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MGX 8800 Series Command Line Interface
MGX 8800 Series Command Line Interface
The preferred tools for configuring, monitoring, and controlling an MGX 8800 series switch are the CiscoView and Cisco WAN Manager applications for equipment management and connection management, respectively. (The Cisco WAN Manager application is the former Cisco StrataView Plus application with the equipment management removed.) The command line interface (CLI) also provides access to an MGX 8800 series switch and is highly applicable during initial installation, troubleshooting, and any situation where low-level control is useful.
The MGX 8800 series commands in the tables that follow are divided by major functional group. Each table shows the complete name of the command and the cards for which the command is valid. For further reference, check the Installation and Configuration document for your specific switch type. The Installation and Configuration document provides conceptual information about how the Cisco MGX 8800 series switches can best implement network services in your network configuration. Examples of usage for the more common commands appear in the configuration chapters of this manual.
The command line prompt shows the name of the switch, the number of the switch (which is always "1"), the slot number and type for the current card, and whether the card is in the active ("a") or standby state ("s"). The following is an example of the command line prompt:
excel.1.6.AUSM.a >
In this case, the current card is an active AUSM in slot 6, and the name of the node is "excel."
The command notation and argument parameters follow standard programming convention: a space separates the command and each parameter; variables have an italicized typeface; required arguments appear within "<>" marks; optional parameters appear within square brackets ("[ ]"); and a vertical bar (|) represents the logical OR function.
Note
You must type all command arguments then press Return or Enter rather than enter one parameter at a time.
When you enter a command with no parameters, a usage message appears. This message shows syntax and ranges for the applicable command parameters.The list of commands for the common equipment cards PXM and SRM appear in . These commands are available when you log into the PXM. The Portable AutoRoute (PAR) commands appear in . Applicable service module commands become available when you switch to a card by executing the cc command. The list of service module commands appear in . Many commands apply to both the common equipment cards and the service modules.
?
Use the ? command to view all commands associated with the current card, and to view a list of commands associated with a truncated command entry.
Full Name
Help
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM
Syntax
? [command]
Syntax Description
Related Commands
help
Attributes
Log: No State: Any Privilege: Any User
Examples
This section contains the following examples.
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Example View all commands associated with a partial command entry string
raviraj.1.7.PXM.a > ? conAvailable commands------------------addconclrconcntclrconcntscnfcondcondbdelcondspcondspconcntdspconsshellConntstcontstconsegraviraj.1.7.PXM.a >Example View all commands associated with the current card
System response for the ? command is identical to that when executing the help command. See the examples in the "help" section beginning on page 393.
abort
Use the abort command to stop the upgrade process and retun to the previous firmware version.
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Refer to to see the relationship of the abort command compared with other firmware commands.
Figure 1-1 Firmware-related Commands
Full Name
Abort
Card(s) on Which This Command Executes
PXM
Syntax
abort <version>
Syntax Description
A system response does not occur unless an error is detected.
Related Commands
dspupgrade, rstupgrade, newrev, dspfwrevs, printrev, commit, copy, install
Attributes
Log: No State: Active Privilege: Any User
Example Abort loading firmware 1.1.10
NODENAME.1.7.PXM.a > abort 1.1.10this may take a while ...abort command completed okThis card will be reset, the other will become active.Example Errors loading firmware (multiple cases)
NODENAME.1.8.PXM.a > abort 1.1.11cannot be in 'upgrade idle', must be in 'upgrade newrev' or 'upgradeinstall'ERR: command "abort" failedNODENAME.1.7.PXM.a > abort 1.1.111.1.11 is not the old version 1.1.10aaERR: command "abort" failedacqdsx3bert
Use the acqdsx3bert command to find out if a BERT session already exists on the selected MGX 8800 series switch bay.
Full Name
Acquire DS3 BERT
Card(s) on Which This Command Executes
FRSM 2CT3, CESMT3
Syntax
acqdsx3bert
Related Commands
cnfdsx3bert, dspdsx3bert, moddsx3bert, startdsx3bert, xcnfdsx3bert, xdspdsx3bert
Attributes
Log: No State: Active Privilege: Any User
Example Acquire the current BERT session
NODENAME1.1.21.CESMT3.a > acqdsx3bertdspdsx3BertCntrs :BCRunning : 00BCStorage : 0BECRunning : 00BECStorage : 0DSX3 BERT in SyncNODENAME1.1.21.CESMT3.a >addapsln
Use the addapsln command to set Automatic Protection Switching (APS) on a specified line for the current PXM.
APS is a SONET switching mechanism that routes traffic from working lines to protect them in case of a line card failure or fiber cut.
To set APS parameters, use the cnfapsln command following the addapsln command.
Full Name
Add APS to a Line
Card(s) on Which This Command Executes
PXM
Syntax
addapsln <workline> <workslot> <protectline> <protectslot> <archmode>
Syntax Description
Related Commands
cnfapsln, delapsln, dspapsln, switchapsln
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Add APS Protection line 1 on slot 8 to APS Working line1 on slot 7. Set the APS architect mode on the working/protection line pair to 1+1
spirit4.1.8.PXM.a > addapsln 1 7 1 8 2spirit4.1.8.PXM.a >addaimgrp
Use the addaimgrp command to set an AIMUX group on the current AUSM.
Full Name
Add IMA Group
Card(s) on Which This Command Executes
AUSM
Syntax
addaimgrp <group_num> <port_type> <list_of_links> minNumLinks
Syntax Description
Related Commands
delaimgrp, cnfaimgrps, dspaimgrp, dspaimgrps
Attributes
Log: Yes State: Active Privilege: 1-2
Note
Example Add IMA group 2 as UNI with lines 3, 4, and 5
spirit4.1.18.PXM.a > addaimgrp 2 3.4.5spirit4.1.18.PXM.a >A system response does not occur unless an error is detected.
addcdrscprtn
Use the addcdrscprtn command to set card-level resource partitions.
Note
The resource you can partition at the card level is the number of connections available to a network controller such as PAR.
With card-level partitioning:
•
•
describes the effects of each of three usages of addcdrscprtn.
In addition to the definitions in , note the following characteristics of this command:
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Full Name
Add Card Resource Partition
Card(s) on Which This Command Executes
PXM, FRSM, CESM, VISM
Syntax: PXM
addcdrscprtn <ctrlr_num> <num_lcns>
Syntax Description
ctrlr_num
Value to set controller type.
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num_lcns
Number of available GLCNs, in the range 0 - 32767.
Syntax: FRSM
addcdrscprtn <controller> <numOfLcnAvail>
Syntax Description
Syntax: CESM
addcdrscprtn <controller> <numOfLcnAvail>
Syntax Description
controller
Value to set controller type.
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numOfLcnAvail
Maximum number of LCNs, in the range 0-248.
Related Commands
cnfcdrscprtn, dspcdrscprtn, delcdrscprtn, cnfcdrsctype
Example On the current PXM, change the card-level partitioning to give 10000 GLCNs to PAR and 10000 GLCNs to Tag. Note that the value for PNNI currently is 0
spirit4.1.8.PXM.a > addcdrscprtn 10000 0 10000spirit4.1.8.PXM.a >addchan
Use the addchan command to configure channels on the current PXM, FRSM, AUSM, or CESM. The syntax for using addchan on an AUSM differs from that used on all other cards. Refer to 1-Syntax: AUSM for guidelines.
Full Name
Add Channel
Card(s) on Which This Command Executes
PXM, FRSM (8T1/E1, HS1/B, VHS), AUSM, CESM
Related Commands
delchan, dspchan, dspchans
Attributes
Log: No State: Any Privilege: Any
Syntax: PXM
addchan <LCN> <if_num> <conn_type> <vpi> <vci> <serv_type> <y_vpi> <y_vci> <y_nsap> <chan_master>
Syntax Description
Syntax: FRSM-8T1/E1
addchan <chan> <port> <dlci> <cir> <chan_type> [CAC] <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
Syntax Description
Syntax: FRSM-HS1/B
addchan <chan_num> <port_num> <dlci_num> <cir> <chan_type> [CAC] <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
Syntax Description
Syntax: FRSM-VHS
addchan <chan> <port> <dlci> <cir> <chan_type> <serv_type> [CAC_enable] <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
Syntax Description
Syntax: AUSM
addchan <channel number> <connection type> <port number> <vpi> <vci> <service type> <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
Syntax Description
Example Add a VCC connection to channel 16 on port 1 with vpi=1, vci=1, ABR service type, and an egress queue number of 1
spirit4.1.18.AUSM.a > addchan 16 2 1 1 1 3 1 spirit4.1.18.AUSM.a >Syntax: CESM-8T1E1
addchan <chan_num> <port_num> <sig_type> <partial_fill> <cond_data> <cond_signalling> [mastership | locnsap | rmtvpi | rmtvci | rmtnsap]
Syntax Description
Syntax: CESM-T3E3
addchan <chan_num> <port_num> <cond_sig> <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
Syntax Description
Attributes
Log: Yes State: Active Privilege: 1-2
addchanloop
Use the addchanloop command to configure a channel loopback to the current FRSM or AUSM card. This command causes the channel to loop at the Segmentation and Reassembly (SAR) stage.
Full Name
Add a Channel Loopback
Card(s) on Which This Command Executes
FRSM, AUSM
Syntax: FRSM
addchanloop <chan_num>
Syntax Description
chan_num
Channel number to be used for the loopback on the current card.
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Syntax for AUSM-8T1E1
addchanloop <port.VPI.VCI | ChanNum>
Syntax Description
port.VPI.VCI
Port range = 1-n, as appropriate for the physical installation.
VPI range = 1-4095.
VCI range = 1-65535.
ChanNum
Channel number, in the range 16-1015.
Related Commands
delchanloop, tstcon, tstdelay
Attributes
Log: Yes State: Active Privilege: 1-4
Example Adding channel loopback onto channel number 21
s1.1.12.AUSMB8.a > addchanloop 21
Example Adding channel loopback onto port 2, VPI 1, VCI 1
s1.1.12.AUSMB8.a > addchanloop 2.1.1addcon
Use the addcon command to configure connectivity to the current card. The addcon command is preferable to addchan for adding a connection because addcon does not require the NSAP addresses.
Command execution includes a specification of the endpoint as either the master or the slave. Execute addcon first at the slave end, then the master end. Note the syntax for the master end includes a parameter SlaveConID. Rather than a single number, SlaveConID is the node name, slot number, port number, and connection identifier (if applicable) of the slave end.
Note
Full Name
Add Connection
Card(s) on Which This Command Executes
PXM, FRSM, CESM, AUSM
Related Commands
delcon, dspcons, dspcon
Attributes
Log: Yes State: Active Privilege: Any
Syntax: PXM
addcon <port_no> <conn_type> <local_VPI> <local_VCI> <service> [CAC] [mastership] [remoteConnId]
Syntax Description
Syntax: FRSM-8T1/8E1
addcon <port number> <DLCI> <CIR> <channel type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
Syntax Description
Syntax: FRSM-2CT3
addcon <port number> <DLCI> <CIR> <channel type> <egress service type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
Syntax Description
Syntax: FRSM-2T3/2E3
addcon <port number> <DLCI> <CIR> <channel type> <egress service type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
Syntax Description
Syntax: FRSM-HS2
addcon <port number> <DLCI> <CIR> <channel type> <egress service type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
Syntax Description
Syntax: AUSM
addcon slave | master <port number> <vpi> <vci> <Conn type> <Service Type> [PAR | PNNI]
Syntax Description
Example Add a VCC connection to channel 16 on port 2 with vpi=1, vci=1, ABR service type, and an egress queue number of 1
spirit4.1.18.AUSM.a > addcon 16 2 1 1 1 3 1 spirit4.1.18.AUSM.a >A system response does not occur unless an error is detected.
Syntax: CESM 8T1/E1
addcon <port number> <signalling type> <partial_fill> <cond_data> <cond_signalling> <controller_type> <mastership> <RemoteEndConID>]
Syntax Description
addendpt
Use the addendpt command to set the endpoints on the VISM card. An endpoint is a logical port that consists of one or more DS0s. It resembles the logical port on the channelized FRSM or CESM card. The ds1_num and the ds0_list are used to create the endpoint ID. The SU requires the endpoint ID to send the Create Connection (CRCX) command of the SGCP protocol to the VISM.
Full Name
Add End Point
Card(s) on Which This Command Executes
VISM
Syntax
addendpt <endpoint_num> <ds1_num> <ds0_list>
Syntax Description
Related Commands
None
Attributes
Log: Yes State: Active Privilege: Any
Example Add endpoint number 1 to physical line 1. This endpoint uses DS0 1
spirit4.1.28.VISM.a > addendpt 1 1 1spirit4.1.28.VISM.a >A system response does not occur unless an error is detected.
addimagrp
Use the addimagrp command to configure an IMA group for the current AUSM.
Full Name
Add IMA Group
Card(s) on Which This Command Executes
AUSM
Syntax
addimagrp <group_num> <port_type> <list_of_links>
Syntax Description
Related Commands
dspimagrp, dspimagrpcnt, dspimagrps, dspimainfo, dspimalncnt
Attributes
Log: Yes State: Active Privilege: 1-2
Example Add IMA group 2 as UNI with lines 3, 4, and 5
spirit4.1.88.AUSM.a > addimagrp 2 1 3.4.5 spirit4.1.88.AUSM.a >addlink
Use the addlink command to configure a link between a T1 line within a T3 line on a SRM-3T3 card and a slot and line number on a T1 service module.
Full Name
Add Link
Card(s) on Which This Command Executes
PXM
Syntax
addlink <T3 LineNum> <T1Slot> <Number of T1s> <TargetSlotNum> <TargetSlotLineNum> <T3LineNume>
Syntax Description
Related Commands
dsplink, dellink
Attributes
Log: No State: Active Privilege: Any
Example Add a link between the T1 line 1 within T3 line 2 on the SRM-3T3 card in slot 15 and T1 line number 5 on the T1 service module in slot 3
spirit4.1.8.PXM.a > addlink 15.2 1 3 5spirit4.1.8.PXM.a >addlmiloop
Use the addlmiloop command to stop sending LMI connection status messages to the BPX feeder trunk. This command should be used in conjunction with addfdrlp on the BPX. This command can be used only if a feeder trunk exists.
After you have executed the addlmiloop command on the MGX 8800 series switch and the addfdrlp command on the BPX series switch, use the dsplmistats command on the BPX switch. The dsplmistats command shows the LMI messages exchanged between the BPX series switch and the MGX 8800 series switch. The LMI messages will not show an increase after LMI looping is implemented.
Figure 1-2 Status messages halted between a MGX 8800 series switch and a BPX switch
Full Name
Add Line
Card(s) on Which This Command Executes
PXM
Syntax
addlmiloop <slot> <port>
Syntax Description
Related Commands
dellmiloop, dsplmiloop
Attributes
Log: No State: Active Privilege: 1
Example Add an LMI loopback line numbered 1 to the current card (the PXM in slot 8)
spirit4.1.8.PXM.a > addlmiloop 1 spirit4.1.8.PXM.a >Example Add a feeder loop on the BPX
addfdrlp 5.5Example Display LMI loop
spirit4.1.8.PXM.a > dsplmiloopTRK IN LMI LOOP-------------------1.8 YesExample Display LMI statistics for the BPX; number of LMI messages in the statistics doesn't increase
VPI.VCI: 3.31 Lmi enabled Lmi polling enabledInvalid Pdu Rx: 0 Status Polling Timer (T396) : 10Invalid Pdu Len Rx: 14 Status Enquiry Timer (T393) : 10Unknown Pdu Type Rx: 0 Max Status Enquiry Retry (N394): 5Unknown IE Type Rx: 4 Update Status Timer (T394) : 10Bad Transaction Rx: 0 Max Update Status Retry (N395) : 5Status Rx: 46504 Spc Polling Timer : 2Status Enq Tx: 46546 Spc Retry Timer : 0Status Enq Rx: 92014 Spc Retry Counter : 1Status Tx: 92014 Node Status Retry Timer : 0Status Ack Rx: 185 Node Status Retry Counter : 0Update Status Tx: 297 Node Status Polling Timer : 8Update Status Rx: 203Status Ack Tx: 203VPI.VCI: 3.31 Lmi enabled Lmi polling enabledInvalid Pdu Rx: 0 Status Polling Timer (T396) : 10Invalid Pdu Len Rx: 14 Status Enquiry Timer (T393) : 10Unknown Pdu Type Rx: 0 Max Status Enquiry Retry (N394): 5Unknown IE Type Rx: 4 Update Status Timer (T394) : 10Bad Transaction Rx: 0 Max Update Status Retry (N395) : 5Status Rx: 46511 Spc Polling Timer : 0Status Enq Tx: 46553 Spc Retry Timer : 0Status Enq Rx: 92028 Spc Retry Counter : 1Status Tx: 92028 Node Status Retry Timer : 0Status Ack Rx: 185 Node Status Retry Counter : 0Update Status Tx: 297 Node Status Polling Timer : 9Update Status Rx: 203Status Ack Tx: 203addln
Use the addln command to activate an OC-12, OC-3, T3, or E3 line on the current card.
Full Name
Add Line
Card(s) on Which This Command Executes
PXM, FRSM-series, AUSM, SRM-3T3, CESM-series, VISM
Syntax: PXM
addln -ds3 <line number> | -e3 <line number> | -sonet <line number>
Syntax Description
Note
Syntax: FRSM (8T1, 2CT3, HS1/B), AUSM, SRM, CESM, VISM
addln <line_num>
Syntax Description
line_num
Line number, in the range appropriate for the interface.
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Syntax: AUSM (8T1/E1, IMATM-T3T1/E3E1), SRM, CESM, VISM
addln <line_num>
Syntax Description
Related Commands
cnfln, delln, dspln
Attributes
Log: Yes State: Active Privilege: 1 (Any on PXM)
Example Add a line numbered 1 to the current card (the PXM in slot 8)
spirit4.1.8.PXM.a > addln 1
spirit4.1.8.PXM.a >addlnloop
Use the addlnloop command to set a specified line in loopback state on the current card.
Full Name
Add Line Loop
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM
Related Commands
dellnloop
Attributes
Log: Yes State: Active Privilege: Service (Any on PXM)
Syntax: PXM
addlnloop <-ds3 | -e3 | -sonet> <line number>
Syntax Description
Syntax: FRSM, AUSM, CESM
addlnloop <line_num>
Syntax Description
addlns2aimgrp
Use the addlns2aimgrp command to add lines to an existing AIMUX group.
Full Name
Add Lines to an AIM Group
Card(s) on Which This Command Executes
AUSM
Syntax
addlns2aimgrp <grp_num> <list_of_lines>
Syntax Description
Related Commands
dellnsfmaimgrp
Attributes
Log: Yes State: Active Privilege: 1-2
Example Add lines 1 and 2 to IMA group 2
spirit4.1.18.AUSM.a > addlns2aimgrp 2 1.spirit4.1.18.AUSM.a >addport
Use the addport command to add a service port to the shelf's configuration.
Full Name
Add a Port
Card(s) on Which This Command Executes
PXM, FRSM, CESM
Related Commands
addportlpbk, cnfport, delport, dspport, dspports
Attributes
Log: Yes State: Active Privilege: 1 (Any on PXM)
Syntax: PXM OC-3
addport <port_number> <line_number> <percent_bandwidth> <min_vpi> <max_vpi>
Syntax Description
Syntax: PXM OC-12 back cards
addport <port_number> <line_number> <percent_bandwidth> <min_vpi> <max_vpi>
Syntax Description
Syntax: PXM T3/E3 back cards
addport <port_number> <line_number> <percent_bandwidth> <min_vpi> <max_vpi>
Syntax Description
Syntax: FRSM-8T1E1 cards
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
Syntax Description
Syntax: FRSM-2T3E3 cards
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
Syntax Description
Syntax: FRSM-2CT3
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
Syntax Description
Syntax: FRSM-HS1/B
addport <port_num> <port_type>
Syntax Description
Syntax: FRSM-HS2
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
Syntax Description
Syntax: CESM-8T1E1 cards
addport <port_num> <line_num> <ds0_speed> gin_slot> <num_slot> <port_type>
Syntax Description
Syntax: CESM-T3E3 cards
addport <port_num> <line_num>
Syntax Description
Example Add port 1 on line 1 with DS0 timeslots 1 through 24 assigned as structured.
node501.1.1.CESM.a > addport 1 1 1 24 1node501.1.1.CESM.a >addred
Use the addred command to link two MGX 8800 series slots (a primary slot and a secondary slot) so that the switch treats the cards in these slots as a redundant pair of cards.
The secondary slot should be in the same half of the shelf (upper or lower) as the primary slot. Redundancy can be 1:1 or 1:N. If the redundancy is 1:N, you must link one secondary slot to N primary slots through multiple executions of this command.
Full Name
Add Redundancy
Card(s) on Which This Command Executes
PXM
Syntax
addred <redPrimarySlotNum> <redSecondarySlotNum> <RedType>
Syntax Description
Related Commands
dspred, delred
Attributes
Log: No State: Active Privilege: Any
Example Add 1:1 redundancy between the card in slot 4 and the card in slot 1
node501.1.7.PXM.a > addred 1 4 1node501.1.7.PXM.a >A system response does not occur unless a system error is detected.
addrscprtn
Use the addrscprtn command to configure resource partitions for the current PXM.
A resource partition on a PXM consists of a percentage of bandwidth, a VPI/VCI range, and the number of global logical connection numbers (GLCNs) available to a network control application. The network control applications are Portable AutoRoute (PAR) and Tag Switching. The configuration should reflect future development plans for PNNI or other controllers.
Note
Full Name
Add Resource Partition
Card(s) on Which This Command Executes
PXM
Syntax
addrscprtn <if_num> <ctrlr_num> <ingr_pct_bw> <egr_pct_bw> <min_vpi> <max_vpi> <min_vci> <max_vci> <max_chans>
Syntax Description
Related Commands
cnfrscprtn, delrscprtn, dspifrsc, dspifs, dsprscprtns, dsprscprtn, dsplnrsc
Attributes
Log: No State: Any Privilege: Any
addserialif
Use the addserialif command to add a serial interface.
Full Name
Add Serial Interface
Card(s) on Which This Command Executes
PXM
Syntax
addserialif <serial_port_num>
Syntax Description
Related Commands
cnfserialif, dspserialif
Attributes
Log: Yes State: Active Any
Example Configure the speed on slip for 19200bps
NODENAME.1.7.PXM.a > addserialif 1NODENAME.1.7.PXM.a >addtrapmgr
Use the addtrapmgr command to set up an SNMP trap manager for use with stand-alone applications. A trap manager registered (added) and reregistered through the SNMP interface by Cisco WAN Manager is deregistered (deleted) after 30 minutes if it is not reregistered. Trap managers that are added using the addtrapmgr command will not age, and will not be deleted after 30 minutes.
Full Name
Add Trap Manager
Card(s) on Which This Command Executes
PXM
Syntax
addtrapmgr <ipaddr> <portnum>
Syntax Description
Related Commands
deltrapmgr, cnftrapmgr, dsptrapmgr, xcnftrapmgr
Attributes
Log: Yes State: Active Privilege:Any
Example Add a trap manager with the IP address of 161.10.144.56 to port 162
node501.1.7.PXM.a > addtrapmgr 161.10.144.56 162node501.1.7.PXM.a >addtrk
Use the PAR addtrk command to activate a specified trunk on the current PXM.
The addtrk command applies only to routing node implementation. Execute addtrk after you have partitioned resources for PAR by using addrscprtn and configured the broadband interface as a trunk by using cnfifastrk.
Note
Full Name
Add Trunk
Card(s) on Which This Command Executes
PXM
Syntax
addtrk <slot.port>
Syntax Description
slot.port
Port identifier of the trunk to activate, using the format slot.port.
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•
Related Commands
cnftrk, dsptrkcnf, dsptrkload, dsptrks
Attributes
Log: No State: Active Privilege: 1
Example Activate the trunk on port 4 in the card in slot 1
node501.1.7.PXM.a > addtrk 1.4node501.1.7.PXM.a >adduser
Use the adduser command to configure a user name and associated access level on the PXM.
Full Name
Add User
Card(s) on Which This Command Executes
PXM
Syntax
adduser <user ID> <accessLevel>
Syntax Description
Related Commands
dspusers, deluser
Attributes
Log: Yes State: Active Privilege: 5-6
Example Add a user named fin with privilege level ANYUSER
spirit.1.7.PXM.a > adduser fin ANYUSEREnter password:Re-enter password:spirit.1.7.PXM.a >agetrapmgr
Use the agetrapmgr command to activate or deactivate aging on trap managers.
Full Name
Age Trap Manager
Card(s) on Which This Command Executes
PXM
Syntax
agetrapmgr <ip_addr> <aging>
Syntax Description
Related Commands
dsptrapmgr
Attributes
Log: No State: Any state Privilege: 1-6
aimhelp
Use the aimhelp command to display the Help screen for the AUSM service module.
Full Name
AIM Help
Card(s) on Which This Command Executes
AUSM
Syntax
aimhelp
Related Commands
help
Attributes
Log: No State: Any state Privilege: 1-6
Example Display the Help screen for the AUSM service module
raviraj.1.9.AUSM8.a > aimhelpAUSM-8P Commandsaddcon : Add a Connectionaddimagrp : Add an IMA groupaddln : Add a lineaddlnloop : Configure a line in local loopbackaddlns2imagrp : Add lines to an existing IMA groupclralmcnt : Clear DS1 alarm countclralmcnts : Clear alarm count for all DS1 linesclralm : Clear the DS1 line alarmsclrchancnt : Clear Channel Countersclrchancnts : Clear Channel Counters for all channelsclralms : Clear DS1 alarms on all linesclrimagrpcnt : Clear IMA group Countersclrimalncnt : Clear IMA counters on a particular lineclrportcnt : Clear Port Countersclrportcnts : Clear Port Counters for all portsclrsarcnt : Clear SAR channel countersclrsarcnts : Clear SAR counters for all channelsclrslftst : Clear self test resultsclrimatst : clear IMA test procedureType <CR> to continue, Q<CR> to stop:cnfchanfst : Configure the channel foresight parameterscnfchanq : Configure the channel queue parameterscnffst : Configure foresight params of a cardcnfportq : Configure Egress queue parameterscnfimagrp : Configure an IMA groupcnfilmi : Configure ILMI parameters of a portcnfln : Configure DS1/E1 linecnflnloop : Configure DS1/E1 linecnfplpp : Configure DS1/E1 linecnfslftst : Configure self test parameterscnfsvcrange : Partition Resource between PVCs & SVCscnfupccbr : Configure UPC parameters of CBR connectioncnfupcvbr : Configure UPC parameters of VBR connectioncnfupcabr : Configure UPC parameters of ABR connectioncnfupcubr : Configure UPC parameters of UBR connectioncnfimatst : Enable the IMA test procedurecnfimaalmparm : COnfigure the IMA alaram Integration UP and DOWN timescopychans : Copy a template connectiondelimagrp : Delete an IMA groupType <CR> to continue, Q<CR> to stop:delcon : Delete a connectiondelln : Delete DS1 linedellnloop : Remove a DS1 line from local loopbackdellnsfmimagrp : Delete lines from an existing IMA groupdnport : Down an ATM portdspalm : Display DS1 alarms on a linedspalmcnf : Display DS1 alarm configurationdspalmcnt : Display alarm count for DS1 linedspalms : Display DS1 alarms on all linesdspcd : Display card informationdspchancnt : Display channel countersdspcon : Display connection configurationdspcons : Display all the configured connectionsdspfeature : Display the featuresdspfst : Display the card Foresight paramsdspilmi : Display ILMI parms of a portdspilmicnt : Display ILMI counters of a portdspimagrp : Display all parms configured for an IMA groupdspimagrpcnt : Display IMA group CountersType <CR> to continue, Q<CR> to stop:dspimagrps : Display the configured IMA groupsdspimalncnt : Display IMA counters on a particular linedspimatst : Display IMA test statusdspimaln : Display IMA link statusdspimaalmparm : Display IMA alaram integration timesdspln : Display DS1 linedsplns : Display all DS1 linesdsploads : Display the total bandwidth used up in each portdspplpp : Display the PLPP configuration of each linedspport : Display the configured ATM/IMA portdspportcnt : Display Port Countersdspportq : Display the egress queue configurationdspportqs : Display configuration of all egress queuesdspports : Display the configured ATM/IMA portsdspsarcnt : Display the SAR counters of a connectiondspsarcnts : Display the SAR counters of all connectionsdspslftst : Display self test configurationdspslftsttbl : Display the self test resultsdspsttatparms : Display the statistics params configuredType <CR> to continue, Q<CR> to stop:dspsvcrange : Display the resource partition between PVCs & SVCsdsptotals : Display the total connections configured per portrunslftstno : Run a particular self testtstcon : Test the connection towards the N/W sidetstconseg : Test the connection towards the CPE sidetstconsti : Test the connection towards the N/W side using STI supervisory celltstdelay : Measure the delay towards the N/W sidetstdelaysti : Measure the delay towards the N/W side using STI supervisory cellupport : Up an ATM portxcnfalm : Configure alms of a DS1 linexcnfln : Configure a DS1 linexcnfln : Configure a DS1 lineraviraj.1.9.AUSM8.a >arpAdd
Use the arpAdd command to add an Address Resolution Protocol (ARP) entry to the ARP table. This Internet protocol is used to map an IP address to a MAC address, and the ARP table contains these translations.
Full Name
Add Address Resolution Protocol Entry
Card(s) on Which This Command Executes
PXM
Syntax
arpAdd <ip_ddress> <mac_address>
Syntax Description
ip_addr
IP address in dotted decimal format.
mac_address
Standardized data link layer address, 6 bytes long. Also known as a hardware address, MAC-layer address, and physical address.
Related Commands
arpShow, arpDelete, arpFlush
Attributes
Log: No State: Any state Privilege: 1-6
Example Add an ARP entry on the current PXM, then show the ARP entry
NODENAME.1.7.PXM.a > arpAdd 172.29.36.102 0:e0:4f:5c:6c:5aNODENAME.1.7.PXM.a > arpShow172.29.36.28 at 8:0:20:a6:80:3b190.29.36.255 at 0:e0:4f:5c:6c:20172.29.36.102 at 0:e0:4f:5c:6c:5a171.71.54.104 at 0:e0:4f:5c:6c:20NODENAME.1.7.PXM.a >arpDelete
Use the arpDelete command to delete an entry in the Address Resolution Protocol (ARP) table. The ARP protocol is used to map an IP address to a MAC address, and the ARP table contains these translations.
Full Name
Delete Address Resolution Protocol Entry
Card(s) on Which This Command Executes
PXM
Syntax
arpDelete <ip_ddress>
Syntax Description
Related Commands
arpAdd, arpShow, arpFlush
Attributes
Log: No State: Any state Privilege: 1-6
Example Delete ARP entry for IP address 172.29.36.102
NODENAME.1.7.PXM.a> arpDelete 172.29.36.102172.29.36.102 (172.29.36.102) deletedNODENAME.1.7.PXM.a>arpFlush
Use the arpFlush command to remove non-permanent entries from the ARP table. The ARP protocol is used to map an IP address to a MAC address, and the ARP table contains these translations.
Full Name
Flush Address Resolution Protocol Table
Card(s) on Which This Command Executes
PXM
Syntax
arpFlush
Related Commands
arpAdd, arpDelete, arpShow
Attributes
Log: No State: Any state Privilege: 1-6
Example Flush the ARP table, then show the ARP table
NODENAME.1.7.PXM.a > arpFlushNODENAME.1.7.PXM.a > arpShow171.71.54.104 at 0:e0:4f:5c:6c:20NODENAME.1.7.PXM.a >arpShow
Use the arpShow command to display the Address Resolution Protocol (ARP) table. The ARP table contains IP address to MAC address translations mapped by the ARP protocol.
Full Name
Show Address Resolution Protocol Table
Card(s) on Which This Command Executes
PXM
Syntax
arpShow
Related Commands
arpAdd, arpDelete, arpFlush
Attributes
Log: No State: Any state Privilege: 1-6
Example Show the ARP table on the current PXM
NODENAME.1.7.PXM.a > arpShow190.29.36.255 at 0:e0:4f:5c:6c:20172.29.36.28 at 8:0:20:a6:80:3b171.71.54.104 at 0:e0:4f:5c:6c:20NODENAME.1.7.PXM.a >bootChange
Use the bootChange command to change to the boot IP address and gateway address of a PXM card. The IP address you define will be used only when the PXM is in boot state. Use the cnfifip command to assign IP addresses for the PXM and the shelf. Note that the bootChange values are sent and automatically updated on the standby card, and bootlines are synchronized.
The PXM tries to correct bad entries when it boots up. This information is copied to the standby card. If the bootChange IP address is different the shelf IP address, then it will bring the ethernet interface up on the standby with the bootChange IP address.
The shellconn version of this command updates only the local bootline values.
Note that several parameters are necessary for the network to function; specifically:
•
•
•
Note
If the CLI prompt is not there or if the switch is not enabled and in backup boot, you can use the usrEnetEnable command to bring up theEthernet interface.
Full Name
Boot Change
Card(s) on Which This Command Executes
PXM
Syntax
bootChange
Related Commands
cnfifip, usrEnetEnable
Attributes
Log: Yes State: Active Privilege: SERVICE_GP
Example Execute the bootChange on the current PXM
raviraj.1.7.PXM.a > bootChange'.' = clear field; '-' = go to previous field; ^D = quitboot device : lnPciprocessor number : 0host name :file name :inet on ethernet (e) : 172.29.37.41 : ffffff00inet on backplane (b):host inet (h) :gateway inet (g) : 172.29.37.1user (u) :ftp password (pw) (blank = use rsh):flags (f) : 0x0target name (tn) :startup script (s) :other (o) :raviraj.1.7.PXM.a >bye
Use the bye command to exit the current CLI shell.
Full Name
Bye
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, VISM
Syntax
bye
Related Commands
logout
Attributes
Log: Yes State: Any Privilege: Any
Example Exit the current CLI shell.
spirit.1.8.PXM.a > bye(session ended)cc
Use the cc command to navigate from card to card on the shelf.
Full Name
Change Card
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM, VISM
Syntax
cc <slot number>
Syntax Description
Related Commands
None
Attributes
Log: Yes State: Any state Privilege: Any
Example Switch from the AUSM in slot 22 to the PXM in slot 8
node1.1.22.AUSM8.a > cc 8(session redirected)node1.1.8.PXM.a >A system message does not occur unless an error is detected. If the card slot is empty, an error message is presented.
cd
Use the cd command to change the current directory on the PXM hard disk.
Full Name
Change Directory
Card(s) on Which This Command Executes
PXM
Syntax
cd <directory_name>
Syntax Description
Related Commands
ls, pwd, rename, rm/rmdir, deltree, copy
Attributes
Log: Yes State: Any Privilege: Group 3
Example Change directory to FW
raviraj.1.7.PXM.a > cd FWraviraj.1.7.PXM.a >Verify the current directory by using the pwd command.
Example Return to the Root directory
raviraj.1.7.PXM.a > pwdC:FWraviraj.1.7.PXM.a > cd ..raviraj.1.7.PXM.a > pwdC:raviraj.1.7.PXM.a >clraimgrpcnt
Use the clraimgrpcnt command to clear all the AIMUX-related counters for all lines in the specified AIMUX group.
Full Name
Clear AIM Group Counters
Card(s) on Which This Command Executes
AUSM
Syntax
clraimgrpcnt <imagroup>
Syntax Description
imagroup
The number of the AIMUX group number on which you want to clear the AIMUX counters, in the range 1-8.
Related Commands
delaimgrpcnt
Attributes
Log: Yes State: Active Privilege: 1-2
Example Clear all the AIM group counters in AIM group 8
node1.1.22.AUSM8.a > clraimgrpcnt 8node1.1.22.AUSM8.a >clraimlncnt
Use the clraimlncnt command to clear all the AIMUX line counters for the specified IMA group.
Full Name
Clear AIM (or Clear IMA) Line Counters
Card(s) on Which This Command Executes
AUSM
Syntax
clraimlncnt (or clrimalncnt) <imagroup> <linenum>
Syntax Description
imagroup
The number of the AIMUX group on which you want to clear the line counters associated with an IMA group, in the range 1-8.
linenum
Line number, in the range 1-8.
Related Commands
dspaimlncnt, clrimalncnt
Attributes
Log: No State: Active Privilege: 1
Example Clear all the AIM line counters in AIM group 8
node1.1.22.AUSM8.a > clraimlncnt 8node1.1.22.AUSM8.a >clrallcnf
Use the clrallcnf command to clear all configuration elements for all the cards in the node. The system will query for confirmation before executing the clrallcnf command.
Warning
Full Name
Clear All Configurations
Card(s) on Which This Command Executes
PXM
Syntax
clrallcnf
Related Commands
None
Attributes
Log: Yes State: Active Privilege: 1-3
Example Clear Configuration Confirmation Query
node1.1.7.PXM.a > clrallcnfAll SM's config will be deleted, andthe shelf will be reset.Do you want to proceed (Yes/No)? No(command not executed)node1.1.7.PXM.a >clralm
Use the clralm command to clear alarms on a specified line on the current card. Alarms occurring after this command executes are not affected. If alarms on a line are cleared with this command, the results may be observable through the dspalm command.
This command can clear alarms caused by the collection of statistical data only. Alarms caused by network failure cannot be cleared. For example, an alarm caused by a collection of bipolar errors can be cleared, but an alarm caused by a card failure cannot.
Full Name
Clear Alarm
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM, VISM
Syntax: PXM
clralm -ds3 <LineNum>
or
clralm -e3 <LineNum>
or
clralm -sonet <LineNum>
or
clralm -plcp <PLCPNUM>Syntax Description
Syntax: FRSM, AUSM, CESM, or VISM
clralm -ds1 <LineNum>
Syntax Description
LineNum
•
–
–
•
•
Syntax: SRM-3T3
clralm <-srmds3> <LineNum>
Syntax Description
Syntax: FRSM-HS1
clralm -hs1 <LineNum>
Syntax Description
Related Commands
clralms, dspalm, dspalms
Attributes
Log: No State: Any Privilege: 5-6
Example Clear all the alarms caused by the collection of statistical data for line 1 on the current card
node1.1.22.AUSM8.a > clralm -ds1 1node1.1.22.AUSM8.a >clralmcnt
Use the clralmcnt command to clear all the alarm counters and statistics on the specified line on the current card. All counters are reset to 0. The terminal does not display a response unless an error exists in the syntax.
Full Name
Clear Alarm Counters
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM, VISM
Syntax: PXM
clralmcnt -ds3 <LineNum>
clralmcnt -e3 <LineNum>
clralmcnt -sonet <LineNum>
clralmcnt -plcp <PLCPNUM>Syntax Description
Syntax: FRSM, AUSM, CESM, or VISM
clralmcnt -ds1 <LineNum>
Syntax Description
LineNum
Line number, in the range appropriate for the card.
•
•
•
Related Commands
dspalmcnt, clralmcnts
Attributes
Log: No State: Any Privilege: Any (5 on PXM)
Example Clear all the alarm counters and statistics collected for line 1 on the current card
node1.1.22.AUSM8.a > clralmcnt -ds1 1node1.1.22.AUSM8.a >clralmcnts
Use the clralmcnts command to clear all the alarm counters and statistics on the current card. All counters are reset to 0. The terminal does not display a response unless an error exists in the syntax.
Full Name
Clear All Alarm Counters/Statistics on the Current Card.
Card(s) on Which This Command Executes
FRSM, AUSM, CESM, VISM
Syntax
clralmcnts
Related Commands
dspalmcnt, clralmcnt
Attributes
Log: No State: Any Privilege: 1-5
Example Clear all the alarm counters and statistics collected for the current card
node1.1.22.AUSM8.a > clralmcntsnode1.1.22.AUSM8.a >clralms
The clralms command clears alarms on the current card. Alarms occurring after this command executes are not affected.
This command can clear alarms caused by the collection of statistical data only. Alarms caused by network failure cannot be cleared. For example, an alarm caused by a collection of bipolar errors can be cleared, but an alarm caused by a card failure cannot.
Full Name
Clear Alarms on Card
Card(s) on Which This Command Executes
FRSM, AUSM, CESM, VISM
Syntax: FRSM, AUSM,CESM, or VISM
clralms -ds1 <LineNum>
Syntax Description
LineNum
Line number on which to clear alarms, in the range 1-n, as appropriate for the physical installation.
Related Commands
clralm, dspalm, dspalms
Attributes
Log: No State: Any Privilege: 1-5
Example Clear all the alarms triggered by the collection of statistics for line 1 on the current card
node1.1.22.AUSM8.a > clralms -ds1 1node1.1.22.AUSM8.a >clratmlncnt
The clratmlncnt clears the ATM event counters for the specified line on the PXM.
Full Name
Clear All ATM Line Counters on the Specified Line Number
Card(s) on Which This Command Executes
PXM
Syntax
clratmlncnt <line_num>
Syntax Description
Related Commands
clratmlncnts
Attributes
Log: No State: Any Privilege: Any
Example Clear all the ATM event counters for line 1 on the PXM
node1.1.7.PXM.a > clratmlncnt 1node1.1.7.PXM.a >clratmlncnts
Use the clratmlncnts command to remove all ATM counters on all the lines on the current card.
Full Name
Clear all ATM Line Counters on All Lines
Card(s) on Which This Command Executes
PXM
Syntax
clratmlncnts
Related Commands
clratmlncnt
Attributes
Log: No State: Any Privilege: Any
Example Clear all the ATM event counters on the PXM
node1.1.7.PXM.a > clratmlncntsnode1.1.7.PXM.a >clrbertcntrs
Use the clrbertcntrs command to remove all counters associated with bit error rate testing.
Full Name
Clear BERT counters
Card(s) on Which This Command Executes
FRSM 2CT3, CESMT3
Syntax
clrbertcntrs
Related Commands
acqdsx3bert, cnfdsx3bert, deldsx3bert, dspdsx3bert, startdsx3bert, xcnfdsx3bert, xdspdsx3bert
Attributes
Log: No State: Any Privilege: Any
Example Clear all BERT counters on the current FRSM
raviraj.1.13.VHS2CT3.a > dspdsx3bertundefined symbol: dspdsx3bertraviraj.1.13.VHS2CT3.a >clrcderrs
The clrcderrs command clears all card-related errors in an MGX 8800 series card. No response messages appear on screen. Refer to the dspcderrs description to see an example of the errors that this command clears, or execute the dspcderrs command before and after executing the clrcderrs command.
Full Name
Clear Hardware/Reset Errors in BRAM
Card(s) on Which This Command Executes
FRSM, AUSM
Syntax
clrcderrs
Related Commands
dspcderrs
Attributes
Log: No State: Any Privilege: SuperUser
Example Clear all the card-related errors on the FRSM in slot 4
node1.1.4.FRSM.a > clrcderrsnode1.1.4.FRSM.a >clrchancnt
Use the clrchancnt command to clear the channel counters for the specified channel on the current card. Counting resumes after the command executes.
The Frame Relay counters for each channel are:
•
•
•
•
•
•
•
•
•
•
•
Full Name
Clear Channel Counters on a Specified Channel
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM
Syntax: PXM
clrchancnt -cnt <chanNum> -cc <clrButton>
Syntax Description
Syntax: FRSM
clrchancnt <chan_num>
Syntax Description
chan_num
Channel number, in the range appropriate for the card.
•
•
Syntax: AUSM
clrchancnt <Port.VPI.VCI | Chan_num>
Syntax Description
Port.VPI.VCI
Connection number, in the format port.VPI.VCI.
Chan_num
Channel number, in the range 16-1015.
Related Commands
dspchan, clrchancnts, dspchancnt
Attributes
Log: Yes State: Any Privilege: Any
Example Clear all the channel counters for channel 16 on the FRSM in slot 4
node1.1.4.FRSM.a > clrchancnt 16node1.1.4.FRSM.a >clrchancnts
Use the clrchancnts command to clear all channel counters for all channels on the current service card. The counters resume accruing after the command executes. To view a list of the Frame Relay counters, refer to the description of clrchancnt.
Full Name
Clear All Channel Counters on the Card
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM
Syntax
clrchancnts
Related Commands
dspchan, clrchancnt, dspchancnt
Attributes
Log: Yes State: Any Privilege: 1-3 (Any on PXM)
Example Clear all the channel counters for all channels on the FRSM in slot 4
node1.1.4.FRSM.a > clrchancntsnode1.1.4.FRSM.a >clrconcnt
Use the clrconcnt command to clear the counters for the specified Connection Identifier on the current PXM card. Counting resumes after the command executes.
Full Name
Clear Connection Counters for a Specified Connection Identifier
Card(s) on Which This Command Executes
PXM
Syntax
clrconcnt <conn_ID>
Syntax Description
Related Commands
dspcon, clrconcnts, dspconcnt, dspconcnts
Attributes
Log: Yes State: Any Privilege: Any
Example Clear all the counters for the connection on port 1 with a VPI of 2 and a VCI of 2
node4.1.8.PXM.a > clrconcnt 1.2.2node4.1.8.PXM.a >clrconcnts
Use the clrconcnts command to clear the counters for all the connections on the current PXM car. Counting resumes after the command executes.
Full Name
Clear Connection Counters for All Connections on the Card
Card(s) on Which This Command Executes
PXM
Syntax
clrconcnts
Related Commands
dspcon, clrconcnt, dspconcnt, dspconcnts
Attributes
Log: Yes State: Any Privilege: Any
Example Clear all the counters for all the connections on the PXM card
node4.1.8.PXM.a > clrconcntsnode4.1.8.PXM.a >clrerr
Use the clrerr command to remove specified or all error log files. This command queries for confirmation prior to clearing the error log files from the system.
Full Name
Clear Error Log Counters for All Connections on the Card
Card(s) on Which This Command Executes
PXM
Syntax:
clrerr [-en <error slot>]
Syntax Description
-en
Command delineator that precedes the error slot entry.
error slot
Number of the log file to clear, which is identical to the slot number of the card.
Related Commands
dsperr
Attributes
Log: No State: Any Privilege: Any
Example Clrerr query to proceed.
wilco.1.7.PXM.a > clrerrDo you want to proceed (Yes/No)? No(command not executed)wilco.1.7.PXM.a >clrifcnt
Use the clrifcnt command to clear the counters for a specified broadband interface.
Full Name
Clear Interface Counters for the Specified Interface
Card(s) on Which This Command Executes
PXM
Syntax
clrifcnt <if_num>
Syntax Description
Related Commands
clrifcnts
Attributes
Log: No State: Any Privilege: Any
Example Clear the counters for the specified broadband interface (1)
wilco.1.7.PXM.a > clrifcnt 1ilco.1.7.PXM.a >clrifcnts
Use the clrifcnts command to clear the counters for all the broadband interfaces.
Full Name
Clear All Interface Counters
Card(s) on Which This Command Executes
PXM
Syntax
clrifcnts
Related Commands
clrifcnt
Attributes
Log: No State: Any Privilege: Any
Example Clear the counters for all broadband interfaces on the PXM card
wilco.1.7.PXM.a > clrifcntswilco.1.7.PXM.a >clrimagrpcnt
Use the clrimagrpcnt command to clear Inverse Multiplexing ATM (IMA) group counters on the current AUSM card for a specified IMA group.
Full Name
Clear Inverse Multiplexing ATM Group Counters
Card(s) on Which This Command Executes
AUSM
Syntax
clrimagrpcnt (or clraimgrpcnt) <imagroup>
Syntax Description
Related Commands
dspimagrp, dspimagrpcnt, dspimagrps, dspimainfo, dspimalncnt
Attributes
Log: No State: Active Privilege: 1
Example Clear all the inverse multiplexing ATM group counters for IMA group 1 on the AUSM card in slot 17
flyers01.1.17.AUSM.a > clrimagrpcnt 1flyers01.1.17.AUSM.a >clrimalncnt
Use the clrimalncnt command to clear all AIMUX line counters for a specified line in an IMA trunk.
Full Name
Clear AIM (or Clear IMA) Line Counters
Card(s) on Which This Command Executes
AUSM
Syntax
clrimalncnt (or clraimlncnt) <imagroup> <linenum>
Syntax Description
Related Commands
dspaimlncnt, clraimlncnt
Attributes
Log: No State: Active Privilege: 1
Example Clear all the inverse multiplexing ATM line counters for IMA group 1 on the AUSM card in slot 17
flyers01.1.17.AUSM.a > clrimalncnt 1flyers01.1.17.AUSM.a >clrlmistats
Use the clrlmistats command to clear the Local Management Interface (LMI) related statistics on the current PXM.
Full Name
Clear All LMI Statistics
Card(s) on Which This Command Executes
PXM
Syntax
clrlmistats
Related Commands
dsplmistats
Attributes
Log: No State: Any Privilege: Any
Example Clear the LMI statistics on the PXM card
penguin.1.7.PXM.a > clrlmistatsEnabled : 1 Port Status : 1VPI.VCI : 3.31Polling enable : 1T393 : 10 N394 : 5T394 : 10 N395 : 5WaitStatus : 0 WaitStAck : 0Retry Timer : 0 Retry Count : 1Poll Timer : 6 Trans Num : 86Status Rx : 0 Status Tx : 0UpdtStatus Rx : 0 UpdtStatus Tx : 0Status Enq Rx : 0 Status Enq Tx : 0Status Ack Rx : 0 Status Ack Tx : 0NodeStatus Rx : 0 NodeStatus Tx : 0NodeStaAck Rx : 0 NodeStaAck Tx : 0Bad PDU Rx : 0 Bad PDU Len Rx : 0Unknown PDU Rx : 0 Invalid I.E. Rx: 0Invalid Trans : 0BPX IP Addr : 172.3.3.62penguin.1.7.PXM.a >clrlog
Use the clrlog command to clear specified or all event log files. The log resumes accumulating event log messages after the command executes. This command queries for confirmation prior to removing all event log files.
Full Name
Clear Log
Card(s) on Which This Command Executes
PXM
Syntax
clrlog [-log <log slot>]
Syntax Description
-log
Command delineator that precedes the log slot entry.
log slot
Number of the file that you want to clear from the event log file.
Related Commands
dsplog
Attributes
Log: Yes State: Any Privilege: 1
Example Clear all event log files on the PXM card
wilco.1.7.PXM.a > clrlogDo you want to proceed (Yes/No)? Yeswilco.1.7.PXM.a >clrmsgcnt
Use the clrmsgcnt command to clear the control message counters. The control message counters are for the total numbers of:
•
•
•
equal to riscRcvCtrlMsg)•
equal to riscXmtCtrlMsg)•
•
•
This message also clears the control cell header received on the last unknown channel.
Full Name
Clear Control Message Counters
Card(s) on Which This Command Executes
FRSM, AUSM, CESM, VISM
Syntax
clrmsgcnt
Related Commands
dspmsgcnt
Attributes
Log: No State: Any Privilege: 1-5
Example Clear all the control message counters on the AUSM card in slot 17
flyers01.1.17.AUSM.a > clrmsgcnt 1flyers01.1.17.AUSM.a >clrportcnt
Use the clrportcnt command to clear counter values on a specified port associated with the current PXM, AUSM, or FRSM.
Full Name
Clear Port Counters
Card(s) on Which This Command Executes
PXM, FRSM, AUSM
Syntax
clrportcnt <port_ number>
Syntax Description
port_ number
Port number, as appropriate for the current card.
•
•
•
–
–
–
X.21 range = 1-4
HSSI range = 1-2
Related Commands
clrportcnts, dspportcnt
Attributes
Log: No State: Any Privilege: 1-5 (Any on PXM)
Example Clear all the port counters on port 1 on the AUSM card in slot 17
flyers01.1.17.AUSM.a > clrportcnt 1flyers01.1.17.AUSM.a >clrportcnts
Use the clrportcnts command to clear all port counters on the current PXM, FRSM, or AUSM.
Full Name
Clear Port Counts
Card(s) on Which This Command Executes
PXM, FRSM, AUSM
Syntax
clrportcnts
Related Commands
clrportcnt, dspportcnt
Attributes
Log: No State: Any Privilege: 1-5
Example Clear all the port counters on all the ports on the AUSM card in slot 17
flyers01.1.17.AUSM.a > clrportcntsflyers01.1.17.AUSM.a >clrsarcnt
On an FRSM or CESM, use the clrsarcnt command to clear the Segmentation and Reassembly (SAR) counters for the particular channel in the argument. On an AUSM, use the clrsarcnt command to clear the SAR counters for the particular port.VPI.VCI connection.
The SAR counters are:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Full Name
Clear SAR Counters
Card(s) on Which This Command Executes
FRSM, AUSM, CESM, VISM
Syntax for FRSM-8T1E1
clrsarcnt -chn <ChanNum | Port.DLCI>
Syntax Description
Syntax for CESM-8T1E1
clrsarcnt -chn <ChanNum>
Syntax Description
Syntax for AUSM-8T1E1
clrsarcnt <port.VPI.VCI>
Syntax Description
port.VPI.VCI
Port range = 1-n, as appropriate for the physical installation.
VPI range = 1-4095.
VCI range = 1-65535.
Related Commands
dspsarcnt
Attributes
Log: No State: Any Privilege: 1-5
Example Clear the SAR counters for channel number 20 on the FRSM card
NODENAME.1.17.FRSM.a > clrsarcnt -chn 20NODENAME.1.17.FRSM.a >clrsarcnts
Use the clrsarcnts command to clear the Segmentation and Reassembly (SAR) counters for all the channels or connections on the card from which the command is executed.
Full Name
Clear SAR Counts
Syntax
clrsarcnts
Card(s) on Which This Command Executes
FRSM, AUSM, CESM, VISM
Related Commands
clrsarcnt, dspsarcnt, dspsarcnts
Attributes
Log: No State: Any Privilege: Any
Example Clear all the SAR counters on all the cards in the node
flyers01.1.17.AUSM.a > clrsarcntsflyers01.1.17.AUSM.a >clrscrn
Use the clrscrn command to clear the control terminal screen. After this command executes, only the current command line prompt appears on the screen.
Full Name
Clear Terminal Screen
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM, VISM
Syntax
clrscrn
Related Commands
None
Attributes
Log: No State: Any Privilege: Any
Example Clear the screen
flyers01.1.17.AUSM.a > clrscrnflyers01.1.17.AUSM.a >clrslftst
Use the clrslftst command to clear the results of the last self-test on the current card.
Full Name
Clear Self-Test
Card(s) on Which This Command Executes
FRSM, AUSM, CESM
Syntax
clrslftst
Related Commands
cnfslftst, dspslftst, runslftstno
Attributes
Log: No State: Any Privilege: Any
Example Clear the results of the last self-test for the AUSM card in slot 17
flyers01.1.17.AUSM.a > clrslftstflyers01.1.17.AUSM.a >clrsmcnf
Use the clrsmcnf command to clear the following configuration elements for the selected service card:
•
•
•
•
Note
Full Name
Clear Service Module Configuration
Card(s) on Which This Command Executes
PXM
Syntax
clrsmcnf <slot number>
Syntax Description
Related Commands
dspsmcnf
Attributes
Log: Yes State: Active Privilege: 3
Example Clear all the configuration elements on the AUSM card in slot 17
flyers01.1.7.PXM.a > clrsmcnf 17flyers01.1.7.PXM.a >clrsrmcnf
Use the clrsrmcnf command to clear SRM-3T3 card information and to remove all T1 link mappings. All links are switched back to their respective service modules.
Full Name
Clear SRM-3T3 Configuration
Card(s) on Which This Command Executes
PXM
Syntax
clrsrmcnf <slot number>
Syntax Description
slot number
Slot number. Enter the value 15 or 31.
•
•
Related Commands
addlink, dsplink, xcnfsrmlink, xdspsrmlink
Attributes
Log: Yes State: Active Privilege: Any
Example Clear all the configuration information and remove all T1 link mappings on the SRM-3T3 card in slot 15
flyers01.1.7.PXM.a > clrsrmcnf 15flyers01.1.7.PXM.a >cmdhistory
Use the cmdhistory command to view the last 10 commands executed on the current card.
Full Name
Display Command History
Card(s) on Which This Command Executes
PXM
Syntax
cmdhistory
Related Commands
history
Attributes
Log: No State: Any Privilege: Any
Example Display the previous 10 commands executed on the PXM card
spirit4.1.8.PXM.a > cmdhistorySize of cmdHistory is currently 10 line(s)1 dspconcnt 2.39.452 dsplmistats3 dsplmiloop4 dsplm5 clrportcnt6 dspportcnts7 dspportcnt8 dspportcnt 19 dsplmistats10 cmdhistoryspirit4.1.8.PXM.a >cnfaimgrp
Use the cnfaimgrp command to configure an AIMUX group on the AUSM.
Full Name
Configure AIM Group
Card(s) on Which This Command Executes
AUSM
Syntax
cnfaimgrp <grp> <max_diff_delay> <min_num_links>
Syntax Description
Related Commands
addaimgrp, delaimgrp, dspaimgrp, dspaimgrps
Attributes
Log: Yes State: Active Privilege: 1-2
Note
The <read_wr_ptr_diff> value cannot be decreased from its existing value—it can only be increased (this is because decreasing the <read_wr_ptr_diff> in an established AIMUX group involves dropping cells that are stored in the delay compensation buffer.Example Configure AIMUX group 1 on the AUSM card in slot 17 to have a read/write pointer differential of 5, a link loss severity of 2, a maximum tolerable differential delay of 5, and 2 redundant links
flyers01.1.17.AUSM.a > cnfaimgrp 1 -rwdiff 5 -severity 2 -maxdiff 3 -red 2flyers01.1.17.AUSM.a >cnfapsln
Use the cnfapsln command to set Automatic Protection Switching (APS) parameters for a line on the current PXM. APS is a standard that provides a means for SONET line redundancy. APS involves switching between working (active) and protection (standby) SONET lines in the event of a hardware failure detected by the receiving end or by the far-end. This support only applies to PXM OC3 and PXM OC12 back cards.
The 1.1.20 software release provides support for the SONET Linear APS 1+1 mode with two backcards. The SONET Linear APS 1+1 standard specifies that for every working line there must exist a redundant protection line. Traffic protected by the redundant line is carried simultaneously on both the working line and the protection line. The line switch over to the protection line has to be completed within 60ms.
illustrates a "Dual Backcard" redundancy configuration. This design requires two PXM front cards and two SONET backcards. Ports are paired as follows:
•
Figure 1-3 SONET APS 1+1 with two backcards
SONET 155 also can be configured to have this redundancy configuration. Ports are paired as follows:
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•
Switching of the paired port on the pair backcard can be done independently of the other paired ports.
You must add an APS line with the addapsln command before using the cnfapsln command.
Full Name
Configure APS Line
Card(s) on Which This Command Executes
PXM
Syntax
cnfapsln <workline> <SFBER> <SDBER> <WTR> <Direction> <Revertive> <K1K2>
Syntax Description
Related Commands
addapsln, delapsln, dspapsln, dspapscfg
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Configure the APS working line 1 on the active PXM card in slot 7 to have a signal failure BER threshold of 10^^5, a signal degrade BER threshold of 10^^5, to enable switch back after signal failure or degradation has cleared, to wait 2 minutes before attempting to switch back, to make switching bidirectional, and to enable the K1/K2 inband interface on the protection line
flyers01.1.7.PXM.a > cnfapsln 1 5 5 1 2 1 1flyers01.1.7.PXM.a >cnfatmln
Use the cnfatmln command to configure a UNI or NNI cell header for a PXM trunk. UNI cell headers are typically used on the line that connects to a workstation rather than a switch.
Note
Full Name
Configure ATM Line
Card(s) on Which This Command Executes
PXM (in an MGX 8800 series stand-alone node)
Syntax
cnfatmln <line_num> <type>
Syntax Description
Related Commands
dspatmlncnf, clratmlncnt
Attributes
Log: No State: Any Privilege: Any
Example Set the cell header type for trunk 1 on the PXM to NNI
flyers01.1.7.PXM.a > cnfatmln 1 3flyers01.1.7.PXM.a >cnfbctype
Use the cnfbctype command to specify the interface of the 12in1 dual-personality back card. The back card can be configured with either an X.21 or a V.35 interface. The default interface is V.35.
Note
Full Name
Configure Back Card Type
Card(s) on Which This Command Executes
FRSM-HS1B
Syntax
cnfbctype <cardType>
Syntax Description
Related Commands
dspbctype
Attributes
Log: Yes State: Any Privilege: Service Group (-1)
Example Configuring the interface type on the current FRSM card
man.1.14.FRSM.a > cnfbctype 1Example Displaying the interface type on the current FRSM
man.1.14.FRSM.a > dspbctypeBackcard Personality: X.21cnfbert
Use the cnfbert command to configure BERT testing parameters on the PXM.
A BERT session does not time out automatically. Use the delbert command to end the test.
Warning
BERT is a disruptive test. Activation of this test will stop the data flow on all the channels configured on the port under test. BERT testing requires the presence of an SRM-3T3/B card in the service bay, in which the card under test is located.
Full Name
Configure BERT
Card(s) on Which This Command Executes
PXM
Syntax: PXM
cnfbert <slot>
Syntax Description
Related Commands
delbert, dspbert, modbert, xcnfbert
Attributes
Log: Yes State: Active Privilege: Group 1
cnfcbclk
Use the cnfcbclk command to set the cell bus (CB) operating clock rate to high (42 MHz) or low (21 MHz). There are 8 cell buses in a MGX 8800 series shelf. You can use the cnfcbclk command to set the cell bus to different operating clock rates to take advantage of high-speed service modules whenever possible. Note that not all service modules can support the high clock rate.
Note
Full Name
Configure Cell Bus Clock
Card(s) on Which This Command Executes
FRSM_2CT3, FRSM_2T3, FRSM_2E3, FRSM_HS2, CESM_T3, CESM_E3, VISM_8T1, VISM_8E1, RPM (new), PXM
Syntax
cnfcbclk <cellBus> <clockRate>
Syntax Description
Possible Errors
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•
Related Commands
dspcbclk
Attributes
Log: Yes State: Active Privilege: Super Group
Example Display the cards in the chassis, display the current clock settings, configure CB2 for 42 MHz, and display clock settings with the new setting for CB2
NODENAME12.1.7.PXM.a > dspcdsCommand Executed :dspcdsSlot CardState CardType CardAlarm Redundancy---- ----------- -------- --------- -----------1.1 Empty Clear1.2 Active FRSM-8T1 Clear1.3 Empty Clear1.4 Empty Clear1.5 Empty Clear1.6 Active FRSM-8T1 Clear1.7 Active PXM1-OC3 Clear1.8 Empty Clear1.9 Empty Clear1.10 Empty Clear1.11 Empty Clear1.12 Empty Clear1.13 Empty Clear1.14 Empty Clear1.15 Empty Clear1.16 Empty Clear1.17 Empty Clear1.18 Empty Clear1.19 Empty ClearType <CR> to continue, Q<CR> to stop: qNODENAME12.1.7.PXM.a > dspcbclkCommand Executed :dspcbclkCellBus Rate (MHz) Slot-------------------------------CB1 21 1, 2CB2 21 3, 4CB3 21 5, 6CB4 21 17 - 22CB5 21 9, 10CB6 21 11, 12CB7 21 13, 14CB8 21 25 - 30NODENAME12.1.7.PXM.a > cnfcbclk cb2 42Command Executed :cnfcbclkNODENAME12.1.7.PXM.a > dspcbclkCommand Executed :dspcbclkCellBus Rate (MHz) Slot-------------------------------CB1 21 1, 2CB2 42 3, 4CB3 21 5, 6CB4 21 17 - 22CB5 21 9, 10CB6 21 11, 12CB7 21 13, 14CB8 21 25 - 30Example Error messages that may be displayed when executing this command
popeye12.1.7.PXM.a > cnfcbclk cb1 42Command Executed :cnfcbclkSet failed due to illegal option value(s)Syntax: cnfcbclk <cellBus> <clockRate>cellBus -- a string CB1..CB8clockRate -- a number 21 or 42 (MHz)WARNING: Certain Service Modules will not operate at the clock rate youspecified. Please check the Service Modules in the slots where the Cell Bus clockrate is effected by this commandcnfcdprtntype
Use the cnfcdprtntype command to configure the type of partition to serve as the basis for sharing GLCNs. The GLCNs are shared by the network controller applications (PAR, for example) on a logical broadband interface.
Full Name
Configure Card Resource Type
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM
Syntax
cnfcdprtntype <prtn_type>
Syntax Description
Related Commands
cnfrscprt, cnfcdrscprtn, dspcdrsctype
Attributes
Log: No State: Any Privilege: Any (Service_GP)
Example Allow all controllers access to all the (G)LCNs available for the card
spirit3.1.10.AUSMB8.a > cnfcdprtntype 1spirit3.1.10.AUSMB8.a >cnfcdrscprtn
Use the cnfcdrscprtn command to modify card-level resource partitions on the current card. This command creates a template of available connections among the network controllers, to provide card-level partitioning for PAR, PNNI or Tag. With card-level partitioning:
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The matrix in describes the effects of each of three usages of cnfcdrscprtn.
Table 1-5 Degrees of Card-Level Resource Partitioning
Note
Additional characteristics of this command are:
•
•
Full Name
Configure Card Resource Partition
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM, VISM
Syntax
cnfcdrscprtn <PAR_max_conns> <PNNI_max_conns> <Tag_max_conns>
Syntax Description
Related Commands
addcdrscprtn, delcdrscprtn, dspcdrscprtn, dspcdrsctype
Attributes
Log: Yes State: Any (Active for PXM) Privilege: Any
Example On the current PXM, change the card-level partitioning to give 10000 GLCNs to PAR and 10000 GLCNs to Tag. Note that the value for PNNI currently is 0
spirit.1.7.PXM.a > cnfcdrscprtn 10000 0 10000spirit.1.7.PXM.a >cnfchan
Use the cnfchan command to configure channels on the current service card.
Full Name
Configure Channel
Card(s) on Which the Command Executes
PXM, AUSM, CESM
Syntax: PXM
cnfchan <LCN> <chan_rte_pri> <chan_max_cost> <chan_restrict_trk_type>
Syntax Description
Syntax: AUSM-8T1E1
cnfchan <chan_num> <RoutingPriority> <MaxCost> <RestrictTrunkType> <PCR> <MCR> <PctUtil>
Syntax Description
Syntax: CESM-8T1E1
cnfchan <chan_num> <CDVT> <CLIP> <bufsize> <clockmode> <ISenable> <ForceIS>
Syntax Description
Syntax: CESM-T3E3
cnfchan <chan_num> <CDVT> <CLIP> <bufsize>
Syntax Description
Related Commands
addchan
Attributes
Log: No State: Any Privilege: Any
Example On the current AUSM in slot 17, change the configuration for channel 16 to set a routing priority of 1, a maximum cost of 5, restrict trunk routing for this channel to terrestrial trunks only, set the peak cell rate to 655525 cells per second, set the minimum cell rate to 655525 cells per second, and set the percent utilization to 100 percent
spirit.1.17.AUSM.a > cnfchan 16 1 5 2 65525 65525 100spirit.1.17.AUSM.a >cnfchancacoff
Use the cnfchancacoff command to turn off the connection admission control (CAC) function for a channel.
Full Name
Configure Channel CAC Off
Card(s) on Which This Command Executes
FRSM
Syntax
cnfchancacoff <chan_num>
Syntax Description
chan_num
Channel number, in the range appropriate for the interface type.
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•
•
•
Related Commands
None
Attributes
Log: Yes State: Active Privilege: 1-2
Example On the current FRSM in slot 27, change the configuration for channel 16 to turn off the connection admission control (CAC) function
spirit.1.27.FRSM.a > cnfchancacoff 16spirit.1.27.FRSM.a >cnfchanegressq
Use the cnfchanegressq command to configure the egress queue for a specified channel.
Full Name
Configure Channel Egress Queue
Card(s) on Which This Command Executes
FRSM
Syntax
cnfchanegressq <chan_num> <Qsel> <Qdepth> <QDEThresh> <QECNThresh>
Syntax Description
Related Commands
cnfchaningressq
Attributes
Log: Yes State: Active Privilege: 1-2
Example On the current FRSM in slot 27, change the configuration of the egress queue for channel 16 to set the priority to high, set the maximum queue depth to 65535, the Discard Eligible threshold to 32767, and the ECN threshold to 65535
spirit.1.27.FRSM.a > cnfchanegressq 16 1 65535 32767 65535spirit.1.27.FRSM.a >cnfchanfst
Use the cnfchanfst command to configure ForeSight parameters for a Frame Relay or ATM channel.
Full Name
Configure Channel ForeSight
Card(s) on Which This Command Executes
FRSM, AUSM
Syntax: FRSM
cnfchanfst <chan_num> <fst_enable> <mir> <pir> <qir>
Syntax Description
Syntax: AUSM
cnfchanfst <port.VPI.VCI | channel number> <enable | disable> <fgcra_enable> <ibs> <pcr> <mcr> <icr>
Syntax Description
Related Commands
dspchan
Attributes
Log: Yes State: Active Privilege: 1-2
Example On the current FRSM in slot 27, change the configuration of the ForeSight for channel 16 to enable ForeSight, to set the minimum information rate to 1000 cells per second, to set the peak information rate to 1000 cells per second, and to set the quiescent information rate to 1000 cells per second
spirit.1.27.FRSM.a > cnfchanfst 16 1 1000 1000 1000spirit.1.27.FRSM.a >A system response does not occur unless an error is detected.
Example On the current AUSM in slot 12, changing the configuration using the port.VPI.VCI argument
s1.1.12.AUSM8.a > cnfchanfst 2.1.5 2 1 2000 4000 2000 2000s1.1.12.AUSM8.a >Example On the current AUSM in slot 12, changing the configuration using the channel number argument
s1.1.12.AUSM8.a > cnfchanfst 31 2 1 2000 4000 2000 2000s1.1.12.AUSM8.a >
Note
cnfchaningressq
Use the cnfchaningressq command to configure the Ingress queue for a specified channel.
Full Name
Configure Channel Ingress Queue
Card(s) on Which This Command Executes
FRSM
Syntax
cnfchaningressq <chan_num> <Qsel> <Qdepth> <QDEThresh> <QECNThresh>
Syntax Description
Related Commands
cnfchanegressq
Attributes
Log: Yes State: Active Privilege: 1-2
Example On the current FRSM in slot 27, change the configuration of the egress queue for channel 16 to set the priority to high, set the maximum queue depth to 65535, the Discard Eligible threshold to 32767, and the ECN threshold to 65535
spirit.1.27.FRSM.a > cnfchaningressq 16 1 65535 32767 65535spirit.1.27.FRSM.a >cnfchanmap
Use the cnfchanmap command to configure interworking field mapping for a specified channel.
Full Name
Configure Channel Map
Card(s) on Which This Command Executes
FRSM
Syntax
cnfchanmap <chan_num> <chanType> <FECN/EFCI> <DE to CLP> <CLP to DE>
Syntax Description
Related Commands
dspchanmap
Attributes
Log: Yes State: Active Privilege: 1-2
Example On the current FRSM in slot 27, change the configuration of the interworking channel mapping for channel 16 to set the channel type to network interworking, to set EFCI equal to 0, to set the DE to CLP mapping to map DE to CLP, and to set the CLP to DE mapping to map CLP to DE
spirit.1.27.FRSM.a > cnfchanmap 16 1 1 1spirit.1.27.FRSM.a >cnfchanpol
Use the cnfchanpol command to configure the Frame Relay policing parameters for a channel. No messages appear on screen unless an error occurs.
Full Name
Configure Channel Policing
Card(s) on Which This Command Executes
FRSM
Syntax
cnfchanpol <chan_num> <cir> <bc> <be> <ibs> <detag>
Syntax Description
Related Commands
dspchan
Attributes
Log: Yes State: Active Privilege: 1-2
Example On the current FRSM in slot 27, change the configuration of the ForeSight for channel 16 to enable ForeSight, to set the committed information rate to 100000 cells per second, to set the committed burst size to 65535 bytes, to set the burst excess to 65535 bytes, to set the initial burst size to 1000 bytes, and to enable Discard Eligible tagging
spirit.1.27.FRSM.a > cnfchanpol 16 1 100000 65535 65535 1000 1spirit.1.27.FRSM.a >cnfchanq
Use the cnfchanq command configure queue parameters for a specified channel on the current PXM or AUSM.
Full Name
Configure Channel Queue
Card(s) on Which This Command Executes
PXM, AUSM
Syntax: PXM
cnfchanq <LCN> <discard_option> <clp_thresh_high> <clp_thresh_low> <efci_thresh>
Syntax Description
Syntax: AUSM
cnfchanq <chan_num> <vc_q_depth> <clp_thresh_high> <clp_thresh_low> <efci_thresh>
Syntax Description
Related Commands
dspchan
Attributes
Log: Yes State: Active Privilege: 1-2 on AUSM, Any on PXM
Example On the current AUSM in slot 1, change the configuration of the channel queue for channel 16 to set the ingress queue depth to 16000, the CLP High threshold to 16000, the CLP Low threshold to 10000, and the EFCI threshold to 12000
spirit.1.1.AUSM.a > cnfchanq 16 16000 16000 10000 12000spirit.1.1.AUSM.a >cnfchansrvrate
Use the cnfchansrvrate command to provision the service rate of a channel independent of the CIR rate of the connection. This feature separates the policing parameters (CIR, BC, BE, IBS) from the service rate, providing you with more traffic management control over the connection.
Full Name
Configure Channel Service Rate
Card(s) on Which This Command Executes
FRSM 2T3/E3, FRSM HS2, FRSM-8
Syntax
cnfchansrvrate <LCN> <ena | dis> <srvrate>
Syntax Description
Related Commands
cnfchanfst
Attributes
Log: Yes State: Any state Privilege: Any
Example Configure the SAR on the current FRSM, service connection 16, at 4000 cells per second, even though the CIR for the connection may be set to 0
NODENAME.1.26.VHS2CT3.a > cnfchansrvrate 16 1 4000NODENAME.1.26.VHS2CT3.a >cnfclksrc
Use the cnfclksrc command to configure an interface as a clock source. Available clock sources are shown in . Any combination of clock sources are configurable in any order (primary or secondary). For example, you can configure an external clock source as the primary clock source and a line as the secondary clock source. If the primary and secondary clock sources fail, than the internal oscillator becomes the source.
Before using the cnfclksrc command, the PXM1 broadband interfaces and the service module lines must be configured. Therefore, you would first need to run the addln command, then the addport command.Configure only one clock source each time you execute cnfclksrc, and run the command from the active PXM1.
Table 1-6
Clock Sources
Full Name
Configure Clock Source
Card(s) on Which This Command Executes
PXM, FRSM, CESM. AUSM
Syntax: PXM, FRSM, CESM, AUSM
cnfclksrc <slot.port> <clktype>
Syntax Description
Related Commands
dspclksrc, dspclkinfo, cnfextclk
Attributes
Log: No State: Active Privilege: 1
Example Configure the inband (trunk) interface as the primary clock source and an external clock device as the secondary source
spirit.1.8.PXM.a > cnfclksrc 7.1 Pspirit1r.1.8.PXM.a > cnfclksrc 7.35 Scnfcon
Use the cnfcon command to configure connectivity parameters on the PXM, AUSM, FRSM, or CESM. The applicable parameters were previously specified by the addcon command.
Full Name
Configure Connection
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM
Syntax: PXM
cnfcon <conn_ID> <route_priority> <max_cost> <restrict_trunk_type> [CAC]
Syntax Description
Syntax: FRSM, AUSM
cnfcon <Port.Dlci> <chan_type> <cir> [CAC]
Syntax Description
Syntax: CESM
cnfcon <port_num> <CDVT> <CLIP> <bufsize> <clockmode> <IdleSuppression> <ForceSuppression>
Syntax Description
Related Commands
addcon, dspcon, dspcons, delcon
Attributes
Log: Yes State: Active Privilege: Any
Example Configures the connection on port 1 with a VCI of 2 and a VPI of 5 to use routing priority 15, a maximum routing cost of 255, to not use satellite trunks, and to enable connection admission control
spirit01.1.7.PXM.a > cnfcon 1.2.5 15 255 3 2spirit01.1.7.PXM.a >cnfdate
Use the cnfdate command to set the system date.
Full Name
Configure Date
Card(s) on Which This Command Executes
PXM
Syntax
cnfdate <mm/dd/yyyy>
Syntax Description
mm/dd/yyyy
Month, day, year
•
•
•
Related Commands
None
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Set date to be 11/24/1999
excel.1.3.PXM.a > cnfdate 11/24/1999Date = 11/24/1999excel.1.3.PXM.a >cnfdsx3bert
Use the cnfdsx3bert command to specify a pattern for BERT testing on the FRSM.
Full Name
Configure DS3 BERT
Card(s) on Which This Command Executes
FRSM 2T3E3, CESMT3
Syntax
cnfdsx3bert <test pattern>
Syntax Description
Related Commands
None
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Set the double alternating ones-and-zeroes pattern for the BERT
popeye1.1.21.CESMT3.a > cnfdsx3bert 4popeye1.1.21.CESMT3.a >cnfegrservtype
Use the cnfegrservtype command to change the Egress port servicing algorithm. Egress port queue servicing type is a card level option. You can choose either four-queue, Weighted Fair Queuing (WFQ) algorithm with quality of service guaranteed, or simple ratio-based, two-queue algorithm without quality of service.
Software Version
Command available with 1.1.20 and higher
Full Name
Configure Egress Servicing Type
Card(s) on Which This Command Executes
FRSM-VHS (2CT3/2T3/2E3/HS2)
Syntax
cnfegrservtype <servicing type>
Syntax Description
servicing type
A value representing one of the following servicing types:
•
•
Related Commands
dspegrservtype
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Configure Egress service type to queue ratio
raviraj.1.10.VHS2CT3.a > cnfegrservtype "99"The card will be reset, Do you want to proceed (Yes/No)? YesErr: card reset/removed/failed on slot 10slot 2 (cardInx 3) is present, insertion msg from PXM 7cnfextclk
Use the cnfextclk command to configure the line type and impedance of the external clocking source.
Full Name
Configure External Clocking
Card(s) on Which This Command Executes
PXM
Syntax
cnfextclk <ClockType> <Impedance>
Syntax Description
Related Commands
dspextclk
Attributes
Log: Yes State: Active Privilege: Group3
Example Configure the clocking to be extracted from an E1 line with an impedance of
100 ohmsexcel.1.3.PXM.a > cnfextclk 2 2excel.1.3.PXM.a >cnfenetgw
Use the cnfenetgw command to establish the Ethernet gateway route permanently.
Software Version
Command available with 1.1.20 and higher
Full Name
Configure Ethernet Gateway
Card(s) on Which This Command Executes
PXM
Syntax
cnfenetgw <IPaddress>
Syntax Description
Related Commands
dspenetgw
Attributes
Log: No State: Active Privilege: Super Group
Example Configures the gateway 172.29.37.1 and adds the necessary routes
excel.1.3.PXM.a > cnfenetgw 172.28.37.1excel.1.3.PXM.a >cnffst
Use the cnffst command to configure ForeSight parameters for the current card.
Full Name
Configure ForeSight
Card(s) on Which This Command Executes
FRSM, AUSM
Syntax
cnffst <rate_up> <rate_down> <rate-fast_down> <qir_time_out> <rtd_interval>
Syntax Description
Related Commands
dspfst
Attributes
Log: Yes State: Active Privilege: 1-2
cnfif
Use the cnfif command to modify parameters for an existing broadband interface on a PXM. System software does not allow you to conflict with existing configurations. You may need to reduce the bandwidth allocation or VPI/VCI range on one or more interfaces before you expand the resources for a interface. Refer to the upif command description for more information on resource partitioning.
Full Name
Configure a Broadband Interface
Card(s) on Which This Command Executes
PXM
Syntax
cnfif <if_num> <pct_bw> <min_vpi> <max_vpi>
Syntax Description
Related Commands
upif
Attributes
Log: No State: Any Privilege: Any
Example Configure broadband interface number 1 to use 10% of the line bandwidth for both ingress and egress, have a minimum virtual path interface (VPI) of 0, and a maximum virtual path interface (VPI) of 19
wilco.1.7.PXM.a > cnfif 1 10 0 19wilco.1.7.PXM.a >Example Confirm configuration for the broadband interface
wilco.1.7.PXM.a > dspififNum Status Line ingrPctBw egrPctBw minVpi maxVpi------------------------------------------------------1 Ena 1 10 10 0 19wilco.1.7.PXM.a >cnfifastrk
Use the cnfifastrk PAR command to configure a logical interface on the PXM to act as a feeder trunk. The application for this command is dependent upon the activation of the paid feature option of feeder capability on the MGX 8800 series switch node. Before configuring the interface as a feeder trunk the option must be activated with the cnfswfunc command. Therefore, the default is "rtrk" for routing trunk. The routing trunk utilization applies to both a routing node and a stand-alone node.
Full Name
Configure Interface as Trunk
Card(s) on Which This Command Executes
PXM
Syntax
cnfifastrk <slot.port> <iftype>
Syntax Description
Related Commands
uncnfifastrk
Attributes
Log: No State: Active Privilege: 2
Example Configure line 1 on the PXM in slot 7 as a feeder trunk
wilco.1.7.PXM.a > cnfifastrk 7.1 ftrkwilco.1.7.PXM.a >cnfifip
Use the cnfifip command to configure the interface address for LAN, SLIP, or ATM on the PXM. In addition, you can specify an interface to be up or down dynamically. No reboot is required to bring an interface up or down, and interfaces set to "down" are persistant across resets.
A shelf now can have one or two IP addresses for Ethernet. The shelf IP address set using the cnfifip command will always be the IP address of the active card.
The bootChange IP address is used for the standby card and backup boot if it is different from the shelf IP address. If the bootChange IP address is same as the shelf IP address, then the Ethernet interface on the standby card or in backup boot is left in the down state.
Software Version
New feature (up/down IP interface) available with 1.1.20 and higher
Full Name
Configure Interface Address
Card(s) on Which This Command Executes
PXM
Syntax
cnfifip <Interface> [[<IP_Addr> <Net_Mask> <BroadcastAddr>] | InterfaceFlag]
Syntax Description
Related Commands
dspifip
Attributes
Log: Yes State: Active only Privilege: Super Group
Example Configure the ATM interface and bring it up
wilco.1.7.PXM.a > cnfifip atm 192.9.200.1 255.255.255.128wilco.1.7.PXM.a >A system response does not occur unless an error is detected. To confirm your configuration for the interface address, use the dspifip command.
Example Configure the ATM interface with the current information in the database
wilco.1.7.PXM.a > cnfifip atm upwilco.1.7.PXM.a >Example Remove the ATM interface and preserve the information in the database
wilco.1.7.PXM.a > cnfifip atm downwilco.1.7.PXM.a >cnfilmi
Use the cnfilmi command to configure the local management interface port on the PXM or AUSM. A system response does not occur unless an error is detected.
Full Name
Configure ILMI
Card(s) on Which This Command Executes
PXM, AUSM
Syntax: PXM
cnfilmi <ifNum> <bbIfSigPortNum> <ilmiEnable> <sigProtocolType> <signallingVPI> <siganllingVCI> <iLMITrap> <minTrapInterval> <keepAlive> <errorThresholdN491> <pollingIntervaalT491> <eventThresholdN492> <minEnquiryIntervalT493> <addrRegEnable>
Syntax Description
Syntax: AUSM
cnfilmi <port_num> <signal_type> <vpi> <vci> <scr> <trap_enable> <min_trap_int> <keep_alive>
Syntax Description
Related Commands
dspilmi, dspilmicnt
Attributes
Log: Yes State: Active Privilege: 1, (Cisco for PXM)
cnfimagrp
Use the cnfimagrp command to configure delay and resilient links Inverse Multiplexing ATM (IMA) parameters on the current AUSM card.
Full Name
Configure IMA Group
Card(s) on Which This Command Executes
AUSM
Syntax
cnfimagrp <grp> <max_diff_delay> <min_num_links>
Syntax Description
Related Commands
dspimagrp, dspimagrps, dspimagrpcnt
Attributes
Log: Yes State: Active Privilege: 1-2
Example Configure AIMUX group 1 on the AUSM card in slot 17 to have a read/write pointer differential of 5, a link loss severity of 2, a maximum tolerable differential delay of 5, and 2 redundant links
flyers01.1.17.AUSM.a > cnfimagrp 1 -rwdiff 5 -severity 2 -maxdiff 3 -red 2flyers01.1.17.AUSM.a >cnfln
Use the optional cnfln command to configure line characteristics after the line becomes active (see addln). Applicable cards are the core cards and service modules. For the PXM1 and optional SRM, a syntax switch or command delineator is necessary to identify the interface type as well as the parameters. (See syntax descriptions that follow.)
Note
Full Name
Configure Line
Card(s) on Which This Command Executes
PXM, FRSM, AUSM, CESM, VISM
Note
On all PXM interfaces, a loopback is available. The local loopback exists between the daughter card and the back card. The remote loopback exists between the CPE or switch and the PXM daughter card.With a remote loopback, the data originates on the CPE or external switch, arrives at the PXM daughter card, then returns to the remote equipment. (See .)
Figure 1-4 Local and Remote Loopbacks on the PXM
Syntax: PXM (SONET)
cnfln -sonet <LineNum> -slt <LineType> -lpb <LoopCmd> -smask <HCSmasking>
-sps <PayloadScramble> -sfs <FrameScramble>Syntax Description
Syntax: PXM (T3)
cnfln -ds3 <LineNum> -lc <LineCoding> -len <LineLength> -oof <LineOOFCriteria>
-cb <LineAIScBitsCheck> -lpb <LoopCmd> -rfeac <LineRcvFEACValidation>Syntax Description
Syntax: PXM E3
cnfln -e3 <LineNum> -lc <LineCoding> -len <LineLength> -lpb <LoopCmd>
-topt <TrailTraceOption> -txtt <txTrailTrace> -txma <txTimingMarker>
-rxma <rxTimingMarker> -txpt <txPayloadType>Syntax Description
Syntax: FRSM 8T1, 8E1, 2CT3
cnfln <line_num> <line_type> <clk_src>
Syntax Description
Syntax: FRSM 2T3, 2E3, 2CT3, HS2
cnfds3ln <line_num> <line_type> <line_len> <clk_src>
Syntax Description
Syntax: FRSM HS1/B
cnfln <line_num> <line_type> <line_rate>
Syntax Description
AUSM, CESM, VISM (for T1 or E1)
cnfln <line_num> <line_code> <line_len> <clk_src> [E1-signaling]
Syntax Description
Related Commands
addln, delln, dsplns, dspln
Attributes
Log: Yes State: Active Privilege: 1
Example Configure line 4 on the current card (an AUSM in slot 4) to be T1 with B8ZS line coding, have a length of 10, and use the loop clock as a clock source
wilco.1.4.AUSM.a > cnfln 4 2 10 1wilco.1.4.AUSM.a >cnflnsubrate
Use cnflnsubrate to configure the T/E3 line subrate mode. This command provides T3/E3 line sub-rates for Digital Link and ADC Kentrox DSUs.
Possible errors associated with this command are:
•
•
•
Software Version
Command available with 1.1.22 and higher.
Full Name
Configure Line Subrate
Card(s) on Which This Command Executes
FRSM-2T3/2E3
Syntax
cnflnsubrate <line_num> <dsu_subrate_ena> <dsu_select> <dsu_scramble_ena> <dsu_line_rate >
Syntax Description
.
Related Commands
dspds3ln
Attributes
Log: Yes State: Active Privilege: 1-2
cnfname
Use the cnfname PAR command to set the switch name. The name can consist of letters, special characters "_" and "-" and numbers. It must begin with a letter and cannot contain spaces. The name is case sensitive.
Full Name
Configure Name
Card(s) on Which This Command Executes
PXM
Syntax
cnfname <node name>
Syntax Description
Related Commands
None
Attributes
Log: Yes State: Active Privilege: 1
Example The prompt returns with the new name. However, on the command line, the name is truncated to eight characters because of the information displayed in the prompt
NODENAME.1.7.PXM.a > cnfname kanchendzongakanchend.1.3.PXM.a >cnfoamlpbk
Use the cnfoamlpbk command to configure the OAM loopback test. This nonintrusive test sends OAM cells to an idle PVC, one not receiving data for a whole minute, to verify connection continuity. No remote end loopback is necessary for this test to run. OAM cells are automatically recognized and returned without the need for the remote end to be looping back all data. If the end points reside in Fast Packet cards, then "test delay" cells are transmitted instead of OAM loopback cells.
The OAM cell is initiated at an end point and sent into the network, where it will be returned by the card at the remote end of the connection. (Note that the cells do not go through NNI trunks.) When ten consecutive cells are not received, the PVC is declared failed. The test logs alarms when significant continuous cell loss is encountered.
Once a failed PVC is detected, the local end from which the test started sends a network message to the end point node indicating a failure. This provides consistent network views for both ends of the connection.
Full Name
Configure OAM Loopback
Card(s) on Which This Command Executes
FRSM 2T3/E3, FRSM HS2
Syntax
cnfoamlpbk <action> <frequency>
Syntax Description
action
One of the following actions:
•
•
frequency
Frequency at which the loopback cells should be sent, in the range 1 to 10 minutes.
Related Commands
dspoamlpbk
Attributes
Log: Yes State: Any Privilege: Any
Example Send OAM cells every 10 minutes on an FRSM-2CT3 card
NODENAME.1.19.VHS2CT3.a > cnfoamlpbk 1 10NODENAME.1.19.VHS2CT3.a >cnfpasswd
Use the cnfpasswd command to set the password for the specified User ID. Enter the command without arguments to change your own password. Prompts are presented to let you enter the new password and to confirm it.
Full Name
Configure Password
Card(s) on Which This Command Executes
PXM
Syntax
cnfpasswd [<user_id>]
Syntax Description
Related Commands
cnfpwd
Attributes
Log: Yes State: Active Privilege: Any
Example Change your own password. Prompts appear for you to enter the new password and confirm it.
spirit4.1.8.PXM.a > cnfpasswdEnter password:Re-enter password:spirit4.1.8.PXM.a >cnfplpp
Use the cnfplpp command to set PLPP parameters on the current AUSM card.
Full Name
Configure PLPP
Card(s) on Which This Command Executes
AUSM
Syntax
cnfplpp <phy_port_num> <loopback> <scramble> <singlebit_errcorr_ena>
Syntax Description
Related Commands
dspplpp
Attributes
Log: Yes State: Active Privilege: 1-2
Example Configure the PLPP parameters on port 1 on the current AUSM card in slot 22 to disable cell scramble, to disable PLPP loopback, and to disable single-bit error correction.
spirit3.1.22.AUSM8.a > cnfplpp 1 1 1 1spirit3.1.22.AUSM8.a >A system response does not occur unless an error is detected. To confirm your configurations for PLPP parameters, use the dspplpp command.
Example Confirm PLPP configuration
spirit3.1.22.AUSM8.a > dspplpp 1PhysicalPortNumber: 1CellFraming: ATMCellScramble: No ScramblePlpp Loopback: No LoopbackSingle-bit error correction: Disabledspirit3.1.22.AUSM8.a >cnfport
Use the cnfport command to configure service port on an FRSM or a PXM. The configuration can be verified using the dspport command.
Full Name
Configure Port
Card(s) on Which This Command Executes
PXM, FRSM
Syntax: PXM
cnfport <port_number> <percent_bandwidth> <min_VPI> <max_VPI>
Syntax Description
Syntax: FRSM
cnfport <port_num> <lmi_sig> <asyn> <ELMI> <T391> <T392> <N391> <N392> <N393>
Syntax Description
Related Commands
addport, delport, dspport, dspports
Attributes
Log: Yes State: Active Privilege: Any
Example Configure the port parameters on PXM port 1, in slot 8, to allocate all the bandwidth and to set the VPI range for 0-4095
spirit3.1.8.PXM.a > cnfport 1 100 0 4095spirit3.1.8.PXM.a >cnfportcllm
Use the cnfportcllm command to set Consolidated Link Layer Management (CLLM) parameters for a specified port on the current card. Use CLLM to pass ForeSight to another Cisco WAN switching network using NNI.
Full Name
Configure Port CLLM
Card(s) on Which This Command Executes
FRSM
Syntax
cnfportcllm <port_num> <CLLMEN> <CLLMTM>
Syntax Description
Related Commands
dspportcllm
Attributes
Log: Yes State: Active Privilege: 1-2
cnfportq
Use the cnfportq command to configure queue parameters for a specified port on the current AUSM. A system response does not occur unless an error is detected.
Full Name
Configure Port Queue
Card(s) on Which This Command Executes
AUSM
Syntax
cnfportq <port_num> <q_num> <q_algo> <q_depth> <clp_high> <clp_low> <efci_thres>
Syntax Description
Related Commands
None
Attributes
Log: Yes State: Active Privilege: 1
cnfportrscprtn
Use the cnfportrscprtn command to configure the resources each controller application receives at a port.
You need to configure partitions at the port level if:
•
•
Full Name
Configure Port Resource Partition
Card(s) on Which This Command Executes
PXM, AUSM, FRSM, CESM, VISM
Syntax: PXM
cnfportrscprtn <if_num> <ctrlr_num> <ingr_pct_bw> <egr_pct_bw> <min_vpi> <max_vpi> <min_vci> <max_vci> <max_chans>
Syntax Description
Syntax: AUSM, FRSM, CESM, VISM
cnfportrscprtn <portnum> <controller> <conn ID range> <percent bandwidth> [number of conns]
Syntax Description
Related Commands
addcdrscprtn, cnfcdrscprtn
Attributes
Log: Yes State: Active Privilege: 1 (Service for PXM)
cnfprfparam
Use the cnfprfparam command to configure the bucket interval.
Full Name
Configure Preference Parameters
Card(s) on Which This Command Executes
PXM
Syntax
cnfprfparam <bucket interval>
Syntax Description
Related Commands
dspprf, dspprfhist
Attributes
Log: No State: Active Privilege:Any
Example
popeye3.1.8.PXM.a > cnfprfparam 2The bucket interval will be effective after the current bucket interval is over.popeye3.1.8.PXM.a >cnfrscprtn
Use the cnfrscprtn command to modify an existing resource partition. Refer to the description of addrscprtn for information on resource partitions.
A resource partition on a PXM consists of a percent of bandwidth, a VPI/VCI range, and the number of global logical connection numbers (GLCNs) available to a network control application. The current network control applications are Portable AutoRoute (PAR) and Tag Switching.
Full Name
Configure Resource Partition
Card(s) on Which This Command Executes
PXM
Syntax
cnfrscprtn <if_num> <ctrlr_num> <ingr_pct_bw> <egr_pct_bw> <min_vpi> <max_vpi> <min_vci> <max_vci> <max_chans>
Syntax Description
Related Commands
addrscprtn, delrscprtn, dspifrsc, dspifs, dsprscprtns, dsprscprtn, dsplnrsc
Attributes
Log: Yes State: Any Privilege: Service_GP
Example
MGX-01.1.2.PXM.a > cnfrscprtn 1 1 100 100 0 4095 0 65535 32767MGX-01.1.2.PXM.a >cnfserialif
Use the cnfserialif command to configure the speed of a serial port.
Full Name
Configure Serial Interface
Card(s) on Which This Command Executes
PXM
Syntax
cnfserialif -if <serial_port_num> -sp <serial_port_speed>
Syntax Description
Related Commands
dspserialif
Attributes
Log: Yes State: Active Privilege: 1-2
Example Configure the speed on slip for 19200bps
NODENAME.1.7.PXM.a > cnfserialif -if 2 -sp 3NODENAME.1.7.PXM.a > dspserialif -if 2SerialPortNum : 2SerialPortType : mainSerialPortEnable : EnableSerialPortBps : 19200bpscnfslftst
Use the cnfslftst command configure the self-test routine on the current card.
Full Name
Configure Self-Test
Card(s) on Which This Command Executes
FRSM, AUSM, CESM
Syntax
cnfslftst -en <SelftestEnable> -tm <SelftestPeriod>
Syntax Description
-SelftestEnable
Enable or disable self-test.
•
•
SelftestPeriod
Period, in minutes, between self tests in the range 1-60.
Related Commands
clrslftst, dspslftst, runslftstno
Attributes
Log: No State: Any Privilege: Any
Example Enable the self-test for the AUSM in slot 22, with a self-test period of five minutes
spirit3.1.22.AUSM8.a > cnfslftst -en 2 -tm 5spirit3.1.22.AUSM8.a >cnfsnmp
Use the cnfsnmp command to view the community strings configured on a service module. The default SNMP community string is set to POPEYE.
Full Name
Configure SNMP
Card(s) on Which This Command Executes
PXM
Syntax
cnfsnmp <community string>
Syntax Description
Related Commands
cnfsnmp
Attributes
Log: No State: Active Privilege: Superuser
Example Configure the SNMP community string
popeye.1.7.PXM.a > cnfsnmp POPEYE2STpopeye.1.7.PXM.a > dspsnmpCommunity String :POPEYE2STcnfsrmclksrc
Use the cnfsrmclksrc command to configure the SRM clock source to be acquired from either the PXM or from an SRM-3T3 T3 line.
Full Name
Configure SRM Clock Source
Card(s) on Which This Command Executes
PXM
Syntax
cnfsrmclksrc -ds3 <T3 line number> -srmclk <source number>
Syntax Description
Related Commands
dspsrmclksrc
Attributes
Log: No State: Active Privilege: Any
cnfstatsmgr
Use the cnfstatsmgr command to specify the IP address of the workstation with the statistics manager to the MGX 8800 series switch node. If the node on an MGX 8800 series switch does not have this IP address, it refuses requests for statistical information from the workstation that is running Cisco WAN Manager.
Full Name
Configure Statistics Manager
Card(s) on Which This Command Executes
PXM
Syntax
cnfstatsmgr <IP_Addr>
Syntax Description
Related Commands
dsptrapmgr
Attributes
Log: Yes State: Active Privilege: SuperUser
cnfswfunc
Use the cnfswfunc PAR command to set certain node-level, paid features on an MGX 8800 series switch. The features are the feeder implementation of the switch and virtual source/virtual destination (VSVD) control for ABR traffic. The defaults are disabled for VSVD and the routing implementation of the MGX 8800 series switch.
Full Name
Configure Software Function
Card(s) on Which This Command Executes
PXM
Syntax
cnfswfunc -vsvd <enable(yes) | disable(no)> -ndtype <fdr | routing>
Syntax Description
Note
Related Commands
dspswfunc
Attributes
Log: No State: Active Privilege: Service
Example
wilco.1.7.PXM.a > cnfswfunc -vsvd yes -ndtype routingwilco.1.7.PXM.a >cnftime
Use the cnftime command to set the time on the PXM. The node uses a 24-hour clock.
Full Name
Configure Time
Card(s) on Which This Command Executes
PXM
Syntax
cnftime <hh:mm:ss>
Syntax Description
hh:mm:ss
Hour, minutes, seconds
•
•
•
Related Commands
cnftmzn, cnfdate
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Set time for 2 p.m. plus 11minutes and 22 seconds
excel.1.3.PXM.a > cnftime 14:11:2211/14/98-14:11:22 3 tDbgCmdTask 1220 informational : TIME/DATE updated11/14/98-14:11:22 3 StrataCom 0 cnftime 14:11:22excel.1.3.PXM.a >cnftmzn
Use the cnftmzn command to configure the time zone for the switch.
Full Name
Configure Timezone
Card(s) on Which This Command Executes
PXM
Syntax
cnftmzn <timezone>
Syntax Description
Related Commands
cnftime, cnfdate
Attributes
Log: Yes State: Active Privilege: SuperUser
Example Configure the time zone in the node to U.S. Central Standard Time
excel.1.3.PXM.a > cnftmzn 3excel.1.3.PXM.a >cnftmzngmt
Use the cnftmzngmt command to configure the time zone for the shelf relative to GMT.
Full Name
Configure Timezone Relative to GMT
Card(s) on Which This Command Executes
PXM
Syntax
cnftmzngmt <timeoffsetGMT>
Syntax Description
Related Commands
cnftmzn, cnftime, cnfdate
Attributes
Log: Yes State: Active Privilege: Superuser
Example Set time zone in the shelf to GMT plus 4 hours
excel.1.3.PXM.a > cnftmzngmt 4excel.1.3.PXM.a >cnftrafficgen
Use the cnftrafficgen command to configure a traffic generation test. This test is used for troubleshooting cell loss and is intended for use with defective PVCs. This test is enabled or disabled at a connection level, not at a card level.
Software Version
Command available with 1.1.20 and higher.
Full Name
Configure Traffic Generation Test
Card(s) on Which This Command Executes
FRSM-VHS (2CT3/2T3/2E3/HS2)
Syntax
cnftrafficgen <pvc_num> <action> <num_frames> <pattern_type >
Syntax Description
Related Commands
dsptrafficgen
Attributes
Log: No State: Active Privilege: Any
Example Start traffic generation test on connection 16 for 100 frames with a pattern type of 1
spirit.1.1.VHS2CT3.a > cnftrafficgen 16 1 100 1Wait......Starting TestExample Stop traffic generation test on connection 16
spirit.1.1.VHS2CT3.a > cnftrafficgen 16 2Wait....Stopping Testcnftrapip
Use the cnftrapip command to configure the IP address to be used in all out-going traps from the shelf. This should be configured to one of the interface addresses. The system displays errors if they occur.
Full Name
Configure Trap IP Address
Card(s) on Which This Command Executes
PXM
Syntax
cnftrapip <ip_addr>
Syntax Description
Related Commands
None
Attributes
Log: No State: Active Privilege: Any
Example
spirit4.1.8.PXM.a > cnftrapip 192.169.3.102spirit4.1.8.PXM.a >cnftrk
Use the cnftrk command to configure various trunk parameters. Execute this command after you have configured the interface as a routing trunk using the cnfifastrk command and activated the trunk on a node through the addtrk command.
Full Name
Configure Trunk
Card(s) on Which This Command Executes
PXM
Syntax
Note
cnftrk -slot.port slot.port [-stres <Stats Reserve> | -ccRstr <CC Restrict> | -lnTyp <Line Type> | -passSync <yes/no> | -drtdly <Deroute Delay(ms)> | -fst <yes/no> |
-fr <yes/no> | -nts <yes/no> | -ts <yes/no> | -voice <yes/no> | -cbr <yes/no> | -vbr <yes/no> |
-abr <yes/no> | -rtcost <Routing Cost> | -vpcconid <Max VPC Con IDs>Syntax Description
Related Commands
addtrk, dsptrks, dsptrkcnf, dsptrkload
Attributes
Log: No State: Active Privilege: 2
Example
tango1.1.8.PXM.a > cnftrk 7.1-stres 1000 -ccrstr no -lntyp s -passsync yes -drtdly 0 -fst yes -fr yes -nts yes -ts yes -voice yes -cbr yes -vbr yes -abr yes -rtcost 10 -vpcconid 255tango1.1.8.PXM.a >cnfupcabr
Use the cnfupcabr command to configure bandwidth control parameters for ABR connections on the current AUSM. No messages appear on-screen unless an error occurs.
Full Name
Configure Parameter Control for ABR
Card(s) on Which This Command Executes
PXM, AUSM-8T1/E1
Syntax for PXM
cnfupcabr <chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <clp_tag>
Syntax Description
Syntax for AUSM-8T1E1
cnfupcabr <port.VPI.VCI | chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <clp_tag>
Syntax Description
Related Commands
dspcon, dspcons, cnfupccbr, cnfupcvbr
Attributes
Log: Yes State: Active Privilege: 1-2 (Any for PXM)
Example Configuring bandwidth control parameters for ABR connections on the current AUSM (using the port.VPI.VCI argument)
s1.1.12.AUSMB8.a > cnfupcabr 2.1.5 2 3000 250000 2000 1 1000 50 4000 50 2Example Configuring bandwidth control parameters for ABR connections on the current AUSM (using the channel number argument)
s1.1.12.AUSMB8.a > cnfupcabr 31 2 3000 250000 2000 1 1000 50 4000 50 2cnfupccbr
Use the cnfupccbr command to set connection bandwidth control parameters for the constant bit rate (CBR) connection type on the current AUSM.
No messages appear on-screen unless an error occurs.
Full Name
Configure User Parameter Control Constant Bit Rate
Card(s) on Which This Command Executes
PXM, AUSM
Syntax for PXM
cnfupccbr <chan_num> <enable|disable> <pcr[0+1]> <cdvt[0+1]> <pcr[0]> <cdvt[0]> <clp_tag>
Syntax Description
Syntax for AUSM-8T1E1
cnfupccbr <port.VPI.VCI | ChanNum> <enable|disable> <pcr[0+1]> <cdvt[0+1]> <IngPcUtil> <EgSrvRate> <EgPcUtil>
Syntax Description
Related Commands
dspcon, dspcons, cnfupcabr, cnfupcvbr
Attributes
Log: Yes State: Active Privilege: 1-2
Example Set connection bandwidth control parameters for the constant bit rate (CBR) connection type on the current AUSM (using port.VPI.CVI argument)
s1.1.12.AUSMB8.a > cnfupccbr 2.1.1 2 4528 250000 50 4528 50Example Set connection bandwidth control parameters for the constant bit rate (CBR) connection type on the current AUSM (using channel number argument)
s1.1.12.AUSMB8.a > cnfupccbr 21 2 4528 250000 50 4528 50cnfupcubr
Use the cnfupcubr command to configure the usage parameter control (UPC) parameters for unspecified bit rate (UBR) on the current AUSM8 card. No messages appear on-screen unless an error occurs.
Full Name
Configure User Parameter Control Unspecified Bit Rate
Card(s) on Which This Command Executes
PXM, AUSM-8T1E1
Syntax for PXM
cnfupcubr <chan_num> <enable> <pcr[0-1]> <cvdt[0-1]> <IngPcUtil> <clp_tag>
Syntax Description
Syntax for AUSM-8T1E1
cnfupcubr <port.VPI.VCI | chan_num> <enable> <pcr[0-1]> <cvdt[0-1]> <IngPcUtil> <clp_tag>
Syntax Description
Related Commands
dspcon, dspcons, cnfupcabr, cnfupcvbr
Attributes
Log: Yes State: Active Privilege: 1-2
Example Configuring the usage parameter control (upc) parameters for unspecified bit rate (ubr) on the current AUSM8 card (using the port.VPI.VCI argument)
s1.1.12.AUSMB8.a > cnfupcubr 2.1.7 2 4528 250000 50 2Example Configuring the usage parameter control (upc) parameters for unspecified bit rate (ubr) on the current AUSM8 card (using the channel number argument)
s1.1.12.AUSMB8.a > cnfupcubr 37 2 4528 250000 50 2cnfupcvbr
Use the cnfupcvbr command to configure channel bandwidth control parameters for a variable bit rate (VBR) connection type on the current AUSM. No messages appear on-screen unless an error occurs.
Full Name
Configure User Parameter Control Variable Bit Rate
Card(s) on Which This Command Executes
PXM, AUSM-8T1E1
Syntax for PXM
cnfupcvbr <chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <clp_tag>
Syntax Description
Syntax for AUSM-8T1E1
cnfupcvbr <port.VPI.VCI | chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <IngPcUtil> <EgSrvRate> <EgPcUtil> <clp_tag>
Syntax Description
Related Commands
dspcon, dspcons, cnfupcabr, cnfupccbr
Attributes
Log: Yes State: Active Privilege: 1-2
Example Configuring channel bandwidth control parameters for a variable bit rate (VBR) connection type on the current AUSM (using the port.VPI.VCI argument)
s1.1.12.AUSMB8.a > cnfupcvbr 2.1.3 2 3000 250000 2000 1 1000 50 4000 50 2Example Configuring channel bandwidth control parameters for a variable bit rate (VBR) connection type on the current AUSM (using the channel number argument)
s1.1.12.AUSMB8.a > cnfupcvbr 26 2 2 3000 250000 2000 1 1000 50 4000 50 2cnfvismip
Use the cnfvismip command to configure the VISM IP address and the signaling unit (SU) IP address on the VISM card. An IP address for each VISM is necessary for it to communicate with the SU and serves as the identifier for VoIP endpoints. Together, the VISM IP address and the local RTP port identify the bearer channel of each VoIP connection.
Any of the above three parameters can be configured with the cnfvismip command. It is possible to configure all of them in a single command invocation or separate invocations. Once configured, these IP addresses will be stored on the hard disk on the PXM and will be retrieved from there for subsequent reboots of the card.
Note that no automatic mechanism exists for communicating or registering the VISM IP address to the LightSpeed unit. Therefore, you must configure the signaling unit with the IP address of each CU that the SU controls.
Full Name
Configure VISM IP Address
Card(s) on Which This Command Executes
VISM
Syntax
cnfvismip -cuip <VISM IP address> | -mask <net mask> | -suip <SU IP address>
Syntax Description
commit
Use the commit command to confirm copying the selected firmware file into the PXM.
Full Name
Confirm Copying the Firmware Load
Card(s) on Which This Command Executes
PXM
Syntax
commit <version>
Syntax Description
Related Commands
dspupgrade, rstupgrade, newrev, dspfwrevs, printrev, copy, install, abort
Attributes
Log: Yes State: Active Privilege: Any
Example Loading firmware 1.1.10
NODENAME.1.8.PXM.a > commit 1.1.10this may take a while ...commit command completed okExample Commit command errors (multiple cases)
NODENAME.1.8.PXM.a > commit 1.1.11in 'upgrade idle', must be in 'upgrade newrev'ERR: command "commit" failedNODENAME.1.7.PXM.a > commit 1.1.111.1.11 is not the currently running version 1.1.10HuERR: command "commit" failedExample Loading firmware on a Service Module
golden1.1.7.PXM.a > commit sm 11 10.0.05Do you want to proceed (Yes/No)? yesExample Errors loading firmware on a Service Module
golden1.1.7.PXM.a > commit sm 11 10.0.04Incorrect version : 10.0.04usage: commit [sm <slot>] <version>ERR: command "commit" failedcopy
Use the copy command to replicate the selected firmware file into the PXM.
Full Name
Copy the Firmware Load
Card(s) on Which This Command Executes
PXM
Syntax
copy <fw_load>
Syntax Description
Related Commands
abort, commit, cp
Attributes
Log: No State: Any Privilege: Any
Example Copy loading firmware file named pxm_1.0.00Ef.fw
spirit4.1.8.PXM.a > copy pxm_1.0.00Ef.fwspirit4.1.8.PXM.a >cp
Use the cp command to replicate the selected firmware file into the PXM.
Full Name
Copy the firmware load
Card(s) on Which This Command Executes
PXM
Syntax
copy <fw_load>
Syntax Description
Related Commands
abort, commit, copy
Attributes
Log: No State: Any Privilege: Any
Example Copy loading firmware file named pxm_1.0.00Ef.fw
spirit4.1.8.PXM.a > copy pxm_1.0.00Ef.fwspirit4.1.8.PXM.a >cth
Use the cth command to clear the transaction handler trace buffer.
Full Name
Clear Transaction Handler
Card(s) on Which This Command Executes
PXM
Syntax
cth
Related Commands
thtrace, dth
Attributes
Log: No State: Any Privilege: Service Group
Example
spirit4.1.8.PXM.a > cthspirit4.1.8.PXM.a >copychans
Use the copychans command copy a channel configuration onto one or more channels. This command enables you to create and configure multiple channels from a specified "template" channel.
Full Name
Copy Channels
Card(s) on Which This Command Executes
FRSM, AUSM
Syntax
copychans <template chan #> <start chan #> <start dlci> <# of chans> <start remote VPI> <start remote VCI>
Syntax Description
Related Commands
delchan, delchans
Attributes
Log: No State: Active Privilege: 1
copyports
Use the copyports command to copy a port configuration to one or more ports. The purpose of this command is to create and configure multiple ports from a single port that serves as a template.
Full Name
Copy Ports
Card(s) on Which This Command Executes
FRSM (not on the HS1/B)
Syntax
copyports <template port #> <start port #> <start time slot> <# of ports>
Syntax Description
Related Commands
delport, delports
Attributes
Log: No State: Active Privilege: 1
cvsi
Use the cvsi command to clear the VSI trace buffer.
Full Name
Clear VSI
Card(s) on Which This Command Executes
PXM
Syntax
cvsi
Related Commands
vsitrace, dvsi
Attributes
Log: No State: Any Privilege: Cisco Group
Example Clear VSI on the current PXM
spirit4.1.8.PXM.a > cvsispirit4.1.8.PXM.a >dcct
Use the dcct command to display connection information.
Full Name
Display Connection
Card(s) on Which This Command Executes
PXM
Syntax
dcct <slot.port.vpi.vci>
Syntax Description
Related Commands
none
Attributes
Log: No State: Active Privilege: Service Group
Example Example: Show connection information for the card in slot 2
porky.1.7.PXM.a > dcct 6.2.100.100Connection does not existporky.1.7.PXM.a >dcondb
Use the dcondb command to view a connection database.
Full Name
Display Connection Database
Card(s) on Which This Command Executes
PXM
Syntax
dcondb <dbtype> <index>
Syntax Description
dbtype
Value to set the
•
•
•
•
index
Set index for either index or dbtype.
Related Commands
none
Attributes
Log: No State: A
