trap clears trap number 28001, svProcessNotRestarted. Trap number: 28000	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvProcessName trapSvProcessId trapSvChildProcessNumber trapSvProcessRestartCount
svProcessNotRestarted	This trap is sent when a process within CWM. trapSvProcessName, is terminated. svNetworkName indicates the network affected by this event, if the terminated process is svmain. Otherwise, svNetworkName is blank. This trap is cleared by trap number 28000, svProcessRestarted. Trap number: 28001	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvProcessName trapSvProcessId svNetworkName
svDatabaseFull	This trap is sent when CWM detects that the relational database is full. This trap is cleared by trap number 28003, svDatabaseNormal. Trap number: 28002	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapDbFullThreshold trapDbPercentFreeSpace
svDatabaseNormal	This trap is sent when CWM detects that the relational database is no longer full. This trap clears trap number 28002, svDatabaseFull. Trap number: 28003	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapDbFullThreshold trapDbPercentFreeSpace
svDiskSpaceLow	This trap is sent when CWM detects that the free disk space is running low. This trap is cleared by trap number 28005, svDiskSpaceNormal. Trap number: 28004	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapDiskSpaceLowThreshold trapAvailableMegaByte
svDiskSpaceNormal	This trap is sent when CWM detects that the free disk space is no longer low. This trap clears trap number 28004, svDiskSpaceLow. Trap number: 28005	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapDiskSpaceLowThreshold trapAvailableMegaByte
svTftpError	This trap is sent when a CWM process encounters a TFTP error in data received from a node. Trap number: 28006	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapTftpErrorType trapTftpErrorDetail, svNodeNetworkName svNodeGrpName
svRtmMaxMgrsRegistered	This trap is sent when the CWM RTM process cannot register with an agent (such as an MGX 8220/VNS node) because the limit for maximum number of Managers to register is reached. The default limit is eight Managers. Trap number: 28007	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity svNodeIpAddress svNodeGrpPlatform svNodeNetworkName svNodeGrpName
svStatisticsParsingError	This trap is generated when the CWM statsparser process encounters an error when parsing a statistics file received from a node. Trap number: 28008	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapStatsFileName
svCWMNewRole	This trap is sent when the role of the local CWM is changed. The trapSvStationRole indicates the new role of the local CWM. Trap number: 28009	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvStationRole
svCWMNewPrimary	This trap is sent when the primary is changed. The trapSvPeerStationName indicates the CWM station name of the new primary. Trap number: 28010	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svCWMGatewayAdded	This trap is sent by all running/active CWMs when there is a CWM gateway process registered with the primary CWM gateway. The trapSvPeerStationName indicates the CWM station name of the newly registered CWM gateway. Trap number: 28011	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svCWMGatewayRemoved	This trap is sent by all running/active CWMs when there is a CWM gateway process unregistered with the primary CWM gateway. The trapSvPeerStationName indicates the CWM station name of the newly unregistered CWM gateway. Trap number: 28012	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svCWMGatewayDisconnectedWithPrimary	This trap is sent by a secondary CWM when the CWM gateway process on the secondary CWM station is disconnected from the CWM gateway process on the primary. The disconnection could be the result of lost IP connectivity with the primary CWM station or the abnormal exit of the primary CWM gateway process. The trapSvPeerStationName indicates the name of the disconnected primary CWM station. Trap number: 28013	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svCWMGatewayDisconnectedWithSecondary	This trap is sent by a primary CWM when the CWM gateway process on the primary CWM station is disconnected with the CWM gateway process on a secondary. The disconnection could be the result of lost IP connectivity with the secondary CWM station or the abnormal exit of the secondary CWM gateway process. The trapSvPeerStationName indicates the name of the disconnected secondary CWM station. Trap number: 28014	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svCWMGatewayReconnectedWithPrimary	This trap is sent by a secondary CWM when the CWM gateway process on the secondary CWM station is reconnected with the CWM gateway process on the primary. The trapSvPeerStationName indicates the name of the current connected primary CWM station. Trap number: 28015	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svCWMGatewayReconnectedWithSecondary	This trap is sent by a primary CWM when the CWM Gateway process on the primary CWM station is reconnected with the CWM gateway process on a secondary. The trapSvPeerStationName indicates the name of the reconnected secondary CWM station. Trap number: 28016	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverity trapSvPeerStationName
svDatabaseInSync	This trap is sent when a process within CWM has completed synchronizing the database with the configuration in the network. CWM generates network configuration change traps that are sent to the external clients after this synchronization is complete. Trap number: 28075	lastSequenceNumber trapSvStationName trapSvStationIpAddress trapOccurTime trapTimeZone trapSeverityStr
Node Connectivity Traps
svNodeIpUnreachable	This trap is generated when CWM finds a node with the name svNodeGrpName to be IP unreachable. A node is considered unreachable when CWM cannot send IP packets to that node, even though the node might be able to communicate with other nodes in the network. This trap is cleared by trap number 25303, svNodeIpReachable. Trap number: 25302	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform svNodeModel svNodeSubtype trapOccurTime trapTimeZone trapSeverity
svNodeIpReachable	This trap is generated when CWM finds a node with the name svNodeGrpName to be IP reachable. A node is considered reachable when CWM can send IP packets to the node, even though the node might be unable to communicate with other nodes in the network. This trap clears trap number 25302, svNodeIpUnreachable. Trap number: 25303	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform svNodeModel svNodeSubtype trapOccurTime trapTimeZone trapSeverity
Object Status Change Traps
nodeAdded	This trap is generated whenever a node is added to the network. Trap number: 20050	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeId svNodeGrpPlatform svNodeModel svNodeSubtype svNodeGrpRelease
nodeDeleted	This trap is generated whenever a node is deleted from the network. Trap number: 20051	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeId svNodeGrpPlatform svNodeModel svNodeSubtype svNodeGrpRelease
nodeNameChange	This trap is generated whenever a node name is changed. Trap number: 20052	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeId svNodeGrpPlatform svNodeModel svNodeSubtype svNodeGrpRelease svNodeOldName
nodeIpAddressChange	This trap is generated whenever a node IP address is changed. Trap number: 20053	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeId svNodeGrpPlatform svNodeModel svNodeSubtype svNodeGrpRelease svNodeOldIpAddress
nodeStatusChange	This trap is generated whenever a node alarm status changes in the network. The svNodeGrpAlarmState has the values clear (1), minor (2), major (3), and unreachable (4). The svNodeGrpAlarmState is same as the node status shown in the CWM topology display map. The svNodeGrpFilteredAlarmState has the values notSupported(0), clear(1), minor(2), major(3), unreachable(4). The svNodeGrpFiltered AlarmState is same as the node filtered status shown in CWM topology display map. This trap gives the aggregate status of a node. Trap number: 20054	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeId svNodeGrpPlatform svNodeModel svNodeSubtype svNodeGrpRelease svNodeGrpAlarmState svNodeGrpFilteredAlarmState
cardAdded	This trap is generated whenever a card is added to an IGX 8400 or BPX 8600 node. Trap number: 20055	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity trapCardType trapCardSlotNumber, trapBackCardType
cardDeleted	This trap is generated whenever a card is deleted from an IGX 8400 or BPX 8600 node. Trap number: 20056	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity trapCardType trapCardSlotNumber trapBackCardType
peripheralAdded	This trap is generated whenever a peripheral is added to an IGX 8400 or BPX 8600 node. Trap number: 20057	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity trapPeripheralType trapPeripheralUnitNumber
peripheralDeleted	This trap is generated whenever a peripheral is deleted from an IGX 8400 or BPX 8600 node. Trap number: 20058	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity trapPeripheralType trapPeripheralUnitNumber
trunkAdded	This trap is generated whenever a trunk is added to an IGX 8400 or BPX 8600 node. Trap number: 20059	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity svTrunkCardType trapTrunkType svTrunkLocalSlot svTrunkLocalPort trapVirtualTrunkId trapTrunkIdString trapPhysicalLineIdString
trunkDeleted	This trap is generated whenever a trunk is deleted from an IGX 8400 or BPX 8600 node. Trap number: 20060	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity svTrunkCardType trapTrunkType svTrunkLocalSlot svTrunkLocalPort trapVirtualTrunkId trapTrunkIdString trapPhysicalLineIdString
lineAdded	This trap is generated whenever a line is added to an IGX 8400 or BPX 8600 node. Trap number: 20061	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity lineCardType trapCardSlotNumber lineInterface lineLineNumber linePortNumber trapLineIdString
lineDeleted	This trap is generated whenever a line is deleted from an IGX 8400 or BPX 8600 node. Trap number: 20062	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity lineCardType trapCardSlotNumber lineInterface lineLineNumber linePortNumber trapLineIdString
portAdded	This trap is generated whenever a port is added to an IGX 8400 or BPX 8600 node. Trap number: 20063	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity svPortAlarmPortType svPortSlot svPortLine svPortPort trapPortIdString
portDeleted	This trap is generated whenever a port is deleted from an IGX 8400 or BPX 8600 node. Trap number: 20064	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity svPortAlarmPortType svPortSlot svPortLine svPortPort trapPortIdString
cardModified	This trap is generated when a card is modified on an IGX 8400 or BPX 8600 node. When the back card (bc_type field in the CWM Card database table) is changed, this trap is generated. Trap number: 20065	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity trapCardType trapCardSlotNumber trapBackCardType trapCardStatus
trunkModified	This trap is generated when a trunk is modified on an IGX 8400 or BPX 8600 node. The trunk parameters in the CWM database packet_line table that trigger the trunkModified trap are listed below: Database Column Description b_bq_depth           Bursty data B queue depth b_bq_efcn            Bursty data B EFCN/ENCI                               threshold clp_h_thresh             CLP high dropping threshold clp_l_thresh               CLP low dropping threshold time_load                   Time stamped load units non_time                    Non-time-stamped load units v_load                        Voice load units bursty_a_load             Bursty data A load units bursty_b_load             Bursty data B load units bursty_a_cmax            Bursty data A credit max bursty_b_cmax            Bursty data B credit max Trap number: 20066	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity svTrunkCardType trapTrunkType svTrunkLocalSlot svTrunkLocalPort trapVirtualTrunkId trapTrunkIdString trapPhysicalLineIdString svTrunkStatus
portModified	This trap is generated whenever a port is modified on an IGX 8400 or BPX 8600 node. The port parameters that trigger this trap are listed below: Database Column Description port_speed                  Port speed in hundreds of                                 bits per second protocol_type           Signaling protocol type queue_depth              Port queue depth ecn_thresh                ECN threshold de_thresh                 Discard eligible threshold elmi                             Enhanced LMI                                     enabled/disabled For ATM ports, modifying following fields in the asi_port table trigger portModified trap: Database Column Description port_speed                 Port speed in hundreds of                                   bits per second prot_type                   Signaling protocol type svc_in_use                 Switched virtual circuits in                                     use There are no ports associated with voice connections. Trap number: 20067	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity svPortAlarmPortType svPortSlot svPortLine svPortPort trapPortIdString svPortState
lineModified	This trap is generated whenever a port is modified on an IGX 8400 or BPX 8600 node. Trap number: 20068	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeIpAddress svNodeGrpPlatform trapSeverity lineCardType trapCardSlotNumber lineLineNumber linePortNumber trapLineIdString
apsClearAlarm	This trap is generated whenever the APS alarm is cleared. Trap number: 20100	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsActivatedAlarm	This trap is generated whenever the APS is enabled on the line. Trap number: 20101	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsDeactivatedAlarm	This trap is generated whenever the APS is disabled on the line. Varbinds apsProtectSlot and apsProtextLine always have value 255 to indicate no protection line. Trap number: 20102	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine
apsCardFailedAlarm	This trap is generated whenever the APS card is in the alarm state. That includes alarms resulting from missing cards (protection, working, front, back) and card mismatch. This trap is cleared by trap number 20108, apsClearTrap. Trap number: 20103	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsLineFailedAlarm	This trap is generated whenever the APS configured line is in the alarm state. Reasons for the alarm state include •Line loop •Channel mismatch •Protection switch byte failure This trap is cleared by trap number 20108, apsClearTrap. Trap number: 20104	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsLineSwitchedAlarm	This trap is generated whenever the APS lines are switched. Types of switching supported: •Manual •Signal degrade high/low prior switch •Forced signal •Switch due to protection lockout on other end •Wait-to-restore switch •Exercise switch •Reverse request switch •Non-revert switch This trap is cleared by trap number 20108, apsClearTrap. Trap number: 20105	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsLineSwitchFailedAlarm	This trap is generated whenever the APS line switch fails. This trap is cleared by trap number 20108, apsClearTrap. Trap number: 20106	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsStbyLineFailedAlarm	This trap is generated whenever the APS standby line switch is in an alarm state. You can perform maintenance on a standby line before line switching occurs. This trap is cleared by trap number 20108, apsClearTrap. Trap number: 20107	lastSequenceNumber svNodeGrpNetName svNodeGrpName svNodeGrpIPAddress svNodeGrpPlatform trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
apsClearTrap	This trap is generated whenever the APS alarm is cleared. This trap contains an extra varbind to indicate previous fails. This trap clears the following traps numbers: •20103 = apsCardFailedAlarm •20104 = apsLineFailedAlarm •20105 = apsLineSwitchedAlarm •20106 = apsLineSwitchFailedAlarm •20107 = apsStbyLineFailedAlarm Trap number: 20108	lastSequenceNumber svNodeGrpName trapSeverity trapReason apsLineIdString apsWorkSlot apsWorkLine apsProtectSlot apsProtectLine apsInterface apsActiveLine
svUserConnComplete	This trap is obsoleted by trap number 25113, cwmUserConnComplete. Trap number: 25013	—
svUserConnIncomplete	This trap is obsoleted by trap number 25114, cwmUserConnIncomplete. Trap number: 25014	—
svUserConnModified	This trap is obsoleted by trap number 25115, cwmUserConnModified. Trap number: 25015	—
svUserConnectionCleared	This trap is obsoleted by trap number 25116, cwmUserConnectionCleared. Trap number: 25016	—
svUserConnectionFailed	This trap is obsoleted by trap number 25117, cwmUserConnectionFailed. Trap number: 25017	—
svUserConnectionDown	This trap is obsoleted by trap number 25118, cwmUserConnectionDown. Trap number: 25018	—
svUserConnCurrRoute	The current route has been modified. Trap number: 25019	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svCCurrRouteDesc svConnType
cwmUserConnComplete Note Traps 25113 through 25118 obsolete Traps 25013 through 25018	This trap is generated under the following conditions after the CWM database is in sync with the network: 1. A new user connection is added from any Connection Manager interface. 2. A 2-segment or 3-segment incomplete user connection becomes complete when the missing segment is added. Note When there is no shelf, a null string {..} is used. The following example is a 1-segment user connection with the segments listed: bpx1..10.1.6.16 - bpx2..10.1.6.22 The following example is a 2-segment user connection with the segments listed: bpx1.axis1.6.1.100.100 - bpx1.axis1.1.2.6.16 bpx1..10.1.6.16 - bpx2..10.1.6.22 If one of the above two segments was initially missing and is added, forming a complete user connection, the cwmUserConnComplete trap is generated. The following example is a 3-segment user connection with the segments listed: bpx1.axis1.6.1.100.100 - bpx1.axis1.1.2.6.16 bpx1..10.1.6.16 - bpx2..10.1.6.22 bpx2.axis2.1.2.6.22 - bpx2.axis1.6.3.100.101 If one of the above three segments was initially missing and is added, forming a complete user connection, the cwmUserConnComplete trap is generated. A user connection alarm status trap is also generated after the connection is created. Note This trap is generated for PVC, SPVC, HybridVC, and XPVC connections. This trap obsoletes trap number 25013, cwmUserConnComplete. This trap clears trap number 25114, cwmUserConnIncomplete. Trap number: 25113	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnType svConnDescriptor
cwmUserConnIncomplete	This trap is generated under the following conditions after the CWM database is in sync with the network: 1. A 1-segment user connection is deleted. 2. A 2-segment or 3-segment complete user connection becomes incomplete when a segment is deleted. Note When there is no shelf, a null string {..} is used. The following example is a 1-segment user connection with the segments listed: bpx1..10.1.6.16 - bpx2..10.1.6.22 The cwmUserConnIncomplete trap is generated when the above segment is deleted. The following example is a 2-segment user connection with the segments listed: bpx1.axis1.6.1.100.100 - bpx1.axis1.1.2.6.16 bpx1..10.1.6.16 - bpx2..10.1.6.22 If one of the above two segments is deleted, changing a complete into an incomplete user connection, the cwmUserConnIncomplete trap is generated. Note, no other user connection traps are generated when the remaining segment is deleted. The following example is a 3-segment user connection with the segments listed: bpx1.axis1.6.1.100.100 - bpx1.axis1.1.2.6.16 bpx1..10.1.6.16 - bpx2..10.1.6.22 bpx2.axis2.1.2.6.22 - bpx2.axis1.6.3.100.101 If one of the above three segments is deleted, changing a complete into an incomplete user connection, the cwmUserConnIncomplete trap is generated. No other user connection traps are generated when the remaining segments are deleted. Note This trap is generated for PVC, SPVC, HybridVC, and XPVC connections. This trap obsoletes trap number 25014, svUserConnIncomplete. This trap is cleared by trap number 25113, cwmUserConnComplete. Trap number: 25114	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnType svConnDescriptor
cwmUserConnModified	This trap is generated when a user connection table parameter is modified after the CWM database is in sync with the network. In a 3-segment user connection, a change to the bandwidth parameter can be reported by a routing node, as well as by a feeder node. These notifications are received asynchronously by CWM. If each of these notifications were to trigger a cwmUserConnModified trap, more than one trap would be generated. Therefore, to avoid the generating of multiple traps for a single modification, cwmUserConnModified is delayed for a configurable timeout period. Within this timeout period, all segments of the user connection are updated, as reported by different nodes, and a single cwmUserConnModified trap is generated. The default value of time to delay this trap generation is two minutes. The parameters that cause the cwmUserConnModified trap to be generated are from the following tables in the CWM database: User Connection Table •l_per_util—Local end percent utilization •r_per_util—Remote end percent utilization •l_mc_type—Local multicast type flag (for multicast connections) •r_mc_type—Remote multicast type flag (for multicast connections) •l_end_nni –-1: unknown port type –1: nni port type –0: non nni port type •r_end_nni –-1: unknown port type or incomplete PVC –1: nni port type –0: non nni port type	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnRemAbitStatus svConnRemAISStatus svConnRemOAMLoopback Status svConnRemConditionedStatus svConnType svConnDescriptor
cwmUserConnModified (continued)	Connection Table •rate_info –bit(7) Fast EIA Enabled(1)/Disabled (0) –bit(6) DFM Enabled(1)/Disabled(0) –bits(5-3) Encoding: undefined(0) 7/8(1) 8/8(2) 8/8l(3) 7/8E(4) –bit(2-0) Load Type: undefined(0) voice(1) non-TS(2) TS(3) Bursty Data A(4) Bursty Data B(5) •min_bw—minimum guaranteed bandwidth in hundreds of bits per second. •qir—quiescent information rate in hundreds of bits per second. •pir—peak information rate in hundreds of bits per second •vc_q_depth—vc queue depth in bytes •vc_q_thresh—vc queue threshold in bytes (Ingress queue ECN threshold) •vc_de_thresh—Ingress queue DE threshold •eg_q_depth—Egress queue depth •eg_q_de_thresh—Egress queue DE threshold •eg_q_ecn_thresh—Egress queue ECN threshold •de_tag_ena—DE tagging enable/disable •cmax—credit max for a connection in packets •conn_info_flag—connection information flag –bit(7) ForeSight Enabled (1)/Disabled (0) bit(6) SNA priority High (1)/Low (0) bit(5-0) unused •cir—committed information rate in hundreds of bits per second •ibs—initial burst size •bc—burst-committed in bytes	—
cwmUserConnModified (continued)	Connection Table (continued) •be—burst-excess in bytes •eg_q_select—Egress queue selection •channel_type—Channel type (currently used by connections terminating on FRSM) –1 = FR-Network interworking –2 = FR-Service interworking transparent –3 = FR-Service interworking trans late –4 = FR-FUNI –5 = Frame-forwarding •fecn—Forward explicit congestion notification •de_to_clp_map—DE to CLP map –2 = SET DE 0 and SET CLP 0 –3 = SET DE 1 and SET CLP 1 •clp_to_de_map—CLP to DE map –2 = SET DE 0 and SET CLP 0 –3 = SET DE 1 and SET CLP 1 •rate_type—For voice/data connections only rate type: 0-13 SET to -1 for other connection types. •rate_fctr—For data connections only: rate factor: (1-8) SET to -1 for other connection types. •mfs—MFS •ccdv—CCDV •clp_hi—CLP High threshold •smpl_per_pckt—For data connections only: sample per packet: (1, 2, 4, 5, 10). SET to -1 for other connection types.	—
cwmUserConnModified (continued)	ATM Connection Table •mir—minimum information rate in 100 bps •qir—quiescent information rate in 100 bps •pir—peak information rate in 100 bps •cir—committed information rate in 100 bps •con_info_flag—connection information flag –bit(7) ForeSightEnabled (1)/Disabled (0) –bit(6) SNA priority High (1) Low (0) bit (5-0) are unused •ibs—Initial burst size •vc_q_depth—VC queue depth in bytes •efci_q_thresh—EFCI queue threshold •cbs—CBS •clp_hi—Cell loss priority (CLP) high threshold •clp_lo—CLP low threshold •fst_rate_up—ForeSight rate up •fst_rate_dn—ForeSight rate down •fst_fast_dn—ForeSight fast down •fst_qir_to—ForeSight QIR timeout •fst_max_adj—ForeSight maximum adjustment •clp_tagging—CLP Tagging (enable = 2, disable = 1) •upc_enable—UPC Enable (enable = 2, disable = 1) •rm_enable—RM Enable (enable = 2, disable = 1) •u_fgcra—FGCRA (enable = 2, disable = 1) •u_scr_policing—SCR Policing (CLP0 = 1, CLP0 and CLP1 = 2, off = 3) •u_pcr01—PCR0+1 •u_ccdv01—CCDV0+1 •u_ccdv0—CCDV0 •nrm—NRM •tbe—TBE •frtt—FRTT	—
cwmUserConnModified (continued)	ATM Connection Table (continued) •vsvd—VSVD •mc_type—Multicast type –0 = normal –1 = root –2 = leaf CESM Connection Table •max_buf_size—Maximum size of the reassembly buffer •cell_loss_period—Cell loss integration period (milliseconds) •cdv_rx_t—Maximum cell arrival jitter tolerated by the reassembly process (in 10 microsecond increments) •cbr_clock_mode—Clocking mode of the CBR service –1 = synchronous –2 = srts –3 = adaptive •cas—Specifies if CAS bits are carried by the service. –1 = basic –2 = e1Cas –3 = ds1SfCas –4 = ds1EsfCas –5 = ccs •partial_fill number of user octets per cell, if partial cell fill is used Value range: 0-47 •idle_detection idle Detection (CESM-8) Values: disable (1) and onhook (2) •onhook_code—Onhook Code (CESM-8) Value range: 0-15 •idle_suppression—Idle Suppression (CESM-8) Values: disable (1) and enable (2)	—
cwmUserConnModified (continued)	Logical Connection Table •cos—Class of Service –0 = False –1 = True •avoid_trk_type—Trunk types to avoid –1 = None –2 = Satellite –3 = Terrestrial •avoid_zcs—Avoid ZCS trunks –0 = False –1 = True This trap obsoletes trap number 25015, svUserConnModified. Note This trap is generated for PVC, SPVC, and HybridVC connections. Trap number: 25115	—
cwmUserConnectionCleared	User connection has recovered from failed or downed state after the CWM database is in sync with the network. Note This trap is generated for PVC, SPVC, HybridVC, and XPVC connections. This trap obsoletes trap number 25016, svUserConnectionCleared. This trap clears the following trap numbers: •25117 = cwmUserConnectionFailed •25118 = cwmUserConnectionDown Trap number: 25116	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnRemAbitStatus svConnRemAISStatus svConnRemOAMLoopback Status svConnRemConditionedStatus svConnType svConnDescriptor
cwmUserConnectionFailed	User connection has failed after the CWM database is in sync with the network. Note This trap is generated for PVC, SPVC, HybridVC, and XPVC connections. This trap obsoletes trap number 25017, svUserConnectionFailed. This trap is cleared by trap number 25116, cwmUserConnectionCleared. Trap number: 25117	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnRemAbitStatus svConnRemAISStatus svConnRemOAMLoopback Status svConnRemConditionedStatus svConnType svConnDescriptor
cwmUserConnectionDown	User connection has been downed after the CWM database is in sync with the network. Note This trap is generated for PVC, SPVC, HybridVC, and XPVC connections. This trap obsoletes trap number 25018, svUserConnectionDown. This trap is cleared by trap number 25116, cwmUserConnectionCleared. Trap number: 25118	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnRemAbitStatus svConnRemAISStatus svConnRemOAMLoopback Status svConnRemConditionedStatus svConnType svConnDescriptor
cwmTrapConnAdded	A new end-to-end connection is added from any Connection Manager interface (GUI or Service Agent). A connection alarm status trap is also generated. Note This trap is generated only for XPVC connections. Trap number: 25210	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnType svConnDescriptor svConnProtocolType
cwmTrapConnDeleted	A connection is deleted from any Connection Manager interface (GUI or Service Agent). Note This trap is only generated for XPVC connections. Trap number: 25211	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnType svConnDescriptor svConnProtocolType
cwmTrapConnDescModified	Connection descriptor for the end-to-end connection is modified. Note This trap is generated only for XPVC connections. Trap number: 25212	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnRemoteEndPt svConnRemoteStr svConnAlarmRemoteEndNNI svConnType svConnDescriptor svConnProtocolType
cwmUser1EndConnComplete	User connection described by the endpoints becomes complete. This trap is generated after the CWM database is in sync with the network. Note This trap is only for single-ended SPVCs. Trap number: 25123	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnType svConnDescriptor
cwmUser1EndConn Incomplete	User connection described by the endpoints changes from being complete to incomplete. This trap is generated after the CWM database is in sync with the network. Note This trap is only for single-ended SPVCs. Trap number: 25124	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnType svConnDescriptor
cwmUser1EndConnModified	This trap is generated when a user connection parameter is modified after the CWM database is in sync with the network. Note This trap is only for single-ended SPVCs. Trap number: 25125	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnType svConnDescriptor
cwmUser1EndConnection Cleared	User connection has recovered from a failed or downed state after the CWM database is in sync with the network. Note This trap is only for single-ended SPVCs. Trap number: 25126	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnType svConnDescriptor
cwmUser1EndConnection Failed	User connection has failed after the CWM database is in sync with the network. Note This trap is only for single-ended SPVCs. Trap number: 25127	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnType svConnDescriptor
cwmUser1EndConnection Down	User connection has been downed after the CWM database is in sync with the network. Note This trap is only for single-ended SPVCs. Trap number: 25128	lastSequenceNumber svConnLocalEndPt svConnLocalStr svConnAlarmLocalEndNNI svConnOpStatus svConnLocAbitStatus svConnLocAISStatus svConnLocOAMLoopbackStatus svConnLocConditionedStatus svConnType svConnDescriptor
Virtual Switch Traps
controllerAdded	This trap is generated whenever a virtual switch (VSI controller) is added to the network. Trap number: 30000	lastSequenceNumber svNodeGrpNetName svNodeGrpName vsiCtrlrName vsiCtrlrType vsiCtrlrIpAddress vsiRscPartId
controllerDeleted	This trap is generated whenever a virtual switch (VSI controller) is deleted from the network. Trap number: 30001	lastSequenceNumber svNodeGrpNetName svNodeGrpName vsiCtrlrName vsiCtrlrType vsiCtrlrIpAddress vsiRscPartId
controllerModified	This trap is generated whenever a VSI controller is modified in the network. Trap number: 30002	lastSequenceNumber svNodeGrpNetName svNodeGrpName vsiCtrlrName vsiCtrlrType vsiCtrlrIpAddress vsiRscPartId
vsiInterfaceAdd	This trap is generated whenever a VSI logical interface is added. Trap number: 30100	lastSequenceNumber vsiRscPartId svNodeGrpNetName svNodeGrpName svPortSlot svPortLine svPortPort trapVirtualTrunkId
vsiInterfaceDeleted	This trap is generated whenever a VSI logical interface is deleted. Trap number: 30101	lastSequenceNumber vsiRscPartId svNodeGrpNetName svNodeGrpName svPortSlot svPortLine svPortPort trapVirtualTrunkId
vsiInterfaceModified	This trap is generated whenever a VSI logical interface is modified. Trap number: 30102	lastSequenceNumber vsiRscPartId svNodeGrpNetName svNodeGrpName svPortSlot svPortLine svPortPort trapVirtualTrunkId
cwmfrNetworkCommFailure	This trap is generated internally by the CWM subsystems when the subsystem detects a problem while communicating with the network. The cwmfrNetworkCommFailureCode object provides the following reason codes for network communication failure traps: •1 = ftp-session-fail •2 = ftp-transfer-fail •3 = net-link0-down •4 = net-link1-down •5 = ntsmgr-net-fail •6 = nts-trap-loss Trap number: 28101	lastSequenceNumber trapSeverity cwmfrNetworkCommFailure Code svNodeId svNodeIpAddress trapSvProcessName cwmfrSearchableTrap Description cwmfrTrapDescription
cwmfrNetworkProcessing Error	This trap is generated internally by CWM subsystems when the subsystem detects a problem while failing to process network events. The cwmfrNetworkProcessingErrorCode object provides the following reason codes for network processing failure traps: •1 = no-nw-partition •2 = no-node-revision •3 = no-node-subscription •4 = incorrect-msg •5 = ftp-file-size-mismatch •6 = tftp-transfer-fail •7 = upload-file-error •8 = minus2-trap •9 = card-lost-trap •10 = snmp-retry-exceeded •11 = ftp-retry-exceeded •12 = syncup-failed •13 = stats-file-error •14 = stats-file-transfer-error •15 = snmp-throttle-error •16 = backoff-failed Trap number: 28102	lastSequenceNumber trapSeverity cwmfrNetworkProcessingError Code svNodeId svNodeIpAddress trapSvProcessName cwmfrSearchableTrap Description cwmfrTrapDescription
cwmfrNetworkCommTimeout	This trap is generated internally by CWM subsystems when the subsystem detects a timeout while communicating with the network. The cwmfrNetworkCommTimeoutCode object provides the following reason codes for network timeout failure traps: •1 = snmp-timeout •2 = ftp-session-timeout •3 = ftp-transfer-timeout •4 = tftp-transfer-timeout Trap number: 28103	lastSequenceNumber trapSeverity cwmfrNetworkCommTimeout Code svNodeId svNodeIpAddress trapSvProcessName cwmfrSearchableTrap Description cwmfrTrapDescription
cwmfrNetworkConfigurationError	This trap is generated when CWM detects invalid network configuration which could result in inconsistent topology or failed sync-up. The cwmfrNetworkConfigurationErrorCode object provides the following reason codes for network configuration error traps: •1 = invalid-network-conf •2 = duplicate-node-name •3 = duplicate-ip-addr •4 = duplicate-trunks •5 = invalid •6 = duplicate-node Trap number: 28104	lastSequenceNumber trapSeverity cwmfrNetworkConfiguration ErrorCode svNodeId svNodeIpAddress cwmfrSearchableTrap Description cwmfrTrapDescription
cwmfrCwmWatchdogError	This trap is generated internally by CWM watchdog process when it detects any process start failures. The cwmfrCwmWatchdogErrorCode object provides the following reason codes for CWM watchdog error traps: •1 = process-restarting •2 = giveup-process-restart Trap number: 28201	lastSequenceNumber trapSeverity cwmfrCwmWatchdogErrorCode trapSvProcessName cwmfrTrapDescription
cwmfrCwmGatewayStatus	This trap is generated when CWM gateway process connects or disconnects with its peers. The cwmfrCwmGatewayStatusCode object provides the following reason codes for CWM gateway status traps: •1 = primary-disconnected •2 = secondary-disconnected •3 = primary-reconnected •4 = secondary-reconnected Trap number: 28202	lastSequenceNumber trapSeverity cwmfrCwmGatewayStatusCode trapSvStationName cwmfrTrapDescription
cwmfrCwmInternalError	This trap is generated internally by CWM subsystems when the subsystem detects internal failures. The cwmfrCwmInternalErrorCode object provides the following reason codes for CWM internal error traps: •1 = unknown-error •2 = initialization-error •3 = spawn-child-error •4 = configuration-error •5 = communication-error-ilog •6 = communication-error-shared-mem •7 = communication-error-corba •8 = tftpmgr-queue-full Trap number: 28203	lastSequenceNumber trapSeverity cwmfrCwmInternalErrorCode trapSvProcessName cwmfrSearchableTrap Description cwmfrTrapDescription
cwmfrCwmDatabaseError	This trap is generated internally by CWM subsystems when the subsystem detects a database error. The cwmfrCwmDatabaseErrorOpCode object provides the following reason codes for CWM database error traps: •1 = unknown •2 = initialization-error •3 = insert •4 = update •5 = delete •6 = select Trap number: 28204	lastSequenceNumber trapSeverity cwmfrCwmDatabaseError OpCode trapSvProcessName cwmfrSearchableTrap Description cwmfrTrapDescription
cwmfrCwmSystemError	This trap is generated internally by CWM subsystems when the subsystem detects system failures. The cwmfrCwmSystemErrorCode object provides the following reason codes for CWM system error traps: •1 = disk-space-low •2 = disk-space-normal •3 = db-space-low •4 = db-space-normal •5 = swap-space-low •6 = swap-space-normal Trap number: 28301	lastSequenceNumber trapSeverity cwmfrCwmSystemErrorCode cwmfrTrapDescription

Virtual Switch Table

The vsiSwitchGrpTable is used to configure a virtual switch (see Table B-11).

Table B-11 vsiSwitchGroupTable 

Trap Name	Description	Variables
vsiSwitchNum	Virtual switch number. Access: read-only	—
vsiCtrlrName	Name assigned to the VSI controller. Access: read-only	Display string: 0-32 characters
vsiCtrlrType	Controller type. Access: read-only	1 = par 2 = pnni 3 = tag
vsiCtrlrIpAddress	IP address assigned to the VSI controller. Access: read-only	—
vsiCtrlrId	VSI controller ID. Access: read-only	—
vsiCtrlrRscPartId	VSI resource partition ID. Access: read-only	—

VSI Resource Partition Table

The vsiIfCnfRscPartTable contains objects for configuring virtual switch interface (VSI) resource partitions (see Table B-12).

Table B-12 VSI Interface Resource Partition Table 

Trap Name	Description	Variables
vsiRscPartIfNum	VSI logical interface number. Access: read-only	—
vsiRscPartID	VSI resource partition ID. Access: read-only	—
vsiIfRscPrtMinBandwidth	Minimum bandwidth allocated to this logical interface. Access: read-write	Range: 0-1412830
vsiIfRscPrtMaxBandwidth	Maximum bandwidth allocated to this logical interface. Access: read-write	Range: 0-1412830
vsiIfRscPrtVpiLow	Beginning of the VPI range reserved for this partition. Access: read-write	Range: 0-4095
vsiIfRscPrtVpiHigh	End of the VCI range reserved for this partition. Access: read-write	Range: 0-4095
vsiIfRscPrtVciLow	Beginning of the VCI range reserved for this partition. Access: read-write	Range: 0-65535
vsiIfRscPrtVciHigh	End of the range reserved for the this partition. This field is valid only for logical interfaces configured with a single VPI. Access: read-write	Range: 0-65535
vsiIfRscPrtMinChans	Minimum number of channels that is available to the controller. Access: read-write	Range: 0-32767
vsiIfRscPrtMaxChans	Maximum number of channels that is available to the controller. Access: read-write	Range: 0-32767