|
|
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.
The list of commands for the common equipment cards PXM and SRM appear in Table 11. These commands are available when you log into the PXM. The Portable AutoRoute (PAR) commands appear in Table 11. 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 Table 12. Many commands apply to both the common equipment cards and the service modules.
| Command | Description |
|---|---|
| PXM Shelf Group | |
addtrapmgr | Add Trap Manager |
agetrapmgr | Age Trap Manager |
clrcderrs | Clear Card Errors in BRAM |
clrmsgcnt | Clear Control Message Counter |
cnfclksrc | Configure Network Clock Source |
cnfstatsmgr | Configure Statistics Manager |
cnftrapmgr | Configure/Add/Delete Trap Managers |
deltrapmgr | Delete Trap Manager |
dspcd | Display Card |
dspcderrs | Display Card Errors in BRAM |
dspcds | Display Cards |
dspclksrc | Display Clock Sources |
dspfwrevs | Display Firmware Revisions |
dspmsgcnt | Display Control Message Counter |
dspsarcnts | Display SAR Counters |
dspsmcnf | Display Service Module Configuration |
dspstatparms | Display Statistics Alarms |
dsptrapmgr | Display Trap Manager |
dsptrapmgrs | Display Trap Managers |
resetcd | Reset Card |
switchcc | Switch Core Cards |
version | Version (displays version data for a card) |
xcnftrapmgr | Configure Trap Manager |
xdsptrapmgr | Display Trap Manager |
| PXM User Group | |
adduser | Add User |
cc | Change Card |
clrscrn | Clear Terminal Screen |
clrlog | Clear Event/Message Log |
cnfpwd | Configure Password |
deluser | Delete User |
dsplog | Display Event/Message Log |
dspusers | Display Users |
Help | Help (list of commands per card) |
users | Users |
| PXM Node Group | |
cnfname | Configure Shelf Name |
cnfdate | Configure Date |
cnftime | Configure Time |
cnftmzn | Configure Time Zone |
cnftmzngmt | Configure Time Zone to GMT |
cnfifip | Configure Interface IP Address |
delifip | Delete Interface IP Address |
dspifip | Display LAN interface IP |
| PXM Redundancy Group | |
addred | Add Redundancy |
delred | Delete Redundancy |
dspfeature | Display Feature |
dspred | Display Redundancy |
softswitch | Soft Switch |
switchback | Switch Back |
| PXM Broadband Interface Group | |
addrscprtn | Add Resource Partition |
clratmlncnt | Clear an ATM Line's Counters |
clratmlncnts | Clear All ATM Line Counters |
clrifcnt | Clear Counters for a Broadband Interace |
clrifcnts | Clear All Counters for a Broadband Interface |
cnfatmln | Configure ATM Line |
cnfcdrscprtn | Configure Card Resource Partition |
cnfif | Configure a Broadband Interface |
cnfrscprtn | Configure Resource Partition |
cnfsvclcn | Configure SVC LCNs |
cnfsvcrange | Configure SVC Range |
dnif | Disable the Broadband Interface |
dspatmlncnf | Display ATM Line Configuration |
dspcdrscprt | Display Card Resource Partition |
dspcdrsctype | Display Card Resource Type |
dspif | Display Interface |
dspifcnt | Display Interface Count |
dspifrsc | Display Interface Resource |
dspifs | Display Interfaces |
dsplnrsc | Display Line Resource |
dsprscprtns | Display All Resource Partitions |
dspsvcrange | Display SVC Range |
upif | Add a broadband interface on the PXM |
| PXM Alarm Group | |
clralm | Clear Line Alarms |
clralmcnt | Clear Alarm Counters/Statistics |
dspalm | Display Alarms for a Line |
dspalms | Display All Alarms on Card |
dspalmcnf | Display Alarm Threshold Configuration |
dspalmcnt | Display Alarm Counters/Statistics (line) |
dspshelfalm | Display Shelf Alarms |
| PXM Line Group | |
addapsln | Add APS on a Line |
addln | Add Line |
delln | Delete Line |
dspln | Display Line Configuration |
dsplns | Display All Lines on Card |
dspsrmlns | Display All Lines on Card |
| PXM Channel Group | |
clrsarcnt | Clear SAR Counters |
dspsarcnt | Display SAR Counters |
dspservrate | Display Service Rate |
| SRM-3T3 Group | |
addlink | Add an SRM-3T3 T3 link to a T1slot and line |
clrsrmcnf | Clear SRM-3T3 configuration |
cnfsrmclksrc | Configure SRM-3T3 clock source |
dellink | Delete an SRM-3T3 T3 link to a T1slot and line |
delslotlnk | Delete a link from a T1 slot |
dsplink | Display an SRM-3T3 T3 link to a T1slot and line |
dspslotlnk | Display a link in a T1 slot |
dspsrmclksrc | Display SRM-3T3 clock source |
| PXM Self-Test Group | |
clrslftst | Clear Self-Test |
dspslftsttble | Display Self-Test Table |
| PXM BERT Group | |
cnfbert xcnfbert | Configure BERT session parameters |
delbert | Stop the current BERT session |
dspbert | Display results of BERT session |
modbert | Inject bit errors into the current BERT session |
| Command | Description |
|---|---|
addtrk | Add Trunk |
clrerr | Clear Error Log |
cnfclksrc | Configure Clock Source |
cnfcmparm | Configure Connection Manager Parameters |
cnfifastrk | Configure Interface as Trunk |
cnfname | Configure Node Name |
cnfnwip | Configure Network IP Address |
cnfswfunc | Configure Software Function |
cnfsysparm | Configure System Parameters |
cnftrk | Configure Trunk |
deltrk | Delete Trunk |
dncon | Down Connection |
dspcmparm | Display Connection Manager Parameters |
dspcon | Display a Connection |
dspcons | Display Connections |
dsperr | Display Error Log |
dspload | Display Load |
dspmnup | Display Mandatory Update Parameters |
dspname | Display Nodename |
dspnw | Display Network |
dspnwcons | Display Network Connections |
dspnwip | Display Network IP Address |
dspswfunc | Display Software Functions |
dspsysparm | Display System Parameters |
dsptrkcnf | Display Trunk Configuration |
dsptrkcons | Display Trunk Connections |
dsptrkload | Display Trunk Load |
dsptrkmcons | Display Trunk Management Connections |
dsptrks | Display Trunks |
uncnfifastrk | Unconfigure Interface Trunk |
upcon | Up Connection |
| Command | Description | FRSM | AUSM | CESM | VISM | CESM-T3E3 |
|---|---|---|---|---|---|---|
| SM Shelf Group |
|
|
|
| ||
clrcderrs | Clear Card Errors in BRAM | X | X |
|
|
|
clrmsgcnt | Clear Control Message Counter | X | X | X |
|
|
clrsmcnf | Clear Service Module Configuration | X | X | X | X |
|
cnfcdrscprtn | Configure Card Resource Partition | X | X |
| X |
|
cnfclksrc | Configure Network Clock Source |
| X |
|
|
|
cnffst | Configure ForeSight | X | X |
|
|
|
cnfsvcrange | Configure SVC Range | X | X |
|
|
|
dspcd | Display Card | X | X | X | X | X |
dspcderrs | Display Card Errors in BRAM | X | X |
|
|
|
dspcdrscprtn | Display Card Resource Partition | X | X |
|
|
|
dspclksrc | Display Clock Sources |
| X |
|
|
|
dspmsgcnt | Display Control Message Counter | X | X | X | X | X |
dspsmcnf | Display Service Module Configuration |
|
|
|
| X |
dspstatparms | Display Statistics Parameters | X |
|
|
|
|
dsptotals | Display Totals | X |
|
|
| X |
resetcd | Reset Card |
|
|
|
|
|
version | Version (displays card version data) | X | X | X |
| X |
| SM User Group |
|
|
|
| ||
cc | Change Card | X | X | X |
| X |
clrscrn | Clear Terminal Screen | X | X | X |
| X |
dspmaptbl | Display Map Table | X | X |
|
| X |
Help | Help (list of commands per card) | X | X | X | X | X |
| Alarm Group |
|
|
|
| ||
clralm | Clear Line Alarms | X | X | X | X | X |
clralmcnt | Clear Alarm Counters/Statistics | X | X | X | X | X |
clralms | Clear All Alarms on the Card | X | X | X | X | X |
dspalm | Display Alarms for a Line | X | X | X | X | X |
dspalmcnf | Display Alarm Threshold Configuration | X | X | X | X | X |
dspalmcnt | Display Alarm Counters/Statistics (line) | X | X | X | X | X |
dspalms | Display All Alarms on Card | X | X | X | X | X |
| SM Line Group |
|
|
|
| ||
addln | Add Line | X | X | X | X | X |
addlnloop | Add Line Loop |
| X | X | X | X |
cnfds3ln | Configure DS3 Line | X |
|
|
|
|
cnfln | Configure Line | X | X | X | X | X |
cnfplpp | Configure PLPP Parameters |
| X |
|
|
|
delln | Delete Line | X | X | X | X | X |
dellnloop | Delete Line Loop |
| X | X | X | X |
dspds3ln | Display a DS3 Line |
|
|
|
|
|
dspds3lns | Display DS3 Lines |
|
|
|
|
|
dspln | Display Line Configuration | X | X | X | X | X |
dsplns | Display All Lines on Card | X | X | X | X | X |
| Port Group |
|
|
|
| ||
addport | Add Port | X |
|
|
| X |
clrportcnt | Clear Port Counters | X | X |
|
|
|
clrportcnts | Clear All Port Counters | X | X |
|
|
|
cnfegrq | Configure Egress Queue | X |
|
|
|
|
cnfilmi | Configure ILMI |
| X |
|
|
|
cnfport | Configure FR Port(s) | X | X |
|
|
|
cnfportcllm | Configure Port CLLM Parameters | X |
|
|
| X |
cnfportq | Configure AUSM port queue |
| X |
|
|
|
copyports | Copy Port Configuration | X | X |
|
|
|
delport | Delete FRSM or AUSM Port | X |
|
|
|
|
delports | Delete Port Configurations | X | X |
|
| X |
dnport | Down Port |
| X |
|
| X |
dspegrq | Display Egress Queue |
|
|
|
|
|
dspegrqs | Display Egress Queues |
|
|
|
|
|
dspilmi | Display ILMI |
| X |
|
|
|
dspilmicnt | Display ILMI Counters |
| X |
|
|
|
dspport | Display Port Configuration | X | X |
|
|
|
dspportcnt | Display FR Port Counters | X | X |
|
|
|
dspportq | Display Port Queue |
| X |
|
|
|
dspportqs | Display Port Queues |
| X |
|
|
|
dspports | Display All Ports | X | X |
|
|
|
dspportstats | Display Port Statistics | X |
|
|
|
|
upport | Up Port |
| X |
|
|
|
| SM Channel Group |
|
|
|
| ||
addchan | Add Channel | X |
| X | X | X |
addchanloop | Add a Channel Loopback | X | X | X |
|
|
clrchancnt | Clear Channel Counter for FRSM or AUSM Channels | X | X | X |
| X |
clrsarcnts | Clear SAR Counters | X | X | X |
|
|
cnfchancaoff | Configure Channel Admission Control Off | X |
|
|
|
|
clrchancnts | Clear Channel Counter for all FR Channels | X | X | X |
|
|
cnfchanegressq | Configure Channel Egress Queue | X |
|
|
|
|
cnfchanfst | Configure Channel ForeSight | X | X |
|
|
|
cnfchaningressq | Configure Channel Ingress Queue |
|
|
|
| X |
cnfchanmap | Configure Channel Map | X | X | X |
|
|
cnfchanpol | Configure Channel Policing | X |
|
|
|
|
cnfchanq | Configure Channel Queue |
| X |
|
| X |
copychans | Copy Channel Configurations | X | X |
|
| X |
delchan | Delete Channel(s) | X |
| X | X | X |
delchanloop | Delete a Channel Loopback | X | X | X |
|
|
delchans | Delete Channels | X | X |
|
| X |
dspchan | Display Channel Configuration | X |
| X | X | X |
dspchancnt | Display Channel Counters | X | X | X |
| X |
dspchans | Display All Channels | X |
| X | X |
|
dspchstats | Display Channel Statistics | X |
|
|
|
|
dspsarcnt | Display SAR Counters | X | X | X | X |
|
| SM Connection Group |
|
|
|
| ||
addcon | Add Connection |
| X |
| X |
|
cnfupcabr | Configure UPC for ABR |
| X |
|
|
|
cnfupccbr | Configure UPC for CBR |
| X |
|
|
|
cnfupcubr | Configure UPC for UBR |
| X |
|
|
|
cnfupcvbr | Configure UPC for VBR |
| X |
|
|
|
delcon | Delete Connection |
| X |
| X |
|
dspcon | Display a Connection |
| X |
| X |
|
dspcons | Display Connections |
| X |
| X |
|
dsploads | Display Loads |
| X |
|
|
|
tstcon | Test Connection | X | X | X |
| X |
tstconseg | Test Connection Segment |
| X |
|
|
|
| SM Self-Test Group |
|
|
|
|
|
|
clrslftst | Clear Self-Test | X | X | X |
| X |
dspslftsttble | Display Self-Test Table | X | X | X |
| X |
| SM BERT Group |
|
|
|
|
|
|
acqdsx3bert | Acquire BERT | X |
| X |
|
|
clrbertcntrs | Remove BERT counters | X |
| X |
|
|
cnfdsx3bert xcnfdsx3bert | Configure BERT parameters | X |
| X |
|
|
deldsx3bert | Stop BERT test session | X |
| X |
|
|
dspdsx3bert xdspdsx3bert | Display BERT results | X |
| X |
|
|
moddsx3bert | Inject bit errors into BERT session | X |
| X |
|
|
startdsx3bert
| Begin the BERT session | X |
| X |
|
|
| IMA Group |
|
|
|
|
| |
addimagrp | Set up a new IMA Group |
| X |
|
|
|
addlns2imagrp | Add lines to IMA Group |
| X |
|
|
|
clrimagrpcnt | Delete IMA Group counters |
| X |
|
|
|
clrimalncnt | Delete line counters of IMA Group |
| X |
|
|
|
clrimatst | Stop IMA Group test |
| X |
|
|
|
cnfimaalmparm | Configure IMA Group alarm parameters for IMA Group |
| X |
|
|
|
cnfimagrp | Configure IMA Group |
| X |
|
|
|
cnfimatst | Configure testing for IMA Group |
| X |
|
|
|
delimagrp | Remove IMA Group |
| X |
|
|
|
delnsfmimagrp | Remove lines from IMA Group |
| X |
|
|
|
dspimaalmparm | Display IMA alarm parameters |
| X |
|
|
|
dspimagrp | Display IMA Group configuration |
| X |
|
|
|
dspimagrpcnt | Display current IMA Group counters |
| X |
|
|
|
dspimagrps | Display all IMA Groups |
| X |
|
|
|
dspimaln | Display IMA Group line |
| X |
|
|
|
dspimalncnt | Display lines counters of IMA Group |
| X |
|
|
|
dspimatst | Display IMA Group test parameters |
| X |
|
|
|
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.
Help
PXM, FRSM, AUSM, CESM
command | Full or partial name of the command. |
Log: No State: Any Privilege: Any User
This section contains the following examples.
raviraj.1.7.PXM.a > ? con
Available commands
------------------
addcon
clrconcnt
clrconcnts
cnfcon
dcondb
delcon
dspcon
dspconcnt
dspcons
shellConn
tstcon
tstconseg
raviraj.1.7.PXM.a >
System response for the ? command is identical to that when executing the help command. See the examples in the "help" section beginning on page 1-393.
Use the abort command to stop the upgrade process and retun to the previous firmware version.
Refer to to see the relationship of the abort command compared with other firmware commands.
Abort
PXM
abort <version>
version | Original firmware version. |
A system response does not occur unless an error is detected.
Log: No State: Active Privilege: Any User
NODENAME.1.7.PXM.a > abort 1.1.10 this may take a while ... abort command completed ok This card will be reset, the other will become active.
NODENAME.1.8.PXM.a > abort 1.1.11 cannot be in 'upgrade idle', must be in 'upgrade newrev' or 'upgrade install' ERR: command "abort" failed NODENAME.1.7.PXM.a > abort 1.1.11 1.1.11 is not the old version 1.1.10aa ERR: command "abort" failed
Use the acqdsx3bert command to find out if a BERT session already exists on the selected MGX 8800 series switch bay.
Acquire DS3 BERT
FRSM 2CT3, CESMT3
acqdsx3bert
Log: No State: Active Privilege: Any User
NODENAME1.1.21.CESMT3.a > acqdsx3bert
dspdsx3BertCntrs :
BCRunning : 00
BCStorage : 0
BECRunning : 00
BECStorage : 0
DSX3 BERT in Sync
NODENAME1.1.21.CESMT3.a >
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.
Add APS to a Line
PXM
addapsln <workline> <workslot> <protectline> <protectslot> <archmode>
workline | Slot number of the PXM. Enter the value 7 or 8. |
workslot | OC-3 or OC-12 line number on which to set APS. · OC-3 range = 1-4 · OC-12 = enter the value 1 |
protectline | Protection line number. · OC-3 range = 1-4 · OC-12= enter the value 1 |
protectslot | Protection slot number: Enter the value 7 or 8. |
archmode | Value to set APS architect mode to be used on the working/protection line pairs. · 1 = 1+1 one backcard · 2 = 1+1 two backcards · 3 = 1:1 one backcard · 4 = 1+1 Annex B |
Log: Yes State: Active Privilege: SuperUser
spirit4.1.8.PXM.a > addapsln 1 7 1 8 2 spirit4.1.8.PXM.a >
Use the addaimgrp command to set an AIMUX group on the current AUSM.
Add IMA Group
AUSM
addaimgrp <group_num> <port_type> <list_of_links> minNumLinks
group_num | AIMUX group number, in the range 1-8. |
port_type | Value to set UNI or NNI port type. · 1 = UNI · 2 = NNI |
list_of_links | List of physical lines, in the range 1-8, to be included in "aimux_grp." Type a period ("dot") between each line in the string to delineate each member of the AIMUX group. |
minNumLinks | Minimum number of links for the group formation, in the range 1-8. |
Log: Yes State: Active Privilege: 1-2
spirit4.1.18.PXM.a > addaimgrp 2 3.4.5 spirit4.1.18.PXM.a >
A system response does not occur unless an error is detected.
Use the addcdrscprtn command to set card-level resource partitions.
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:
Table 14 describes the effects of each of three usages of addcdrscprtn.
| Command | Description |
|---|---|
addcdrscprtn off | Card-level partitioning is inactive. You must partition resources at the port level. (See also cnfportrscprtn.) |
addcdrscprtn on
| Default. Card-level partitioning is on, but no allocation for a specific controller is specified. The maximum number of connections on a port is available to each controller. Each controller therefore competes for the connections. |
addcdrscprtn on <x> <y> <z> | Same as addcdrscprtn, except x, y, and z represent the number of connections per port available to the PAR, PNNI, and Tag controllers, respectively. Note that PNNI is always 0 in MGX 8800 Release 1. |
In addition to the definitions in Table 14, note the following characteristics of this command:
Add Card Resource Partition
PXM, FRSM, CESM, VISM
addcdrscprtn <ctrlr_num> <num_lcns>
ctrlr_num | Value to set controller type. · 1 = PAR · 2 = PNNI · 3 = TAG |
num_lcns | Number of available GLCNs, in the range 0 - 32767. |
addcdrscprtn <controller> <numOfLcnAvail>
controller | Value to set controller type. · 1 = PAR/PVC · 2 = PNNI/SPVC · 3 = TAG |
numOfLcnAvail | Maximum number of LCNs, in the range appropriate for the card. · 2CT3 range = 1-4000 · 2T3 range = 1-2000 · 2E3 range = 1-2000 · HS2 range = 1-2000 |
addcdrscprtn <controller> <numOfLcnAvail>
controller | Value to set controller type. · 1 = PAR/PVC · 2 = PNNI/SPVC · 3 = TAG |
numOfLcnAvail | Maximum number of LCNs, in the range 0-248. |
spirit4.1.8.PXM.a > addcdrscprtn 10000 0 10000 spirit4.1.8.PXM.a >
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 1-21 for guidelines.
Add Channel
PXM, FRSM (8T1/E1, HS1/B, VHS), AUSM, CESM
delchan, dspchan, dspchans
Log: No State: Any Privilege: Any
addchan <LCN> <if_num> <conn_type> <vpi> <vci> <serv_type> <y_vpi> <y_vci> <y_nsap> <chan_master>
LCN | Logical connection number, in the range 16-4111. |
if_num | Number of the logical interface port that receives connection traffic, in the range 1-32. |
conn_type | Value to set VPC or VCC connection type. · 1 = VPC (Virtual Path Connection) · 2 = VCC (Virtual Channel Connection) |
vpi | VPI (Virtual Path Identifier) value, in the range 0-4095. |
vci | VCI (Virtual Channel Identifier) value, in the range 0-65535. |
serv_type | Value to set service type. · 1 = CBR (Constant Bit Rate) · 2 = VBR (Variable Bit Rate) · 3 = ABR (Available Bit Rate) · 4 = UBR (Unspecified Bit Rate) · 5 = VBR-RT (Variable Bit Rate-Real Time Class) |
y_vpi | Remote VPI value, in the range 0-4095. |
y_vci | Remote VCI value, in the range 0-65535. |
y_nsap | Remote Network Service Access Point (NSAP) value, in the format node.slot.port. An NSAP is the point at which OSI Network Service is made available to a transport layer (Layer 4) entity. |
chan_master | Value to set status of local endpoint as master or slave. · 1 = master · 2 = slave |
addchan <chan> <port> <dlci> <cir> <chan_type> [CAC] <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
chan | Channel number, in the range 16-1015. |
port | Port number for T1 or E1. · T1 range = 1-192 · E1 range = 1-248 |
dlci | DLCI (data-link connection identifier) value, in the range 0-1023. |
cir | CIR (committed information rate) value for T1 bps or E1 bps. · T1 range = 0-1536000 · E1 range = 0-204800 |
chan_type | Value to set channel type. · 1 = NIW · 2 = SIW-transparent · 3 = SIW-translation · 4 = FUNI · 5 = frame forwarding |
CAC | Value to enable or disable CAC (Connection Admission Control). · 1 = enable · 2 = disable (default) |
mastership | Value to set status of current end as the master or slave. · 1 = master · 2 = slave |
locnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
rmtvpi | Remote VPI value, in the range 1-65535. |
rmtvci | Remote VCI value, in the range 1-65535. |
rmtnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format.
|
addchan <chan_num> <port_num> <dlci_num> <cir> <chan_type> [CAC] <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
chan_num | Channel number, in the range 16-1015. |
port_num | Port number, in the range appropriate for the interface. · X.21 range = 1-4 · HSSI range = 1-2 |
dlci_num | Data-Link Connection Identifier (DLCI) value, in the range 0-1023. |
cir | CIR (Committed Information Rate) value, in the range appropriate for the interface. · X.21 range = 0-10000000 bps · HSSI range = 0-20000000 bps |
chan_type | Value to set channel type. · 1 = NIW · 2 = SIW-transparent · 3 = SIW-translation · 4 = FUNI · 5 = frame forwarding |
CAC | Value to enable or disable CAC (Connection Admission Control). · 1 = enable · 2 = disable (default) |
mastership | Value to set current end as master or slave. · 1 = master · 2 = slave |
locnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
rmtvpi | Remote VPI value, in the range 1-65535. |
rmtvci | Remote VCI value, in the range 1-65535. |
rmtnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
addchan <chan> <port> <dlci> <cir> <chan_type> <serv_type> [CAC_enable] <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
chan | Channel number, in the range 16-4015. |
port | Port number, in the range 1-256. |
dlci | Data-Link Connection Identifier (DLCI) value, in the range 0-1023. |
cir | CIR (Committed Information Rate) value for T1 bps or E1 bps. · T1 range = 0-1536000 · E1 range = 0-2048000 |
chan_type | Value to set channel type. · 1 = NIW · 2 = SIW-transparent · 3 = SIW-translation · 4 = FUNI · 5 = frame forwarding |
serv_type | Value to set service type. · 1 = CBR (Constant Bit Rate) · 2 = VBR (Variable Bit Rate) · 3 = ABR (Available Bit Rate) · 4 = UBR (Unspecified Bit Rate) |
CAC_enable | Value to enable or disable CAC (Connection Admission Control). · 1 = enable · 2 = disable (default) |
mastership | Value to set current end as master or slave. · 1 = master · 2 = slave |
locnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
rmtvpi | Remote VPI value, in the range 1-65535. |
rmtvci | Remote VCI value, in the range 1-65535. |
rmtnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
addchan <channel number> <connection type> <port number> <vpi> <vci> <service type> <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
Syntax Description
channel number | Channel number, in the range 16-1015. |
connection type | Value to set connection type as either VPC (Virtual Path Connection) or VCC (Virtual Path Connection). · 1 = VPC · 2 = VCC |
port number | Port number, in the range 1-8. |
vpi | Virtual Path Indicator (VPI) value, in the range 0-255. |
vci | Virtual Channel Indicator (VCI) value, in the range 0-65535. |
service type | Value to set service type. · 1 = CBR (Constant Bit Rate) · 2 = VBR (Variable Bit Rate) · 3 = ABR (Available Bit Rate) · 4 = UBR (Unspecified Bit Rate) |
mastership | Value to set status of current end as master or slave. · 1 = master · 2 = slave |
locnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
rmtvpi | Remote VPI value, in the range 1-65535. |
rmtvci | Remote VCI value, in the range 1-65535. This setting should be identical to that for the logical port number of the remote end point. |
rmtnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
spirit4.1.18.AUSM.a > addchan16 2 1 1 1 3 1spirit4.1.18.AUSM.a >
addchan <chan_num> <port_num> <sig_type> <partial_fill> <cond_data> <cond_signalling> [mastership | locnsap | rmtvpi | rmtvci | rmtnsap]
chan | Channel number, in the range 32-279. |
port | Port number for T1 or E1. · T1 range = 1-192 · E1 range = 1-248 |
sig_type | Value to set type of signaling to be used. All channels on a line should have the same value. · 1 = basic · 2 = E1 CAS · 3 = DS1 superframe CAS · 4 = DS1 extended superframe CAS. |
partial_fill | Number of bytes to partially fill a cell for different lines. · 0 = a fully filled cell (default) · 20-47 = cells for structured E1 · 25-47 = for structured T1 · 33-47 = for unstructured T1 or E1 |
cond_data | Value to set data-conditioning for either UDT or SDT. · UDT = 255 · SDT range = 0-255 |
cond_sig | Condition signal, in the range 0-15. |
mastership | Value to set status of current end as master or slave. · 1 = master · 2 = slave (default) |
locnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
rmtvpi | Remote VPI value, in the range 1-65535. |
rmtvci | Remote VCI value, in the range 1-65535. |
rmtnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
addchan <chan_num> <port_num> <cond_sig> <mastership> <locnsap> <rmtvpi> <rmtvci> <rmtnsap>
chan | Channel number. Enter the value 32. |
port | Port number. Enter the value 1. |
cond_sig | Condition signal number, in the range 0-15. |
mastership | Value to set status of the current end as master or slave. · 1 = master · 2 = slave |
locnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
rmtvpi | Remote VPI value, in the range 1-65535. |
rmtvci | Remote VCI value, in the range 1-65535. This setting should be identical to that for the logical port number of the remote end point. |
rmtnsap | 20-byte string, which is the hexadecimal form of the ASCII character string that identifies the remote node name, slot, and port in NSAP format. |
Log: Yes State: Active Privilege: 1-2
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.
Add a Channel Loopback
FRSM, AUSM
addchanloop <chan_num>
chan_num | Channel number to be used for the loopback on the current card. · FRSM
|
addchanloop <port.VPI.VCI | ChanNum>
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. |
Log: Yes State: Active Privilege: 1-4
s1.1.12.AUSMB8.a > addchanloop 21
s1.1.12.AUSMB8.a > addchanloop 2.1.1
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.
Add Connection
PXM, FRSM, CESM, AUSM
Log: Yes State: Active Privilege: Any
addcon <port_no> <conn_type> <local_VPI> <local_VCI> <service> [CAC] [mastership] [remoteConnId]
port_no | Port number, in the range 1-32. |
conn_type | Value to set connection type. · 1 = VPC · 2 = VCC |
local_VPI | Local virtual path identifier, in the range 0-4095. |
local_VCI | Local virtual channel identifier, in the range 0-65535. |
service | Value to set type of service. · 1 = CBR · 2 = VBR · 3 = ABR · 4 = UBR |
CAC | Enable or disable connection admission control. · 1 = enable · 2 = disable (default) |
mastership | Value to set master or slave. · 1 = master · 2 = slave (default) |
remoteConnId | Remote connection identifier, in the format NodeName.SlotNo.PortNo.VPI.VCI. |
addcon <port number> <DLCI> <CIR> <channel type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
port number | Port number for T1 or E1 · T1 range = 1-192 · E1 range = 1-248 |
DLCI | DLCI (Data-Link Connection Identifier) value in the range 0-1023. |
CIR | CIR (Committed Information Rate) value for T1 bps or E1 bps. · T1 range = 0-1536000 · E1 range = 0-2048000 |
channel type | Value to set type of connection to be used on the channel. · 1 = NIW (network interworking) · 2 = SIW-transparent (service interworking without any SDU translation) · 3 = SIW-translation (service interworking with SDU translation) · 4 = FUNI (Frame Relay UNI) · 5 = frame forwarding |
Adm_cntrl | Value to enable or disable Connection Admission Control (CAC). · 1 = enable CAC · 2 = disable CAC (default) |
controller_type | Value to set signaling controller type as either PVC or SPVC. · 1 = PVC (PAR) (default) · 2 = SPVC (PNNI) |
mastership | Value to set status of the connection as master or the slave. · 1 = master · 2 = slave (default) |
RemoteEndConID | Node name, slot number, port number, and DLCI. or Node name, slot number, port number, Controller ID, and DLCI for a Frame Relay endpoint. Use one of the following values to set controller type: · 1 = PAR · 2 = PNNI · 3 = TAG or Node name, slot number, port number, and VPI.VCI for an ATM endpoint. |
addcon <port number> <DLCI> <CIR> <channel type> <egress service type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
port number | Port number in the range 1-256. |
DLCI | Data-Link Connection Identifier (DLCI) value, in the range 0-1023. |
CIR | Committed Information Rate (CIR) bps value, in the range 0-1536000. |
channel type | Value to set type of connection on this channel. · 1 = NIW (network interworking) · 2 = SIW-transparent (service interworking without any SDU translation) · 3 = SIW-translation (service interworking with SDU translation) · 4 = FUNI (Frame Relay UNI) · 5 = frame forwarding |
egress service type | Value to set type of egress service provided on this channel. · 1 = highpriorityQ (typically committed bit rate connections) · 2 = rtVBRQ (real-time variable bit rate connections) · 3 = nrtVBRQ (non real-time variable bit rate connections) · 4 = aBRQ (available bit rate connections) · 5 = uBRQ (unspecified bit rate connections). |
Adm_cntrl | Value to enable or disable Connection Admission Control (CAC). · 1 = enable CAC · 2 = disable CAC (default) |
controller_type | Value to set signaling controller type as either PVC or SPVC. · 1 = PVC (PAR) (default) · 2 = SPVC (PNNI) |
mastership | Value to set status of connection as master or the slave. · 1 = master · 2 = slave (default) |
RemoteEndConID | Node name, slot number, port number, and DLCI. or Node name, slot number, port number, Controller ID, and DLCI for a Frame Relay endpoint. Use one of the following values to set controller type: · 1 = PAR · 2 = PNNI · 3 = TAG or Node name, slot number, port number, and VPI.VCI for an ATM endpoint. |
addcon <port number> <DLCI> <CIR> <channel type> <egress service type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
port number | Port number in the range 1-2. |
DLCI | DLCI value in the range 0-1023. |
CIR | CIR bps value for 2T3 or 2E3. · 2T3 range = 0-44210000 · 2E3 range = 0-34010000 |
channel type | Value to set type of connection on this channel. · 1 = NIW (network interworking) · 2 = SIW-transparent (service interworking without any SDU translation) · 3 = SIW-translation (service interworking with SDU translation) · 4 = FUNI (Frame Relay UNI) · 5 = frame forwarding |
egress service type | Value to set type of egress service provided on this channel. · 1 = highpriorityQ (typically committed bit rate connections) · 2 = rtVBRQ (real-time variable bit rate connections) · 3 = nrtVBRQ (non real-time variable bit rate connections) · 4 = aBRQ (available bit rate connections) · 5 = uBRQ (unspecified bit rate connections) |
Adm_cntrl | Value to enable or disable CAC. · 1 = enable CAC · 2 = disable CAC (default) |
controller_type | Value to set signaling controller type as either PVC or SPVC. · 1 = PVC (PAR) (default) · 2 = SPVC (PNNI) |
mastership | Value to set status of connection as master or the slave. · 1 = master · 2 = slave (default) |
RemoteEndConID | Node name, slot number, port number, and DLCI. or Node name, slot number, port number, Controller ID, and DLCI for a Frame Relay endpoint. Use one of the following values to set controller type: · 0 = PAR · 1 = PNNI · 2 = TAG or Node name, slot number, port number, and VPI.VCI for an ATM endpoint. |
addcon <port number> <DLCI> <CIR> <channel type> <egress service type> [Adm_cntrl] <controller_type> <mastership> <RemoteEndConID>
port number | Port number, in the range 1-2. |
DLCI | DLCI value, in the range 0-1023. |
CIR | CIR bps value, in the range 0-51840000. |
channel type | Value to set type of connection on this channel. · 1 = NIW (network interworking) · 2 = SIW-transparent (service interworking without any SDU translation) · 3 = SIW-translation (service interworking with SDU translation) · 4 = FUNI (Frame Relay UNI) · 5 = frame forwarding |
egress service type | Value to set type of egress service provided on this channel. · 1 = highpriorityQ (typically committed bit rate connections) · 2 = rtVBRQ (real-time variable bit rate connections) · 3 = nrtVBRQ (non real-time variable bit rate connections) · 4 = aBRQ (available bit rate connections) · 5 = uBRQ (unspecified bit rate connections) |
Adm_cntrl | Value to enable or disable CAC. · 1 = enable CAC · 2 = disable CAC (default) |
controller_type | Value to set signaling controller type as either PVC or SPVC. · 1 = PVC (PAR) (default) · 2 = SPVC (PNNI) |
mastership | Value to set status of the connection as master or the slave. 1 = master 2 = slave (default) |
RemoteEndConID | Node name, slot number, port number, and DLCI. or Node name, slot number, port number, Controller ID, and DLCI for a Frame Relay endpoint. Use one of the following values to set controller type: · 0 = PAR · 1 = PNNI · 2 = TAG or Node name, slot number, port number, and VPI.VCI for an ATM endpoint. |
addcon slave | master <port number> <vpi> <vci> <Conn type> <Service Type> [PAR | PNNI]
slave | master | Associates the AUSM port with either master or slave status. |
port number | Port number, in the range 1-8. |
vpi | Virtual Path Identifier (VPI) value, in the range 0-255. |
vci | Virtual Channel Identifier (VCI) value, in the range 0-65535. |
Conn type | Value to set type of connection. · 0 = VCC connection · non-zero = Local connection VP ID of the VPC (1 to 20 (UNI)/100 (STI)/340 (NNI) |
Service Type | Value to set service type. · 1 = CBR · 2 = VBR · 3 = ABR |
SlaveConID | Used only for master configuration: Node name, slot number, port number, VCI, and VPI of the slave end. |
PAR | PNNI | (optional) |
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.
addcon <port number> <signalling type> <partial_fill> <cond_data> <cond_signalling> <controller_type> <mastership> <RemoteEndConID>]
port number | Port number for T1 or E1 interface. · T1 range = 1-192 · E1 range = 1-248 |
signalling type | Channel Associated Signaling (CAS) value. · 1 = basic · 2 = E1 CAS · 3 = DS1 superframe CAS · 4 = DS1 extended superframe CAS |
partial_fill | Number of bytes to set cell fills, as associated with line types. · Partial fill, in the range 0-47. Enter the value either 0 or 47 to set this parameter for fully filled cells. · Structured T1, in the range 25-47 · Structure E1, in the range 20-47 · Unstructured T1/E1, in the range 33-47 |
cond_data | Conditional data UDT or SDT. · UDT = 255 · SDT range = 0-255 Conditional data is sent on the line when there is an underflow and also toward the network when forming dummy cells. |
cond_signalling | Conditional signaling, in the range 0-15. Conditional signaling is sent on the line when there is an underflow and also toward the network when forming dummy cells. |
controller_type | Value to set signaling controller type as either PVC or SPVC. · 1 = PVC (PAR) (default) · 2 = SPVC (PNNI) |
mastership | Value to set status of current end as the master or slave. · 1 = master · 2 = slave (default) |
RemoteEndConID | Node name, slot number, port number, and DLCI. or Node name, slot number, port number, Controller ID, and DLCI for a Frame Relay endpoint. Use one of the following values to set controller type: · 0 = PAR · 1 = PNNI · 2 = TAG or The node name, slot number, port number, and VPI.VCI for an ATM endpoint. Note: the slot number should be set to 0 (zero) to point to the active PXM. |
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.
Add End Point
VISM
addendpt <endpoint_num> <ds1_num> <ds0_list>
endpoint_num | Number of the endpoint, in the range 1-240. |
ds1_num | Number of the physical line associated with this endpoint, in the range 1-8. |
ds0_list | The list of DS0s at this endpoint. Set the list number as appropriate for T1, E1, or VISM. · E1 range = 1- 31 · T1 range = 1-24 · VISM: DS0s can be non-contiguous You must separate individual DS0s by a period ("."). For the current release of the VISM, only 1 DS0 can exist on an endpoint. For multiple DS0s, you can specify a range of DS0s with a dash ("-"). For example, 1.3-5 means DS0s 1, 3, 4, and 5. |
Log: Yes State: Active Privilege: Any
spirit4.1.28.VISM.a > addendpt 1 1 1 spirit4.1.28.VISM.a >
A system response does not occur unless an error is detected.
Use the addimagrp command to configure an IMA group for the current AUSM.
Add IMA Group
AUSM
addimagrp <group_num> <port_type> <list_of_links>
group_num | Number of the IMA group to be configured, in the range 1-8. |
port_type | Value to set port type as either UNI or NNI. · 1 = UNI · 2 = NN1 |
list_of_links | List of links to be included in group_num. Delineate each item in the list with a dot. |
Log: Yes State: Active Privilege: 1-2
spirit4.1.88.AUSM.a > addimagrp 2 1 3.4.5
spirit4.1.88.AUSM.a >
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.
Add Link
PXM
addlink <T3 LineNum> <T1Slot> <Number of T1s> <TargetSlotNum> <TargetSlotLineNum> <T3LineNume>
T3 LineNum | Line number in the format slot.line. · slot = enter the value 15 or 31 · port range = 1-3 Slot number 15 is used for the cards in slot and 15 and 16 (whichever is active) and slot 31 is used for cards in 31 and 32. |
T1Slot | T1 slot number, in the range 1-28. |
Number of T1s | Number of T1s, in the range 1-8. |
Target Slot number | T1 service module slot number to be linked to the T1 line, in the ranges 1-6, or 11-14, or 17-22, or 27-30. |
TargetSlotLineNum | T1 line number in the slot to be linked, in the range 1-4 or 1-8. |
T3LineNume | T3 line number, in the range 1-8. |
Log: No State: Active Privilege: Any
spirit4.1.8.PXM.a > addlink 15.2 1 3 5 spirit4.1.8.PXM.a >
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.
Add Line
PXM
addlmiloop <slot> <port>
slot | Slot number, in the range 1-32 |
port | Port number, in the range 1-256 |
Log: No State: Active Privilege: 1
spirit4.1.8.PXM.a > addlmiloop 1
spirit4.1.8.PXM.a >
addfdrlp 5.5
spirit4.1.8.PXM.a > dsplmiloop TRK IN LMI LOOP ------------------- 1.8 Yes
VPI.VCI: 3.31 Lmi enabled Lmi polling enabled Invalid Pdu Rx: 0 Status Polling Timer (T396) : 10 Invalid Pdu Len Rx: 14 Status Enquiry Timer (T393) : 10 Unknown Pdu Type Rx: 0 Max Status Enquiry Retry (N394): 5 Unknown IE Type Rx: 4 Update Status Timer (T394) : 10 Bad Transaction Rx: 0 Max Update Status Retry (N395) : 5 Status Rx: 46504 Spc Polling Timer : 2 Status Enq Tx: 46546 Spc Retry Timer : 0 Status Enq Rx: 92014 Spc Retry Counter : 1 Status Tx: 92014 Node Status Retry Timer : 0 Status Ack Rx: 185 Node Status Retry Counter : 0 Update Status Tx: 297 Node Status Polling Timer : 8 Update Status Rx: 203 Status Ack Tx: 203 VPI.VCI: 3.31 Lmi enabled Lmi polling enabled Invalid Pdu Rx: 0 Status Polling Timer (T396) : 10 Invalid Pdu Len Rx: 14 Status Enquiry Timer (T393) : 10 Unknown Pdu Type Rx: 0 Max Status Enquiry Retry (N394): 5 Unknown IE Type Rx: 4 Update Status Timer (T394) : 10 Bad Transaction Rx: 0 Max Update Status Retry (N395) : 5 Status Rx: 46511 Spc Polling Timer : 0 Status Enq Tx: 46553 Spc Retry Timer : 0 Status Enq Rx: 92028 Spc Retry Counter : 1 Status Tx: 92028 Node Status Retry Timer : 0 Status Ack Rx: 185 Node Status Retry Counter : 0 Update Status Tx: 297 Node Status Polling Timer : 9 Update Status Rx: 203 Status Ack Tx: 203
Use the addln command to activate an OC-12, OC-3, T3, or E3 line on the current card.
Add Line
PXM, FRSM-series, AUSM, SRM-3T3, CESM-series, VISM
addln -ds3 <line number> | -e3 <line number> | -sonet <line number>
-ds3 | Command delineator that precedes the T3 line number entry. |
line number | DS3 line number in the format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, or 32 · port = value in the range 1-n, as appropriate for the physical installation |
-e3 | Command delineator that precedes the E3 line number entry. |
line number | E3 line number format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, or 32 · port = value in the range 1-n, as appropriate for the physical installation |
-sonet | Command delineator that precedes the SONET line number entry. |
line number | OC-3 or OC-12 line number in the format slot.port. · slot = enter a value of 7. Enter 8 if the active PXM is in slot 8 · port= value in the range 1-n, as appropriate for the physical installation · Set line number value at 7 if the line type is SONET |
addln <line_num>
line_num | Line number, in the range appropriate for the interface. · 8T1 range = 1-2 · CT3 range = 1-2 · HS1/B range = 1-4 |
addln <line_num>
line_num | Line number, in the range 1-8. |
Log: Yes State: Active Privilege: 1 (Any on PXM)
spirit4.1.8.PXM.a > addln 1spirit4.1.8.PXM.a >
Use the addlnloop command to set a specified line in loopback state on the current card.
Add Line Loop
PXM, FRSM, AUSM, CESM
Log: Yes State: Active Privilege: Service (Any on PXM)
addlnloop <-ds3 | -e3 | -sonet> <line number>
-ds3 | Command delineator that precedes the T3 line number entry. |
line number | DS3 line number in the format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, or 32 · port = value in the range 1-n, as appropriate for the physical installation |
-e3 | Command delineator that precedes the E3 line number entry. |
line number | E3 line number format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, or 32 · port = value in the range 1-n, as appropriate for the physical installation |
-sonet | Command delineator that precedes the SONET line number entry. |
line number | OC-3 or OC-12 line number in the format slot.port · slot = enter the value either 7 or 8 · port= value in the range 1-n, as appropriate for the physical installation. · Set line number value at 7 if the line type is SONET |
line_num | Line number to be set in loopback state, in the range appropriate for the card. · FRSM
· AUSM
· CESM, enter a value in the range 1-8 |
Use the addlns2aimgrp command to add lines to an existing AIMUX group.
Add Lines to an AIM Group
AUSM
addlns2aimgrp <grp_num> <list_of_lines>
grp_num | Number of the AIMUX group on which lines are to be added, in the range 1-8. |
list_of_lines | List of lines to be associated with this AIMUX group. Use dotted format to delineate each line in your entry string. |
Log: Yes State: Active Privilege: 1-2
spirit4.1.18.AUSM.a > addlns2aimgrp 2 1. spirit4.1.18.AUSM.a >
Use the addport command to add a service port to the shelf's configuration.
Add a Port
PXM, FRSM, CESM
addportlpbk, cnfport, delport, dspport, dspports
Log: Yes State: Active Privilege: 1 (Any on PXM)
addport <port_number> <line_number> <percent_bandwidth> <min_vpi> <max_vpi>
port_number | OC-3 Port number to be added, in the range 1-32. |
line_number | OC-3 line number. Enter the value 4. |
percent_bandwidth | Percentage of bandwidth to be allocated to the port, in the range 1-100. |
min_vpi | VPI (Virtual Path Identifier) value, in the range 0-4095. |
max_vpi | VPI (Virtual Path Identifier) value, in the range 0-4095. |
addport <port_number> <line_number> <percent_bandwidth> <min_vpi> <max_vpi>
port_number | OC-12 port number to be added, in the range 1-32. |
line_number | OC-12 line number. Enter the value 1. |
percent_bandwidth | Percentage of bandwidth to be allocated to the port, in the range 1-100. |
min_vpi | VPI (Virtual Path Identifier) value, in the range 0-4095. |
max_vpi | VPI (Virtual Path Identifier) value, in the range 0-4095. |
addport <port_number> <line_number> <percent_bandwidth> <min_vpi> <max_vpi>
port_num | Port number, in the range 1-32. |
line_num | T3/E3 line number. Enter the value 2. |
Pc_bw | Percentage of bandwidth to be allocated to the port, in the range 1-100. |
min_vpi | Virtual Path Identifier (VPI) value, in the range 0-4095. |
max_vpi | VPI value, in the range 0-4095. |
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
port_num | Port number of either the FRSM-8T1 or the FRSM-8E1. · FRSM-8T1 range = 1-192 · FRSM-8E1 range = 1-248 |
line_num | FRSM-8T1E1 line number, in the range 1-8. |
ds0_speed | Value to set bit rate as either 56 Kbps or 64 Kbps for the DS0. · 1 = 56 Kbps · 2 = 64 Kbps |
begin_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
num_slot | Number of consecutive timeslots in the T1 or E1 frame. |
port_type | Value to set service as frame relay, FUNI, or frame forwarding. · 1 = Frame Relay · 2 = FUNI · 3= frame forwarding |
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
port_num | Port number on the FRSM-2T3 or FRSM-2E3, in the range 1-2. |
line_num | FRSM-2T3E3 line number in the range 1-2. |
ds0_speed | Value to set bit rate as either 56 Kbps or 64 Kbps for the DS0. · 1 = 56 Kbps · 2 = 64 Kbps |
begin_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
num_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
port_type | Value to set service as frame relay, FUNI, or frame forwarding. · 1 = Frame Relay · 2 = FUNI · 3= frame forwarding |
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
port_num | Port number on the FRSM-2CT3, in the range 1-256. |
line_num | FRSM-2CT3 line number in the range 1-56. |
ds0_speed | Value to set bit rate as either 56 Kbps or 64 Kbps for the DS0. · 1 = 56 Kbps · 2 = 64 Kbps |
begin_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
num_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
port_type | Value to define service as Frame Relay, FUNI, or frame forwarding. · 1 = Frame Relay · 2 = FUNI · 3 = frame forwarding |
addport <port_num> <port_type>
port_num | Port number, in the range appropriate for the interface type. · X.21 range = 1-4 · HSSI range = 1-2 |
port_type | Value to set service as Frame Relay, FUNI, or frame forwarding. · 1 = Frame Relay · 2 = FUNI · 3 = frame forwarding |
addport <port_num> <line_num> <ds0_speed> <begin_slot> <num_slot> <port_type>
port_num | Port number on the FRSM-HS2, in the range 1-2. |
line_num | FRSM-HS2 line number, in the range 1-2. |
ds0_speed | Value to set bit rate as either 56 Kbps or 64 Kbps for the DS0. · 1 = 56 Kbps · 2 = 64 Kbps |
begin_slot | Value to set the beginning timeslot number in the T1 or E1 frame |
num_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
port_type | Value to set service as Frame Relay, FUNI, or frame forwarding. · 1 = Frame Relay · 2 = FUNI · 3 = frame forwarding |
addport <port_num> <line_num> <ds0_speed> gin_slot> <num_slot> <port_type>
port_num | Port number on the CESM-8T1 or CESM-8E1 card. CESM-8T1 range = 1-192 CESM-8E1 range = 1-248 |
line_num | CESM-8T1E1 line number, in the range 1-8. |
begin_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
num_slot | Value to set the beginning timeslot number in the T1 or E1 frame. |
port_type | Value to set service as either structured, unstructured, or framing on VC disconnect. · 1 = structured · 2 = unstructured · 3 = framing on VC disconnect |
addport <port_num> <line_num>
port_num | Port number. Enter the value 1. |
line_num | Line number. Enter the value 1. |
node501.1.1.CESM.a > addport 1 1 1 24 1 node501.1.1.CESM.a >
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.
Add Redundancy
PXM
addred <redPrimarySlotNum> <redSecondarySlotNum> <RedType>
redPrimarySlotNum | Slot number that contains the primary card of the card pair, in the ranges 1-6, or 9-14, or 17-22, or 25-30. |
redSecondarySlotNum | Slot number that contains the secondary card of the card pair, in the ranges 1-6, or 9-14, or 17-22, or 25-30. |
RedType | Value to set type of redundancy to be deployed on the PXM. 1 = 1:1 2 = 1:n |
Log: No State: Active Privilege: Any
node501.1.7.PXM.a > addred 1 4 1 node501.1.7.PXM.a >
A system response does not occur unless a system error is detected.
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.
Add Resource Partition
PXM
addrscprtn <if_num> <ctrlr_num> <ingr_pct_bw> <egr_pct_bw> <min_vpi> <max_vpi> <min_vci> <max_vci> <max_chans>
if_num | Logical interface number, in the range 1- 32. |
ctrlr_num | Value to set type of network control application to be used on the logical interface. · 1 = PAR · 2 = PNNI · 3 = TAG |
ingr_pct_bw | Percentage of ingress bandwidth to be allocated on the interface, in the range 0-100. |
egr_pct_bw | Percentage of egress bandwidth to be allocated on the interface, in the range 0-100. |
min_vpi | Minimum Virtual Path Indicator value, in the range 0-65535. |
max_vpi | Maximum Virtual Path Indicator value, in the range 0-4095. |
min_vci | Minimum Virtual Channel Indicator value, in the range 0-65535. |
max_vci | Maximum Virtual Channel Indicator value, in the range 0-65535. |
max_chans | Maximum Global Logical Connection Numbers, in the range 0-32767. |
Log: No State: Any Privilege: Any
Use the addserialif command to add a serial interface.
Add Serial Interface
PXM
addserialif <serial_port_num>
serial_port_num | Serial port number. Enter the value 1 (for console) or 2 (for slip). |
Log: Yes State: Active Any
NODENAME.1.7.PXM.a > addserialif 1 NODENAME.1.7.PXM.a >
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.
Add Trap Manager
PXM
addtrapmgr <ipaddr> <portnum>
ipaddr | 32-bit IP address in dotted decimal format. This setting is the IP address assigned to the port on the trap manager. |
portnum | Port number on the trap manager workstation to be used to receive traps. |
Log: Yes State: Active Privilege:Any
node501.1.7.PXM.a > addtrapmgr 161.10.144.56 162 node501.1.7.PXM.a >
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.
Add Trunk
PXM
addtrk <slot.port>
slot.port | Port identifier of the trunk to activate, using the format slot.port. · slot ranges = 1-6, or 9-14, or 17-22, or 25-30 · port range = 1-n, as appropriate for the physical installation. |
Log: No State: Active Privilege: 1
node501.1.7.PXM.a > addtrk 1.4 node501.1.7.PXM.a >
Use the adduser command to configure a user name and associated access level on the PXM.
Add User
PXM
adduser <user ID> <accessLevel>
user ID | Name to be used as the login at the PXM. · The name can consist of up to 12 characters composed of alpha and numeric characters, special characters "_" and "-". · The name must begin with an alpha character and cannot contain spaces. The name is case sensitive. |
accessLevel | System privilege level to be allocated for the user ID. · GROUP1 (highest level) · GROUP2 · GROUP3 · GROUP4 · GROUP5 · ANYUSER (lowest level) The new user that you configure cannot have an access level that is higher than that defined for the current login ID. |
Log: Yes State: Active Privilege: 5-6
spirit.1.7.PXM.a > adduser fin ANYUSER Enter password: Re-enter password: spirit.1.7.PXM.a >
Use the agetrapmgr command to activate or deactivate aging on trap managers.
Age Trap Manager
PXM
agetrapmgr <ip_addr> <aging>
Syntax Description
ip_addr | IP address in dotted decimal format. Use ip_addr 0.0.0.1 for all managers. |
aging | Value to enable or disable aging of either the individual trap managers, or all trap managers. · 1 = enable (default) · 2 = disable If enabled, the trap manager is deleted from the table after a period of 30 minutes. |
Log: No State: Any state Privilege: 1-6
Use the aimhelp command to display the Help screen for the AUSM service module.
AIM Help
AUSM
Log: No State: Any state Privilege: 1-6
raviraj.1.9.AUSM8.a > aimhelp AUSM-8P Commands addcon : Add a Connection addimagrp : Add an IMA group addln : Add a line addlnloop : Configure a line in local loopback addlns2imagrp : Add lines to an existing IMA group clralmcnt : Clear DS1 alarm count clralmcnts : Clear alarm count for all DS1 lines clralm : Clear the DS1 line alarms clrchancnt : Clear Channel Counters clrchancnts : Clear Channel Counters for all channels clralms : Clear DS1 alarms on all lines clrimagrpcnt : Clear IMA group Counters clrimalncnt : Clear IMA counters on a particular line clrportcnt : Clear Port Counters clrportcnts : Clear Port Counters for all ports clrsarcnt : Clear SAR channel counters clrsarcnts : Clear SAR counters for all channels clrslftst : Clear self test results clrimatst : clear IMA test procedure Type <CR> to continue, Q<CR> to stop: cnfchanfst : Configure the channel foresight parameters cnfchanq : Configure the channel queue parameters cnffst : Configure foresight params of a card cnfportq : Configure Egress queue parameters cnfimagrp : Configure an IMA group cnfilmi : Configure ILMI parameters of a port cnfln : Configure DS1/E1 line cnflnloop : Configure DS1/E1 line cnfplpp : Configure DS1/E1 line cnfslftst : Configure self test parameters cnfsvcrange : Partition Resource between PVCs & SVCs cnfupccbr : Configure UPC parameters of CBR connection cnfupcvbr : Configure UPC parameters of VBR connection cnfupcabr : Configure UPC parameters of ABR connection cnfupcubr : Configure UPC parameters of UBR connection cnfimatst : Enable the IMA test procedure cnfimaalmparm : COnfigure the IMA alaram Integration UP and DOWN times copychans : Copy a template connection delimagrp : Delete an IMA group Type <CR> to continue, Q<CR> to stop: delcon : Delete a connection delln : Delete DS1 line dellnloop : Remove a DS1 line from local loopback dellnsfmimagrp : Delete lines from an existing IMA group dnport : Down an ATM port dspalm : Display DS1 alarms on a line dspalmcnf : Display DS1 alarm configuration dspalmcnt : Display alarm count for DS1 line dspalms : Display DS1 alarms on all lines dspcd : Display card information dspchancnt : Display channel counters dspcon : Display connection configuration dspcons : Display all the configured connections dspfeature : Display the features dspfst : Display the card Foresight params dspilmi : Display ILMI parms of a port dspilmicnt : Display ILMI counters of a port dspimagrp : Display all parms configured for an IMA group dspimagrpcnt : Display IMA group Counters Type <CR> to continue, Q<CR> to stop: dspimagrps : Display the configured IMA groups dspimalncnt : Display IMA counters on a particular line dspimatst : Display IMA test status dspimaln : Display IMA link status dspimaalmparm : Display IMA alaram integration times dspln : Display DS1 line dsplns : Display all DS1 lines dsploads : Display the total bandwidth used up in each port dspplpp : Display the PLPP configuration of each line dspport : Display the configured ATM/IMA port dspportcnt : Display Port Counters dspportq : Display the egress queue configuration dspportqs : Display configuration of all egress queues dspports : Display the configured ATM/IMA ports dspsarcnt : Display the SAR counters of a connection dspsarcnts : Display the SAR counters of all connections dspslftst : Display self test configuration dspslftsttbl : Display the self test results dspsttatparms : Display the statistics params configured Type <CR> to continue, Q<CR> to stop: dspsvcrange : Display the resource partition between PVCs & SVCs dsptotals : Display the total connections configured per port runslftstno : Run a particular self test tstcon : Test the connection towards the N/W side tstconseg : Test the connection towards the CPE side tstconsti : Test the connection towards the N/W side using STI supervis ory cell tstdelay : Measure the delay towards the N/W side tstdelaysti : Measure the delay towards the N/W side using STI supervisor y cell upport : Up an ATM port xcnfalm : Configure alms of a DS1 line xcnfln : Configure a DS1 line xcnfln : Configure a DS1 line raviraj.1.9.AUSM8.a >
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.
Add Address Resolution Protocol Entry
PXM
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. |
Log: No State: Any state Privilege: 1-6
NODENAME.1.7.PXM.a > arpAdd 172.29.36.102 0:e0:4f:5c:6c:5a NODENAME.1.7.PXM.a > arpShow 172.29.36.28 at 8:0:20:a6:80:3b 190.29.36.255 at 0:e0:4f:5c:6c:20 172.29.36.102 at 0:e0:4f:5c:6c:5a 171.71.54.104 at 0:e0:4f:5c:6c:20 NODENAME.1.7.PXM.a >
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.
Delete Address Resolution Protocol Entry
PXM
arpDelete <ip_ddress>
Syntax Description
ip_addr | IP address in dotted decimal format. |
Log: No State: Any state Privilege: 1-6
NODENAME.1.7.PXM.a> arpDelete 172.29.36.102 172.29.36.102 (172.29.36.102) deleted NODENAME.1.7.PXM.a>
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.
Flush Address Resolution Protocol Table
PXM
arpFlush
Log: No State: Any state Privilege: 1-6
NODENAME.1.7.PXM.a > arpFlush NODENAME.1.7.PXM.a > arpShow 171.71.54.104 at 0:e0:4f:5c:6c:20 NODENAME.1.7.PXM.a >
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.
Show Address Resolution Protocol Table
PXM
arpShow
Log: No State: Any state Privilege: 1-6
NODENAME.1.7.PXM.a > arpShow 190.29.36.255 at 0:e0:4f:5c:6c:20 172.29.36.28 at 8:0:20:a6:80:3b 171.71.54.104 at 0:e0:4f:5c:6c:20 NODENAME.1.7.PXM.a >
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:
Boot Change
PXM
bootChange
Log: Yes State: Active Privilege: SERVICE_GP
raviraj.1.7.PXM.a > bootChange '.' = clear field; '-' = go to previous field; ^D = quit boot device : lnPci processor number : 0 host name : file name : inet on ethernet (e) : 172.29.37.41 : ffffff00 inet on backplane (b): host inet (h) : gateway inet (g) : 172.29.37.1 user (u) : ftp password (pw) (blank = use rsh): flags (f) : 0x0 target name (tn) : startup script (s) : other (o) : raviraj.1.7.PXM.a >
Use the bye command to exit the current CLI shell.
Bye
PXM, FRSM, AUSM, VISM
bye
Log: Yes State: Any Privilege: Any
spirit.1.8.PXM.a > bye (session ended)
Use the cc command to navigate from card to card on the shelf.
Change Card
PXM, FRSM, AUSM, CESM, VISM
cc <slot number>
slot number | The number of the slot that contains the card you want to work on. |
Log: Yes State: Any state Privilege: Any
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.
Use the cd command to change the current directory on the PXM hard disk.
Change Directory
PXM
cd <directory_name>
directory_name | Name of the target directory. |
Log: Yes State: Any Privilege: Group 3
raviraj.1.7.PXM.a > cd FW raviraj.1.7.PXM.a >
Verify the current directory by using the pwd command.
raviraj.1.7.PXM.a > pwd C:FW raviraj.1.7.PXM.a > cd .. raviraj.1.7.PXM.a > pwd C: raviraj.1.7.PXM.a >
Use the clraimgrpcnt command to clear all the AIMUX-related counters for all lines in the specified AIMUX group.
Clear AIM Group Counters
AUSM
clraimgrpcnt <imagroup>
imagroup | The number of the AIMUX group number on which you want to clear the AIMUX counters, in the range 1-8. |
Log: Yes State: Active Privilege: 1-2
node1.1.22.AUSM8.a > clraimgrpcnt 8 node1.1.22.AUSM8.a >
Use the clraimlncnt command to clear all the AIMUX line counters for the specified IMA group.
Clear AIM (or Clear IMA) Line Counters
AUSM
clraimlncnt (or clrimalncnt) <imagroup> <linenum>
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. |
Log: No State: Active Privilege: 1
node1.1.22.AUSM8.a > clraimlncnt 8 node1.1.22.AUSM8.a >
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.
Clear All Configurations
PXM
clrallcnf
Log: Yes State: Active Privilege: 1-3
node1.1.7.PXM.a > clrallcnf
All SM's config will be deleted, and
the shelf will be reset.
Do you want to proceed (Yes/No)? No
(command not executed)
node1.1.7.PXM.a >
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.
Clear Alarm
PXM, FRSM, AUSM, CESM, VISM
clralm -ds3 <LineNum>
or
clralm -e3 <LineNum>
or
clralm -sonet <LineNum>
or
clralm -plcp <PLCPNUM>
-ds3 LineNum | DS3 line number on which to clear alarms, using the format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, 32 · port range = 1-n, as appropriate for the physical installation. |
-e3 LineNum | E3 line number on which to clear alarms, using the format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, 32 · port range = 1-n, as appropriate for the physical installation. |
-sonet LineNum | SONET line number in the format slot.port. · slot = enter the value either 7 or 8 · port range = 1-n, as appropriate for the physical installation. |
-plcp PLCPNUM | Physical Layer Protocol Processor number, in the range 1-n. · line number = enter a value from the range 7, 8, 15, 16, 31, 32 |
clralm -ds1 <LineNum>
LineNum | · FRSM
· AUSM, enter a value in the range 1-8 · CEAM: for CESM_8P enter a value in the range 1-8 |
clralm <-srmds3> <LineNum>
LineNum | LineNum = 1-n, where n = 3 if SRM-3T3 |
clralm -hs1 <LineNum>
LineNum | LineNum = 1-n, where n = 4 if FRSM |
Log: No State: Any Privilege: 5-6
node1.1.22.AUSM8.a > clralm -ds1 1 node1.1.22.AUSM8.a >
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.
Clear Alarm Counters
PXM, FRSM, AUSM, CESM, VISM
clralmcnt -ds3 <LineNum>
clralmcnt -e3 <LineNum>
clralmcnt -sonet <LineNum>
clralmcnt -plcp <PLCPNUM>
-ds3 LineNum | DS3 line number in the format slot.port · slot = enter a value from the range 7, 8, 15, 16, 31, 32 · port range = 1-n, as appropriate for the physical installation. |
-e3 LineNum | E3 line number in the format slot.port · slot = enter a value from the range 7, 8, 15, 16, 31, 32 · port range = 1-n, as appropriate for the physical installation. |
-sonet LineNum | SONET line number in the format slot.port · slot = enter the value either 7 or 8 · port range = 1-n, as appropriate for the physical installation. |
-plcp PLCPNUM | Physical Layer Protocol Processor value. Range: 1-n, as appropriate for the physical installation. · slot = enter a value from the range 7, 8, 15, 16, 31, 32 |
clralmcnt -ds1 <LineNum>
LineNum | Line number, in the range appropriate for the card. · FRSM range = 1-8 · AUSM range = 1-8 · CESM range = 1-8 |
Log: No State: Any Privilege: Any (5 on PXM)
node1.1.22.AUSM8.a > clralmcnt -ds1 1 node1.1.22.AUSM8.a >
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.
Clear All Alarm Counters/Statistics on the Current Card.
FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: 1-5
node1.1.22.AUSM8.a > clralmcnts node1.1.22.AUSM8.a >
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.
Clear Alarms on Card
FRSM, AUSM, CESM, VISM
clralms -ds1 <LineNum>
LineNum | Line number on which to clear alarms, in the range 1-n, as appropriate for the physical installation. |
Log: No State: Any Privilege: 1-5
node1.1.22.AUSM8.a > clralms -ds1 1 node1.1.22.AUSM8.a >
The clratmlncnt clears the ATM event counters for the specified line on the PXM.
Clear All ATM Line Counters on the Specified Line Number
PXM
clratmlncnt <line_num>
line_num | Line number on which to clear the ATM event counters, in the range 1-4. |
Log: No State: Any Privilege: Any
node1.1.7.PXM.a > clratmlncnt 1 node1.1.7.PXM.a >
Use the clratmlncnts command to remove all ATM counters on all the lines on the current card.
Clear all ATM Line Counters on All Lines
PXM
clratmlncnts
Log: No State: Any Privilege: Any
node1.1.7.PXM.a > clratmlncnts node1.1.7.PXM.a >
Use the clrbertcntrs command to remove all counters associated with bit error rate testing.
Clear BERT counters
FRSM 2CT3, CESMT3
clrbertcntrs
Log: No State: Any Privilege: Any
raviraj.1.13.VHS2CT3.a > dspdsx3bert undefined symbol: dspdsx3bert raviraj.1.13.VHS2CT3.a >
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.
Clear Hardware/Reset Errors in BRAM
FRSM, AUSM
Log: No State: Any Privilege: SuperUser
node1.1.4.FRSM.a > clrcderrs node1.1.4.FRSM.a >
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:
Clear Channel Counters on a Specified Channel
PXM, FRSM, AUSM, CESM
clrchancnt -cnt <chanNum> -cc <clrButton>
Syntax Description
-cnt | Command delineator that precedes the PXM channel number entry. |
channel number | PXM channel number, in the range 16-4111. |
-cc | Command delineator that precedes the cntClrButton entry. |
clrButton | Value to set the underline MIB object to clear or retain the counters. · 1 = no action · 2 = clear counts (default) |
clrchancnt <chan_num>
Syntax Description
chan_num | Channel number, in the range appropriate for the card. · FRSM range = 16-1015. · CESM range = 32-279 |
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. |
Log: Yes State: Any Privilege: Any
node1.1.4.FRSM.a > clrchancnt 16 node1.1.4.FRSM.a >
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.
Clear All Channel Counters on the Card
PXM, FRSM, AUSM, CESM
Log: Yes State: Any Privilege: 1-3 (Any on PXM)
node1.1.4.FRSM.a > clrchancnts node1.1.4.FRSM.a >
Use the clrconcnt command to clear the counters for the specified Connection Identifier on the current PXM card. Counting resumes after the command executes.
Clear Connection Counters for a Specified Connection Identifier
PXM
clrconcnt <conn_ID>
conn_ID | Connection ID, in the format PortNum.VPI.VCI · PortNum = 1-n, as appropriate for the physical installation. · VPI = virtual path identifier in the range for either UNI or NNI.
· VCI = virtual circuit identifier in the range 0-65535 |
Log: Yes State: Any Privilege: Any
node4.1.8.PXM.a > clrconcnt 1.2.2 node4.1.8.PXM.a >
Use the clrconcnts command to clear the counters for all the connections on the current PXM car. Counting resumes after the command executes.
Clear Connection Counters for All Connections on the Card
PXM
clrconcnts
Log: Yes State: Any Privilege: Any
node4.1.8.PXM.a > clrconcnts node4.1.8.PXM.a >
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.
Clear Error Log Counters for All Connections on the Card
PXM
clrerr [-en <error slot>]
-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. |
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > clrerr Do you want to proceed (Yes/No)? No (command not executed) wilco.1.7.PXM.a >
Use the clrifcnt command to clear the counters for a specified broadband interface.
Clear Interface Counters for the Specified Interface
PXM
clrifcnt <if_num>
if_num | Interface number, in the range 1-32. |
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > clrifcnt 1 ilco.1.7.PXM.a >
Use the clrifcnts command to clear the counters for all the broadband interfaces.
Clear All Interface Counters
PXM
clrifcnts
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > clrifcnts wilco.1.7.PXM.a >
Use the clrimagrpcnt command to clear Inverse Multiplexing ATM (IMA) group counters on the current AUSM card for a specified IMA group.
Clear Inverse Multiplexing ATM Group Counters
AUSM
clrimagrpcnt (or clraimgrpcnt) <imagroup>
imagroup | IMA group number, in the range 1-8. |
Log: No State: Active Privilege: 1
flyers01.1.17.AUSM.a > clrimagrpcnt 1 flyers01.1.17.AUSM.a >
Use the clrimalncnt command to clear all AIMUX line counters for a specified line in an IMA trunk.
Clear AIM (or Clear IMA) Line Counters
AUSM
clrimalncnt (or clraimlncnt) <imagroup> <linenum>
imagroup | AIMUX group number, in the range 1-8. |
linenum | Line number, in the range 1-8. |
Log: No State: Active Privilege: 1
flyers01.1.17.AUSM.a > clrimalncnt 1 flyers01.1.17.AUSM.a >
Use the clrlmistats command to clear the Local Management Interface (LMI) related statistics on the current PXM.
Clear All LMI Statistics
PXM
clrlmistats
Log: No State: Any Privilege: Any
penguin.1.7.PXM.a > clrlmistats Enabled : 1 Port Status : 1 VPI.VCI : 3.31 Polling enable : 1 T393 : 10 N394 : 5 T394 : 10 N395 : 5 WaitStatus : 0 WaitStAck : 0 Retry Timer : 0 Retry Count : 1 Poll Timer : 6 Trans Num : 86 Status Rx : 0 Status Tx : 0 UpdtStatus Rx : 0 UpdtStatus Tx : 0 Status Enq Rx : 0 Status Enq Tx : 0 Status Ack Rx : 0 Status Ack Tx : 0 NodeStatus Rx : 0 NodeStatus Tx : 0 NodeStaAck Rx : 0 NodeStaAck Tx : 0 Bad PDU Rx : 0 Bad PDU Len Rx : 0 Unknown PDU Rx : 0 Invalid I.E. Rx: 0 Invalid Trans : 0 BPX IP Addr : 172.3.3.62 penguin.1.7.PXM.a >
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.
Clear Log
PXM
clrlog [-log <log slot>]
-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. |
Log: Yes State: Any Privilege: 1
wilco.1.7.PXM.a > clrlog Do you want to proceed (Yes/No)? Yes wilco.1.7.PXM.a >
Use the clrmsgcnt command to clear the control message counters. The control message counters are for the total numbers of:
This message also clears the control cell header received on the last unknown channel.
Clear Control Message Counters
FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: 1-5
flyers01.1.17.AUSM.a > clrmsgcnt 1 flyers01.1.17.AUSM.a >
Use the clrportcnt command to clear counter values on a specified port associated with the current PXM, AUSM, or FRSM.
Clear Port Counters
PXM, FRSM, AUSM
clrportcnt <port_ number>
port_ number | Port number, as appropriate for the current card. · PXM range = 1-32 · AUSM range = 1-8 · FRSM
|
Log: No State: Any Privilege: 1-5 (Any on PXM)
flyers01.1.17.AUSM.a > clrportcnt 1 flyers01.1.17.AUSM.a >
Use the clrportcnts command to clear all port counters on the current PXM, FRSM, or AUSM.
Clear Port Counts
PXM, FRSM, AUSM
Log: No State: Any Privilege: 1-5
flyers01.1.17.AUSM.a > clrportcnts flyers01.1.17.AUSM.a >
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:
Clear SAR Counters
FRSM, AUSM, CESM, VISM
clrsarcnt -chn <ChanNum | Port.DLCI>
ChanNum | Channel number in the range 16-1015. |
Port.DLCI | Port number of either the FRSM-8T1 or the FRSM-8E1. · FRSM-8T1 range = 1-192 · FRSM-8E1 range = 1-248
Data-link connection identifier, in the range 0-1023. This value specifies a PVC or SVC in a Frame Relay network. |
clrsarcnt -chn <ChanNum>
ChanNum | Channel number in the range 0-279. |
clrsarcnt <port.VPI.VCI>
port.VPI.VCI | Port range = 1-n, as appropriate for the physical installation. VPI range = 1-4095. VCI range = 1-65535. |
Log: No State: Any Privilege: 1-5
NODENAME.1.17.FRSM.a > clrsarcnt -chn 20 NODENAME.1.17.FRSM.a >
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.
Clear SAR Counts
clrsarcnts
FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: Any
flyers01.1.17.AUSM.a > clrsarcnts flyers01.1.17.AUSM.a >
Use the clrscrn command to clear the control terminal screen. After this command executes, only the current command line prompt appears on the screen.
Clear Terminal Screen
PXM, FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: Any
flyers01.1.17.AUSM.a > clrscrn flyers01.1.17.AUSM.a >
Use the clrslftst command to clear the results of the last self-test on the current card.
Clear Self-Test
FRSM, AUSM, CESM
clrslftst
Log: No State: Any Privilege: Any
flyers01.1.17.AUSM.a > clrslftst flyers01.1.17.AUSM.a >
Use the clrsmcnf command to clear the following configuration elements for the selected service card:
Clear Service Module Configuration
PXM
clrsmcnf <slot number>
slot number | Slot number in the range 1-6, or 9-14, or 17-22, or 25-30. |
Log: Yes State: Active Privilege: 3
flyers01.1.7.PXM.a > clrsmcnf 17 flyers01.1.7.PXM.a >
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.
Clear SRM-3T3 Configuration
PXM
clrsrmcnf <slot number>
slot number | Slot number. Enter the value 15 or 31. · Slot number 15 is used for the cards in slot and 15 and 16 (whichever is active). · Slot 31 is used for cards in 31 and 32. |
Log: Yes State: Active Privilege: Any
flyers01.1.7.PXM.a > clrsrmcnf 15 flyers01.1.7.PXM.a >
Use the cmdhistory command to view the last 10 commands executed on the current card.
Display Command History
PXM
cmdhistory
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > cmdhistory Size of cmdHistory is currently 10 line(s) 1 dspconcnt 2.39.45 2 dsplmistats 3 dsplmiloop 4 dsplm 5 clrportcnt 6 dspportcnts 7 dspportcnt 8 dspportcnt 1 9 dsplmistats 10 cmdhistory spirit4.1.8.PXM.a >
Use the cnfaimgrp command to configure an AIMUX group on the AUSM.
Configure AIM Group
AUSM
cnfaimgrp <grp> <max_diff_delay> <min_num_links>
grp | IMA group number, in the range 1-8. |
max_diff_delay | .Maximum differential delay, in the range appropriate for the interface. · 8T1 range = 0-275 · 8E1 range = 0-200 |
min_num_links | Minimum number of links for the group formation, in the range 1-8. |
Log: Yes State: Active Privilege: 1-2
flyers01.1.17.AUSM.a > cnfaimgrp 1 -rwdiff 5 -severity 2 -maxdiff 3 -red 2 flyers01.1.17.AUSM.a >
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.
Figure 13 illustrates a "Dual Backcard" redundancy configuration. This design requires two PXM front cards and two SONET backcards. Ports are paired as follows:
SONET 155 also can be configured to have this redundancy configuration. Ports are paired as follows:
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.
Configure APS Line
PXM
cnfapsln <workline> <SFBER> <SDBER> <WTR> <Direction> <Revertive> <K1K2>
workline | OC-3 or OC-12 line number, in the range appropriate for the associated interface. · OC-3 range = 1-4. · OC-12 = enter the value 1. |
SFBER | Signal failure BER threshold, in the range 3-5. · 5 = signal failure BER threshold = 10 ^^ -5 |
SDBER | Signal degrade BER threshold, in the range 5-9. · 5 = signal degrade BER threshold = 10 ^^ -5 |
WTR | Number of minutes to wait before attempting to switch back to the working line, in the range1 to12. This setting is not applicable if the line is configured in non-revertive mode (Revertive set to 1). |
Direction | Value to set the switching direction for either unidirectional or bidirectional. · 1 = Unidirectional: This APS line supports only one direction. · 2 = Bidirectional: This APS line supports both ends of the line. |
Revertive | Value to set the APS revertive or non-revertive function. · 1 = Non-revertive · 2 = Revertive |
K1K2 | To to enable or disable the K1/K2 inband interface on the protection line. User should always set to 1. · 1 = enable · 2 = disable |
Log: Yes State: Active Privilege: SuperUser
flyers01.1.7.PXM.a > cnfapsln 1 5 5 1 2 1 1 flyers01.1.7.PXM.a >
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.
Configure ATM Line
PXM (in an MGX 8800 series stand-alone node)
cnfatmln <line_num> <type>
line_num | OC-3 or OC-12 line number, in the range appropriate for the interface. · OC-3 range = 1-4 · OC-12 = enter the value 1 |
type | Value to set cell header type for either UNI or NNI. · 2 = UNI · 3 = NNI (default) |
Log: No State: Any Privilege: Any
flyers01.1.7.PXM.a > cnfatmln 1 3 flyers01.1.7.PXM.a >
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.
Configure Back Card Type
FRSM-HS1B
cnfbctype <cardType>
cardType | An integer that specifies the interface type: · 1 = X.21 · 2 = V.35 Default = V.35. |
Log: Yes State: Any Privilege: Service Group (-1)
man.1.14.FRSM.a > cnfbctype 1
man.1.14.FRSM.a > dspbctype Backcard Personality: X.21
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. |
Configure BERT
PXM
cnfbert <slot>
slot | Slot number that contains the card on which to perform BERT testing. |
Log: Yes State: Active Privilege: Group 1
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.
Configure Cell Bus Clock
FRSM_2CT3, FRSM_2T3, FRSM_2E3, FRSM_HS2, CESM_T3, CESM_E3, VISM_8T1, VISM_8E1, RPM (new), PXM
cnfcbclk <cellBus> <clockRate>
cellBus | A string denoting a bus, in the range CB1 to CB8. Even though you can specify this command against CB4 and CB8, note that the clock rate will not change for either cell bus. |
clockRate | A rate value, in MHz. · 21 · 42 |
Log: Yes State: Active Privilege: Super Group
NODENAME12.1.7.PXM.a > dspcds
Command Executed :dspcds
Slot CardState CardType CardAlarm Redundancy
---- ----------- -------- --------- -----------
1.1 Empty Clear
1.2 Active FRSM-8T1 Clear
1.3 Empty Clear
1.4 Empty Clear
1.5 Empty Clear
1.6 Active FRSM-8T1 Clear
1.7 Active PXM1-OC3 Clear
1.8 Empty Clear
1.9 Empty Clear
1.10 Empty Clear
1.11 Empty Clear
1.12 Empty Clear
1.13 Empty Clear
1.14 Empty Clear
1.15 Empty Clear
1.16 Empty Clear
1.17 Empty Clear
1.18 Empty Clear
1.19 Empty Clear
Type <CR> to continue, Q<CR> to stop: q
NODENAME12.1.7.PXM.a > dspcbclk
Command Executed :dspcbclk
CellBus Rate (MHz) Slot
-------------------------------
CB1 21 1, 2
CB2 21 3, 4
CB3 21 5, 6
CB4 21 17 - 22
CB5 21 9, 10
CB6 21 11, 12
CB7 21 13, 14
CB8 21 25 - 30
NODENAME12.1.7.PXM.a > cnfcbclk cb2 42
Command Executed :cnfcbclk
NODENAME12.1.7.PXM.a > dspcbclk
Command Executed :dspcbclk
CellBus Rate (MHz) Slot
-------------------------------
CB1 21 1, 2
CB2 42 3, 4
CB3 21 5, 6
CB4 21 17 - 22
CB5 21 9, 10
CB6 21 11, 12
CB7 21 13, 14
CB8 21 25 - 30
popeye12.1.7.PXM.a > cnfcbclk cb1 42
Command Executed :cnfcbclk
Set failed due to illegal option value(s)
Syntax: cnfcbclk <cellBus> <clockRate>
cellBus -- a string CB1..CB8
clockRate -- a number 21 or 42 (MHz)
WARNING: Certain Service Modules will not operate at the clock rate you
specified. Please check the Service Modules in the slots where the Cell Bus clock
rate is effected by this command
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.
Configure Card Resource Type
PXM, FRSM, AUSM, CESM
cnfcdprtntype <prtn_type>
prtn_type | Value to set card partition type, in the range 1-3. · 1 = noPartition · 2 = controllerBased · 3 = portControllerBased |
Log: No State: Any Privilege: Any (Service_GP)
spirit3.1.10.AUSMB8.a > cnfcdprtntype 1 spirit3.1.10.AUSMB8.a >
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:
The matrix in Table 15 describes the effects of each of three usages of cnfcdrscprtn.
| Command | Description |
|---|---|
cnfcdrscprtn off | Card-level partitioning is inactive. If you specify that card-level partitioning is off (cnfcdrscprtn off), you must configure port-level partitions (cnfportrscprtn). |
cnfcdrscprtn on | Default Card-level partitioning is on, but no allocation for a specific controller is specified. The maximum number of connections on a port is available to each controller, so each controller competes for the connections. |
cnfcdrscprtn on <x> <y> <z> | The x, y, and z represent a number of connections per port available to the PAR, PNNI, and Tag controllers, respectively. |
Additional characteristics of this command are:
Configure Card Resource Partition
PXM, FRSM, AUSM, CESM, VISM
cnfcdrscprtn <PAR_max_conns> <PNNI_max_conns> <Tag_max_conns>
PAR_max_conns
| Maximum number of PAR connections, in the range appropriate for the current card. · PXM range = 0-32,767 GLCNs · FRSM range = 1-4000 · AUSM range = 1-1000 · CESM range = 1-1000 · SRM range = 1-1000 |
PNNI_max_conns | Maximum number of PNNI connections. Enter the value 0 (zero). |
Tag_max_conns | Maximum number of TAG connections. |
Log: Yes State: Any (Active for PXM) Privilege: Any
spirit.1.7.PXM.a > cnfcdrscprtn 10000 0 10000 spirit.1.7.PXM.a >
Use the cnfchan command to configure channels on the current service card.
Configure Channel
PXM, AUSM, CESM
cnfchan <LCN> <chan_rte_pri> <chan_max_cost> <chan_restrict_trk_type>
LCN | LCN, in the range16-4111. |
chan_rte_pri | Channel route priority, in the range1-15. |
max_cost | Maximum cost, in the range 1-255. |
chan_restrict_trk_type | Value to set Channel Restrict Trunk Type · 1 = No Restriction · 2 = Terrestrial Trunk · 3 = Satellite Trunk) |
cnfchan <chan_num> <RoutingPriority> <MaxCost> <RestrictTrunkType> <PCR> <MCR> <PctUtil>
chan_num | Channel number, in the range 16-1015. |
RoutingPriority | Routing Priority, in the range 1-15. |
MaxCost | Maximum cost, in the range 1-255. |
RestrictTrunk | Value to set Restrict Trunk Type. · 1 = No Restriction · 2 = Terrestrial Trunk · 3 = Satellite Trunk |
pcr | Peak cell rate, in the range 1-65525 cells/second. |
mcr | Minimum cell rate, in the range 1-65525 cells/second. |
PctUtil | Percentage of utilization, in the range 1-100. |
cnfchan <chan_num> <CDVT> <CLIP> <bufsize> <clockmode> <ISenable> <ForceIS>
chan_num | Channel number (LCN). Enter the value 32. |
CDVT | Cell Delay Variation Tolerance in the range appropriate for T1 or E1. · T1 = 125-24000 microseconds · E1 = 125-32000 microseconds |
CLIP | Cell Loss Integration Period. Enter a value in the range 1000-65535 milliseconds |
bufsize | Maximum Egress Buffer size, as appropriate for T1 or E1. · Structured T1 = 9216 bytes (maximum) · Unstructured T1 or E1 = 16384 bytes (maximum) |
clock mode | Value to set clock mode of the CBR virtual circuit. · 1 = synchronous clocking, · 2 = Synchronous Residual Time Stamp clocking · 3 = Adaptive clocking |
ISenable | Value to enable or disable idle suppression. · 1 = disable · 2 = enable |
ForceIS | Value to set forced idle suppression or normal operations. · 1 = normal operation · 2 = force Virtual Circuit into Idle signal code suppression |
cnfchan <chan_num> <CDVT> <CLIP> <bufsize>
chan_num | Channel number (LCN). Enter the value 32. |
CDVT | Cell Delay Variation Tolerance, in the range appropriate for T3 or E3. · T3 range = 125-24000 microseconds · E3 range = 125-32000 microseconds |
CLIP | Cell Loss Integration Period, in the range 1000-65535 milliseconds |
bufsize | Maximum Egress Buffer size, in bytes. Set up to the maximum 16384 for unstructured T3 or E3. |
Log: No State: Any Privilege: Any
spirit.1.17.AUSM.a > cnfchan 16 1 5 2 65525 65525 100 spirit.1.17.AUSM.a >
Use the cnfchancacoff command to turn off the connection admission control (CAC) function for a channel.
Configure Channel CAC Off
FRSM
cnfchancacoff <chan_num>
chan_num | Channel number, in the range appropriate for the interface type. · 8T1/E1 range = 16-1015 · HS1/B range = 16-1015 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 |
Log: Yes State: Active Privilege: 1-2
spirit.1.27.FRSM.a > cnfchancacoff 16 spirit.1.27.FRSM.a >
Use the cnfchanegressq command to configure the egress queue for a specified channel.
Configure Channel Egress Queue
FRSM
cnfchanegressq <chan_num> <Qsel> <Qdepth> <QDEThresh> <QECNThresh>
chan_num | Channel number, in the range appropriate for the interface type. · 8T1/E1 range = 16-1015 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 |
Qsel | Value to set Egress queue select. · 1 = High priority queue, usually used for CBR (Committed Bit Rate) connections. · 2 = Low priority queue (default) · 3 = Not used. This option only for the FRSM-T3/E3/HS2 and FRSM-2CT3 service modules. For these service modules, the queue to which the channel gets mapped is determined by the channel service type. |
Qdepth | Egress queue depth, in the range 1-65535 bytes. This setting is the maximum allowable depth for the queue before it starts dropping cells. Default = 65535 bytes |
QDEThresh | Egress queue DE Threshold, in the range 1-65535 bytes. This setting is the maximum depth for the queue before the cells are tagged as discard eligible (DE). Default = 32767 bytes |
QECNThresh | Egress queue ECN Threshold, in the range 1-65535 bytes. This setting is the maximum depth for the queue before initiating flow control. Default = 65535 bytes |
Log: Yes State: Active Privilege: 1-2
spirit.1.27.FRSM.a > cnfchanegressq 16 1 65535 32767 65535 spirit.1.27.FRSM.a >
Use the cnfchanfst command to configure ForeSight parameters for a Frame Relay or ATM channel.
Configure Channel ForeSight
FRSM, AUSM
cnfchanfst <chan_num> <fst_enable> <mir> <pir> <qir>
chan_num | Channel number, in the range appropriate for the FRSM card type. · 8T1/E1 range = 16-1015 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 |
fst_enable | Value to enable or disable ForeSight. · 1 = enable · 2 = disable |
mir | Minimum information rate, as appropriate for the FRSM card type. · 8T1/E1 the range = 10-8000 in cell/sec. · T3/E3/HS2/2CT3 range = 10-400000 in cell/sec. Default = 1000 |
pir | Peak information rate, as appropriate for the FRSM card type. · 8T1/E1 range = 10-8000 in cell/sec. · T3/E3/HS2/2CT3, the range is 10-400000 in cell/sec. Default = 1000 |
qir | Quiescent information rate, as appropriate for the FRSM card type. · 8T1/E1 range = 0-8000 in cell/sec. · T3/E3/HS2/2CT3 range = 10-400000 in cell/sec. Default = 1000 |
cnfchanfst <port.VPI.VCI | channel number> <enable | disable> <fgcra_enable> <ibs> <pcr> <mcr> <icr>
port.VPI.VCI | Connection identifier, in the format port.VPI.VCI. · Port range = 1-n, as appropriate for the physical installation. · vpi range = 1-4095 · vci range = 1-65535 |
channel number | Channel number, in the range 16-1015. |
enable | disable | Value to enable or disable ForeSight: · 1 = disable · 2 = enable |
fgcra_enable | Value to enable or disable FGCRA for the specified channel. · 1 = disable · 2 = enable |
ibs | Initial burst size, in the range 0-5000 cells. |
pcr | Peak cell rate, in the range 10-38328 cells/second. · 10-PortRate (T1-3622, E1-4528, clearE1-4830) · IMA, T1-3591, E1-4490, clrE1-4789 Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
mcr | Minimum cell rate, in the range 10-38328 cells/second. · 0-PortRate(T1-3622, E1-4528, clearE1-4830) · For IMA, T1-3591, E1-4490, clrE1-4789 Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
icr | Initial cell rate, in the range 10-38328 cells/second. · 0-PortRate (T1-3622, E1-4528, clearE1-4830) · For IMA, T1-3591, E1-4490, clrE1-4789 Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
Log: Yes State: Active Privilege: 1-2
spirit.1.27.FRSM.a > cnfchanfst 16 1 1000 1000 1000 spirit.1.27.FRSM.a >
A system response does not occur unless an error is detected.
s1.1.12.AUSM8.a > cnfchanfst 2.1.5 2 1 2000 4000 2000 2000 s1.1.12.AUSM8.a >
s1.1.12.AUSM8.a > cnfchanfst 31 2 1 2000 4000 2000 2000 s1.1.12.AUSM8.a >
Use the cnfchaningressq command to configure the Ingress queue for a specified channel.
Configure Channel Ingress Queue
FRSM
cnfchaningressq <chan_num> <Qsel> <Qdepth> <QDEThresh> <QECNThresh>
chan_num | Channel number, in the range appropriate for the FRSM card type. · 8T1/E1 range = 16-1015 · HS1/B range = 16-1015 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 |
Qsel | FRSM-8T1/E1 only. Value to set Egress queue select. · 1 = High priority queue, usually used for Committed Bit Rate (CBR) connections. · 2 = Low priority queue (default) · 3 = Not used. This option only for the FRSM-T3/E3/HS2 and FRSM-2CT3 service modules. For these service modules, the queue to which the channel gets mapped is determined by the channel service type. |
Qdepth | Ingress queue depth, in the range 1-65535 bytes. This setting is the maximum depth for the queue before it starts dropping cells. Default = 65535 bytes |
QDEThresh | Ingress queue DE Threshold, in the range 1-65535 bytes. This setting is the maximum depth for the queue before the cells are tagged as discard eligible (DE). Default = 32767 bytes |
QECNThresh | Ingress queue ECN Threshold, in the range 1-65535 bytes. This setting is the maximum depth for the queue before initiating flow control. Default value = 65535 bytes |
Log: Yes State: Active Privilege: 1-2
spirit.1.27.FRSM.a > cnfchaningressq 16 1 65535 32767 65535 spirit.1.27.FRSM.a >
Use the cnfchanmap command to configure interworking field mapping for a specified channel.
Configure Channel Map
FRSM
cnfchanmap <chan_num> <chanType> <FECN/EFCI> <DE to CLP> <CLP to DE>
chan_num | Channel number, in the range appropriate for the FRSM card type. · 8T1/E1 range = 16-1015 · HS1/B range = 16-1015 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 |
chanType | Value to set channel type. · 1 = network interworking · 2 = service interworking in transparent mode · 3 = service interworking in translation mode · 4 = FUNI · 5 = frame forwarding |
FECN/EFCI | Value to set mapping between FECN and EFCI. · 1 = map EFCI, (this option valid only for service interworking) · 2 = make EFCI 0 |
DE to CLP | Value to set DE to CLP mapping. · 1 = map DE to CLP · 2 = make CLP 0 · 3 = make CLP 1 |
CLP to DE | Value to set CLP to DE mapping. · 1 = map CLP to DE · 2 = make DE 0 · 3 = make DE 1 · 4 = ignore CLP (this option valid only for network interworking) |
Log: Yes State: Active Privilege: 1-2
spirit.1.27.FRSM.a > cnfchanmap 16 1 1 1 spirit.1.27.FRSM.a >
Use the cnfchanpol command to configure the Frame Relay policing parameters for a channel. No messages appear on screen unless an error occurs.
Configure Channel Policing
FRSM
cnfchanpol <chan_num> <cir> <bc> <be> <ibs> <detag>
chan_num | Channel number, in the range appropriate for the FRSM card type. · 8T1/E1 range = 16-1015 · HS1/B range = 16-1025 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 |
cir | Committed Information Rate, in the range appropriate for the interface. · T1 range = 0-1536000 bps · E1 range = 0-2048000 bps · T3 range = 0-44210000 bps · E3 range = 0-34010000 bps · HSSI range = 0-51840000 bps Default = 2400 bits per second (bps)
Note that for the FRSM-2CT3 service module, the peak value for permissible CIR is 1536000 bits per second. |
bc | Burst Committed rate, in the range appropriate for the FRSM card type. · FRSM-8T1/E1 range = 0-65535 bytes · FRSM-T3/E3/HS2 range = 0-2097151 bytes · FRSM-2CT3 range = 0-2097151 bytes Default = 5100 bytes.
· Note that the Burst Committed value cannot be 0 when the Committed Information Rate is not 0. · The Burst Committed value MUST be set to 0 when the Committed Information Rate is set to 0. |
be | Burst Excess rate, in the range appropriate for the FRSM card type. · FRSM-8T1/E1 range = 0-65535 bytes · FRSM-T3/E3/HS2 range = 0-2097151 bytes · FRSM-2CT3 = 0-2097151 bytes Default = 5100 bytes
· Note that the Burst Excess value cannot be 0 when the Committed Information Rate is set to 0. |
ibs | Initial Burst Size, the range appropriate for the FRSM card type. · FRSM-8T1/E1 range = 0-65535 bytes · FRSM-T3/E3/HS2 range = 0-2097151 bytes · FRSM-2CT3 range = 0-2097151 bytes Default =100 bytes
· Note that the Initial Burst Size should be less than or equal to the value of Burst Committed when the Committed Information Rate is set to greater than 0. · When the Committed Information Rate is set to 0, the Initial Burst Size MUST be set to 0. |
detag | Value to enable or disable ingress Discard Eligible (DE) tagging. · 1 = enable · 2 = disable (default) |
Log: Yes State: Active Privilege: 1-2
spirit.1.27.FRSM.a > cnfchanpol 16 1 100000 65535 65535 1000 1 spirit.1.27.FRSM.a >
Use the cnfchanq command configure queue parameters for a specified channel on the current PXM or AUSM.
Configure Channel Queue
PXM, AUSM
cnfchanq <LCN> <discard_option> <clp_thresh_high> <clp_thresh_low> <efci_thresh>
LCN | Channel number, in the range 16-4111. |
discard_option | Value to set discard option for hysteresis or frame discard. · 1 =CLP Hysteresis · 2 = Frame Discard |
clp_thresh_high | CLP Threshold High, in the range 1-491520 cells. Once the High Cell Loss Priority threshold is exceeded cells can have a CLP bit set, making them discard eligible. |
clp_thresh_low | CLP Threshold Low, in the range 1-491520 cells. Once the low Cell Loss Priority threshold is passed cells will no longer have the CLP bit set, making them discard eligible. |
efci_thresh | EFCI Threshold, in the range 1-491520 cells. An Explicit Forward Congestion Indicator is sent to the sending node when the threshold is exceeded. |
Congestion Update | Value to set congestion update. · 1 = Don't Update · 2 = Set CI Bit · 3 = Set EFCI Bit · 4 = Clear EFCI |
Max Cell Count | Maximum cell count, in the range 0-512000 cells. |
cnfchanq <chan_num> <vc_q_depth> <clp_thresh_high> <clp_thresh_low> <efci_thresh>
chan_num | Channel number, in the range 16-1015. |
vc_q_depth | Ingress Queue Depth, in the range 0-16000 cells. |
clp_thresh_high | CLP Threshold High, in the range 1-16000 cells. Once the High Cell Loss Priority threshold is exceeded, cells can have a CLP bit set, making them discard eligible. |
clp_thresh_low | CLP Threshold Low, in the range 1-16000 cells. Once the low Cell Loss Priority threshold is exceeded, cells will no longer have the CLP bit set, making them discard eligible. |
efci_thresh | EFCI Threshold, in the range 1-16000 cells. An Explicit Forward Congestion Indicator is sent to the sending node when the threshold is exceeded. |
Log: Yes State: Active Privilege: 1-2 on AUSM, Any on PXM
spirit.1.1.AUSM.a > cnfchanq 16 16000 16000 10000 12000 spirit.1.1.AUSM.a >
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.
Configure Channel Service Rate
FRSM 2T3/E3, FRSM HS2, FRSM-8
cnfchansrvrate <LCN> <ena | dis> <srvrate>
LCN | Channel number, in the range: · FRSM-8T1/E1, FRSM-HS1, 16-1015 · FRSM-HS2, 2T3, 2E3, 16-2015 · FRSM-2CT3, 16-4015 |
<ena | dis> | A numeric value. · 1 = enable · 2 = disable |
srvrate | The actual service rate to be provisioned for the given channel (in CPS). · For VHS modules, the maximum rate is 285714 CPS. |
Log: Yes State: Any state Privilege: Any
NODENAME.1.26.VHS2CT3.a > cnfchansrvrate 16 1 4000 NODENAME.1.26.VHS2CT3.a >
Use the cnfclksrc command to configure an interface as a clock source. Available clock sources are shown in Table 16. 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.
| Clock Source | Description |
|---|---|
Internal clock | Comes from an oscillator on the PXM1. It is the default source when the switch first comes up and remains so until you specify a different clock source. |
Inband clock | Originates on a BPX 8600-series node or another vendor's switch and comes through the trunk on the PXM1 uplink card. |
External clock | Comes from an external timing source and arrives at the T1 or E1 clock connector on the PXM UI. Frequently, the external source is a highly reliable, dedicated device that can provide a Stratum 2 or Stratum 3 clock. (As the subsequent configuration steps show, an additional step is necessary for an external clock source.) |
line on a service module or PXM1 UNI port | The PXM UNI line source is available on a stand-alone node only. A line must be active before you can specify it as a clock source. |
Configure Clock Source
PXM, FRSM, CESM. AUSM
cnfclksrc <slot.port> <clktype>
slot.port | For the PXM1: · Slot is 7, regardless of where the active PXM1 resides. · Port range = 1-n, as appropriate for the physical installation.
For the FRSM, CESM, AUSM: Slot and port number. · Slot = 1-6, or 9-14, or 17-22, or 25-30 · Port range = 1-n, as appropriate for the physical installation.
For the trunk to a BPX 8600-series or other backbone node-sourced clock: · Port is always 1.
For the external clock: · Port is always 35.
For the UNI line (stand-alone only): · Port depends upon the number of lines on the back card.
For a service module providing the clock source: · Slot is the slot number of the card. · Port is the number of the line that provides the clock. If you're using an external clock source:Use the cnfextclk command to select the T1 or E1 line and the impedance of the line. The command syntax is: cnfextclk <ClockType> <Impedance>where: · <ClockType> 1 = T1 source, 2 = E1 source · <Impedance> is one of the following:
|
clktype | Value to set the clock type to be sourced on the specified interface. · p = primary · s = secondary · n = null: use only for removing clock configuration that currently applies to the specified slot.port. |
Log: No State: Active Privilege: 1
spirit.1.8.PXM.a > cnfclksrc 7.1 P spirit1r.1.8.PXM.a > cnfclksrc 7.35 S
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.
Configure Connection
PXM, FRSM, AUSM, CESM
cnfcon <conn_ID> <route_priority> <max_cost> <restrict_trunk_type> [CAC]
conn_ID | Connection identifier, in the format PortNo.VPI.VCI. |
route_priority | Routing priority number, in the range 1-15. |
max_cost | Maximum cost for the connection, in the range 1-255. |
restrict_trunk_type | Value to set restriction on the trunk. · 1 = no restriction · 2 = terrestrial trunk · 3 = satellite trunk |
CAC | Optional value to enable or disable connection admission control. · 1 = enable · 2 = disable |
cnfcon <Port.Dlci> <chan_type> <cir> [CAC]
Port.Dlci | Port number and DLCI. |
chan_type | Value to set channel type. · 1 = NIW · 2 = SIW-transparent · 3 = SIW-xlation · 4 = FUNI · 5 = frForward |
cir | Committed rate, in the range appropriate for the interface. · T1 range = 0-1536000 · E1 range = 0-2048000 · X.21 range = 0-10000000 bps · HSSI range = 0-20000000 bps |
CAC | Optional value to enable or disable connection admission control. · 1 = enable · 2 = disable |
cnfcon <port_num> <CDVT> <CLIP> <bufsize> <clockmode> <IdleSuppression> <ForceSuppression>
port_num | Unique port number. |
CDVT | Cell delay variation, as appropriate for the interface. · T1 range = 125-24000 microseconds · E1 range = 125-26000 microseconds. |
CLIP | Cell loss integration period, in the range 1000-65535 milliseconds. |
bufsize | · egress bufsize = 0 to autocompute. · Min value depends on CDVT configured. · Min BufSize = greater (CDVT in frames * 2) * N, (CDVT + frames in 2 cells) * N} · Max for T1 UDT and E1 UDT: 16224 bytes · Max for T1 SDT: 384 * N bytes · Max for E1 SDT: 417 * N bytes, where N is the number of timeslots assigned in Nx64 connection, and N = 32 for T1/E1 UDT |
clockmode | Value to set clock mode. · 1 = synchronous · 2 = SRTS · 3 = adaptive |
IdleSuppression | Value to enable or disable idle suppression. · 1 = disable · 2 = enable |
ForceSuppression | Value to enable or disable external idle suppression. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: Any
spirit01.1.7.PXM.a > cnfcon 1.2.5 15 255 3 2 spirit01.1.7.PXM.a >
Use the cnfdate command to set the system date.
Configure Date
PXM
cnfdate <mm/dd/yyyy>
mm/dd/yyyy | Month, day, year · mm = month, in the range 01 through 12 · dd = day, in the range 01-31 · yy = year, in the 0000-9999 |
None
Log: Yes State: Active Privilege: SuperUser
excel.1.3.PXM.a > cnfdate 11/24/1999 Date = 11/24/1999 excel.1.3.PXM.a >
Use the cnfdsx3bert command to specify a pattern for BERT testing on the FRSM.
Configure DS3 BERT
FRSM 2T3E3, CESMT3
test pattern | Value to define DSX3 BERT pattern · 1 = all ones · 2 = all zeros · 3 = alternating ones and zeroes · 4 = double alternating ones and zeros · 5 = 3 in 24 · 6 = 1 in 16 · 7 = 1 in 8 · 8 = 1 in 4 · 9 = D4 loop activate · 10 = D4 loop deactivate · 11 = 2**3-1 · 12 = 2**4-1 · 13 = 2**5-1 · 14 = 2**6-1 · 15 = 2**7-1 · 16 = FT1 LB activate · 17 = FT1 LB deactivate |
· 18 = 2**9-1 · 19 = 2**10-1 · 20 = 2**11-1 · 21 = 2**15-1 · 22 = 2**17-1 · 23 = 2**18-1 · 24 = 2**20-1 · 25 = QRSS · 26 = 2**21-1 · 27 = 2**22-1 · 28 = 2**23-1 · 29 = 2**25-1 · 30 = 2**28-1 · 31 = 2**28-1 · 32 = 2**31-1 · 33 = 2**32-1
|
None
Log: Yes State: Active Privilege: SuperUser
popeye1.1.21.CESMT3.a > cnfdsx3bert 4 popeye1.1.21.CESMT3.a >
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.
Command available with 1.1.20 and higher
Configure Egress Servicing Type
FRSM-VHS (2CT3/2T3/2E3/HS2)
cnfegrservtype <servicing type>
servicing type | A value representing one of the following servicing types: · 87 = WFQ algorithm with four queues. · 99 = Ratio-based algorithm with two queues. | |
dspegrservtype
Log: Yes State: Active Privilege: SuperUser
raviraj.1.10.VHS2CT3.a > cnfegrservtype "99" The card will be reset, Do you want to proceed (Yes/No)? Yes Err: card reset/removed/failed on slot 10 slot 2 (cardInx 3) is present, insertion msg from PXM 7
Use the cnfextclk command to configure the line type and impedance of the external clocking source.
Configure External Clocking
PXM
cnfextclk <ClockType> <Impedance>
ClockType | Value to set is the clock source on the line. · 1 = T1 · 2 = E1 |
Impedance | Value to set impedance for the line selected as the external clocking source. · 1 = 75 ohms · 2 = 100 ohms · 3 = 120 ohms |
Log: Yes State: Active Privilege: Group3
excel.1.3.PXM.a > cnfextclk 2 2 excel.1.3.PXM.a >
Use the cnfenetgw command to establish the Ethernet gateway route permanently.
Command available with 1.1.20 and higher
Configure Ethernet Gateway
PXM
cnfenetgw <IPaddress>
IPaddress | IP address for the default gateway; a subnet. |
Log: No State: Active Privilege: Super Group
excel.1.3.PXM.a > cnfenetgw 172.28.37.1 excel.1.3.PXM.a >
Use the cnffst command to configure ForeSight parameters for the current card.
Configure ForeSight
FRSM, AUSM
cnffst <rate_up> <rate_down> <rate-fast_down> <qir_time_out> <rtd_interval>
rate_up | Rate up, in the range 1-100 percent. If free bandwidth is available, this setting is the rate at which ForeSight increases transmission (as a percentage of MIR). |
rate_down | Rate down, in the range 1-100 percent. If free bandwidth becomes unavailable, this setting is the rate at which ForeSight decreases transmission (as a percentage of current rate). |
rate-fast_down | Rate fast down, in the range 1-100 percent. If a cell is dropped or the TxQ is full, this setting is the rate at which ForeSight decreases transmission (as a percentage of current rate). |
qir_time_out | QIR timeout period before resetting IR to QIR, in the range 1-255 seconds. |
rtd_interval | Interval between Round Trip Delay measurement requests, in the range |
Log: Yes State: Active Privilege: 1-2
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.
Configure a Broadband Interface
PXM
cnfif <if_num> <pct_bw> <min_vpi> <max_vpi>
if_num | Interface number of the logical interface, in the range 1-32. |
pct_bw | Percentage of the line bandwidth to be allocated for the logical interface, in the range 0-100. This setting applies to both the ingress and egress. |
min_vpi | Minimum VPI value for UNI or NNI. · UNI range = 0-255 · NNI range = 0-4095 UNI typically applies to a line connecting a stand-alone node to a workstation. |
max_vpi | Maximum VPI value for UNI or NNI. · UNI range = 0-255 · NNI range = 0-4095 UNI typically applies to a line connecting a stand-alone node to a workstation. |
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > cnfif 1 10 0 19 wilco.1.7.PXM.a >
wilco.1.7.PXM.a > dspif
ifNum Status Line ingrPctBw egrPctBw minVpi maxVpi ------------------------------------------------------ 1 Ena 1 10 10 0 19
wilco.1.7.PXM.a >
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.
Configure Interface as Trunk
PXM
cnfifastrk <slot.port> <iftype>
slot.port | Slot and port number. · slot = enter the value 7, or 15, or 31 · port range = 1-n, as appropriate for the physical installation. |
iftype | Trunk type. · ftrk = feeder trunk · rtrk = routing trunk (default) |
Log: No State: Active Privilege: 2
wilco.1.7.PXM.a > cnfifastrk 7.1 ftrk wilco.1.7.PXM.a >
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.
New feature (up/down IP interface) available with 1.1.20 and higher
Configure Interface Address
PXM
cnfifip <Interface> [[<IP_Addr> <Net_Mask> <BroadcastAddr>] | InterfaceFlag]
Interface | Value to set interface as Ethernet, SLIP, or ATM. · 26 = Ethernet · 28 = SLIP · 37 = ATM |
IP_Addr | 32-bit IP address in dotted decimal format. |
Net_Mask | <n>.<n>.<n>.<n> where <n> = integer 0-255> If netmask "255.255.255.252" is used for the SLIP interface, the PXM will automatically add host route for its peer whenever the interface is turned ON. |
BroadcastAddr | <n>.<n>.<n>.<n> where <n> = integer 0-255 |
InterfaceFlag | Interface flag, either UP or DOWN. |
Log: Yes State: Active only Privilege: Super Group
wilco.1.7.PXM.a > cnfifipatm 192.9.200.1 255.255.255.128 wilco.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.
wilco.1.7.PXM.a > cnfifip atm up
wilco.1.7.PXM.a >
wilco.1.7.PXM.a > cnfifip atm down
wilco.1.7.PXM.a >
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.
Configure ILMI
PXM, AUSM
cnfilmi <ifNum> <bbIfSigPortNum> <ilmiEnable> <sigProtocolType> <signallingVPI> <siganllingVCI> <iLMITrap> <minTrapInterval> <keepAlive> <errorThresholdN491> <pollingIntervaalT491> <eventThresholdN492> <minEnquiryIntervalT493> <addrRegEnable>
ifNum | Interface number. |
bbIfSigPortNum | Broadband interface signal port number, in the range 1-32 |
ilmiEnable | Enable or disable ILMI. · 1 = disable · 2 = enable |
sigProtocolType | Value to set signal protocol type. · 1 = other · 2 = no signalling · 3 = ILMI |
signallingVPI | Signaling virtual path identifier, in the range 0-4095. |
siganllingVCI | Signaling virtual channel identifier, in the range 0-4095. |
iLMITrap | Enable or disable ILMI trap. · 1 = disable · 2 = enable |
minTrapInterval | Minimum trap interval, in the range 1-10 seconds. |
keepAlive | Enable or disable keep alive function. · 1 = disable · 2 = enable |
errorThresholdN491 | Error threshold N491, in the range 1-10. |
pollingIntervaalT491 | Polling interval T491, in the range v1-v12. |
eventThresholdN492 | Event threshold N492, in the range 1-10. |
minEnquiryIntervalT493 | Minimum enquiry interval, in the range 1-20. |
addrRegEnable | Enable or disable address registration. · 1 = disable · 2 = enable |
cnfilmi <port_num> <signal_type> <vpi> <vci> <scr> <trap_enable> <min_trap_int> <keep_alive>
port_num | Port number, in the range 1-8. |
signal_type | Value to set signalling type. · 1 = other · 2 = no signalling · 3 = ILMI |
vpi | Virtual path identifier, in the range 0-259. |
vci | Virtual circuit identifier, in the range 0-65535. |
trap_enable | Value to enable or disable ILMI trap. · 1 = disable · 2 = enable |
min_trap_int | Minimum trap interval, in the range 1-10 seconds. |
keep_alive | Value to enable or disable Keep Alive Polling. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: 1, (Cisco for PXM)
Use the cnfimagrp command to configure delay and resilient links Inverse Multiplexing ATM (IMA) parameters on the current AUSM card.
Configure IMA Group
AUSM
cnfimagrp <grp> <max_diff_delay> <min_num_links>
grp | IMA group number, in the range 1-8. |
max_diff_delay | Maximum tolerable differential delay between the various links in the IMA group in the range appropriate for the SM type. · AUSM8-T1 = 0-275 milliseconds · AUSM8-E1 = 0-200 milliseconds |
min_num_links | Number of resilient links in the inverse multiplexer. This setting is the number of links the system can lose from this IMA group without bringing it down. Default = one less than the number of links in the selected group. |
Log: Yes State: Active Privilege: 1-2
flyers01.1.17.AUSM.a > cnfimagrp 1 -rwdiff 5 -severity 2 -maxdiff 3 -red 2 flyers01.1.17.AUSM.a >
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.)
Configure Line
PXM, FRSM, AUSM, CESM, VISM
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 14.)
cnfln -sonet <LineNum> -slt <LineType> -lpb <LoopCmd> -smask <HCSmasking>
-sps <PayloadScramble> -sfs <FrameScramble>
-sonet | Command delineator that precedes the LineNum entry. |
LineNum | Line number in the format slot.line. · Slot number is 7 or 8. · The line number is 1 for the OC-12 card or in the range 1-4 for the OC-3 card. |
-slt | Command delineator that precedes the LineType entry. |
LineType | Line type: · 1 = sonetSts3c · 2 = sonetStm1 · 3 = sonetSts12c · 4 = sonetStm4 |
-lpb | Command delineator that precedes the LoopCmd entry. |
LoopCmd | Loopback mode of the SONET interface. · 1 specifies no loopback. The purpose is to remove an existing loopback. · 2 specifies that the near end loops back data from the remote end. · 3 specifies that the near end loops back local data. |
-smask | Command delineator that precedes the HCSmasking entry. |
HCSmasking | Enable or disable HCS masking. · 1 = disable · 2 = enable |
-sps | Command delineator that precedes the PayloadScramble entry. |
PayloadScramble | Enable or disable payload scramble. · 1 = disable · 2 = enable |
-sfs | Command delineator that precedes the FrameScramble entry. |
FrameScramble | Enable or disable frame scramble. · 1 = disable · 2 = enable |
cnfln -ds3 <LineNum> -lc <LineCoding> -len <LineLength> -oof <LineOOFCriteria>
-cb <LineAIScBitsCheck> -lpb <LoopCmd> -rfeac <LineRcvFEACValidation>
-ds3 | Command delineator that precedes the LineNum entry. |
LineNum | DS3 line number in the format slot.port and has the following possible values: · For a PXM1, the slot is 7 or 8. For an optional SRM (controlled from the PXM1 CLI), the slot is 15, 16, 31, or 32. · The port is 1-2 for a PXM1 or 1-3 for an SRM. |
-lc | Command delineator that precedes the LineCoding entry. |
LineCoding | Value to set line coding for Zero Code Suppression B3ZS or HDB3. · 1 = B3ZS on a dsx3 line · 2 = HDB3 on an E3 line |
-len | Command delineator that precedes the LineLength entry. |
LineLength | Value to set number of line feet. · 1 = less than 225 feet · 2 = 225 feet or more |
-oof | Command delineator that precedes the LineOOFCriteria entry. |
LineOOFCriteria | Value to set threshold for triggering an Out Of Frame condition. · 1 = 3 out of 8 · 2 = 3 out of 16 |
-cb | Command delineator that precedes the LineAIScBitsCheck entry. |
LineAIScBitsCheck | Value to set test of the c-bit in response to AIS status. · 1 = check the c-bit · 2 = ignore the c-bit |
-lpb | Command delineator that precedes the LoopCmd entry. |
LoopCmd | Loopback mode of the DS3/T3 interface. The looped data is the line framing synchronization and is sent every 10 ms. The loop exists on the daughter card attached to the PXM1 front card. The back card is involved only as a passive part of the loopback and only in the case of a remote loopback. For remote loopback, the far end can be CPE on a UNI port or a switch at the far end of a trunk. For local loopback, the data passes between only the PXM1 front card and the daughter card. Note that the mere execution of a loop may clear line alarms. · 1 specifies no loopback. The purpose is to remove an existing loopback. · 2 specifies that the near end loops back data from the remote end. · 3 specifies local data loopback. |
-rfeac | Command delineator that precedes the LineRcvFEACValidation entry. |
LineRcvFEACValidation | A number to specify criteria to validate far-end alarm and control (FEAC) code. · Enter 1 to specify 4 out of 5. A valid FEAC code is declared if 4 of 5 codes match. · Enter 2 to specify 8 out of 10. A valid FEAC code is declared if 8 of 10 codes match. |
cnfln -e3 <LineNum> -lc <LineCoding> -len <LineLength> -lpb <LoopCmd>
-topt <TrailTraceOption> -txtt <txTrailTrace> -txma <txTimingMarker>
-rxma <rxTimingMarker> -txpt <txPayloadType>
-e3 | Command delineator that precedes the LineNum entry. |
LineNum | Line number in the format slot.line and has the following possible values: · For a PXM1, the slot is 7 or 8. For an optional SRM (controlled from the PXM1 CLI), the slot is 15, 16, 31, or 32. · The line number is 1-2 for the E3 back card on the PXM1. No E3 back card exists for the SRM. |
-lc | Command delineator that precedes the LineCoding entry. |
LineCoding | Value to set line coding for Zero Code Suppression B3ZS or HDB3. · 1 = B3ZS on a dsx3 line · 2 = HDB3 on an E3 line |
-len | Command delineator that precedes the LineLength entry. |
LineLength | Value to set number of line feet. · 1 = less than 225 feet · 2 = 225 feet or more |
-lpb | Command delineator that precedes the LoopCmd entry. |
LoopCmd | Loopback mode of the E3 interface. · 1 specifies no loopback. The purpose is to remove an existing loopback. · 2 specifies that the near end loops back data from the remote end. · 3 specifies local data loopback. |
-topt | Command delineator that precedes the TrailTraceOption entry. |
TrailTraceOption | Enable or disable trail trace. · 1= disable · 2 = enable |
-txtt | Command delineator that precedes the txTrailTrace entry. |
txTrailTrace | Length of the trail trace string in the transmit direction (away from the switch). The maximum length of txTrailTrace is 16 bytes. |
-txma | Command delineator that precedes the txTimingMarker entry. |
txTimingMarker | Value to set the timing marker tracer during outbound transmission. · 1 = traceable · 2 = untraceable |
-rxma | Command delineator that precedes the rxTimingMarker entry. |
rxTimingMarker | Value to set the timing marker tracer during inbound transmission. · 1 = traceable · 2 = untraceable |
-txpt | Command delineator that precedes the txPayloadType entry. |
txPayloadType | Value to set payload type. · 1 = unequipped · 2 = equipped · 3 = ATM · 4 = sdhtu12s |
cnfln <line_num> <line_type> <clk_src>
line_num | DS1 Line number, in the range 1-56 |
line_type | Value to define type of line to be configured. · 1 = dsx1ESF · 2 = dsx1D4 |
clk_src | Value to define DSX1 clock source. · 1 = loop clock · 2 = local clock |
cnfds3ln <line_num> <line_type> <line_len> <clk_src>
line_num | DS3 Line number, in the range 1-2. |
line_type | Value to define type of line to be configured. · 1 = C-bit parity · 2 = g832_g804 · 3 = M13 · 4 = g751 |
line_len | Value to define length of line. · 1 = less than 225 feet · 2 = greater than 225 feet |
clk_src | Value to define DSX3 clock source. · 1 = backplane clock · 2 = recovery clock · 3 = local clock |
cnfln <line_num> <line_type> <line_rate>
line_num | Line number, in the range 1-4. |
line_type | Value to define line type. · 1 = DTE · 2 = DCE · 3 = DTE_ST (V.35 only) |
line_rate | Value to define line rate, in the range 48 Kbps - 52 Mbps. |
cnfln <line_num> <line_code> <line_len> <clk_src> [E1-signaling]
line_num | Line number, in the range 1-8. |
line_code | Value to set line coding. · 2 = B8ZS, applies to T1 · 3 = HDB3, applies to E1 · 4 = AMI, applies to T1 or E1 |
line_len | Line length, as appropriate for the interface. · T1: 10-15 · E1 with SMB module: 8 · E1 with R-J48 module: 9 |
clk_src | Value to set clock source as either loop clock or local clock. · 1 = loop clock · 2 = local clock |
E1-signaling | · CAS: CAS, no CRC · CAS_CRC: CAS with CRC · CCS: CCS no CRC · CCS_CRC: CCS with CRC · CLEAR: Clear E1 |
Log: Yes State: Active Privilege: 1
wilco.1.4.AUSM.a > cnfln 4 2 10 1 wilco.1.4.AUSM.a >
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:
Command available with 1.1.22 and higher.
Configure Line Subrate
FRSM-2T3/2E3
cnflnsubrate <line_num> <dsu_subrate_ena> <dsu_select> <dsu_scramble_ena> <dsu_line_rate >
line_num | DS3 line number, in the range 1 to 2 |
dsu_subrate_ena | One of the following values: · 1 = disable · 2 = enable |
dsu_select | One of the following modes: · 1 = Digital Link 3100 Mode · 2 = ADC-Kentrox |
dsu_scramble_ena | DSU line scrambling; either: · 1 = disable · 2 = enable |
dsu_line_rate | A DSU line rate, values ranging from x to y. For DL3100: · FRSM-2T3: x = 300, y = 44210 · FRSM-2E3: x = 358, y = 34010 For ADC-Kentrox Mode: · FRSM-2T3/E3: x = 500, y = 44210 or 34010 in steps of x-value |
dspds3ln
Log: Yes State: Active Privilege: 1-2
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.
Configure Name
PXM
cnfname <node name>
node name | Node name consisting of up to eight alpha-numeric characters. |
None
Log: Yes State: Active Privilege: 1
NODENAME.1.7.PXM.a > cnfname kanchendzonga kanchend.1.3.PXM.a >
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.
Configure OAM Loopback
FRSM 2T3/E3, FRSM HS2
cnfoamlpbk <action> <frequency>
action | One of the following actions: · 1 = OamRas enabled · 2 = OamRas disabled |
frequency | Frequency at which the loopback cells should be sent, in the range 1 to 10 minutes. |
Log: Yes State: Any Privilege: Any
NODENAME.1.19.VHS2CT3.a > cnfoamlpbk 1 10 NODENAME.1.19.VHS2CT3.a >
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.
Configure Password
PXM
cnfpasswd [<user_id>]
user_id | User name. |
Log: Yes State: Active Privilege: Any
spirit4.1.8.PXM.a > cnfpasswd Enter password: Re-enter password: spirit4.1.8.PXM.a >
Use the cnfplpp command to set PLPP parameters on the current AUSM card.
Configure PLPP
AUSM
cnfplpp <phy_port_num> <loopback> <scramble> <singlebit_errcorr_ena>
phy_port_num | Physical port number, in the range 1-8. |
loopback | Value to set PLPP loopback. · 1 = no loopback · 2 = remote loopback · 3 = local loopback |
scramble | Enable or disable cell scramble. · 1 = no scramble · 2 = scramble |
singlebit_errcorr_ena | Enable or disable single-bit error correction. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: 1-2
spirit3.1.22.AUSM8.a > cnfplpp 1 1 1 1 spirit3.1.22.AUSM8.a >
A system response does not occur unless an error is detected. To confirm your configurations for PLPP parameters, use the dspplpp command.
spirit3.1.22.AUSM8.a > dspplpp 1 PhysicalPortNumber: 1 CellFraming: ATM CellScramble: No Scramble Plpp Loopback: No Loopback Single-bit error correction: Disabled spirit3.1.22.AUSM8.a >
Use the cnfport command to configure service port on an FRSM or a PXM. The configuration can be verified using the dspport command.
Configure Port
PXM, FRSM
cnfport <port_number> <percent_bandwidth> <min_VPI> <max_VPI>
Syntax Description
port_number | Port number, in the range 1-32. |
percent_bandwidth | Percentage of bandwidth to allocated on the port, in the range 1-100. |
min_VPI | Minimum virtual path identifier, in the range 0-4095. |
max_VPI | Maximum virtual path identifier, in the range 0-4095. |
cnfport <port_num> <lmi_sig> <asyn> <ELMI> <T391> <T392> <N391> <N392> <N393>
port_num | Logical port number, in the range appropriate for the current card. · FRSM
|
lmi_sig | LMI signaling protocol type. · 1 = Other · 2 = None · 3 = StrataLMI · 4 = AnnexAUNI · 5 = AnnexDUNI · 6 = AnnexANNI · 7 = AnnexDNNI |
ELMI | Enable or disable enhanced LMI. N or n = disable Y or y = enable |
asyn | Enable or disable asynchronous update. (y)es = enable (n)o = disable (default) |
T391 | T391 timer, in the range 5-30 seconds. This setting is the interval in seconds for NNI status polling. Default = 10 |
T392 | T392 timer, in the range 5-30 seconds. This setting is the interval in seconds for UNI status polling. Default = 15 |
N391 | N391 counter, in the range 1-255. This setting establishes the number of UNI/NNI polling cycles. Default = 6 |
N392 | N392 counter, in the range 1-10. This setting is the UNI/NNI error threshold. Default = 3 |
N393 | N393 counter, in the range 1-10. This setting is the UNI/NNI monitored events threshold, which must be greater than N392. Default = 4 |
addport, delport, dspport, dspports
Log: Yes State: Active Privilege: Any
spirit3.1.8.PXM.a > cnfport 1 100 0 4095 spirit3.1.8.PXM.a >
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.
Configure Port CLLM
FRSM
cnfportcllm <port_num> <CLLMEN> <CLLMTM>
port_num | Logical port number, in the range appropriate for the current card. · FRSM
|
CLLMEN | Enable or disable CLLM. · 1 = disable (default) · 2 = enable |
CLLMTM | CLLM Time, in the range 40-5000 milliseconds. This setting is the amount of time to wait to receive CLLM updates before timing out. Default = 1000 (1 second) |
Log: Yes State: Active Privilege: 1-2
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.
Configure Port Queue
AUSM
cnfportq <port_num> <q_num> <q_algo> <q_depth> <clp_high> <clp_low> <efci_thres>
port_num | Port number, in the range 1-8. |
q_num | Value to set queue number. · 1 = CBR · 2 = ABR · 3 = VBR · 4 = UBR |
q_algo | Queue algorithm, in the range 1-5 0 = disable queue |
q_depth | Queue depth is the maximum queue depth, in the range 1-16000 cells |
clp_high | CLP high is the high Cell Loss Priority, in the range 1-16000 cells |
clp_low | CLP low is the low Cell Loss Priority, in the range 1-16000 cells |
efci_thres | EFCI threshold is the EFCI threshold, in the range 1-16000 cells |
None
Log: Yes State: Active Privilege: 1
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:
Configure Port Resource Partition
PXM, AUSM, FRSM, CESM, VISM
cnfportrscprtn <if_num> <ctrlr_num> <ingr_pct_bw> <egr_pct_bw> <min_vpi> <max_vpi> <min_vci> <max_vci> <max_chans>
if_num | Logical interface number, in the range 1- 32. |
ctrlr_num | Value to set network control application. · 1 = PAR · 2 = PNNI · 3 = TAG |
ingr_pct_bw | Percent of ingress bandwidth to be allocated on the interface, in the range 0-100. |
egr_pct_bw | Percent of egress bandwidth to be allocated on the interface, in the range 0-100. |
min_vpi | Minimum VPI Value, in the range 0-4095. |
max_vpi | Maximum VPI Value, in the range 0-4095. |
min_vci | Minimum VCI Value, in the range 0-65535. |
max_vci | Maximum VCI Value, in the range 0-65535. |
max_chans | Maximum number of GLCNs, in the range 0-32767. |
cnfportrscprtn <portnum> <controller> <conn ID range> <percent bandwidth> [number of conns]
port_num | Logical port number, in the range appropriate for the current card. · FRSM
|
controller | Value to set controller type. · 1 = PAR · 2 = PNNI (currently not used) · 3 = Tag |
conn ID range | Range of connection IDs available to the controller. |
percent bandwidth | Percentage of the port bandwidth available to the controller. This setting applies to both the ingress and egress. |
number of conns | Connections available to a controller on a port. |
Log: Yes State: Active Privilege: 1 (Service for PXM)
Use the cnfprfparam command to configure the bucket interval.
Configure Preference Parameters
PXM
cnfprfparam <bucket interval>
bucket interval | Bucket interval, in the range 1-600 seconds. |
Log: No State: Active Privilege:Any
popeye3.1.8.PXM.a > cnfprfparam 2 The bucket interval will be effective after the current bucket interval is over. popeye3.1.8.PXM.a >
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.
Configure Resource Partition
PXM
cnfrscprtn <if_num> <ctrlr_num> <ingr_pct_bw> <egr_pct_bw> <min_vpi> <max_vpi> <min_vci> <max_vci> <max_chans>
if_num | Logical interface number, in the range 1- 32. |
ctrlr_num | Value to set network control application. · 1 = PAR · 2 = PNNI · 3 = TAG |
ingr_pct_bw | Percent of ingress bandwidth to be allocated on the interface, in the range 0-100. |
egr_pct_bw | Percent of egress bandwidth to be allocated on the interface, in the range 0-100. |
min_vpi | Minimum VPI Value, in the range 0-4095. |
max_vpi | Maximum VPI Value, in the range 0-4095. |
min_vci | Minimum VCI Value, in the range 0-65535. |
max_vci | Maximum VCI Value, in the range 0-65535. |
max_chans | Maximum GLCNS, in the range 0-32767. |
Log: Yes State: Any Privilege: Service_GP
MGX-01.1.2.PXM.a > cnfrscprtn 1 1 100 100 0 4095 0 65535 32767 MGX-01.1.2.PXM.a >
Use the cnfserialif command to configure the speed of a serial port.
Configure Serial Interface
PXM
cnfserialif -if <serial_port_num> -sp <serial_port_speed>
-if | Command delineator that precedes the serial_port_num entry. |
serial_port_num | Serial port number. Enter the value 1 (for console) or 2 (for slip). |
-sp | Command delineator that precedes the serial_port_speed entry. |
serial_port_speed | Value to set port speed.
|
Log: Yes State: Active Privilege: 1-2
NODENAME.1.7.PXM.a > cnfserialif -if 2 -sp 3 NODENAME.1.7.PXM.a > dspserialif -if 2 SerialPortNum : 2 SerialPortType : main SerialPortEnable : Enable SerialPortBps : 19200bps
Use the cnfslftst command configure the self-test routine on the current card.
Configure Self-Test
FRSM, AUSM, CESM
cnfslftst -en <SelftestEnable> -tm <SelftestPeriod>
-SelftestEnable | Enable or disable self-test. · 1 = disable · 2 = enable |
SelftestPeriod | Period, in minutes, between self tests in the range 1-60. |
Log: No State: Any Privilege: Any
spirit3.1.22.AUSM8.a > cnfslftst -en 2 -tm 5 spirit3.1.22.AUSM8.a >
Use the cnfsnmp command to view the community strings configured on a service module. The default SNMP community string is set to POPEYE.
Configure SNMP
PXM
cnfsnmp <community string>
community string | The SNMP community string, up to 18 characters in length. |
Log: No State: Active Privilege: Superuser
popeye.1.7.PXM.a > cnfsnmp POPEYE2ST popeye.1.7.PXM.a > dspsnmp Community String :POPEYE2ST
Use the cnfsrmclksrc command to configure the SRM clock source to be acquired from either the PXM or from an SRM-3T3 T3 line.
Configure SRM Clock Source
PXM
cnfsrmclksrc -ds3 <T3 line number> -srmclk <source number>
-ds3 | Command delineator for the T3 line number entry. |
T3 line number | SRM-3T3 T3 line number in the format slot.port. · slot = enter a value from the range 7, 8, 15, 16, 31, 32. · line range = 1 to n, as appropriate for the card. |
-srmclk | Command delineator for the source number entry. |
source number | Value to set clock source. · 1 = backplane clock, from PXM. (default) · 2 = recovery clock, from T3 line. |
Log: No State: Active Privilege: Any
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.
Configure Statistics Manager
PXM
cnfstatsmgr <IP_Addr>
IP_Addr | 32-bit IP address in dotted decimal format. |
Log: Yes State: Active Privilege: SuperUser
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.
Configure Software Function
PXM
cnfswfunc -vsvd <enable(yes) | disable(no)> -ndtype <fdr | routing>
-vsvd | Command delineator that precedes the enable entry or disable entry. |
enable(yes) | Character that enables or disables VSVD. · e = enable · d = disable |
-ndtype | Command delineator that precedes the fdr | routing entry. |
fdr | routing | Node implementation. · fdr = feeder implementation · routing = either the stand-alone or routing node implementation. Default = routing |
Log: No State: Active Privilege: Service
wilco.1.7.PXM.a > cnfswfunc -vsvd yes -ndtype routing wilco.1.7.PXM.a >
Use the cnftime command to set the time on the PXM. The node uses a 24-hour clock.
Configure Time
PXM
cnftime <hh:mm:ss>
hh:mm:ss | Hour, minutes, seconds · hh = hour, in the range 01-24 · mm = day, in the range 01-60 · ss = year, in the range 01-60 |
Log: Yes State: Active Privilege: SuperUser
excel.1.3.PXM.a > cnftime 14:11:22 11/14/98-14:11:22 3 tDbgCmdTask 1220 informational : TIME/DATE updated 11/14/98-14:11:22 3 StrataCom 0 cnftime 14:11:22 excel.1.3.PXM.a >
Use the cnftmzn command to configure the time zone for the switch.
Configure Timezone
PXM
cnftmzn <timezone>
timezone | Value to set timezone. 1 = GMT 2 = EST 3 = CST 4 = MST 5 = PST |
Log: Yes State: Active Privilege: SuperUser
excel.1.3.PXM.a > cnftmzn 3 excel.1.3.PXM.a >
Use the cnftmzngmt command to configure the time zone for the shelf relative to GMT.
Configure Timezone Relative to GMT
PXM
cnftmzngmt <timeoffsetGMT>
timeoffsetGMT | Number of offset in hours from GMT, in the range -12 to 12. |
Log: Yes State: Active Privilege: Superuser
excel.1.3.PXM.a > cnftmzngmt 4 excel.1.3.PXM.a >
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.
Command available with 1.1.20 and higher.
Configure Traffic Generation Test
FRSM-VHS (2CT3/2T3/2E3/HS2)
cnftrafficgen <pvc_num> <action> <num_frames> <pattern_type >
pvc_num | A value in the following ranges: · 16-4015 (2CT3) · 16-2015 (2T3/2E3/HS2) |
action | One of the following actions: · 1 = start · 2 = stop · 3 = abort |
num_frames | A value in the range 1-40960000 |
pattern_type | A value in the range 1-4; default = 1 |
Log: No State: Active Privilege: Any
spirit.1.1.VHS2CT3.a > cnftrafficgen 16 1 100 1 Wait...... Starting Test
spirit.1.1.VHS2CT3.a > cnftrafficgen 16 2 Wait.... Stopping Test
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.
Configure Trap IP Address
PXM
cnftrapip <ip_addr>
ip_addr | 32-bit IP address in dotted decimal format. |
None
Log: No State: Active Privilege: Any
spirit4.1.8.PXM.a > cnftrapip 192.169.3.102 spirit4.1.8.PXM.a >
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.
Configure Trunk
PXM
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>
slot.port | · Slot = enter the value 7. · Port range= 1-n, as appropriate for the physical installation. |
-stres | Command delineator that precedes the Stats Reserve entry. |
Stats Reserve | Statistical reserve in cells per second, in the range 0-maximum bandwidth of the card. |
-ccrstr | Command delineator that precedes the CC Restrict entry. |
CC Restrict | Activates or deactivates the control plane communication restriction. · yes = activate the restriction · no = allow PAR control communication |
-lntyp | Command delineator that precedes the Line Type entry. |
Line Type | Line type that characterizes the trunk. · terrestrial · satellite |
-passsync | Enable or disable the trunk to pass the synchronization clock. · yes = enable the trunk to pass sync · no = disable |
-drtdly | Command delineator that precedes the Deroute Delay entry. |
Deroute Delay | Number of milliseconds the switch waits to deroute connections after a trunk failure occurs. The purpose of delaying connection deroute is that occasional, transitory trunk failures do not warrant the loss of service due to connection derouting. |
-Fst | Enable or disable ForeSight control. · yes = enable · no = disable |
-Fr | Enable or disable Frame Relay traffic. · yes = enable · no = disable |
-nts | Enable or disable non-timestamped traffic. · yes = enable · no = disable |
-ts | Enable or disable timestamped traffic. · yes = enable · no = disable |
-voice | Enable or disable voice traffic. · yes = enable · no = disable |
-cbr | Enable or disable constant bit rate traffic. · yes = enable · no = disable |
-vbr | Enable or disable variable bit rate traffic. · yes = enable · no = disable |
-abr | Enable or disable available bit rate traffic. · yes = enable · no = disable |
-rtcost | Command delineator that precedes the Routing_Cost entry. |
Routing_Cost | Routing cost for this trunk. |
-vpcconid | Command delineator that precedes the Max VPC Con IDs entry. |
Max VPC Con IDs | Number of available Virtual Path Connection IDs for this trunk. |
Log: No State: Active Privilege: 2
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 255 tango1.1.8.PXM.a >
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.
Configure Parameter Control for ABR
PXM, AUSM-8T1/E1
cnfupcabr <chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <clp_tag>
chan_num | Channel number, in the range 16-1015. |
enable | Value to enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0+1] | Peak cell rate, in the range 1-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port). Note that the IMA port's speed is variable and depends on the number of links in the port. |
cdvt[0+1] | Cell delay variation [0+1], in the range 1-250000 microseconds. |
scr | Sustained cell rate, in the range 10-38328 cells per second. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port). Note that the IMA port's speed is variable and depends on the number of links in the port. |
scr_police | Value to set SCR policing. · 1 = CLP[0] Cells, · 2 = CLP[0+1] Cells · 3 = no SCR policing |
mbs | Maximum burst size, in the range 1-5000 cells. |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
cnfupcabr <port.VPI.VCI | chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <clp_tag>
port.VPI.VCI | Port range = 1-n, as appropriate for the physical installation. VPI range = 1-4095. VCI range = 1-65535. |
chan_num | Channel number, in the range 16-1015. |
enable | Value to enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0+1] | Peak cell rate, in the range 10-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port. Note the following PCRs for a 10-PortRate: · T1-3622 · E1-4528 · clearE1-4830
Note the following PCRs for IMA: · T1-3591 · E1-4490 · clrE1-4789
Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
cdvt[0+1] | Cell delay variation [0+1], in the range 1-250000 microseconds. |
scr | Sustained cell rate, in the range 10-38328 cells per second. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. |
scr_police | Value to set SCR policing. · 1 = CLP[0] Cells · 2 = CLP[0+1] Cells · 3 = no SCR policing |
mbs | Maximum burst size, in the range 1-5000 cells. |
IngPcUtil | Ingress percentage utilization, in the range 1-127. Default = 0 |
EgSrvRate | Egress service rate. Use the following values: · 1-PortRate (T1-3622, E1-4528, clearE1-4830 · IMA-T1-3591, E1-4490, clrE1-4789 Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
EgPcUtil | Egress percentage utilization, in the range 1-127. Default = 0 |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: 1-2 (Any for PXM)
s1.1.12.AUSMB8.a > cnfupcabr 2.1.5 2 3000 250000 2000 1 1000 50 4000 50 2
s1.1.12.AUSMB8.a > cnfupcabr 31 2 3000 250000 2000 1 1000 50 4000 50 2
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.
Configure User Parameter Control Constant Bit Rate
PXM, AUSM
cnfupccbr <chan_num> <enable|disable> <pcr[0+1]> <cdvt[0+1]> <pcr[0]> <cdvt[0]> <clp_tag>
chan_num | A channel number in the range 16-1015. |
enable|disable | Enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0+1] | Peak cell rate, in the range 10-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal), or an IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. |
cdvt[0+1] | Cell delay variation tolerance for cells with CLP = 0 and CLP = 1, in the range 1-250000 microseconds. |
pcr | Peak cell rate in the range 10-38328 cells per second. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. |
cdvt | Cell delay variation tolerance for cells with CLP = 0, in the range 1-250000 microseconds. |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
cnfupccbr <port.VPI.VCI | ChanNum> <enable|disable> <pcr[0+1]> <cdvt[0+1]> <IngPcUtil> <EgSrvRate> <EgPcUtil>
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. |
enable|disable | Enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0+1] | Peak cell rate, in the range 10-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port. Note the following PCRs for a 10-PortRate: · T1-3622 · E1-4528 · clearE1-4830
Note the following PCRs for IMA: · T1-3591 · E1-4490 · clrE1-4789
Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
cdvt[0+1] | Cell delay variation tolerance for cells with CLP = 0 and CLP = 1, in the range 1-250000 microseconds. |
IngPcUtil | Ingress percentage utilization, in the range 1-127. Default = 0 |
EgSrvRate | Egress service rate. Use the following values: · 1-PortRate (T1-3622, E1-4528, clearE1-4830 · IMA-T1-3591, E1-4490, clrE1-4789 Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
EgPcUtil | Egress percentage utilization, in the range 1-127. Default = 0 |
Log: Yes State: Active Privilege: 1-2
s1.1.12.AUSMB8.a > cnfupccbr 2.1.1 2 4528 250000 50 4528 50
s1.1.12.AUSMB8.a > cnfupccbr 21 2 4528 250000 50 4528 50
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.
Configure User Parameter Control Unspecified Bit Rate
PXM, AUSM-8T1E1
cnfupcubr <chan_num> <enable> <pcr[0-1]> <cvdt[0-1]> <IngPcUtil> <clp_tag>
chan_num | Channel number, in the range 16-1015. |
enable | Enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0-1] | Peak cell rate, in the range 10-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. |
cvdt[0-1] | Cell delay variation, in the range of 1-250000 microseconds. |
IngPcUtil | Ingress percentage utilization, in the range 1-100. Default = 0 |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
cnfupcubr <port.VPI.VCI | chan_num> <enable> <pcr[0-1]> <cvdt[0-1]> <IngPcUtil> <clp_tag>
port.VPI.VCI | Port range = 1-n, as appropriate for the physical installation. VPI range = 1-4095. VCI range = 1-65535. |
chan_num | Channel number, in the range 16-1015. |
enable | Enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0+1] | Peak cell rate, in the range 10-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port). Note the following PCRs for a 10-PortRate: · T1-3622 · E1-4528 · clearE1-4830
Note the following PCRs for IMA: · T1-3591 · E1-4490 · clrE1-4789
Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
cvdt[0-1] | Cell delay variation, in the range of 1-250000 microseconds. |
IngPcUtil | Ingress percentage utilization, in the range 1-100. Default = 0 |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: 1-2
s1.1.12.AUSMB8.a > cnfupcubr 2.1.7 2 4528 250000 50 2
s1.1.12.AUSMB8.a > cnfupcubr 37 2 4528 250000 50 2
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.
Configure User Parameter Control Variable Bit Rate
PXM, AUSM-8T1E1
cnfupcvbr <chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <clp_tag>
chan_num | Channel number, in the range 16-1015. |
enable | Enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0 + 1] | Peak cell rate for CLP [0+1] cells, in the range 10-38328 cells per second. The actual value depends on the speed of the logical port, which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port. Note that the IMA port's speed is variable and depends on the number of links in the port. |
cdvt[0 + 1] | Cell delay variation tolerance for cells with CLP = [0+1], in the range 1-250000 microseconds. |
scr | Sustained cell rate, in the range 1-4670 cells per second. |
scr_police | Value to set SCR policing. · 1 = CLP[0] cells · 2 = CLP[0+1] cells · 3 = no SCR policing |
mbs | Maximum burst size, in the range 1-5000 cells. |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
cnfupcvbr <port.VPI.VCI | chan_num> <enable> <pcr[0+1]> <cdvt[0+1]> <scr> <scr_police> <mbs> <IngPcUtil> <EgSrvRate> <EgPcUtil> <clp_tag>
port.VPI.VCI | Port range = 1-n, as appropriate for the physical installation. VPI range = 1-4095. VCI range = 1-65535. |
chan_num | Channel number, in the range 16-1015. |
enable | Enable or disable UPC. · 1 = disable · 2 = enable |
pcr[0+1] | Peak cell rate, in the range 10-38328 cells/second. This setting is the peak cell rate for cells with CLP = 0 and CLP = 1. The actual value depends on the speed of the logical port (which can be a T1, E1 (normal), E1 (clear), IMA T1, IMA E1 (normal) or an IMA E1 (clear) port). Note the following PCRs for a 10-PortRate: · T1-3622 · E1-4528 · clearE1-4830
Note the following PCRs for IMA: · T1-3591 · E1-4490 · clrE1-4789
Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
cdvt [0+1] | Cell delay variation tolerance for cells with CLP = [0+1], in the range 1-250000 microseconds. |
scr | Sustained cell rate, in the range 1-4670 cells per second. |
scr_police | Value to set SCR policing. · 1 = CLP[0] cells · 2 = CLP[0+1] cells · 3 = no SCR policing |
mbs | Maximum burst size, in the range 1-5000 cells. |
IngPcUtil | Ingress percentage utilization, in the range 1-127. Default = 0 |
EgSrvRate | Egress service rate. Use the following values: · 1-PortRate (T1-3622, E1-4528, clearE1-4830 · IMA (T1-3591, E1-4490, clrE1-4789) Note that the IMA port's speed is variable and depends on the number of links in the port. Multiply the rate by the number of links. |
EgPcUtil | Egress percentage utilization, in the range 1 to 127. Default = 0 |
clp_tag | Enable or disable CLP tagging. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: 1-2
s1.1.12.AUSMB8.a > cnfupcvbr 2.1.3 2 3000 250000 2000 1 1000 50 4000 50 2
s1.1.12.AUSMB8.a > cnfupcvbr 26 2 2 3000 250000 2000 1 1000 50 4000 50 2
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.
Configure VISM IP Address
VISM
cnfvismip -cuip <VISM IP address> | -mask <net mask> | -suip <SU IP address>
-cuip | Command delineator that precedes the VISM IP address entry. |
VISM IP address | 32-bit IP address of the VISM in dotted decimal format. |
-mask | Command delineator that precedes the net mask entry. |
net mask | The network mask in the format nnn.nnn.nnn.nnn, where n = 0-9, and nnn < 256. |
-suip | Command delineator that precedes the SU IP address entry. |
SU IP address | 32-bit IP address of the signaling unit, in dotted decimal format. |
Use the commit command to confirm copying the selected firmware file into the PXM.
Confirm Copying the Firmware Load
PXM
commit <version>
version | Firmware version. |
Log: Yes State: Active Privilege: Any
NODENAME.1.8.PXM.a > commit 1.1.10 this may take a while ... commit command completed ok
NODENAME.1.8.PXM.a > commit 1.1.11 in 'upgrade idle', must be in 'upgrade newrev' ERR: command "commit" failed NODENAME.1.7.PXM.a > commit 1.1.11 1.1.11 is not the currently running version 1.1.10Hu ERR: command "commit" failed
golden1.1.7.PXM.a > commit sm 11 10.0.05 Do you want to proceed (Yes/No)? yes
golden1.1.7.PXM.a > commit sm 11 10.0.04 Incorrect version : 10.0.04 usage: commit [sm <slot>] <version> ERR: command "commit" failed
Use the copy command to replicate the selected firmware file into the PXM.
Copy the Firmware Load
PXM
copy <fw_load>
fw_load | Firmware file name. |
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > copy pxm_1.0.00Ef.fw spirit4.1.8.PXM.a >
Use the cp command to replicate the selected firmware file into the PXM.
Copy the firmware load
PXM
copy <fw_load>
fw_load | Firmware file name. |
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > copy pxm_1.0.00Ef.fw spirit4.1.8.PXM.a >
Use the cth command to clear the transaction handler trace buffer.
Clear Transaction Handler
PXM
cth
Log: No State: Any Privilege: Service Group
spirit4.1.8.PXM.a > cth spirit4.1.8.PXM.a >
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.
Copy Channels
FRSM, AUSM
copychans <template chan #> <start chan #> <start dlci> <# of chans> <start remote VPI> <start remote VCI>
template chan # | Template channel number, in the range appropriate for the card. · FRSM
· AUSM range = 16-1015 |
start chan # | Start channel number, in the range appropriate for the card. · FRSM · 8T1/E1 range = 16-1015 · T3/E3/HS2 range = 16-2015 · 2CT3 range = 16-4015 · AUSM range = 16-1015 |
start dlci | Start local DLCI for FRSM Start local VCI for AUSM |
# of chans | Number of channels. |
start remote VPI |
|
start remote VCI |
|
Log: No State: Active Privilege: 1
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.
Copy Ports
FRSM (not on the HS1/B)
copyports <template port #> <start port #> <start time slot> <# of ports>
template port # | Template port number. This setting is the number of the template port to be copied. |
start port # | Start port number. This setting is the number of the port to be copied. |
start time slot | Start time slot. This setting is the starting time slot in the port to be copied. |
# of ports | Number of ports. This setting is the number of contiguous time slots to be copied. |
Log: No State: Active Privilege: 1
Use the cvsi command to clear the VSI trace buffer.
Clear VSI
PXM
cvsi
Log: No State: Any Privilege: Cisco Group
spirit4.1.8.PXM.a > cvsi spirit4.1.8.PXM.a >
Use the dcct command to display connection information.
Display Connection
PXM
dcct <slot.port.vpi.vci>
slot.port.vpi.vci | · Slot range = 1-32 · Port range = 1-256 · VPI range = 0-4095 · VCI range = 0-65535 |
Log: No State: Active Privilege: Service Group
porky.1.7.PXM.a > dcct 6.2.100.100 Connection does not exist porky.1.7.PXM.a >
Use the dcondb command to view a connection database.
Display Connection Database
PXM
dcondb <dbtype> <index>
dbtype | Value to set the · 1 = master · 2 = slave · 3 = DAX · 4 = Summary |
index | Set index for either index or dbtype. |
Log: No State: Any Privilege: Service Group
Use the del command to remove a file or directory from the PXM hard drive.
Delete
PXM
del <path_name>
path_name | Name of an existing file or directory. |
Log: Yes State: Any Privilege: Service Group
Use the delaimgrp command to delete an AIMUX group.
Delete AIMUX Group
AUSM
delaimgrp <group_num>
group_num | AIMUX group number to be deleted, in the range 1-8. |
Log: Yes State: Active Privilege: 1-2
spirit3.1.22.AUSM8.a > delaimpgrp 2 spirit3.1.22.AUSM8.a >
Use the delapsln command to delete an APS line configuration.
Delete APS Line
PXM
delapsln <workingline>
workingline | The configured working line on the PXM. |
Log: Yes State: Active Privilege: SUPER_GP
Use the delbert command to conclude a BERT testing session in a specified location on the shelf.
Delete BERT
PXM
delbert <slot>
slot | Slot number, as configured for BERT testing. |
Log: Yes State: Active Privilege: GROUP_1
Use the delcdrscprtn command to delete GLCNs allocated to a controller. This command applies if the card partition type is controllerBased.
Delete Card Resource Partition
PXM, FRSM, AUSM, CESM, VISM
delcdrscprtn <controller-name>
controller-name | Value to set controller type. · 1 = PAR/PVC · 2 = PNNI/SPVC · 3 = TAG |
Log: Yes State: Any Privilege: SERVICE_GP
spirit4.1.8.PXM.a > delcdrscprtn 3 spirit4.1.8.PXM.a >
Use the delchan command to delete a channel. After you finish this command, no messages appear on-screen unless the command cannot execute as entered.
Delete Channel
PXM, FRSM, AUSM, CESM
delchan <channel number>
channel number | Channel number, as appropriate for the card. · PXM range = 16-4111 · FRSM range = 16-1015 · CESM
|
Log: Yes State: Any Privilege: Any
Use the delchanloop command to delete a channel loopback from the current FRSM or AUSM.
No messages appear on-screen after command entry unless the command cannot execute as entered.
Delete a Channel Loopback
FRSM, AUSM
delchanloop <chan_num>
chan_num | Channel number, in the range appropriate for the card. · FRSM
|
Log: Yes State: Active Privilege: 1-4
delchanloop <port.VPI.VCI | ChanNum>
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. |
Log: Yes State: Active Privilege: 1-4
s1.1.12.AUSMB8.a > delchanloop 26
s1.1.12.AUSMB8.a > delchanloop 2.1.3
Use the delchans command to delete a range of Frame Relay or ATM channels.
Delete Channels
FRSM, AUSM
delchans <start chan #> <# of chans>
start chan # | Start channel number, in the range appropriate for the card. · FRSM
· AUSM range = 16-1015 |
# of chans | Number of channels to delete. |
None
Log: No State: Active Privilege: 1
Use the delcon command to remove a connection from the AUSM or VISM card.
Delete Connection
PXM, FRSM, CESM, AUSM
delcon <conn_ID>
conn_ID | Connection number, as appropriate for the card. · PXM = enter values in the format PortNo.VPI.VCI. · CESM
|
delcon <port.DLCI>
port.DLCI | Connection number, in the format port.DLCI. |
delcon <port.VPI.VCI>
port.VPI.VCI | Connection number, in the format port.VPI.VCI. |
Log: Yes State: Active Privilege: 1-2
Use the deldsx3bert command to end the current test. Value in the BERT counters will remain until you use the clrbertcntrs command.
Delete DSX3 BERT
FRSM 2T3E3, CESMT3
Log: No State: Active Privilege: Any
popeye1.1.21.CESMT3.a > deldsx3bert popeye1.1.21.CESMT3.a >
popeye1.1.21.CESMT3.a > dspdsx3bert
Bert Control: Default state
Bert Resource Status State: Free
Bert Owner: CLI
Bert Status: Inactive
Bert Test Medium: Line
Bert Port: 1
Line Number : 1
Bert Mode : bertPatternTest
Bert Pattern : allOnes
Loopback type: No loopback
Start time (secs.) Not Configured Yet
Start Date Not Configured Yet
Bit countupper: 80
Bit countlower: 1054968191
Bit Error Countupper 0
Bit Error Countlower 1655197832
Error Insertion Rate: Error injection disabled
Error Insertion count: 0
DSX3 BERT in Sync
popeye1.1.21.CESMT3.a >
Use the delifip command to delete a management interface, clearing the database information.
Delete a Management Interface
PXM
delifip <Interface>
Interface | Value to set the interface type. · 26 = Ethernet · 28 = SLIP · 37= ATM |
Log: Yes State: Any Privilege: SuperUser
spirit1.1.8.PXM.a > delifip 37 spirit1.1.8.PXM.a >
Use the dellink command to remove a link between a T1 line within a T3 line on an SRM-3T3 card and a slot and line number on a service module.
Delete Link
PXM
dellink <T3 line number> <T1 line number>
T3 line number | SRM-3T3 T3 line number in the format slot.port. · slot = enter the value 15 or 31 · line range = 1-3 |
T1 line number | Starting T1 line number, in the range 1-28. |
Log: No State: Active Privilege: Any
spirit1.1.8.PXM.a > dellink 15.1 1 spirit1.1.8.PXM.a >
Use the dellmiloop command to delete a current local management interface (LMI) configuration and resume sending LMI connection status messages to the BPX feeder trunk. This command should be used in conjunction with the delfdrlp command on the BPX module. You first should use dellmiloop on the MGX 8800 series switch, then use delfdrlp on the BPX module. Be aware that there is no display command for the feeder loop on the BPX.
Use the dsplmistats command after you have executed the dellmiloop command on the MGX 8800 switch and the delfdrlp command on the BPX module to verify the delete commands. The LMI statistics table will show an increase in statistics.
Delete LMI Loop
PXM
dellmiloop <slot.port>
slot.port | A value, where: · slot = slot number, in the range 1-32 · port = port number, in the range 1-256 |
Log: No State: Active Privilege: Super Group (0)
The examples that follow illustrate:
1. The delete feeder trunk command executed on the BPX.
2. The display LMI loop command, indicating that an LMI loop exists.
3. The delete LMI loop command, terminating the LMI loop.
delfdrlp 5.5
NODENAME.1.7.PXM.a > dsplmiloop TRK IN LMI LOOP ------------------- 7.1 Yes
NODENAME.1.7.PXM.a > dellmiloop 7.1
NODENAME.1.7.PXM.a > dsplmiloop TRK IN LMI LOOP ------------------- 7.1 No
Use the delln command to remove a line from the current card.
Delete Line
PXM, FRSM, AUSM (8T1/E1;IMATM-T3T1/E3E1), CESM, VISM
delln <LineNum>
or
delln <-ds3 | -e3 | -sonet> <LineNum>
(on the PXM)
LineNum | Line number, as appropriate for the card. · FRSM range = 1-4 · AUSM range = 1-8 · CESM range = 1-8 · VISM range = 1-8 |
-ds3 | Command delineator that precedes ds3 line number entry. |
-e3 | Command delineator that precedes E3 line number entry. |
-sonet | Command delineator that precedes SONET line number entry. |
Log: Yes State: Active Privilege: 1
spirit1.1.8.PXM.a > delln 4 spirit1.1.8.PXM.a >
Use the dellnloop command to remove a T1 or E1 line loopback state for the current card.
Delete Line Loop
PXM, AUSM, FRSM, CESM, VISM
dellnloop -ds3 | -e3 | -sonet <line number>
line number | DS3 or E3: Line number for ds3 or e3 in the format slot.port. · Slot = enter a value from the range 7, 8, 15, 16, 31, or 32 · Line range = 1 to n.
SONET: Line number in the format slot.port · Slot = enter the value either 7 or 8 · Line range = 1 to n. |
Log: No (Yes PXM) State: Active Privilege: -1 (Service) (Any on PXM)
Use the dellnsfmaimfrp command to remove lines from an existing AIMUX group.
Delete Lines from an AIM Group
AUSM
dellnsfmaimgrp <aimux_grp> <list_of_lines>
aimux_grp | AIMUX group number, in the range 1-8. |
list_of_lines | List of lines to be deleted from the AIMUX group. Type a dot between each group number in your entry string. |
Log: Yes State: Active Privilege: 1-2
spirit1.1.8.PXM.a > dellnsfmaimgrp 2 3.5 spirit1.1.8.PXM.a >
Use the delport command to remove a port from an FRSM, a PXM, or a CESM.
Delete Port
PXM, FRSM, CESM
delport <port-number>
port-number | Number of the port to be deleted. |
delport <port_num>
port_num | Number of the port to be deleted. |
Log: Yes State: Active Privilege: 1
Use the delports command remove a specified number of contiguous port configurations.
No messages appear on-screen with successful completion of this command.
Delete Ports
FRSM, CESM
delports <start port #> <# of ports>
start port # | Start port number to be deleted. |
# of ports | Number of contiguous time slots to be deleted. |
Log: No State: Active Privilege: 1
Use the delred command to remove a redundancy link for the specified primary card slot.
Delete Redundancy
PXM
delred <redPrimarySlotNumber>
redPrimarySlotNumber | Slot number of the primary card of the card pair, in the ranges 1-6, or 9-14, or 17-22, or 25-30. |
Log: No State: Active Privilege: Any
Use the delrscprtn command to remove a resource partition. Refer to the description of addrscprtn for information on resource partitions.
Delete Resource Partition
PXM, FRSM (not on HS1/B)
delrscprtn <if_num> <ctrlr_num>
if_num | Interface Number, in the range 1-32. |
ctrlr_num | Value to set controller number. · 1 = PAR · 2 = PNNI · 3 = TAG |
Log: No State: Any Privilege: Any
Use the delslotlink command to remove SRM-3T3 link information for a specified slot.
Delete Slot Link
PXM
delslotlink <slot number> <line number>
slot number | Slot number associated with the link to be deleted. |
line number | Line number associated with the link to be deleted, in the range 1-n, as appropriate for the physical installation
0 = unlink all lines |
Log: No State: Active Privilege: Any
Use the deltrapmgr to delete the specified trap manager associated with the specified IP address.
Delete Trap Manager
PXM
deltrapmgr <ipaddr>
ipaddr | 32-bit IP address of the trap manager to delete, in dotted decimal format. |
Log: Yes State: Active Privilege: SuperUser
Use the deltree command to remove a directory and all files below.
Delete Tree
PXM
deltree <path_name>
path_name | Name of an existing file or directory. |
Log: Yes State: Any Privilege: SUPER_GP
Use the deluser command to remove a user from the list of users on the node of an MGX 8800 series switch. The system does not allow you to delete a user with a privilege level higher than the level at which you execute the command. For example, if the current user privilege is 2, you cannot delete a user at level 1. No screen output appears unless an error occurs.
Delete User
PXM
deluser <user ID>
user ID | User name, consisting of up to 12 characters. |
Log: Yes State: Active Privilege: 1-5
Use the dir command to view the firmware files on the PXM.
Directory
PXM
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > dir
size date time name
-------- ------ ------ --------
512 JUL-03-1999 19:20:44 . <DIR>
512 JUL-03-1999 19:20:44 .. <DIR>
2089064 JUL-03-1999 13:54:08 pxm_rmenon.old.fw
896020 JUL-18-1999 14:18:50 sm130.fw
794280 JUL-03-1999 14:56:42 sm35.fw
1136684 JUL-03-1999 16:04:50 sm50.fw
2094828 JUL-16-1999 14:29:06 pxm_rmenon.fw
In the file system :
total space : 819200 K bytes
free space : 742625 K bytes
raviraj.1.7.PXM.a >
Use the dlmi command to display the data captured as a result of executing the lmitrace command. You first must use the lmitrace command to capture the data, then the dlmi command to display the data.
Display LMI trace
PXM
Log: No State: Any_State Privilege: Cisco_Gp
NODENAME.1.8.PXM.a > dlmi LMI Trace Buffer is empty
NODENAME.1.8.PXM.a > dlmi No. Time(mSecs) AbsTime Ltrk Dir MsgType Length Data 0 0 171519360 1 Rx 76 28 [ 09 03 ff ff ff 76 80 00 13 66 80 00 01 04 5a 80 00 05 80 00 03 00 1f 64 80 00 01 d3 ] 1 0 171519360 1 Tx 7e 32 [ 09 03 ff ff ff 7e 80 00 13 66 80 00 01 04 65 80 00 05 00 03 00 1f 82 64 80 00 01 d3 0d 00 00 00 ] 2 +26 171519880 1 Tx 76 32 [ 09 03 ff ff ff 76 80 00 13 66 80 00 01 04 5a 80 00 05 80 00 03 00 1f 64 80 00 01 1b 0d 00 00 00 ]
Use the dncon command to temporarily deactivate a connection. The dncon command is typically used when performing operational modifications or troubleshooting. Use the upcon command to reactivate the connection.
Down Connection
AUSM, VISM, CESM
dncon <slot >.<port>.<vpi>.<vci>
slot | Slot number, in the ranges 1-6, or 9-14, or 17-22, or 25-30. |
port | Port number, in the range 1-n, as appropriate for the physical installation. |
vpi | Virtual path identifier, in the range 0-4095. |
vci | Virtual channel identifier, in the range 0-65535. |
Log: No State: Active Privilege: 2
Use the dnif command to deactivate the specified broadband interface.
Down Interface
PXM
dnif <if_num>
if_num | Interface number, in the range 1-32. |
Log: No State: Active Privilege: 1
Use the dnilmi command to deactivate the Integrated Local Management Interface (ILMI) on a specified PXM port number.
Down ILMI
PXM
dnilmi -ifNum <bbIfSigPortNum>
-ifNum | Command delineator that precedes the bbIfSigPortNum entry. |
bbIfSigPortNum | Broadband interface signal port number, in the range 1-32 |
Log: No State: Any Privilege: CISCO_GP
Use the downloadflash command to load the first boot code found by the PXM hard drive into EEPROM (flash memory). A downloadflash session concludes the sequence of tasks for performing a PXM boot code load. Prior to executing the downloadflash command, you must access the boot code, transfer the file (using a "put" command) to the PXM hard drive.
Using various arguments with the "put" command enables boot code load unto both the standby and active PXM, or to the active PXM only, or to the standby PXM only. Details are provided in the example below.
Once firmware is installed in slot 7, the firmware file is mirrored to a PXM subsequently installed in slot 8. For safe measure, however, you should manually download the boot code (using the downloadflash command onto the standby PXM.
Download the Flash
PXM
Log: No State: Any Privilege: SUPER_GP
> tftp <dest_addr> (of the switch)
> bin
> put pxm_bkup_version>.fw POPEYE@PXM.BT
>quit
wilco.1.7.PXM.a > downloadflash
Use the dnport command to deactivate a port.
Down Port
FRSM, AUSM
dnport <PortNum>
PortNum | Port number, in the range 1-n, as appropriate for the card. |
Log: No State: Active Privilege: 1
Use the dspaimgrp command to view detailed status and configuration information for a specified AIMUX group.
Display AIM Group Status and Configuration
AUSM
dspaimgrp <imagroup_number>
imagroup_number | AIMUX group number, in the range 1-8. |
Log: Yes State: Active Privilege: 1-2
spirit.1.19.AUSM8.a > dspaimgrp 1
IMA Group number : 1
Port type : NNI
Lines configured : 1.2.3
Enable : Enabled
IMA Port state : Sig. Failure
IMA Group Ne state : Startup
PortSpeed (cells/sec) : 13470
GroupTxAvailCellRate (cells/sec) : 0
ImaGroupTxFrameLength(cells) : 128
LcpDelayTolerance (IMA frames) : 1
ReadPtrWrPtrDiff (cells) : 4
Minimun number of links : 2
MaxTolerableDiffDelay (msec) : 200
Lines Present :
ImaGroupRxImaId : 0x100
ImaGroupTxImaId : 0x0
Observed Diff delay (msec) : 0
Clock Mode : CTC
GroupAlpha : 2
GroupBeta : 2
GroupGamma : 1
Type <CR> to continue, Q<CR> to stop:
GroupConfiguration : 1
IMAGrp Failure status : Ne StartUp
Timing reference link : 1
Syntax : dspimagrp (or dspaimgrp) "imagroup_number"
IMA group number -- value ranging from 1 to 8
spirit.1.19.AUSM8.a >
Use the dspaimgrpcnt command to view all AIMUX related counters for a line in an AIMUX group.
Display AIM Group Count
AUSM
dspaimgrpcnt <imagroup>
imagroup | AIMUX group number, in the range 1-8. |
Log: Yes State: Active Privilege: 1-2
spirit.1.19.AUSM8.a > dspaimgrpcnt 1
IMA Group number: 1
Ne Number of failures : 0
Syntax : dspimagrpcnt (or dspaimgrpcnt) imagroup
IMA group number -- value ranging from 1 to 8
spirit.1.19.AUSM8.a >
Use the dspaimgrps command to view the status and configuration information for all current AIMUX groups.
Display Status and Configuration of All AIM Groups
AUSM
Log: Yes State: Active Privilege: 1-2
spirit.1.19.AUSM8.a > dspaimgrps
List of IMA groups:
===================
ImaGrp PortType Speed Lines configured Lines present Tol Diff Port State
Delay(ms)
------ -------- ----- ---------------- ------------- --------- ----------
19.1 NNI 13470 1.2.3 200 Sig. Failure
NextPortNumAvailable: 6
Syntax : dspimagrps (or dspaimgrps)
spirit.1.19.AUSM8.a >
Use the dspaimlncnt command to view all the AIMUX line counters for the specified line in an IMA trunk.
Display AIM (or Display IMA) Line Count
AUSM
dspaimlncnt <imagroup> <linenum>
imagroup | AIMUX group number, in the range 1-8. |
linenum | AIMUX line number, in the range 1-8. |
Log: No State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspaimlncnt 1 1
IMA group number : 1
Line number : 1
Acp Cells Received : 0
Acp Errored Cells Recvd : 0
Port changed from LDS : 0
# HEC errored cells : 0
# HEC errored seconds : 0
# Severely HEC errored seconds : 0
Syntax : dspimalncnt (or dspaimlncnt) imagroup linenum
IMA group number -- value ranging from 1 to 8
line number -- value ranging from 1 to 8
spirit.1.19.AUSM8.a >
Use the dspalm command to view the alarms associated with a specified line.
Display Alarms for a Line
PXM, FRSM, AUSM, CESM, VISM
dspalm -ds1 <LineNum> | -ds3 <LineNum> | -e3 <LineNum> | -plcp <PCLPNum> | -sonet <LineNum>
dspalm -ds1 <LineNum> | -ds3 <LineNum> | -e3 <LineNum> | -plcp <PCLPNum> | -sonet <LineNum> |
-hs1 <LineNum
-ds1 | Command delineator that precedes the LineNum entry for a T1 interface. |
LineNum | Line number, in the range 1-8 (FRSM, VISM, AUSM, or CESM). |
-ds3 | Command delineator that precedes the LineNum entry for a T3 interface. |
LineNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-e3 | Command delineator that precedes the LineNum entry for an E3 interface. |
LineNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-plcp | Command delineator that precedes the PCLPNum entry. |
PCLPNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-sonet | Command delineator that precedes the PCLPNum entry for the SONET interface. |
LineNum | Line number in the form slot.line. · Slot = enter the value either 7 or 8 · OC-3 line range = 1-4 · OC-12 = enter the value 1 |
-hs1 | Command delineator that precedes the LineNum entry for a HS1 interface (for FRSM-HS1). |
LineNum | Line number = 1-n, where: n = 4 if FRSM. |
Log: No State: Active Privilege: Any
This section contains the following examples
spirit.1.7.PXM.a > dspalm -ds3 7.2 LineNum: 2 LineAlarmState: No Alarms LineStatisticalAlarmState: No Statistical Alarms spirit.1.7.PXM.a >
spirit.1.7.PXM.a > dspalm -sonet 7.1
LineNum: 1
SectionCurrentStatus: Clear
LineCurrentStatus: Clear
PathCurrentStatus: Clear
SectionStatAlarmStatus: Clear
LineStatAlarmStatus: Clear
PathStatAlarmStatus: Clear
spirit.1.7.PXM.a >
wilco.1.7.PXM.a > dspalm -e3 7.1 LineNum: 1 LineAlarmState: XmtRAI,RcvLOS LineStatisticalAlarmState: UAS15minAlarm,UAS24hrAlarm wilco.1.7.PXM.a >
spirit.1.19.AUSM8.a > dspalm -ds1 1
LineNum: 1
LineAlarmState: Alarm(s) On --
RcvLOS
LineStatisticalAlarmState: Alarm(s) On --
UAS15minAlarm
UAS24hrAlarm
spirit.1.19.AUSM8.a >
spirit.1.5.VISM8.a > dspalm -ds1 1 LineNum: 1 LineAlarmState: No Alarms LineStatisticalAlarmState: No Statistical Alarms spirit.1.5.VISM8.a >
man.1.4.FRSM.a > dspalm -hs1 3
LineNum: 3
LineAlarmState: Alarm(s) On --
Cabletype mismatch - either (DTE/DCE) or (X.21/V.35)is wrong
Use the dspalmcnf command to view the threshold information about the alarm statistics being collected.
Display Alarm Configuration
PXM, FRSM, AUSM, CESM, VISM
dspalmcnf -ds1 <LineNum> | -ds3 <LineNum> | -e3 <LineNum> | -plcp <PCLPNum> | -sonet <LineNum>
-ds1 | Command delineator that precedes the LineNum entry for a T1 interface. |
LineNum | Line number, in the range 1-8 (FRSM, VISM, AUSM, or CESM). |
-ds3 | Command delineator that precedes the LineNum entry for a T3 interface. |
LineNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-e3 | Command delineator that precedes the LineNum entry for an E3 interface. |
LineNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-plcp | Command delineator that precedes the PCLPNum entry. |
PCLPNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-sonet | Command delineator that precedes the PCLPNum entry for the SONET interface. |
LineNum | Line number in the form slot.line. · Slot = enter the value either 7 or 8 · OC-3 line range = 1-4 · OC-12 = enter the value 1 |
dspalmcnf -hs1 <LineNum>
LineNum | Line number = 1 - n where: n = 4 if FRSM |
Log: No State: Active Privilege: Any
This section contains the following examples.
spirit.1.17.FRSM.a > dspalmcnf -ds1 17.4
Severity AlarmUpCount AlarmDnCount AlarmThreshold
Line Red / RAIS NE / FE NE / FE NE / FE
---- ----- ----- ----- ----- ----- ----- ----- -----
17.4 Major/Minor 6/1 1500/6 1/1500
spirit.1.17.FRSM.a >
spirit.1.7.PXM.a > dspalmcnf -ds3 7.1 LineNum: 1 RedSeverity: Major RAISeverity: Minor NEAlarmUpCount: 6 NEAlarmDnCount: 1 NEAlarmThreshold: 150 FEAlarmUpCount: 6 FEAlarmDnCount: 1 FEAlarmThreshold: 150 StatisticalAlarmSeverity: Minor LCV15minThreshold: 3870 LCV24hrThreshold: 38650 LES15minThreshold: 86 LES24hrThreshold: 864 PSES24hrThreshold: 40 LSES15minThreshold: 4 SEFS15minThreshold: 120 LSES24hrThreshold: 40 SEFS24hrThreshold: 1200 PCV15minThreshold: 382 AISS15minThreshold: 120 PCV24hrThreshold: 3820 AISS24hrThreshold: 1200 PES15minThreshold: 86 UAS15minThreshold: 120 PES24hrThreshold: 864 UAS24hrThreshold: 1200 PSES15minThreshold: 4
spirit.1.19.AUSM8.a > dspalmcnf -ds1 1 LineNum: 1 RedSeverity: Major RAISeverity: Minor NEAlarmUpCount: 6 NEAlarmDnCount: 6 NEAlarmThreshold: 1 FEAlarmUpCount: 1 FEAlarmDnCount: 1500 FEAlarmThreshold: 1500 StatisticalAlarmSeverity: Minor lCV15minThreshold: 14 lCV24hrThreshold: 134 lES15minThreshold: 12 lES24hrThreshold: 121 lSES15minThreshold: 10 lSES24hrThreshold: 100 cRC15minThreshold: 14 cRC24hrThreshold: 134 cRCES15minThreshold: 12 cRCES24hrThreshold: 121 cRCSES15minThreshold: 10 cRCSES24hrThreshold: 100 SEFS15minThreshold: 2 SEFS24hrThreshold: 17 AISS15minThreshold: 2 AISS24hrThreshold: 17 UAS15minThreshold: 10 UAS24hrThreshold: 10 spirit.1.19.AUSM8.a >
spirit.1.5.VISM8.a > dspalmcnf -ds1 1
Severity AlarmUpCount AlarmDnCount AlarmThreshold
Line Red / RAIS NE / FE NE / FE NE / FE
---- ----- ----- ----- ----- ----- ----- ----- -----
5.1 Major/Minor 6/6 1/1 1500/1500
spirit.1.5.VISM8.a >
spirit.1.1.VHS2T3.a > dspalmcnf -ds3 1 LineNum: 1 RedSeverity: Major RAISeverity: Minor NEAlarmUpCount: 4 NEAlarmDnCount: 3 NEAlarmThreshold: 1200 FEAlarmUpCount: 4 FEAlarmDnCount: 3 FEAlarmThreshold: 1200 StatisticalAlarmSeverity: Minor LCV15minThreshold: 3870 LCV24hrThreshold: 38650 LES15minThreshold: 86 LES24hrThreshold: 864 LSES15minThreshold: 4 LSES24hrThreshold: 40 PCV15minThreshold: 382 PCV24hrThreshold: 3820 PES15minThreshold: 86 PES24hrThreshold: 864 PSES15minThreshold: 4 PSES24hrThreshold: 40 CCV15minThreshold: 382 CCV24hrThreshold: 3820 CES15minThreshhold: 86 CES24hrThreshold: 864 CSES15minThreshold: 4 CSES24hrThreshold: 40 SEFS15minThreshold: 120 SEFS24hrThreshold: 1200 AISS15minThreshold: 120 AISS24hrThreshold: 1200 UAS15minThreshold: 120 UAS24hrThreshold: 1200 spirit.1.1.VHS2T3.a >
Use the dspalmcnt command to view the alarm counters and statistics.
Display Alarm Counters
PXM, FRSM, AUSM, CESM, VISM
dspalmcnt -ds1 <LineNum> | -ds3 <LineNum> | -e3 <LineNum> | -plcp <PCLPNum> | -sonet <LineNum>
-ds1 | Command delineator that precedes the LineNum entry for a T1 interface. |
LineNum | Line number, in the range 1-8 (FRSM, VISM, AUSM, or CESM). |
-ds3 | Command delineator that precedes the LineNum entry for a T3 interface. |
LineNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-e3 | Command delineator that precedes the LineNum entry for an E3 interface. |
LineNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-plcp | Command delineator that precedes the PCLPNum entry. |
PCLPNum | Line number in the form slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
-sonet | Command delineator that precedes the PCLPNum entry for the SONET interface. |
LineNum | Line number in the form slot.line. · Slot = enter the value either 7 or 8 · OC-3 line range = 1-4 · OC-12 = enter the value 1 |
Log: No State: Active Privilege: Any
This section contains the following examples.
wilco.1.7.PXM.a > dspalmcnt -ds3 7.1
LineNum: 1 LCVCurrent: 0 LCVLast15minBucket: 0 LCVLast24hrBucket: 0 LESCurrent: 0 LESLast15minBucket: 0 LESLast24hrBucket: 0 LSESCurrent: 0 LSESLast15minBucket: 0 LSESLast24hrBucket: 0 PCVCurrent: 0 PCVLast15minBucket: 0 PCVLast24hrBucket: 0 PESCurrent: 0 PESLast15minBucket: 0 PESLast24hrBucket: 0 PSESCurrent: 0 PSESLast15minBucket: 0 PSESLast24hrBucket: 0 SEFSCurrent: 0 SEFSLast15minBucket: 0 SEFSLast24hrBucket: 0 AISSCurrent: 0 AISSLast15minBucket: 0 AISSLast24hrBucket: 0 UASCurrent: 0 UASLast15minBucket: 0 UASLast24hrBucket: 0 PercentEFS: 0 RcvLOSCount: 1 RcvOOFCount: 0 RcvRAICount: 0 RcvCCVCount: 0 RcvFECount: 0 spirit.1.7.PXM.a >
spirit.1.11.FRSM.a > dspalmcnt -ds1 1 Line RcvLOSCount RcvOOFCount RcvRAICount RcvFECount ---- ----------- ----------- ----------- ---------- 11.1 1 2 17 2 spirit.1.11.FRSM.a >
spirit11.1.7.PXM.a > dspalmcnt -sonet 7.1 SonetLineNum: 1 SectionCurrentValidFlag: valid SectionCurrent15minTimeElapsed: 429s SectionCurrentESs: 0 SectionCurrentSESs: 0 SectionCurrentSEFSs: 0 SectionCurrentCVs: 0 SectionCurrentDayValidFlag: valid SectionCurrentDayESs: 100 SectionCurrentDaySESs: 100 SectionCurrentDaySEFSs: 100 SectionCurrentDayCVs: 5149776 SectionCounterLOSs: 2 SectionCounterLOFs: 2 LineCurrentValidFlag: valid LineCurrent15minTimeElapsed: 429s LineCurrentESs: 0 LineCurrentSESs: 0 LineCurrentCVs: 0 LineCurrentUASs: 0 FarEndLineCurrentValidFlag: valid FarEndLineCurrent15minTimeElapsed: 429s FarEndLineCurrentESs: 0 FarEndLineCurrentSESs: 0 FarEndLineCurrentCVs: 0 FarEndLineCurrentFCs: 0 FarEndLineCurrentUASs: 0 FarEndLineCurrentDayValidFlag: valid FarEndLineCurrentDayESs: 2 FarEndLineCurrentDaySESs: 2 FarEndLineCurrentDayCVs: 46 FarEndLineCurrentDayFCs: 0 FarEndLineCurrentDaySEFSs: 0 LineCurrentDayValidFlag: valid LineCurrentDayESs: 100 LineCurrentDaySESs: 100 LineCurrentDayCVs: 100 LineCurrentDaySEFSs: 0 LineCounterAISs: 2 LineCounterRFIs: 0 PathCurrentValidFlag: valid PathCurrent15minTimeElapsed: 429s PathCurrentESs: 0 spirit11.1.7.PXM.a >
spirit11.1.7.PXM.a > dspalmcnt -e3 7.1 LineNum: 1 LCVCurrent: 0 LCVLast15minBucket: 0 LCVLast24hrBucket: 0 LESCurrent: 0 LESLast15minBucket: 0 LESLast24hrBucket: 0 LSESCurrent: 0 LSESLast15minBucket: 0 LSESLast24hrBucket: 0 SEFSCurrent: 0 SEFSLast15minBucket: 0 SEFSLast24hrBucket: 0 AISSCurrent: 0 AISSLast15minBucket: 0 AISSLast24hrBucket: 0 UASCurrent: 572 UASLast15minBucket: 900 UASLast24hrBucket: 4496 BIP8CVCurrent: 0 BIP8CV15MinBucket: 0 BIP8CV24HrBucket: 0 BIP8ESCurrent: 0 BIP8ES15MinBucket: 0 BIP8ES24HrBucket: 0 BIP8SESCurrent: 0 BIP8SES15MinBucket: 0 BIP8SES24HrBucket: 0 PercentEFS: 100 RcvLOSCount: 0 RcvOOFCount: 0 RcvRAICount: 0 RcvCCVCount: 0 RcvFECount: 0
spirit.1.5.VISM8.a > dspalmcnt -ds1 1 Line RcvLOSCount RcvOOFCount RcvRAICount RcvFECount ---- ----------- ----------- ----------- ---------- 5.1 0 0 0 4095 spirit.1.5.VISM8.a >
spirit.1.1.VHS2T3.a > dspalmcnt -ds3 1 LineNum: 1 LCVCurrent: 0 LCVLast15minBucket: 0 LCVLast24hrBucket: 0 LESCurrent: 0 LESLast15minBucket: 0 LESLast24hrBucket: 0 LSESCurrent: 0 LSESLast15minBucket: 0 LSESLast24hrBucket: 0 PCVCurrent: 0 PCVLast15minBucket: 0 PCVLast24hrBucket: 0 PESCurrent: 0 PESLast15minBucket: 0 PESLast24hrBucket: 0 PSESCurrent: 0 PSESLast15minBucket: 0 PSESLast24hrBucket: 0 CCVCurrent: 0 CCVLast15minBucket: 0 CCVLast24hrBucket: 0 CESCurrent: 0 CESLast15minBucket: 0 CESLast24hrBucket: 0 CSESCurrent: 0 CSESLast15minBucket: 0 CSESLast24hrBucket: 0 SEFSCurrent: 0 SEFSLast15minBucket: 0 SEFSLast24hrBucket: 0 AISSCurrent: 0 AISSLast15minBucket: 0 AISSLast24hrBucket: 0 UASCurrent: 0 UASLast15minBucket: 0 UASLast24hrBucket: 0 PercentEFS: 0 RcvLOSCount: 0 RcvOOFCount: 0 RcvRAICount: 0 RcvCCVCount: 0 RcvFECount: 0 spirit.1.1.VHS2T3.a >
Use the dspalms command to view all alarms for the selected line type on the card.
Display All Alarms on a Card
PXM, FRSM, AUSM, SRM-3T3, CESM, VISM
dspalms <lineType> <slot number>
lineType | Line type. · -ds1 = T1 or E1 lines · ds3 · e3 · sonet · plcp |
slot number | Slot number = enter a value from the range 7, 8, 15, 16, 31, 32 |
lineType | Line type is hs1. |
Log: No State: Active Privilege: Any
This section contains the following examples.
spirit.1.17.FRSM.a > dspalms -ds1 Line AlarmState StatisticalAlarmState ---- ----------- --------------------- 17.1 Alarm(s) On No Statistical Alarms 17.2 No Alarms No Statistical Alarms 17.3 No Alarms No Statistical Alarms 17.4 No Alarms No Statistical Alarms 17.5 Alarm(s) On No Statistical Alarms 17.6 No Alarms No Statistical Alarms 17.7 No Alarms No Statistical Alarms 17.8 No Alarms No Statistical Alarms spirit.1.17.FRSM.a >
wilco.1.7.PXM.a > dspalms e3 7 Line : 1 AlarmState : XmtRAI,RcvLOS StatisticalAlarmState : UAS15minAlarm,UAS24hrAlarm Line : 2 AlarmState : No Alarms StatisticalAlarmState : No Statistical Alarms wilco.1.7.PXM.a >
spirit.1.5.VISM8.a > dspalms -ds1 Line AlarmState StatisticalAlarmState ---- ----------- --------------------- 5.1 No Alarms No Statistical Alarms 5.2 No Alarms No Statistical Alarms 5.3 No Alarms No Statistical Alarms spirit.1.5.VISM8.a >
spirit.1.1.VHS2T3.a > dspalms -ds3 Line AlarmState StatisticalAlarmState ---- ----------- --------------------- 1.1 No Alarms No Statistical Alarms 1.2 No Alarms No Statistical Alarms
Use the dspapscfg command to display more Automatic Protection Switching (APS) parameters. 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 cards.
The 1.1.20 software release provides support for the SONET Linear APS 1+1 mode.
Display APS Configuration
PXM
Log: No State: Any Privilege: Any
DENAME.1.7.PXM.a > dspapscfg SlotLine Type SFBER SDBER WTR Direc Revert ------------------------------------------------------------------------------ 7.1&8.1 1+1_2 3 5 1 UNI NRV DENAME.1.7.PXM.a >
SlotLine | OC-3 or OC-12 line number, in the range appropriate for the associated interface. · OC-3 range = 1-4. · OC-12 = enter the value 1. |
Type | The APS mode. Mode 1+1 is currently supported in the 1.1.20 software release. |
SFBER | Signal failure BER threshold, in the range 3-5. · 5 = signal failure BER threshold = 10 ^^ -5. |
SDBER | Signal degrade BER threshold, in the range 5-9. · 5 = signal degrade BER threshold = 10 ^^ -5. |
WTR | Number of minutes to wait before attempting to switch back to the working line, in the range1 to 12. This setting is not applicable if the line is configured in non-revertive mode (Revertive set to 1). |
Direc | Value to set the switching direction for either unidirectional or bidirectional. · UNI = Unidirectional: This APS line supports only one direction. · BI = Bidirectional: This APS line supports both ends of the line. |
Revert | Value to set the APS revertive or non-revertive function. · NRV = Non-revertive · REV = Revertive |
Use the dspapsln command to display the Automatic Protection Switching (APS) line status.
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.
Display APS Line
PXM
Log: No State: Active Privilege: Any
NODENAME.1.7.PXM.a > dspapsln SlotLine Type Act W_LINE P_LINE APS_ST CDType Dirc Revt LastUsrSwReq ------------------------------------------------------------------------ 7.1&8.1 1+1_2 7.1 OK OK OK OC-12 UNI NRV NO_REQUEST NODENAME.1.7.PXM.a >
SlotLine | OC-3 or OC-12 line number, in the range appropriate for the associated interface. · OC-3 range = 1-4. · OC-12 = enter the value 1. |
Type | APS mode. Release 1.1.20 supports the APS 1+1 mode. |
Act | Line which is currently active. |
W-Line | Status of the working line. Value can be one of the following: · OK = OK · R_SD = remote end signal degrade · SigD = signal degrade · R_AM = remote end signal failure · ALM = line alarm · SigF = signal failure · MIS = backcard mismatch or missing · LOOPBK = line loopback |
P-Line | Status of the protection line. Value can be one of the following: · OK = OK · R_SD = remote end signal degrade · SigD = signal degrade · R_AM = remote end signal failure · ALM = line alarm · SigF = signal failure · MIS = backcard mismatch or missing · LOOPBK = line loopback · P_D = protocol defection (received K1K2 bytes are not expected) · P_B = protection byte failure |
APS-ST | APS status. Value can be one of the following: · · OK = OK · AR_MIS = Architecture mismatch · DI_MIS = direction mismatch · CH_MIS = channel mismatch · PL_ALM = line alarm on protection line |
CDType | Back card type, either OC-3 or OC-12. |
Dirc | Value to set the switching direction for either unidirectional or bidirectional. · Uni = Unidirectional. This APS line supports only one direction. · Bi = Bidirectional: This APS line supports both ends of the line. |
Revertive | Value to set the APS revertive or non-revertive function. · NRV = Non-revertive · RV = Revertive |
LastUsrSwReq | Last user switching request. |
Use the dspatmlncnf command to view the cell header configuration for the line. The display indicates NNI or UNI cell headers. The configuration is the result of cnfatmln execution. This command applies to stand-alone configurations of the MGX 8800 series switch.
Display ATM Line Configuration
PXM
dspatmlncnf <line_num>
line_num | Line number in the range 1-n, as appropriate for the card. |
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > dspatmlncnf 2
lineNum atmLineInterfaceFormat
----------------------------------
2 NNI
wilco.1.7.PXM.a >
Use the dspatmlncnt command to view the ATM cell counters for the specified line. The display shows the total number of cells received, the total number of cells transmitted, and the number of cells received with HEC errors. The configuration is the result of cnfatmlncnt execution. This command applies to stand-alone configurations of the MGX 8800 series switch.
Display ATM Line Counters
PXM
dspatmlncnt <line_num>
line_num | Line number in the range 1-n, as appropriate for the card. |
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > dspatmlncnt 1 Line Number : 1 Total Rcvd. Cells : 5214310 Total Xmtd. Cells : 368687 Rcvd. HEC Error Cells : 0 wilco.1.7.PXM.a >
Use the dspbctype command to display the current interface of the 12IN1 dual-personality back card. The back card can be configured with either a V.35 or an X.21 interface.
Display Back Card Type
FRSM-HS1B
Log: No State: Any Privilege: Any
man.1.14.FRSM.a > dspbctype Backcard Personality: X.21
Use the dspbert command to view the current BERT configuration.
Display BERT
PXM
dspbert <slot>
slot | Number of the slot associated with the BERT session for this display. |
Log: No State: Active Privilege: Any
Use the dspcbclk command to display the current clock rate setting. Using this command, you can see which service modules are set for a high cell bus (CB) operating clock rate (42 MHz) or a low rate (21 MHz). Note that not all service modules can support a high CB clock rate.
Display Cell Bus Clock
FRSM_2CT3, FRSM_2T3, FRSM_2E3, FRSM_HS2, CESM_T3, CESM_E3, VISM_8T1, VISM_8E1, RPM (new), PXM
dspcbclk
Log: No State: Any Privilege: Any
popeye12.1.7.PXM.a > dspcbclk
Command Executed :dspcbclk
CellBus Rate (MHz) Slot
-------------------------------
CB1 21 1, 2
CB2 42 3, 4
CB3 21 5, 6
CB4 21 17 - 22
CB5 21 9, 10
CB6 21 11, 12
CB7 21 13, 14
CB8 21 25 - 30
Use the dspcd command to view characteristics of the current card's hardware and firmware, and information on its status. Card characteristics include serial number and hardware and firmware revision levels. Status may include the reason for the last reset (FunctionModuleResetReason) and state of the integrated alarm (cardIntegratedAlarm), which can be useful in debugging the card or an MGX 8800 series switch, respectively. Some of the information is common to the version command display, but version shows boot code version in bold.
Display Card
PXM, FRSM, AUSM, CESM, VISM
dspcd [slot number]
slot number | PXM = Enter the slot number of the service module you want to view, using the value 15, or 16, or a value in the range 31-32.
Slot number is not necessary when logged into a service module. |
Log: No State: Any Privilege: Any
This section contains the following examples.
popeye3.1.8.PXM.a > dspcd
ModuleSlotNumber: 8
FunctionModuleState: Active
FunctionModuleType: PXM1-OC3
FunctionModuleSerialNum: SBK02420044
FunctionModuleHWRev: 09
FunctionModuleFWRev: 1.1.01Hi
FunctionModuleResetReason: Reset From Shell
LineModuleType: PXM-UI
LineModuleState: Present
SecondaryLineModuleType: MMF-4-155
SecondaryLineModuleState: Present
mibVersionNumber: 0.0.00
configChangeTypeBitMap: No changes
cardIntegratedAlarm: Major
cardMajorAlarmBitMap: Line Alarm
cardMinorAlarmBitMap: Line Statistical Alarm
popeye3.1.8.PXM.a >
node1.1.4.FRSM.a > dspcd ModuleSlotNumber: 3 FunctionModuleState: Active FunctionModuleType: FRSM-8T1 FunctionModuleSerialNum: 622758 FunctionModuleHWRev: bb FunctionModuleFWRev: 5.0.00ak FunctionModuleResetReason: Power reset LineModuleType: LM-RJ48-8T1 LineModuleState: Present mibVersionNumber: 20 configChangeTypeBitMap: CardCnfChng, LineCnfChng cardIntegratedAlarm: Clear fab number: 282069-01 node1.1.4.FRSM.a >
spirit.1.17.FRSM.a > dspcd ModuleSlotNumber: 3 FunctionModuleState: Active FunctionModuleType: FRSM-2CT3 FunctionModuleSerialNum: CAB024804K8 FunctionModuleHWRev: ex FunctionModuleFWRev: 5.0.00_11Jan99_1_tti FunctionModuleResetReason: Reset by ASC from Cell Bus LineModuleType: LM-BNC-2T3 LineModuleState: Present mibVersionNumber: 20 configChangeTypeBitMap: CardCnfChng, LineCnfChng cardIntegratedAlarm: Clear pcb part no-(800 level): 800-02910-04 pcb part no-(73 level): 73-02265-04 spirit.1.17.FRSM.a >
ModuleSlotNumber: 3 FunctionModuleState: Active FunctionModuleType: FRSM-8E1 FunctionModuleSerialNum: 782908 FunctionModuleHWRev: ab FunctionModuleFWRev: 5.0.00_21Dec98 FunctionModuleResetReason: Power reset LineModuleType: LM-RJ48-8E1 LineModuleState: Present mibVersionNumber: 20 configChangeTypeBitMap: CardCnfChng, LineCnfChng cardIntegratedAlarm: Major cardMajorAlarmBitMap: Line Alarm cardMinorAlarmBitMap: Channel failure fab number: 28-2069-02
ModuleSlotNumber: 1 FunctionModuleState: Active FunctionModuleType: CESM-8T1 FunctionModuleSerialNum: 786327 FunctionModuleHWRev: ab FunctionModuleFWRev: 5.0.00bq FunctionModuleResetReason: Reset by ASC from Cell Bus LineModuleType: LM-RJ48-8T1 LineModuleState: Present mibVersionNumber: 20 configChangeTypeBitMap: CardCnfChng, LineCnfChng cardIntegratedAlarm: Major cardMajorAlarmBitMap: Line Alarm cardMinorAlarmBitMap: Channel failure fab number: 28-2199-02
spirit.1.19.AUSM8.a > dspcd ModuleSlotNumber: 14 FunctionModuleState: Active FunctionModuleType: AUSM-8T1 FunctionModuleSerialNum: FNTYPE FunctionModuleHWRev: fk FunctionModuleFWRev: model-A 2.0.00 FunctionModuleResetReason: Reset by PXM from PIO LineModuleType: LM-DB15-8T1 LineModuleState: Present mibVersionNumber: 4 configChangeTypeBitMap: CardCnfChng, LineCnfChng cardIntegratedAlarm: Minor cardMinorAlarmBitMap: Channel failure spirit.1.19.AUSM8.a >
spirit.1.5.VISM8.a > dspcd ModuleSlotNumber: 5 FunctionModuleState: Active FunctionModuleType: VISM-8E1 FunctionModuleSerialNum: CAB0246014W FunctionModuleHWRev: 0.0 FunctionModuleFWRev: rangar FunctionModuleResetReason: Power reset LineModuleType: LM-RJ48-8E1 LineModuleState: Present mibVersionNumber: 20 configChangeTypeBitMap: CardCnfChng, LineCnfChng cardIntegratedAlarm: Clear pcb part no - (800 level): 800-04399-01 pcb part no - (73 level): 73-03618-01 Fab Part no - (28 level): 28-02791-01 PCB Revision: 05 Daughter Card Information: Daughter Card Serial Number: CAB024601FU pcb part no - (73 level): 73-03722-01 Fab Part no - (28 level): 28-02905-01 PCB Revision: 02 spirit.1.5.VISM8.a >
tinky.1.7.PXM.a > dspcd 15
ModuleSlotNumber: 15
FunctionModuleState: Active
FunctionModuleType: SRM-3T3
FunctionModuleSerialNum: 785324
FunctionModuleHWRev: be
FunctionModuleFWRev: 1.0.00
FunctionModuleResetReason: Reset From Shell
LineModuleType: LM-SRM-3T3
LineModuleState: Present
SecondaryLineModuleType: Missing
SecondaryLineModuleState: Invalid
mibVersionNumber: 0.0.06
configChangeTypeBitMap: No changes
cardIntegratedAlarm: Clear
cardMajorAlarmBitMap: Clear
cardMinorAlarmBitMap: Clear
tinky.1.7.PXM.a >
Use the dspcderrs command to view information about card errors.
Display Card Errors
PXM, FRSM, AUSM, VISM, CESM
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > dspcderrs dspcderrs 08/05/95-18:53:05 tRootTask 3 Task failed : scm 09/05/95-09:14:08 tRootTask 3 Task failed : scm value = 0 = 0x0 wilco.1.7.PXM.a >
Use the dspcdprtntype command to view partition type on the current card.
Display Card Resource Type
PXM, FRSM, AUSM, CESM
dspcdprtntype
Log: No State: Any Privilege: Any
spirit.1.7.PXM.a > dspcdprtntype cardLcnPartitionType : controllerBased spirit.1.7.PXM.a >
Use the dspcdrscprtn command to view allocated resource information to a controller.
Display Card Resource Partition
PXM, FRSM, AUSM, VISM
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit.1.13.VHS2CT3.a > dspcdrscprtn User Status NumOfLcnAvail ------ ------ ------------- PAR Add 1000 PNNI Add 1000 TAG Add 1000 spirit.1.13.VHS2CT3.a >
spirit.1.17.CESM.a > dspcdrscprtn User Status NumOfLcnAvail ------ ------ ------------- PAR Mod 248 PNNI Mod 248 TAG Mod 248 spirit.1.17.CESM.a >
spirit.1.1.FRSM.a > dspcdrscprtn User Status NumOfLcnAvail ------ ------ ------------- PAR Add 1000 PNNI Add 1000 TAG Add 1000 spirit.1.1.FRSM.a >
spirit.1.7.PXM.a > dspcdrscprtn Controller Status Number of Available LCNs ----------------------------------------------- PAR Enabled 32767 PNNI Enabled 32767 TAG Enabled 32767 spirit.1.7.PXM.a >
Use the dspcds command to view the status of all the cards in the MGX 8800 series switch shelf.
Display Card Shelf Information
PXM
Log: No State: Active Privilege: Any
wilco.1.7.PXM.a > dspcds
Slot CardState CardType CardAlarm Redundancy
---- ----------- -------- --------- -----------
1.1 Active FRSM-8T1 Major
1.2 Empty Clear
1.3 Active FRSM-2CT3 Clear
1.4 Empty Clear
1.5 Empty Clear
1.6 Empty Clear
1.7 Active PXM1-T3E3 Major
1.8 Empty Clear
1.9 Empty Clear
1.10 Empty Clear
1.11 Empty Clear
1.12 Active RPM Clear
1.13 Empty Clear
1.14 Empty Clear
1.15 Empty Clear
1.16 Empty Clear
1.17 Active CESM-8E1 Clear
1.18 Empty Clear
1.19 Empty Clear
1.20 Empty Clear
1.21 Empty Clear
1.22 Empty Clear
1.25 Empty Clear
1.26 Empty Clear
1.27 Empty Clear
1.28 Empty Clear
1.29 Empty Clear
1.30 Empty Clear
1.31 Empty Clear
1.32 Empty Clear
NumOfValidEntries: 32
NodeName: wilco
Date: 02/01/1999
Time: 07:32:41
TimeZone: PST
TimeZoneGMTOff: -8
StatsMasterIpAddress: 0.0.0.0
shelfIntegratedAlarm: Major
BkplnSerialNum: 12345
BkplnType: 2
BkplnFabNumber: 73-0123-01
BkplnHwRev: 80
wilco.1.7.PXM.a >
Use the dspchan command to view a channel on a PXM, FRSM, VISM, AUSM, or CESM.
Display Channel
PXM, FRSM, AUSM, CESM, VISM
dspchan <chan_num>
chan_num | Channel number, as appropriate for the card. · PXM, range = 16-4111 · FRSM range = 16-1015 · AUSM range = 16-1015 · CESM range = 32-279 |
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit.1.17.FRSM.a > dspchan 69
ChanNum: 69 ChanRowStatus: Mod ChanPortNum: 1 ChanDLCI: 100 EgressQSelect: 1 IngressQDepth: 65535 IngressQDEThresh: 32768 IngressQECNThresh: 65535 EgressQDepth: 65535 EgressQDEThresh: 32768 EgressQECNThresh: 6553 DETaggingEnable: Disabled CIR: 24000 Bc: 5100 Be: 5100 IBS: 100 ForeSightEnable: Enabled QIR: 260 MIR: 62 PIR: 500 ChanLocalRemoteLpbkState: Enabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanType: NIW ChanFECNmap: setEFCIzero ChanDEtoCLPmap: mapCLP ChanCLPtoDEmap: mapDE ChanFrConnType: PVC ChanIngrPercentUtil: 100 ChanEgrPercentUtil: 100 ChanEgrSrvRate: 1536000 ChanOvrSubOvrRide: Enabled ChanLocalVpi: 0 ChanLocalVci: 100 ChanLocalNSAP: 535052494e543031000000000000000002000100 ChanRemoteVpi: 10 ChanRemoteVci: 134 ChanRemoteNSAP: 535052494e543031000000000000000000000100 ChanMastership: Master ChanVpcFlag: Vcc ChanConnServiceType: ATFR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 4000 ChanConnMCR: 4000 ChanConnPercentUti: 100 ChanNumNextAvailable: 17 spirit.1.17.FRSM.a >
spirit.1.19.AUSM8.a > dspchan 16 ChanNum: 16 RowStatus: Del ConnectionType: VCC ServiceType: CBR ChanSvcFlag: PVC PortNum: 1 VPI: 0 VCI (For VCC): 0 Local VPId(for VPC): 0 EgressQNum: 0 IngressQDepth(cells): 1000 IngressDiscardOption: CLP hysterisis IngressFrameDiscardThreshold 1000 IngressQCLPHigh(cells): 900 IngressQCLPLow(cells): 800 QCLPState: LOW IngressEfciThreshold(cells): 1000 UPCEnable: Enabled PeakCellRate[0+1](cells/sec): 50 CellDelayVariation[0+1]: 10000 (micro secs) PeakCellRate[0](cells/sec): 50 CellDelayVariation[0]: 10000 (micro secs) SustainedCellRate(cells/sec): 50 MaximumBurstSize(cells): 1000 SCRPolicing: CLP[0] CLPTagEnable: Enabled FrameGCRAEnable: Disable ForesightEnable: Disable InitialBurstSize(cells): 0 ForeSightPeakCellRate(cells/sec): 50 MinimumCellRate(cells/sec): 0 InitialCellRate(cells/sec): 1 LocalRemoteLpbkState: Disable ChanTestType: No Test ChanTestState: Not In Progress ChanRTDresult: 65535 ms Ingress percentage util: 100 Egress percentage util : 100 Egress Service Rate: 50 LocalVpi: 0 LocalVci: 0 LocalNSAP: 5468697320697320612064756d6d79204e534150 RemoteVpi: 0 RemoteVci: 0 RemoteNSAP: 5468697320697320612064756d6d79204e534150 Mastership: Slave VpcFlag: Vcc ConnServiceType: CBR RoutingPriority: 1 MaxCost: 255 RestrictTrunkType: No Restriction ConnPCR: 50 ConnMCR: 0 ConnPercentUtil: 100 ChanNumNextAvailable : 17 Local VpId NextAvailable : 2 spirit.1.19.AUSM8.a >
MGX-01.1.1.CESM.a > dspchan 32 ChanNum: 32 ChanRowStatus: Add ChanLineNum: 1 ChanMapVpi: 1 ChanMapVci: 32 ChanCBRService: structured ChanClockMode: Synchronous ChanCAS: Basic ChanPartialFill: 47 ChanMaxBufSize: 6144 bytes ChanCDV: 6000 micro seconds C L I P: 2500 milliseconds ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanPortNum 1 ChanConnType PVC ISDetType DetectionDisabled CondData 255 CondSignalling 0 ExtISTrig DisableIdleSupression ISIntgnPeriod 4095 seconds ISSignallingCode 0 OnHookCode 1 ChanLocalVpi: 0 ChanLocalVci: 1 ChanLocalNSAP: 535052494e543031000000000000000001000100 ChanRemoteVpi: 10 ChanRemoteVci: 132 ChanRemoteNSAP: 535052494e543031000000000000000000000100 ChanMastership: Master ChanVpcFlag: Vcc ChanConnServiceType: CBR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 4128 ChanConnMCR: 4128 ChanConnPercentUtil: 100 ChanNumNextAvailable: 32 MGX-01.1.1.CESM.a >
MGX-01.1.7.PXM.a > dspchan 16 bbChanCnfNum : 16 bbChanRowStatus : 1 bbChanConnType : 2 bbChanServiceType : 1 bbChanConnDesc : 0x828d4e30 bbChanSvcFlag : 2 bbChanSvcConnId : 0 bbChanIfNum : 1 bbChanVpi : 10 bbChanVci : 134 bbChanUpcEnable : 1 bbChanUpcPCR : 50 bbChanUpcCDVT : 10000 bbChanUpcSCR : 0 bbChanUpcMBS : 0 bbChanGcra1Action : 1 bbChanGcra2Action : 1 bbChanEfciThreshold : 98304 bbChanDiscardOption : 1 bbChanFrmDiscardThreshold : 0 bbChanClpHiThreshold : 0 bbChanClpLoThreshold : 0 bbChanCongstUpdateCode : 1 bbChanMaxCellMemThreshold : 131072 bbChanIngrPercentUtil : 100 bbChanEgrPercentUtil : 100 bbChanEgrSrvRate : 50 bbChanOvrSubOvrRide : 2 bbChanLocalVpi : 10 bbChanLocalVci : 134 bbChanLocalNsapAddr : 0x828d4a20 bbChanRemoteVpi : 0 bbChanRemoteVci : 100 bbChanRemoteNsapAddr : 0x828d49f0 bbChanMaster : 2 bbChanRtePriority : 1 bbChanMaxCost : 255 bbChanRestrictTrkType : 1 bbChanTestType : 3 bbChanTestState : 4 bbChanTestResult : 0 bbChanTestTypeCPESide : 2 bbChanTestStateCPESide : 4 bbChanUpcSCRPolicing : 3 bbConnVpcFlag : 2 bbConnServiceType : 1 bbConnPCR : 50 bbConnSCR : 0 bbConnPercentUtil : 100 bbRemoteConnPCR : 50 bbRemoteConnSCR : 0 bbRemoteConnPercentUtil : 100 MGX-01.1.7.PXM.a >
spirit.1.5.VISM8.a > dspchan 37
ChanNum: 37
ChanRowStatus: Add
ChanLocalRemoteLpbkState: Disabled
ChanTestType: TestOff
ChanTestState: NotInProgress
ChanRTDresult: 65535 ms
ChanPortNum: 1
ChanPvcType: VoIP
ChanConnectionType: PVC
ChanLocalVpi: 0
ChanLocalVci: 1
ChanLocalNSAP: 4e4f44454e414d45000000000000000005000100
ChanRemoteVpi: 58
ChanRemoteVci: 59
ChanRemoteNSAP: 4e4f44454e414d45000000000000000000000100
ChanMastership: Master
ChanVpcFlag: Vcc
ChanConnServiceType: CBR
ChanRoutingPriority: 1
ChanMaxCost: 255
ChanRestrictTrunkType: No Restriction
Type <CR> to continue, Q<CR> to stop:
ChanConnPCR: 100000
ChanConnPercentUtil: 100
ChanNumNextAvailable: 34
Syntax : dspchan "chan_num"
channel number -- values : 32 - 255
spirit.1.5.VISM8.a >
Use the dspchancnt command to view the contents of the statistical counters for a channel.
Display Channel Counters
PXM, FRSM, CESM
dspchancnt <channel number>
channel number | Channel number, in the range appropriate for the card. · FRSM
· PXM range = 16-4111 · AUSM range = 16-1015 · CESM
|
dspchancnt <port.VPI.VCI | ChanNum>
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. |
Log: No State: Any Privilege: Any
This section contains the following examples.
wilco.1.17.FRSM.a > dspchancnt 69
ChanNum: 69
ChanState: okay
ChanUpTime: 10186
Tx Rx
--------------- ---------------
AbitState: Sending A=1 Receiving A=1
ATMState: Not sending any state Not receiving any state
Total Frames: 0 0
Total Bytes: 0 0
Frames DE: 0 0
Bytes DE: 0 0
Frames Discarded: 0 0
Bytes Discarded: 0 0
FramesDiscXceedQDepth: 0 0
BytesDiscXceedQDepth: 0 0
FramesDiscXceedDEThresh: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
FramesTagged FECN: 0 0
FramesTagged BECN: 0 0
KbpsAIR: 0 0
FramesTaggedDE: 0 0
BytesTaggedDE: 0 0
RcvFramesDiscShelfAlarm: 0
XmtFramesDiscPhyLayerFail: 0
XmtFramesDiscCRCError: 0
XmtFramesDiscReAssmFail: 0
XmtFramesDiscSrcAbort: 0
XmtFramesDuringLMIAlarm: 0
XmtBytesDuringLMIAlarm: 0
RcvFramesDiscUPC: 0
XmtFramesInvalidCPIs: 0
XmtFramesLengthViolations: 0
XmtFramesOversizedSDUs: 0
XmtFramesUnknownProtocols: 0
RcvFramesUnknownProtocols: 0
wilco.1.17.FRSM.a >
wilco.1.19.AUSM.a > dspchancnt 16
ChanNum: 16
ChannelState: Active
ChannelEgressRcvState: Normal
ChannelEgressXmitState: Normal
ChannelIngressRcvState: Normal
ChannelIngressXmtState: Normal
ChanInServiceSeconds: 1126725
ChanIngressPeakQDepth(cells): 1
ChanIngressReceiveCells: 41160574
ChanIngressClpSetCells: 0
ChanIngressEfciSetRcvCells: 0
ChanIngressUpcClpSetCells: 0
ChanIngressQfullDiscardCells: 1
ChanIngressClpSetDiscardCells: 0
ChanIngressTransmitCells: 41160574
ChanShelfAlarmDiscardCells: 0
Syntax : dspchancnt "chan_num"
channel number---value ranging from 16 to 1015
wilco.1.19.AUSM.a >
MGX-01.1.1.CESM.a > dspchancnt 32
ChanNum: 32
Chan State: alarm
Chan RCV ATM State: Receiving AIS OAM
Chan XMT ATM State: Sending AIS OAM
Cell Loss Status: Cell Loss
Reassembled Cells: 0
Generated Cells: 1134344
Header Errors: 0
Seqence Mismatches : 0
Lost Cells: 0
Channel Uptime (secs.) 277
Signalling Status Offhook
Syntax : dspchancnt "chan_num"
channel number -- values : 32 - 279
MGX-01.1.1.CESM.a >
Use the dspchanmap command to view interworking field mapping for a specified channel.
Display Channel Map
FRSM
dspchanmap -chn <ChanNum>
-chn | Command delineator for the ChanNum entry. |
ChanNum | Channel number, in the range 16-1015. |
Log: No State: Any Privilege: Any
Use the dspchans command to view all current channels on the card.
Display Channels
FRSM, AUSM, CESM, PXM, VISM
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit.11.1.FRSM.a > dspchans
DLCI Chan EQ I/EQDepth I/EQDEThre I/EECNThre Fst/DE Type Alarm
------------- ---- -- ----- ----- ----- ----- ----- ----- --- --- ----- -----
11.1.1.100 69 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.101 70 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.102 71 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.103 72 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.104 73 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.105 74 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.106 75 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.107 76 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.108 77 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.109 78 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.110 79 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.111 80 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.112 81 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.113 82 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.114 83 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.1.115 84 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
11.1.2.100 85 1 65535/65535 32768/32768 65535/6553 Ena/Dis NIW No
spirit.11.1.FRSM.a >
wilco.1.7.PXM.a > dspchans
Chan Stat Intf locVpi locVci conTyp srvTyp PCR[0+1] Mst rmtVpi rmtVci State ---------------------------------------------------------------------------- 16 Ena 1 10 134 VCC CBR 50 Slv 0 100 normal 32 Ena 1 10 132 VCC CBR 50 Slv 0 1 alarm wilco.1.7.PXM.a >
spirit.1.5.VISM8.a > dspchans Channel ChanNum Status ------------ ------- ------ 5.0.1.37 37 Add Number of channels: 1 ChanNumNextAvailable: 33 Syntax : dspchans spirit.1.5.VISM8.a >
s1.1.12.AUSMB8.a > dspchans Chan Port.VPI.VCI ConnType Service Type PCR[0+1] Q-Depth State ---- ------------ ------- ------------ --------- ------- ------- 21 2.1.1 VCC CBR 4528 1000 Active 26 2.1.3 VCC VBR 4528 1000 Active 31 2.1.5 VCC ABR 4528 1000 Alarm 37 2.1.7 VCC UBR 4528 1000 Alarm
Use the dspchstats command to view current statistics associated with the specified channel.
Display Channel Statistics
FRSM
dspchstats <line>.<1stDS0>.<DLCI>
line | Line number, in the range 1-8 |
1stDS0 | 1st_DS0, in the range appropriate for the interface. · T1 range = 1-24 · E1 range =1-32 |
DLCI | Connection for which the statistics are to be displayed. |
Log: No State: Any Privilege: Any
wilco.1.17.FRSM.a > dspchstats 1.4.1000
lineNum: 1
Physical Port Num: 4
Logical Port Num: 2
ChanDLCI: 1000
ChanNum: 1
ChanState: okay
ChanUpTime: 10186
Tx Rx
--------------- ---------------
AbitState: Sending A=1 Receiving A=1
ATMState: Not sending any state Not receiving any state
Total Frames: 0 0
Total Bytes: 0 0
Frames DE: 0 0
Bytes DE: 0 0
Frames Discarded: 0 0
Bytes Discarded: 0 0
FramesDiscXceedQDepth: 0 0
BytesDiscXceedQDepth: 0 0
FramesDiscXceedDEThresh: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
FramesTagged FECN: 0 0
FramesTagged BECN: 0 0
KbpsAIR: 0 0
FramesTaggedDE: 0 0
BytesTaggedDE: 0 0
RcvFramesDiscShelfAlarm: 0
XmtFramesDiscPhyLayerFail: 0
XmtFramesDiscCRCError: 0
XmtFramesDiscReAssmFail: 0
XmtFramesDiscSrcAbort: 0
XmtFramesDuringLMIAlarm: 0
XmtBytesDuringLMIAlarm: 0
RcvFramesDiscUPC: 0
XmtFramesInvalidCPIs: 0
XmtFramesLengthViolations: 0
XmtFramesOversizedSDUs: 0
XmtFramesUnknownProtocols: 0
RcvFramesUnknownProtocols: 0
wilco.1.17.FRSM.a >
Use the dspclkinfo command to view detailed information about all the configured clock sources in the node.
Display Clock Information
PXM
Log: No State: Active Privilege: 3
spirit3.1.7.PXM.a > dspclkinfo
****** Clock HW registers ********
SEL_T1 = t1 SEL100 = ON SEL120 = ON SEL120 = ON
NOEXTCLK = ON
priMuxClockSource = INTERNAL_OSC
prevPriMuxClockSource = INTERNAL_OSC
primaryInbandClockSourceLineNum = 0
secMuxClockSource = EXTERNAL_CLOCK
prevSecMuxClockSource = EXTERNAL_CLOCK
secondaryInbandClockSourceLineNumber = 1
currentClockSetReq = primary
currentClockHwStat = primary
PreviousClockHwStat = internal
extClockPresent = No
extClkConnectorType = RJ45
extClkSrcImpedance = 100 Ohms
Internal Clock Status=1, Primary Clock Status=1
Secondary Clock Status=0, Last inband Clock State=0
last Inband Clock state= 0, Last External Clock Present = 1
spirit3.1.7.PXM.a >
Use the dspclksrc command to view all configured clock sources in the node.
Display Clock Sources
PXM
Log: No State: Active Privilege: Any
spirit3.1.7.PXM.a > dspclksrc PrimaryClockSource: Internal Oscillator SecondaryClockSource: External T1/E1 from C.O. CurrentClockSource: Internal Oscillator ClockSwitchState: NoChange ExtClkPresent: Not Present ExtClkSrcImpedance: 75 ohms ExtClkConnectorType: BNC spirit3.1.7.PXM.a >
Use the dspcon command to view configuration data for a connection.
Display Connection
PXM, FRSM, AUSM, CESM, VISM
dspcon <port number> <connection number>
port number | Port number, in the range 1-8. |
connection number | Connection number, as appropriate for the card. · PXM = vpi.vci · FRSM = DLCI · AUSM = vpi.vci · CESM = does not require connection number |
Log: No State: Active Privilege: Any
This section contains the following examples.
spirit3.1.22.CESM.a > dspcon 16
ChanNum: 16 RowStatus: Add ConnectionType: VCC ServiceType: CBR PortNum: 1 VPI: 10 VCI: 100 EgressQNum: 1 IngressQDepth (cells): 100 IngressQCLPHigh (cells): 70 IngressQCLPLow (cells): 60 IngressEfciThreshold (cells): 50 CompliantCellDelayVariation (micro secs): 0 CompliantInfoRate (cells/sec): 0 InitialBurstSize (cells): 0 MaxFrameSize (cells): 0 PeakInformationRate (cells/sec) 1000 CLPTagEnable: Disabled FrameGCRAEnable: Disabled spirit3.1.22.CESM.a >
spirit.1.3.FRSM.a > dspcon 3.500 ChanNum: 51 ChanRowStatus: Mod ChanPortNum: 3 ChanDLCI: 500 EgressQSelect: 2 IngressQDepth: 65535 IngressQDEThresh: 32768 IngressQECNThresh: 6554 EgressQDepth: 65535 EgressQDEThresh: 32768 EgressQECNThresh: 6554 DETaggingEnable: Disabled CIR: 1024000 Bc: 5100 Be: 5100 IBS: 100 ForeSightEnable: Enabled QIR: 2666 MIR: 2666 PIR: 5333 ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanType: SIW-Xlat ChanFECNmap: setEFCIzero ChanDEtoCLPmap: mapCLP ChanCLPtoDEmap: mapDE ChanFrConnType: PVC ChanIngrPercentUtil: 100 ChanEgrPercentUtil: 100 ChanEgrSrvRate: 1024000 ChanOvrSubOvrRide: Enabled ChanLocalVpi: 0 ChanLocalVci: 500 ChanLocalNSAP: 73776973735f7031000000000000910003000300 ChanRemoteVpi: 3 ChanRemoteVci: 14 ChanRemoteNSAP: 73776973735f7031000000000000910000000100 ChanMastership: Master ChanVpcFlag: Vcc ChanConnServiceType: ATFR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 5333 ChanConnMCR: 2666 ChanConnPercentUti: 100 ChanNumNextAvailable: 63 spirit.1.3.FRSM.a >
spirit.1.5.VISM8.a > dspcon 37
ChanNum: 37
ChanRowStatus: Add
ChanLocalRemoteLpbkState: Disabled
ChanTestType: TestOff
ChanTestState: NotInProgress
ChanRTDresult: 65535 ms
ChanPortNum: 1
ChanPvcType: VoIP
ChanConnectionType: PVC
ChanLocalVpi: 0
ChanLocalVci: 1
ChanLocalNSAP: 4e4f44454e414d45000000000000000005000100
ChanRemoteVpi: 58
ChanRemoteVci: 59
ChanRemoteNSAP: 4e4f44454e414d45000000000000000000000100
ChanMastership: Master
ChanVpcFlag: Vcc
ChanConnServiceType: CBR
ChanRoutingPriority: 1
ChanMaxCost: 255
ChanRestrictTrunkType: No Restriction
Type <CR> to continue, Q<CR> to stop:
ChanConnPCR: 100000
ChanConnPercentUtil: 100
ChanNumNextAvailable: 36
Syntax : dspcon "chan_num"
channel number -- values : 32 - 255
spirit.1.5.VISM8.a >
Use the dspconcnt command to view counter data for the specified connection.
Display Connection Counters
PXM
dspconcnt <conn_id>
conn_id | Connection identifier, in the format port.vpi.vci. · port range = 1 through n, as appropriate for the physical installation. · vpi range = 1-4095 · vci range = 1-65535 |
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > dspconcnt 2.39.45 Channel Number : 17 Channel State : alarm Channel Ingress State : alarm Channel Egress State : other CLP=0 Rcvd. Cells : 0 CLP=1 Rcvd. Cells : 0 GCRA1 Non Conforming Cells : 0 GCRA2 Non Conforming Cells : 0 EOF Cells Rcvd. : 0 CLP=0 Discard Cells : 0 CLP=1 Discard Cells : 0 Total Xmtd. Cells : 7253 CLP=0 Xmtd. Cells : 0 CLP=1 Xmtd. Cells : 10867 CLP=0 Discard Cells to Port : 0 CLP=1 Discard Cells to Port : 0 spirit4.1.8.PXM.a >
Use the dspcons PAR command to view details of all connections on the current card.
Display Connections
PXM, FRSM, CESM, AUSM, VISM
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit3.1.1.AUSM.a > dspcons Chan Port.VPI.VCI ConnType Service Type PCRlot1 Q-Depth State 30 1.10.100 VCC ABR 3622 2000 Active 33 1.10.200 VPC CBR 3622 100 Alarm spirit3.1.1.AUSM.a >
spirit.1.5.VISM8.a > dspcons ConnId ChanNum Status ------------------- ------- ------ spirit.5.1.0 37 Add ChanNumNextAvailable: 35 Syntax : dspcons spirit.1.5.VISM8.a >
Use the dspcurclk command to view the current clock source for the switch.
Display Current Clock Source
PXM
Log: No State: Active Privilege: Any
spirit4.1.8.PXM.a > dspcurclk Current Clock Source ---------------------- Source Node: spirit4 Clock Level: -- Clock Type : INTERNAL spirit4.1.8.PXM.a >
Use the dspdsx3bert command to view parameters and results of the current BERT testing session.
Display DSX3 BERT
FRSM 2T3E3, CESMT3
dspdsx3bert
Log: No State: Active Privilege: Any
popeye1.1.21.CESMT3.a > dspdsx3bert
Bert Control: Acquire dsx3Bert
Bert Resource Status State: In Use
Bert Owner: CLI
Bert Status: In Sync
Bert Test Medium: Line
Bert Port: 1
Line Number : 1
Bert Mode : bertPatternTest
Bert Pattern : allOnes
Loopback type: metallicLoopback
Start time (secs.) Not Configured Yet
Start Date Not Configured Yet
Bit countupper: 0
Bit countlower: 0
Bit Error Countupper 0
Bit Error Countlower 0
Error Insertion Rate: Error injection disabled
Error Insertion count: 0
DSX3 BERT in Sync
Syntax : dspdsx3bert
popeye1.1.21.CESMT3.a >
Use the dspegrq command to view the port egress queue parameters. This command is valid only when the egress quality of service feature is enabled.
Display Egress Queue Parameters
FRSM-VHS (2CT3/2T3/2E3/HS2)
dspegrqs, dspegrservtype, cnfegrservtype
Log: No State: Active Privilege: Any
golden1.1.1.VHS2CT3.a > dspegrq 1 1 ServicePortNum: 1 Serv Type: 1 Queue Depth: 65535 Queue ECN Threshold: 6553 Queue DE Threshold: 32767 Max Bandwidth Increment: 16384 portBytesDiscXceedQueFull: 0 portBytesDiscXceedDEThresh:0 golden1.1.1.VHS2CT3.a >
Use the dspegrqs command to view the egress queue parameters for all the ports on a shelf. This command is valid only when the egress quality of service feature is enabled.
Display Egress Queue Parameters
FRSM-VHS (2CT3/2T3/2E3/HS2)
dspegrq, dspegrservtype, cnfegrservtype
Log: No State: Active Privilege: Any
golden1.1.1.VHS2CT3.a > dspegrqs 1
PortNum ServType Q Depth Q-ECN-Thres Q-DE-Thres BandWidth-Inc
------- -------- ------- ----------- ---------- ---------
1 1 65535 6553 32767 16384
1 2 65535 6553 32767 0
1 3 65535 6553 32767 0
1 4 65535 6553 32767 0
golden1.1.1.VHS2CT3.a >
Use the dspegrservtype to display the current egress port queue servicing.
Command available with 1.1.20 and higher
Display Egress Servicing Type
FRSM-VHS (2CT3/2T3/2E3/HS2)
dspegrservtype
Log: No State: Active Privilege: Any
Use the dspenetgw command to display the permanent Ethernet gateway. The Ethernet gateway is specified with the cnfenetgw command.
Command available with 1.1.20 and higher.
Display Ethernet Gateway
PXM
Log: No State: Any Privilege: Any
spirit3.1.7.PXM.a > dspenetgw spirit3.1.7.PXM.a > enet gateway: 172.29.37.1
Use the dsperr command to view the contents of either all error log files or a specific error log file.
Display Errors
PXM
dsperr [-en <error slot>]
-en | Command delineator that precedes the error slot entry. |
error slot | Number of the error log file (optional). |
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit3.1.7.PXM.a > dsperr
----------
Stack Trace:
0x801e5714 vxTaskEntry + c: sysTaskSetup()
0x80024d2c sysTaskSetup + 58: rmm_main()
0x800dff7c rmm_main +624: rmm_process_message()
0x800df764 rmm_process_message + 98: rmm_delete_seat()
0x800e0f54 rmm_delete_seat + ac: ipc_remove_seat()
0x800d1140 ipc_remove_seat + 50: ipc_renumber_as_slave()
0x800d0a10 ipc_renumber_as_slave +208: my_free()
0x800d3430 my_free + 8: ssiFree()
0x8001c378 ssiFree + 8c: ssiEvent()
0x800274dc ssiEvent +11c: ssiEvent()
0x800277bc ssiEvent +3fc: sysStackTrace()
----------
No Dump Trace before the event
----------
No Dump Trace after the event
Type <CR> to continue, Q<CR> to stop:
----------
Stack Trace:
0x801e5714 vxTaskEntry + c: sysTaskSetup()
0x80024d2c sysTaskSetup + 58: rmm_main()
0x800dff7c rmm_main +624: rmm_process_message()
0x800df764 rmm_process_message + 98: rmm_delete_seat()
0x800e0f54 rmm_delete_seat + ac: ipc_remove_seat()
0x800d1140 ipc_remove_seat + 50: ipc_renumber_as_slave()
0x800d0a10 ipc_renumber_as_slave +208: my_free()
0x800d3430 my_free + 8: ssiFree()
0x8001c378 ssiFree + 8c: ssiEvent()
0x800274dc ssiEvent +11c: ssiEvent()
0x800277bc ssiEvent +3fc: sysStackTrace()
----------
No Dump Trace before the event
----------
No Dump Trace after the event
spirit3.1.7.PXM.a >
spirit3.1.7.PXM.a > dsperr -en 3
Stack Trace:
0x801e5714 vxTaskEntry + c: sysTaskSetup()
0x80024d2c sysTaskSetup + 58: rmm_main()
0x800dff7c rmm_main +624: rmm_process_message()
0x800df764 rmm_process_message + 98: rmm_delete_seat()
0x800e0f54 rmm_delete_seat + ac: ipc_remove_seat()
0x800d1140 ipc_remove_seat + 50: ipc_renumber_as_slave()
0x800d0a08 ipc_renumber_as_slave +200: ipc_remove_ports_on_seat()
0x800d02a8 ipc_remove_ports_on_seat + a0: ipc_remove_port()
0x800d01dc ipc_remove_port +190: ipc_subsys_init()
0x800cecf0 ipc_subsys_init +204: my_free()
0x800d3430 my_free + 8: ssiFree()
0x8001c378 ssiFree + 8c: ssiEvent()
0x800274dc ssiEvent +11c: ssiEvent()
0x800277bc ssiEvent +3fc: sysStackTrace()
----------
No Dump Trace before the event
----------
spirit3.1.7.PXM.a >
Use the dspfeature command to display features or to change features, such as Channelized and Rate Control. Without parameters, this command acts as a display command.
When the rate control feature is set to ON, the card supports ForeSight. ForeSight is a software feature that provides a closed-loop feedback mechanism for controlling the rate at which users can apply to the network. It improves the efficiency of the network when carrying Frame Relay data, especially during periods of light usage, and maintains consistent performance during peak loading periods without dropping frames. This can be enabled only on an Available Bit Rate (ABR) connection. If the Rate Control feature is OFF, this cannot be enabled.
If the channelized feature is set to ON, it will enable either channelized E1 or channelized T1 for cards that are channelized.
| Card | Channelized Feature |
|---|---|
FRSM-8T1 | Channelized T1 |
FRSM-8E1 | Channelized E1 |
FRSM-2CT3 | Channelized T1 |
FRSM-2T3/2E3/HS2 | No channelized feature on cards |
Channelized E1 is an access link operating at 2.048 Mbps. It is subdivided into 30 B-channels and 1 D-channel, supporting DDR, Frame Realys, and x.25.
Channelized T1 is an access link operating at 1.544 Mbps. It is subdivided into 24 channels (23 B-channels and 1 D-channel) of 64 Kbps each. The individual channels or groups of channels connect to different destinations and support DDR, Frame Relay, and x.25. Channelized T1 also is known as fractional T1.
Command available with 1.1.20 and higher.
Display Feature
FRSM-VHS (2CT3/2T3/2E3/HS2), FRSM-8T1/E1
dspfeature [[feature] [enable]]
feature | One of the following features: · 375 = channelized · 193 = rate control |
enable | Enable or disable feature: · 97 = ON · 0 = OFF |
Log: No State: Any Privilege: Group -2
golden1.1.2.VHS2CT3.s > dspfeature Channelized: On Rate Control: On
Use the dspfst command to view current ForeSight parameter settings for the current service module. See the description of the cnffst command for an explanation of the ForeSight parameter settings.
Display ForeSight Parameters
FRSM
Log: Yes State: Active Privilege: 1-4
wilco.1.3.VHS2CT3.a > dspfst RateUp: 10 percent RateDown: 87 percent RateFastDown: 50 percent QIRTimeout: 10 seconds RTD: 5 seconds wilco.1.3.VHS2CT3.a >
Use the dspfw command to view firmware files stored on the hard disk of the MGX 8800 series switch.
Display Firmware Revisions
PXM
[bt] | Backup boot. |
[sm <slot>] | Number of the service module slot that needs to be upgraded or downgraded |
none
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > dspfw PXM FW versions: "1.1.10" in pxm_1.1.10.fw "1.1.11" in pxm_1.1.11.fw
Use the dspfwrevs command to display the current list of firmware revisions on the PXM.
Display Firmware Revisions
PXM
dspfwrevs
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > dspfwrevs In dspfwrevs() Cfg Size Date Time File Name Card Type Version --- -------- ------------------ ------------ ------------ -------------------- No 1996736 05/06/1999 15:40:24 pxm_gprasann.fw PXM1E1 gprasann No 615232 05/10/1999 13:11:36 sm90.fw CESM-8T1E1 10.0.00_19Apr99_1 No 794572 05/20/1999 18:10:50 sm35.fw FRSM-8T1E1 10.0.01_18May99_1_rm No 1983308 04/24/1999 14:18:48 pxm_1.0.00Eh.fw PXM1E1 1.0.00Eh N/A 1500292 04/28/1999 14:31:48 pxm_gprasann.fw.working-bcdc PXM1E1 gprasann No 2089064 06/27/1999 08:12:50 pxm_rmenon.fw PXM1E1 rmenon Yes 892356 07/01/1999 15:22:36 sm130.fw FRSM-2CT3E1 5.0.01_24Jun99_1_raj No 884404 05/24/1999 11:30:04 smravi.fw FRSM-2CT3E1 5.0.00_21May99_1_raj raviraj.1.7.PXM.a >
Use the dsphotstandby command to display service modules in hot standby state. Service modules that are part of a 1:1 redundancy can be in hot standby state. When the secondary service module is introduced, it goes into standby state for a number of minutes, then to hot standby state. For example, an FRSM-VHS module with 4000 connections requires about eight minutes to go from standby state to hot standby state.
In hot standby state, if the active service module fails, the standby service module takes over from the active service module with less than one second of traffic loss. Without the hot standby feature, the delay for a standby service module to take over could be as high as eight minutes, resulting in traffic loss for that period of time.
For the hot standby feature to work, you need a PXM and VHS image that support this functionality, and a FRSM-VHS module. This feature is available in the software version 1.1.20 release, and requires no configuration of the PXM or the service module.
Use dsphotstandby in conjunction with dspred to view the redundant slot links.
Display Hot Standby
PXM
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > dspred
Primary Primary Primary Secondary Secondary Secondary Red. Red.Slot
SlotNum Type State SlotNum Type State Type Cover
------- ------- ------- --------- --------- --------- ---- --------
4 FRSM-2CT Standby 10 FRSM-2CT Active 1:1 4
raviraj.1.7.PXM.a > dsphotstandby Slot 4 : Primary SM in HOT STANDBY state. Slot 10 : Secondary Active SM.
raviraj.1.7.PXM.a > dsphotstandby Slot 4 : Primary SM not in Hot Standby state. Slot 10 : Secondary Active SM.
Use the dspif command to view configuration and state information for a broadband interface.
Display Interface
PXM
dspif <if_num>
if_num | Interface number, in the range 1-32. |
Log: No State: Any Privilege: Any
spirit3.1.7.PXM.a > dspif 1 ifNum Status Line ingrPctBw egrPctBw minVpi maxVpi ------------------------------------------------------ 1 Ena 1 10 10 0 19 spirit3.1.7.PXM.a >
Use the dspifcnt command to view interface counters for a broadband interface.
Display Interface Counter
PXM
dspifcnt <if_num>
if_num | Interface number, in the range 1-32. |
Log: No State: Any Privilege: Any
spirit3.1.7.PXM.a > dspifcnt 1 Interface Num : 1 Interface State : Line Failure Total Cells : 0 Received RM Cells : 0 Received OAM Cells : 0 Received CLP0 Cells : 0 Received CLP1 Cells : 0 Received CLP0,Discarded Cells : 0 Received CLP1,Discarded Cells : 0 Transmitted OAM Cells : 0 Transmitted RM Cells : 0 Transmitted CLP0 Cells : 0 Transmitted CLP1 Cells : 0 wilco.1.7.PXM.a >
Use the dspifip command to view all configured interface IP addresses on the current PXM, as well as their status. The possible interfaces are Ethernet, SLIP, and ATM. Data displayed for the SLIP interface will be displayed when the interface is enabled using the cnfifip command; for example:
cnfifip slip on
New feature (displays the state of each interface) available with 1.1.12 and higher.
Display Interface IP Configuration
PXM
Log: No State: Any Privilege: Any
spirit3.1.7.PXM.a > dspifip Interface Flag IP Address Subnetmask Broadcast Addr --------------- ---- --------------- --------------- --------------- Ethernet/lnPci0 UP 172.29.37.77 255.255.255.0 172.29.37.255 SLIP/sl0 DOWN 172.29.36.253 255.255.255.252 (N/A) ATM/atm0 UP 192.9.200.1 255.255.255.128 0.0.0.0 spirit3.1.7.PXM.a >
Use the dspifrsc command to view all resource partition information for the specified interface.
Display Interface Resource Partition
PXM
dspifrsc <if_num>
if_num | Interface number, in the range 1-32. |
Log: No State: Any Privilege: Any
POP1.1.7.PXM.a > dspifrsc 1
bbIfNum Ctrlr Status ingrPctBw egrPctBw minVpi maxVpi minVci maxVci maxChans
-----------------------------------------------------------------------------
1 PAR Mod 100 100 1 2000 0 65535 2000
1 PNNI Ena 100 100 1 2000 0 65535 32767
1 TAG Ena 100 100 1 2000 0 65535 32767
1 SVC Dis 0 0 0 0 0 0 0
POP1.1.7.PXM.a >
Use the dspifs command to view the current list of configured broadband interfaces.
Display List of Broadband Interfaces
PXM
dspifs
Log: No State: Any Privilege: Any
POP1.1.7.PXM.a > dspifs ifNum Status Line ingrPctBw egrPctBw minVpi maxVpi ------------------------------------------------------ 1 Ena 1 10 10 0 19 POP1.1.7.PXM.a >
Use the dspilmi command to view the interim local management interface (ILMI) configuration.
Display ILMI
PXM, AUSM
dspilmi <port_num>
port_num | Port number, in the range 1-32. |
Log: No State: Active Privilege: Any
This section contains the following examples.
spirit3.1.20.AUSM.a > dspilmi 1
Port Num: 1
Signalling: No signalling
SignallingVPI: 0
SignallingVCI: 0
ILMITrap: Disabled
ILMI-Min-Trap-Interval (secs): 1
KeepAlivePolling: Disabled
ErrorThreshold: 3
EventThreshold: 4
PollingInterval (secs): 30
MinimumEnquiryInterval (secs): 10
EXT Operation: port 2
spirit3.1.20.AUSM.a >
spirit3.1.7.PXM.a > dspilmi 1
Sig. Ilmi Sig Sig Ilmi T491 T492 T493 Addr
Port State/Type Vpi Vci Trap/Int KA ErrTh/Pollint EvntTh EnqInt Reg.
---- --------- ---- ---- -------- --- ------------- ------ ------ ----
1 Off/none 0 16 Off/01 Off 3/v6 4 10 Off
spirit3.1.7.PXM.a >
Use the dspilmicnt command to view the ILMI counters.
Display ILMI Counters
PXM, AUSM
dspilmicnt <port_num>
port_num | Port number, in the range 1-32. |
Log: No State: Any Privilege: Any
spirit3.1.20.AUSM.a > dspilmicnt 1
Port Num: 1
SNMPPDUsReceived: 0
Get RequestsReceived: 0
GetNextRequestsReceived: 0
SetRequestsReceived: 0
TrapReceived: 0
GetResponseReceived 0
GetResponseTransmitted: 0
GetRequestTransmitted: 0
TrapsTransmitted: 0
InvalidPDUReceived: 0
Asn1ParseError: 0
NoSuchNameError: 0
TooBigError: 0
spirit3.1.20.AUSM.a >
Use the dspilmis command to view all interim local management interface (ILMI) configurations on the PXM.
Display All ILMI Configurations
PXM
Log: No State: Any Privilege: Any
spirit3.1.7.PXM.a > dspilmis Sig. Ilmi Sig Sig Ilmi T491 T492 T493 Addr Port State/Type Vpi Vci Trap/Int KA ErrTh/Pollint EvntTh EnqInt Reg. ---- --------- ---- ---- -------- --- ------------- ------ ------ ---- 1 Off/none 0 16 Off/01 Off 3/v6 4 10 Off spirit3.1.7.PXM.a >
Use the dspimagrp command to view delay and resilient links inverse multiplexing ATM (IMA) parameters on the current AUSM card.
Display IMA Group
AUSM
dspimagrp <aimux_grp>
aimux_grp | AIMUX group number, in the range 1-8. |
Log: No State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspimagrp 1
IMA Group number : 1
Port type : NNI
Lines configured : 1.2.3
Enable : Enabled
IMA Port state : Sig. Failure
IMA Group Ne state : Startup
PortSpeed (cells/sec) : 13470
GroupTxAvailCellRate (cells/sec) : 0
ImaGroupTxFrameLength(cells) : 128
LcpDelayTolerance (IMA frames) : 1
ReadPtrWrPtrDiff (cells) : 4
Minimun number of links : 2
MaxTolerableDiffDelay (msec) : 200
Lines Present :
ImaGroupRxImaId : 0x100
ImaGroupTxImaId : 0x0
Observed Diff delay (msec) : 0
Clock Mode : CTC
GroupAlpha : 2
GroupBeta : 2
GroupGamma : 1
GroupConfiguration : 1
IMAGrp Failure status : Ne StartUp
Timing reference link : 1
Syntax : dspimagrp (or dspaimgrp) "imagroup_number"
IMA group number -- value ranging from 1 to 8
spirit.1.19.AUSM8.a >
Use the dspimagrpcnt command to view inverse multiplexing ATM (IMA) counters on the current AUSM card for all IMA groups.
Display IMA Group Counters
AUSM
dspimagrpcnt <imagroup>
imagroup | AIMUX group number, in the range 1-8. |
Log: No State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspimagrpcnt 1 IMA Group number: 1 Ne Number of failures : 0 spirit.1.19.AUSM8.a >
Use the dspimagrps command to view inverse multiplexing ATM (IMA) parameters for AUSM.
Display IMA Groups
AUSM
Log: No State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspimagrps
List of IMA groups:
===================
ImaGrp PortType Speed Lines configured Lines present Tol Diff Port State
Delay(ms)
------ -------- ----- ---------------- ------------- --------- ----------
19.1 NNI 13470 1.2.3 200 Sig. Failure
NextPortNumAvailable: 8
spirit.1.19.AUSM8.a >
Use the dspimainfo command to view information about inverse multiplexing ATM (IMA) parameters on the current AUSM card.
Display AIM (or Display IMA) Information
AUSM
dspimainfo
Log: No State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspimainfo
Link NeTx NeRx TxId RxID
State State
-----------------------------------------------------
1 (null) (null) 0 0
2 (null) (null) 0 0
3 (null) (null) 0 0
4 (null) (null) 0 0
5 (null) (null) 0 0
6 (null) (null) 0 0
7 (null) (null) 0 0
8 (null) (null) 0 0
spirit.1.19.AUSM8.a >
Use the dspimalncnt command to view current AIMUX line counters for the specified line in an IMA trunk.
Display AIM (or Display IMA) Line Count
AUSM
dspaimlncnt <imagroup> <linenum>
imagroup | AIMUX group number, in the range 1-8. |
linenum | AIMUX line number, in the range 1-8. |
Log: No State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspimalncnt 1 1
IMA group number : 1
Line number : 1
Acp Cells Received : 0
Acp Errored Cells Recvd : 0
Port changed from LDS : 0
# HEC errored cells : 0
# HEC errored seconds : 0
# Severely HEC errored seconds : 0
Syntax : dspimalncnt (or dspaimlncnt) imagroup linenum
IMA group number -- value ranging from 1 to 8
line number -- value ranging from 1 to 8.
spirit.1.19.AUSM8.a >
Use the dsplink command to view a link on a T3 line on an SRM-3T3 card.
Display Link
PXM
dsplink <T3 line number>
T3 line number | SRM-3T3 T3 line number, in the format slot.line. · Slot = enter the value 15 or 31 · Line range = 1-3 |
Log: No State: Active Privilege: 1
| T3Line | StartT | TRowStatus | TargetSlot | TargetSlotLine |
|---|---|---|---|---|
1 | 1 | Add | 7 | 1 |
1 | 2 | Add | 7 | 2 |
1 | 3 | Add | 7 | 3 |
1 | 4 | Add | 7 | 4 |
Use the dsplmiloop command to view the current local management interface (LMI) configurations. The command displays the LMI loop status as present or not present for the feeder trunk. This command can be used only if a feeder trunk exists.
Display LMI Loop
PXM
Log: No State: Any Privilege: Any
The example that follows illustrates:
1. The display feeder trunk command showing that a feeder trunk is configured on the PXM.
2. The display LMI loop command, indicating that no LMI loop exists.
NAME.1.7.PXM.a > dsptrks TRK Current Alarm Status Other End 7.1 CLEAR pswbpx1 NODENAME.1.7.PXM.a > dsplmiloop TRK IN LMI LOOP ------------------- 7.1 No
The example that follows illustrates:
1. The add LMI loop command adding an LMI loop configuration to the PXM.
2. The display LMI loop command showing that an LMI loop is present.
NODENAME.1.7.PXM.a > addlmiloop 7.1 NODENAME.1.7.PXM.a > dsplmiloop TRK IN LMI LOOP ------------------- 7.1 Yes
Use the dsplmistats command to view the current local management interface (LMI) configurations.
Display All LMI Statistics
PXM
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > dsplmistats Enabled : 1 Port Status : 0 VPI.VCI : 3.31 Polling enable : 1 T393 : 10 N394 : 5 T394 : 10 N395 : 5 WaitStatus : 0 WaitStAck : 0 Retry Timer : 0 Retry Count : 0 Poll Timer : 0 Trans Num : 0 Status Rx : 0 Status Tx : 0 UpdtStatus Rx : 0 UpdtStatus Tx : 0 Status Enq Rx : 0 Status Enq Tx : 0 Status Ack Rx : 0 Status Ack Tx : 0 NodeStatus Rx : 0 NodeStatus Tx : 18329 NodeStaAck Rx : 0 NodeStaAck Tx : 0 Bad PDU Rx : 0 Bad PDU Len Rx : 0 Unknown PDU Rx : 0 Invalid I.E. Rx: 0 Invalid Trans : 0 BPX IP Addr : 172.1.1.215 spirit4.1.8.PXM.a >
Use the dspln command to view the characteristics of a specified physical line. When the current card is a PXM, you must specify the line type:
Display Line
PXM, FRSM, AUSM, CESM
dspln <-ds3 | -e3 | -sonet> <LineNum>
-ds3 | Command delineator that precedes the line number entry for a T3 line. |
-e3 | Command delineator that precedes the line number entry for an E3 line. |
-sonet | Command delineator that precedes the line number entry for a SONET line. |
LineNum | Line number in the format slot.line. Slot = enter a value from the range 7, 8, 15, 16, 31, or 32. Line range = 1-n as appropriate for the interface. |
dspln <line_num>
line_num | Line number, in the range 1-n as appropriate for the card. |
addln, cnfln, delln
Log: No State: Active on PXM, any state on service modules Privilege: Any
This section contains the following examples.
spirit3.1.20.AUSM.a > dspln 2
LineNum: 2
LineConnectorType: BNC
LineType: dsx1E1CAS
LineEnable: Enabled
LineCoding: dsx1HDB3
LineLength: G.703 75 ohm
LineXmtClockSource: LocalTiming
LineLoopbackCommand: NoLoop
LineSendCode: NoCode
LineUsedTimeslotsBitMap: 0xffffffff
ConfigChangePortBitMap: 0x0
LineNumOfValidEntries: 4
spirit3.1.20.AUSM.a >
spirit3.1.7.PXM.a > dspln -ds3 7.1
LineNum: 1
LineType: dsx3CbitParity
LineCoding: dsx3B3ZS
LineLength: lessThan225
LineOOFCriteria: fBits3Of8
LineAIScBitsCheck: Check C-bits
LineLoopbackCommand: NoLoop
LineRcvFEACValidation: 4 out of 5 FEAC codes
LineEnable: Disable
spirit3.1.7.PXM.a >
spirit3.1.7.PXM.a > dspln -sonet 7.1
sonetLineNum: 1 sonetLineType: sonetSts3c sonetLineLoopback: NoLoop sonetHCSmasking: Enabled sonetPayloadScramble: Enabled sonetFrameScramble: Enabled sonetLineEnable: Disable sonetMediumType: sonet sonetMediumTimeElapsed: 0 sonetMediumValidIntervals: 0 sonetMediumLineCoding: NRZ sonetMediumLineType: LongSingleMode sonetMediumCircuitIdentifier: Sonet Line spirit.1.8.PXM.a >
spirit3.1.3.FRSM.a > dspln 3
LineNum: 3
LineConnectorType: RJ-48
LineType: dsx1E1CLEAR
LineEnable: Enabled
LineCoding: dsx1HDB3
LineLength: G.703 120 ohm
LineXmtClockSource: LocalTiming
LineLoopbackCommand: NoLoop
LineSendCode: NoCode
LineUsedTimeslotsBitMap: 0xffffffff
LineLoopbackCodeDetection: codeDetectDisabled
LineBertEnable: Disable
LineNumOfValidEntries: 8
Syntax : dspln "line_num"
line number -- values ranging from 1-8 are accepted, for FRSM_8
spirit3.1.3.FRSM.a >
Use the dsplnrsc command to view the resource partition information for a specified line on the PXM.
Display Line Resource
PXM
dsplnrsc <line_num>
line_num | Line number, in the range 1-n, as appropriate for the physical installation. |
Log: No State: Any Privilege: Any
spirit.1.7.PXM.a > dsplnrsc 1
ifNum Status Line ingrPctBw egrPctBw minVpi maxVpi
------------------------------------------------------
1 1 1 100 100 0 4095
spirit.1.7.PXM.a >
Use the dsplns command to view the configuration for all lines on the current card. On the PXM, you must specify the line type.
Display Lines
PXM, FRSM, AUSM, CESM, VISM
On all cards other than a PXM, enter dsplns without arguments.
On a PXM:
dsplns <LineTable> <slot>
LineTable | Line type = enter ds3, or e3, or SONET. Use the dspcd command to view line types. |
slot | Slot number = enter a value from the range 7, 8, 15, 16, 31, or 32. |
Log: No State: PXM: Active. Others: Any Privilege: Any
This section contains the following examples.
spirit3.1.3.FRSM.a > dsplns
Line Conn Type Status/Coding Length XmtClock Alarm Stats
Type Source Alarm
---- ----- ------------ ------ -------- ------------- -------- ----- -----
3.1 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.2 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.3 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.4 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.5 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.6 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.7 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
3.8 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
spirit3.1.3.FRSM.a >
porky.1.14.FRSM.a > dsplns Line Type Rate Status Alarm ---- ------ ----------- -------- --------- 14.1 dte 8192 Kbps mod Yes 14.2 dce 8192 Kbps mod No 14.3 dte 8192 Kbps mod Yes 14.4 dte 48 Kbps dis LineNumOfValidEntries: 4 porky.1.14.FRSM.a >
spirit3.1.7.PXM.a > dsplns ds3 7 Line Type Coding Length Criteria AIScBitsCheck ---- -------------- -------- ------------- ----------- ------------- 1 dsx3CbitParity Dis / dsx3B3ZS lessThan225 fBits3Of8 Check C-bits 1 dsx3CbitParity Dis / dsx3B3ZS lessThan225 fBits3Of8 Check C-bitLineNumOfValidEntries: 1 spirit3.1.7.PXM.a >
spirit3.1.19.AUSM.a > dsplns
Medium Medium Medium Medium
Line Conn Type Status/Coding Length XmtClock Alarm Stats
Type Source Alarm
---- ----- ------------ ------ -------- ------------- -------- ----- -----
19.1 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.2 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.3 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.4 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.5 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.6 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.7 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
19.8 SMB dsx1E1CCS Dis/dsx1HDB3 G.703 75 ohm LocalTim
LineNumOfValidEntries: 8
spirit3.1.19.AUSM.a >
spirit.1.8.PXM.a > dsplns sonet 7
Medium Medium Medium Medium Sonet Line Line Line HCS Payload Frame Time Valid Line Line Line Type Status Lpbk mask Scramble Scramble Elapsed Intvls Coding Type ----- ----- ------ ------ ---- -------- -------- ------- ------ ------ ------ 1 sonet Dis NoLoop Ena Enabled Enabled 0 0 NRZ LongSine 2 sonet Dis NoLoop Ena Enabled Enabled 0 0 NRZ LongSine 3 sonet Dis NoLoop Ena Enabled Enabled 0 0 NRZ LongSine 4 sonet Dis NoLoop Ena Enabled Enabled 0 0 NRZ LongSine spirit.1.8.PXM.a >
spirit3.1.7.PXM.a > dsplns sonet 7
Medium Medium Medium Medium
Sonet Line Line Line HCS Payload Frame Time Valid Line Line
Line Type Status Lpbk mask Scramble Scramble Elapsed Intvls Coding Type
----- ----- ------ ------ ---- -------- -------- ------- ------ ------ ------
1 sonet Ena NoLoop Ena Enabled Enabled 96734 96 Other LongSingleMode
spirit3.1.7.PXM.a >
Use the dsploads PAR command to view the connection load at a specified port on the AUSM. This command helps you to determine whether adding more connections is advisable.
The display shows the load in cells per second. The layout of the display is in rows and columns. One column exists for each port, and one row exists for each connection type. If the traffic is exceeding the bandwidth configured for the port, an "overload" message appears at the bottom of the column for the overloaded port.
Display Loads
AUSM
Log: No State: Active Privilege: Any
spirit3.1.20.AUSM.a > dsploads
Load Display for AUSM ports
Port 1 Port2 Port3 Port4
*******************************
CBR (based on PCR0+1) 0 0 0 0
VBR (based on PCR0+1) 0 0 0 0
ABR (based on MCR) 64000 64000 64000 64000
-------------------------------
Total 64000 64000 64000 64000
Load Status OverloadOverloadOverloadOverload
Note: All Cell Rates are multiplied by respective
Percentage Utilization factors
spirit3.1.20.AUSM.a >
Use the dsplog command to view events and messages logged by the current PXM or FRSM. The most recent events appear at the top of the list. The dsplog command displays the MGX 8800 series log. If you enter the command without either of the optional parameters, the system displays the entire log for all cards. Optionally, you can display the log for a particular card or a particular log entry.
Display Log
PXM, FRSM
dsplog -log <EventLog# > -mod <ModuleName> -sev <Severity#> -sl <Slot# > -task <TaskName>
-tge <MM/DD/YYYY-HH:MM:SS> -tle <MM/DD/YYYY -HH:MM:SS>
-log | Command delineator that precedes the EventLog# entry. |
EventLog# | Number of the event log item. |
-mod | Command delineator that precedes the Module Name entry. |
Module Name | Module name. |
-sev | Command delineator that precedes the Severity # entry. |
Severity # | Severity number. |
-sl | Command delineator that precedes the Slot# entry. |
Slot# | Slot number that contains the card associated with the event log. |
-task | Command delineator that precedes the TaskName entry. |
TaskName | Task name. |
-tge | Command delineator that precedes the MM/DD/YYYY-HH:MM:SS entry. |
MM/DD/YYYY-HH:MM:SS | Month, day, year, hour, minute, second. |
-tle | Command delineator that precedes the MM/DD/YYYY-HH:MM:SS entry. |
MM/DD/YYYY-HH:MM:SS | Month, day, year, hour, minute, second. |
Log: No State: Any Privilege: Any
spirit3.1.7.PXM.a > dsplog dsplog 04/01/70-13:10:03 tRootTask 2 Illegal msg received 04/01/70-13:10:07 aum 1312 local IP address not programmed 03/01/70-20:11:31 smm 1207 slave ack timeout spirit3.1.7.PXM.a >
Use the dsplogs command to view information from all event log files.
Display Logs
PXM, FRSM
dsplogs
Log: No State: Any Privilege: Any
spirit11.1.7.PXM.a > dsplogs
spirit11.1.7.PXM.a > dsplogs
log_file: C:/LOG/event04.log
created when 11/08/1998-19:19:58
error sequence # : 0
log_file: C:/LOG/event03.log
created when 11/04/1998-03:34:38
error sequence # : 0
log_file: C:/LOG/event02.log
created when 11/04/1998-03:18:26
error sequence # : 0
log_file: C:/LOG/event01.log
created when 11/04/1998-03:15:22
error sequence # : 0
spirit11.1.7.PXM.a >
Use the dspmaptbl command to view the numbers assigned to Frame Relay ports or ATM ports on the FRSM or AUSM, respectively.
Display Map Table
FRSM, AUSM
Log: No State: Active Privilege: Any
This section contains the following examples.
spirit3.1.17.FRSM.a > dspmaptbl
PortNum DLCI ChanNum LineNum ------- ---- ------- ------- 1 100 69 1 1 101 70 1 1 102 71 1 1 103 72 1 1 104 73 1 1 105 74 1 1 106 75 1 1 107 76 1 1 108 77 1 1 109 78 1 1 110 79 1 1 111 80 1 1 112 81 1 1 113 82 1 1 114 83 1 1 115 84 1 2 100 85 1 2 101 86 1 2 102 87 1 2 103 88 1 spirit3.1.17.FRSM.a >
spirit3.1.20.AUSM.a > dspmaptbl
PortNum VPI VCI ChanNum Channel Type ------- --- --- ------- ------------ 1 1 16 16 VCC 1 1 17 17 VCC 1 1 18 18 VCC 1 1 19 19 VCC 1 1 20 20 VCC 1 1 21 21 VCC 1 1 22 22 VCC 1 1 23 23 VCC 1 1 24 24 VCC 1 1 25 25 VCC 1 1 26 26 VCC 1 1 27 27 VCC 1 1 28 28 VCC 1 1 29 29 VCC 1 1 30 30 VCC 1 1 31 31 VCC 1 1 32 32 VCC 1 1 33 33 VCC 1 1 34 34 VCC 1 1 35 35 VCC spirit3.1.20.AUSM.a >
Use the dspmsgcnt command to view the control message counters for the card.
Display Control Message Counters
FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit.1.19.AUSM8.a > dspmsgcnt RiscXmtCtrlMsg: 88006 RiscRcvCtrlMsg: 53494 SARXmtCtrlMsg: 88006 SARRcvCtrlMsg: 53494 SARCtrlMsgDiscLenErr: 0 SARCtrlMsgDiscCRCErr: 0 SARCtrlMsgDiscUnknownChan: 0 SARCtrlMsgLastUnknownChan: 0 spirit.1.19.AUSM8.a >
spirit.1.5.VISM8.a > dspmsgcnt RiscXmtCtrlMsg: 83606 RiscRcvCtrlMsg: 83606 SARXmtCtrlMsg: 83445 SARRcvCtrlMsg: 83606 SARCtrlMsgDiscLenErr: 0 SARCtrlMsgDiscCRCErr: 0 SARCtrlMsgDiscUnknownChan: 0 SARCtrlMsgLastUnknownChan: 0 spirit.1.5.VISM8.a >
Use the dspname PAR command to view the name of the node.
Display Name
PXM
dspname
Log: No State: Active Privilege: Any
wilco.1.7.PXM.a > dspname Node Name : wilco wilco.1.7.PXM.a >
Use the dspnwip PAR command to view the network IP address for the switch.
Display Network IP Address
PXM
dspnwip
Log: No State: Active Privilege: Any
wilco.1.7.PXM.a > dspnwip Node IP : 192.0.0.0 wilco.1.7.PXM.a >
Use the dspoamlpbk command to display the status of an OAM loopback test. The display indicates the PVCs currently under OAM loopback alarm, and the transmission rate of the OAM loopback cells.
Display OAM Loopback
FRSM 2T3/E3, FRSM HS2
Log: No State: Any Privilege: Any
popeye1r.1.17.VHS2CT3.s > dspoamlpbk RasOamlpbkAllowedState: Disabled RasOamlpbkFrequency : 1 Channels 16 : 0000000000 0000000000 0000000000 0000000000 56 : 0000000000 0000000000 0000000000 0000000000 96 : 0000000000 0000000000 0000000000 0000000000 136 : 0000000000 0000000000 0000000000 0000000000 176 : 0000000000 0000000000 0000000000 0000000000 216 : 0000000000 0000000000 0000000000 0000000000 256 : 0000000000 0000000000 0000000000 0000000000 296 : 0000000000 0000000000 0000000000 0000000000 336 : 0000000000 0000000000 0000000000 0000000000 376 : 0000000000 0000000000 0000000000 0000000000 416 : 0000000000 0000000000 0000000000 0000000000 456 : 0000000000 0000000000 0000000000 0000000000 496 : 0000000000 0000000000 0000000000 0000000000 536 : 0000000000 0000000000 0000000000 0000000000
popeye1r.1.17.VHS2CT3.a > dspoamlpbk RasOamlpbkAllowedState: Enabled RasOamlpbkFrequency : 2 Following Channels are under Ras Alarm : Channels 16 : 0000000000 0000000000 0000000000 0000000000 56 : 0000000000 0000000000 0000000000 0000000000 96 : 0000000000 0000000000 0000000000 0000000000 136 : 0000000000 0000000000 0000000000 0000000000 176 : 0000000000 0000000000 0000000000 0000000000 216 : 0000000000 0000000000 0000000000 0000000000 256 : 0000000000 0000000000 0000000000 0000000000 296 : 0000000000 0000000000 0000000000 0000000000 336 : 0000000000 0000000000 0000000000 0000000000 376 : 0000000000 0000000000 0000000000 0000000000 416 : 0000000000 0000000000 0000000000 0000000000 456 : 0000000000 0000000000 0000000000 0000000000 496 : 0000000000 0000000000 0000000000 0000000000 536 : 0000000000 0000000000 0000000000 0000000000
Use the dsponoff command to view all parameters activated by the onoff command for the current PXM.
Display Onoff Command Settings
PXM
dsponoff
Log: No State: Active Privilege: 2
spirit4.1.8.PXM.a > dsponoff
1 Background Updates NO
2 Dynamic BW Allocation YES
3 Cm Updates YES
4 Cm_Rerouting YES
5 Comm Fail Test YES
6 Deroute Delay YES
7 Auto Renum Fail Recov YES
spirit4.1.8.PXM.a >
Use the dspparifs PAR command to view all Portable AutoRoute (PAR) interfaces for the current PXM.
Display PAR Interfaces
PXM
dspparifs
Log: No State: Active Privilege: Any
spirit.1.7.PXM.a > dspparifs
slot.port type status vpi vci txRate rxRae
--------------------------------------------------------------------------------
7.1 UNI_IF FAILED 0 to 4095 0 to 65535 96000 9600
0.33 CLK_IF FAILED 0 to 0 0 to 0 0 0
7.33 UNI_IF UP 0 to 255 0 to 65535 176604 17664
7.34 UNI_IF UP 0 to 255 0 to 65535 176604 17664
spirit.1.7.PXM.a >
Use the dspplpp command to view the configured Physical Layer Protocol Processor (PLPP) parameters on the current AUSM.
Display PLPP
AUSM
dspplpp <port number>
port number | Port number, in the range 1-8. |
Log: Yes State: Active Privilege: 1
spirit.1.19.AUSM8.a > dspplpp 1 PhysicalPortNumber: 1 CellFraming: ATM CellScramble: Scramble Plpp Loopback: No Loopback Single-bit error correction: Disabled spirit.1.19.AUSM8.a >
Use the dspport command on an FRSM and CESM to view the port configuration for the specified port.
Use the dspport command on an AUSM to view the Physical Layer Protocol Processor configuration for the specified port.
Display Port
FRSM, AUSM, CESM
dspport <port number>
port number | Port number, in the range appropriate for the card. · FRSM
· AUSM range = 1-8 · CESM range = 1-8 |
Log: No State: Active Privilege: Any
This section contains the following examples.
popeye.1.17.FRSM.a > dspport 1 SlotNum: 17 PortLineNum: 1 PortNum: 1 PortRowStatus: Add PortDs0Speed: 64k PortDs0ConfigBitMap(1stDS0): 0xffffff(1) PortEqueueServiceRatio: 1 PortFlagsBetweenFrames: 1 PortSpeed: 1536kbps SignallingProtocolType: NoSignalling AsynchronousMsgs: UPD_UFS disabled T391LineIntegrityTimer: 10 T392PollingVerificationTimer: 15 N391FullStatusPollingCounter: 6 N392ErrorThreshold: 3 N393MonitoredEventCount: 4 EnhancedLmi: Off PortState: Active PortSignallingState: No Signalling Failure CLLMEnableStatus: Disable CLLMxmtStatusTimer: 0 Type <CR> to continue, Q<CR> to stop: portType: frameRelay PortIngrPercentUtil: 0 PortEgrPercentUtil: 0 PortOversubscribed: False PortSvcStatus: Disable PortSvcInUse: Not In-Use PortSvcShareLcn: Card-based PortSvcLcnLow: 0 PortSvcLcnHigh: 0 PortSvcDlciLow: 0 PortSvcDlciHigh: 0 PortDs0UsedLine1: 0x00ffffff PortDs0UsedLine2: 0x00ffffff PortDs0UsedLine3: 0x00ffffff PortDs0UsedLine4: 0x00000000 PortDs0UsedLine5: 0x00000000 PortDs0UsedLine6: 0x00000000 PortDs0UsedLine7: 0x00000000 PortDs0UsedLine8: 0x00000000 PortNumNextAvailable: 31
popeye.1.29.AUSMB8.a > dspport 1 LogicalPortNumber: 1 Port Enable: UP Port State: Line alarm PortType: UNI PhysicalPortNumber: 1 CellFraming: ATM CellScramble: Scramble Plpp Loopback: No Loopback Single-bit error correction: Disabled
popeye.1.27.AUSMB8.a > dspport 1 (or dspimagrp 1) IMA Group number : 1 Port type : UNI Lines configured : 1.2.4 Enable : Enabled IMA Port state : Active IMA Group Ne state : operational PortSpeed (cells/sec) : 10773 GroupTxAvailCellRate (cells/sec) : 7182 ImaGroupTxFrameLength(cells) : 128 LcpDelayTolerance (IMA frames) : 1 ReadPtrWrPtrDiff (cells) : 4 Minimun number of links : 2 MaxTolerableDiffDelay (msec) : 275 Lines Present : 1.2 ImaGroupRxImaId : 0x0 ImaGroupTxImaId : 0x0 Observed Diff delay (msec) : 0 Clock Mode : CTC GroupAlpha : 2 GroupBeta : 2 GroupGamma : 1 GroupConfiguration : 1 IMAGrp Failure status : No Failure Timing reference link : 1
golden.1.5.VHS2CT3.a > dspport 1
SlotNum: 5
PortLineNum: 1
PortNum: 1
PortRowStatus: Add
PortDs0Speed: 64k
PortDs0ConfigBitMap(1stDS0): 0xffffff(1)
PortEqueueServiceRatio: n/a
PortFlagsBetweenFrames: 0
PortSpeed: 1536 kbps
SignallingProtocolType: NoSignalling
AsynchronousMsgs: UPD_UFS disabled
T391LineIntegrityTimer: 10 sec
T392PollingVerificationTimer:15 sec
N391FullStatusPollingCounter:6
N392ErrorThreshold: 3
N393MonitoredEventCount: 4
EnhancedLmi: Off
PortState: FailedDuetoLineFailure
PortSignallingState: No Signalling Failure
CLLMEnableStatus: Disable
CLLMxmtStatusTimer: 40 ms
portType: frameRelay
portEnhancedSIW: Disable
PortIngrPercentUtil: 0
PortEgrPercentUtil: 0
PortOversubscribed: False
PortSvcStatus: Disable
PortSvcInUse: Not In-Use
PortSvcShareLcn: Card-based
PortSvcLcnLow: 0
PortSvcLcnHigh: 0
PortSvcDlciLow: 0
PortSvcDlciHigh: 0
PortNumNextAvailable: 2
golden.1.25.FRSM.a > dspport 1 SlotNum: 25 PortNum: 1 PortRowStatus: Add PortEqueueServiceRatio: 1 PortFlagsBetweenFrames: 1 PortSpeed: 48 Kbps SignallingProtocolType: NoSignalling AsynchronousUpdates: dis T391LineIntegrityTimer: 10 T392PollingVerificationTimer:15 N391FullStatusPollingCounter:6 N392ErrorThreshold: 3 N393MonitoredEventCount: 4 EnhancedLmi: Off PortState: FailedDuetoLineFailure PortSignallingState: No Signalling Failure CLLMEnableStatus: dis CLLMxmtStatusTimer: 0 portType: frameRelay PortIngrPercentUtil: 0 PortEgrPercentUtil: 0 PortOversubscribed: False
Use the dspportcnt command to view counters for a specified port.
Display Port Counters
PXM, FRSM, AUSM, CESM
dspportcnt <port number>
port number | Port number, in the range appropriate for the card. · PXM range = 1-32 · FRSM
· CESM
· AUSM range = 1-8 |
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit3.1.20.AUSM.a > dspportcnt 1
PortNum: 1 PortState: Sig. Failure IngressRcvCells: 0 IngressRcvCellRate (cells/sec): 0 IngressRcvUtilization (percentage): 0 IngressXmtCells: 0 IngressGFCErrorCells: 0 IngressVpiVciErrCells: 0 IngressUnknownVpiVci: 0x0 IngressRcvClpSetCells: 0 EgressRcvCells: 0 EgressRcvCellRate (cells/sec): 0 EgressRcvUtilization (percentage): 0 EgressXmtCells: 0 EgressXmtCellRate (cells/sec): 0 EgressXmtUtilization (percentage): 0 EgressPortAlarmDiscardCells: 0 EgressXmtClpSetCells: 0 EgressXmtEfciSetCells: 0 PortXmtAisCells: 0 PortXmtSgmtLpbkCells: 0 PortRcvAisCells: 0 PortRcvFerfCells: 0 PortRcvSgmtLpbkCells: 0 PortRcvCrcErrOAMCells: 0 TotalIngressQFullDiscardCells: 0 TotalIngressClpSetDiscardCells: 0 TransmitFIFOFullCount (per card): 0 ReceivedHECErrorCells: 0 HECErroredSeconds: 0 SeverelyHECErroredSeconds: 0 spirit3.1.20.AUSM.a >
spirit3.1.17.FRSM.a > dspportcnt 1
Tx Rx
--------------- ---------------
Total Frames: 0 0
Total Bytes: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
Frames Abort: 0 0
Buf Not Available: 0 0
KbpsAIR: 0 0
XmtFramesDiscXceedQDepth: 0
XmtBytesDiscXceedQDepth: 0
XmtFramesDuringLMIAlarm: 0
XmtByteDuringLMIAlarm: 0
XmtFramesUnderrun: 0
RcvFramesDE: 0
RcvFramesDiscCRCError: 0
RcvFramesDiscIllegalHeader: 0
RcvFramesDiscAlignmentError: 0
RcvFramesDiscIllegalLen: 0
RcvFramesDiscXceedDEThresh: 0
RcvFramesUnknownDLCI: 0
RcvLastUnknownDLCI: 0
RcvFramesTaggedFECN: 0
RcvFramesTaggedBECN: 0
RcvFramesTaggedDE: 0
Status: 0 0
StatusInquiry: 0 0
AsynchUpdate: 0 0
RcvInvalidRequest: 0
RcvUNISeqMismatch: 0
RcvNNISeqMismatch: 0
UNISignallingTimeout: 0
NNISignallingTimeout: 0
FramesCLLM: 0 0
BytesCLLM: 0 0
CLLMFailures: 0
spirit3.1.17.FRSM.a >
spirit4.1.8.PXM.a > dspportcnt 1 Interface Num : 1 Interface State : Line Failure Total Cells : 0 Received OAM Cells : 0 Received RM Cells : 0 Received CLP0 Cells : 0 Received CLP1 Cells : 0 Received CLP0,Discarded Cells : 0 Received CLP1,Discarded Cells : 0 Transmitted OAM Cells : 0 Transmitted RM Cells : 0 Transmitted CLP0 Cells : 256656 Transmitted CLP1 Cells : 0 spirit4.1.8.PXM.a >
Use the dspportq command to view queue information for a specified port and egress queue on the AUSM.
Display Port Queue Information
AUSM
dspportq <port number> <egress queue number>
port number | Port number, in the range 1-8. |
egress queue number | Egress queue number, in the range 1-12. |
Log: No State: Any Privilege: Any
spirit3.1.20.AUSM.a > dspportq 1 1
ServicePortNum: 1
QueueNumber: 1
PortBinState: Disable
ServiceSequence: 255
QueueDepth(cells): 500
CLPThresholdHigh(cells): 450
CLPThresholdLow(cells): 400
EFCIThreshold(cells): 400
QueueAlgorithm: 255
MaxBandwidthIncrement: 4096
MinBandwidthIncrement: 0
QCLPState: Low
QFullDiscardedCells: 0
CLPSetDiscardedCells: 0
Syntax : dspportq "port_num egress_q"
port number -- values ranging from 1-8
queue # -- queue number : 1 - 16, 0 - for default in addchan
spirit3.1.20.AUSM.a >
Use the dspportqs command to view queue information for all the egress queues on an AUSM port.
Display Port Queue Information
AUSM
Log: No State: Any Privilege: Any
spirit.1.19.AUSM8.a > dspportqs
Port Q Num State Q-Algo Service-Seq Depth-Max CLP-High CLP-Low EFCI-Thrsh
---- ----- ----- ------ ----------- --------- -------- ------- ----------
1 1 Enabled 3 1 200 180 160 160
1 2 Enabled 3 2 900 800 700 700
1 3 Enabled 3 3 900 800 700 700
4 1 Enabled 3 1 200 180 160 160
4 2 Enabled 3 2 900 800 700 700
4 3 Enabled 3 3 900 800 700 700
Syntax : dspportqs
Use the dspportrscprtn command to view the port resource partition on the current PXM.
Display Port Resource Partition Information
PXM
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > dspportrscprtn
Port Ctrlr Row PctBw VPI VCI Max
Num Type Stat In/Out min/max min/max GLCNs
-------------------------------------------------------------
1 PAR ON 100/100 0/255 0/65535 32767
1 PNNI ON 100/100 0/255 0/65535 32767
1 TAG ON 100/100 0/255 0/65535 32767
2 PAR ON 100/100 0/255 0/65535 32767
2 PNNI ON 100/100 0/255 0/65535 32767
2 TAG ON 100/100 0/255 0/65535 32767
spirit4.1.8.PXM.a >
Use the dspports command to view information about all ports on the current card.
Display Ports
PXM, FRSM, AUSM, CESM
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit3.1.17.FRSM.a > dspports
Port Ena/Speed EQService SignalType T391 T392 N391 N392 N393 InAlarm
Ratio
-------- --- ----- --------- ------------ ---- ---- ---- ---- ---- -------
17.2.1 Add/1536k 1 NoSignalling 10 15 6 3 4 No
17.2.2 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.3 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.4 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.5 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.6 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.7 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.8 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.9 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.10 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.11 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.12 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.13 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.14 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.15 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.16 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.17 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.18 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
17.2.19 Add/ 64k 1 NoSignalling 10 15 6 3 4 No
pop_oc12.1.8.PXM.a > dspports
Port Status Line PctBw minVpi maxVpi
------------------------------------------------------
1 ON 1 100 0 4095
2 ON 2 100 0 4095
spirit.1.19.AUSM8.a > dspports
No ATM T1/E1 UNI ports currently active
List of IMA groups:
===================
ImaGrp PortType Speed Lines configured Lines present Tol Diff Port State
Delay(ms)
------ -------- ----- ---------------- ------------- --------- ----------
19.1 NNI 13470 1.2.3 200 Sig. Failure
NextPortNumAvailable: 2
spirit.1.19.AUSM8.a >
MGX-01.1.1.CESM.a > dspports Port Ena/Speed Type ------ --- ------ -------- 1.1.1 Add/1536k structur Number of ports: 1 PortDs0UsedLine1: 0x00ffffff PortDs0UsedLine2: 0x00000000 PortDs0UsedLine3: 0x00000000 PortDs0UsedLine4: 0x00000000 PortDs0UsedLine5: 0x00000000 PortDs0UsedLine6: 0x00000000 PortDs0UsedLine7: 0x00000000 PortDs0UsedLine8: 0x00000000 PortNumNextAvailable: 10 MGX-01.1.1.CESM.a >
Use the dspportstats command to view statistics information for a specified port on the FRSM.
Display Port Statistics
FRSM
dspportstats <line#> <1st_DS0>
line# | Line number, in the range 1-8. |
1st_DS0 | First DS0, in the range appropriate for the interface. · T1 range = 1-24 · E1 range = 1-32 |
Log: No State: Any Privilege: Any
spirit3.1.17.FRSM.a > dspportstats 1 12
Line Num:1
Physical Port Num: 12
Logical Port Num: 4
Tx Rx
--------------- ---------------
Total Frames: 0 0
Total Bytes: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
Frames Abort: 0 0
Buf Not Available: 0 0
KbpsAIR: 0 0
XmtFramesDiscXceedQDepth: 0
XmtBytesDiscXceedQDepth: 0
XmtFramesDuringLMIAlarm: 0
XmtByteDuringLMIAlarm: 0
XmtFramesUnderrun: 0
RcvFramesDE: 0
RcvFramesDiscCRCError: 0
RcvFramesDiscIllegalHeader: 0
RcvFramesDiscAlignmentError: 0
RcvFramesDiscIllegalLen: 0
RcvFramesDiscXceedDEThresh: 0
RcvFramesUnknownDLCI: 0
RcvLastUnknownDLCI: 0
RcvFramesTaggedFECN: 0
RcvFramesTaggedBECN: 0
RcvFramesTaggedDE: 0
Status: 0 0
StatusInquiry: 0 0
AsynchUpdate: 0 0
RcvInvalidRequest: 0
RcvUNISeqMismatch: 0
RcvNNISeqMismatch: 0
UNISignallingTimeout: 0
NNISignallingTimeout: 0
FramesCLLM: 0 0
BytesCLLM: 0 0
CLLMFailures: 0
spirit3.1.17.FRSM.a >
Use the dspprf command to view profiler data. The profiler is organized in terms of resources that are being monitored. The data being collected for a particular resource can be of "interval" or "total" nature. If the total option is specified, the last 150 tasks executed, or that are executing, are displayed. If no options are specified, the dspprf command shows interval data. Note that the interval is configured using the cnfprfparam command.
If the abort option is added to the command, the latest profiler data that is saved during a Controller Card abort is displayed; for example, 1 million 3, 3 million, 2 million 1000, 52, 252. If the profiler is examined without the "abort" (a) option, then the real-time data that is being collected every "x" seconds (configured using cnfprfparam) is displayed. By default, the real-time data is collected every 20 seconds.
Display Profiler Data
PXM
t | Total data collected from the time when the system is initialized. |
i | Interval data collected every "x" seconds, as specified using the cnfprfparm command. If no options are specified, interval data is displayed. |
m | Displays memory data. |
n | Displays node information. |
r | Displays region usage. |
Log: No State: Active_Only Privilege: Any
All valid combinations possible with the dspprf command are listed below. The [a] and [s] options specify abort or standby data.
dspprf i m
dspprf t m
dspprf i n
dspprf t n
dspprf i r
dspprf t r
NODENAME.1.7.PXM.a > dspprf i m
HP LP Free Assgn
INTERRUPT
0 0 0 0
0 0 0 0
0 0 0 0
UNKOWN
0 0 0 0
0 0 0 0
0 0 0 0
tRootTask
0 0 0 0
0 0 0 0
0 0 0 0
tLOGD
2 0 2 0
2 0 2 0
2 0 2 0
tSPM
0 0 0 0
0 0 0 0
0 0 0 0
tParRoot
358 0 358 0
1000 0 1000 0
1000 0 1000 0
tIpatm
0 0 0 0
2 0 2 0
2 0 2 0
tRVT
0 0 0 0
0 0 0 0
0 0 0 0
tCliAuthTra
0 0 0 0
0 0 0 0
0 0 0 0
tTnInTsk01
28 0 28 0
1 0 2 0
20 0 20 0
Task names | Task names for the tasks that are spawned. For dynamic tasks, note that task names are repeated since they are spawned, exited, and repeated. |
HP | Number of times the task made a high-priority memory allocation. |
LP | Number of times the task made a low-priority memory allocation. |
Free | Number of times the task made a free memory call. |
Assgn | Number of times memory was assigned to this process. |
NODENAME.1.7.PXM.a > dspprf t m
Blk Size MaxBlk MaxSz
UNKOWN 204 24896 204 24896
tRootTask 80 5129696 80 5129696
tLOGD 1 80 2 160
tSAR 0 0 0 0
tSCM 201 19296 202 19376
tRPC 2 144 5 400
tDBM 201 192240 232 202656
tDbmDisk 2 160 2 160
tDbmRam 1 80 1 80
tPMM 9 592 12 864
tLDRV 7 459136 9 459312
tOAM 0 0 1 16432
tTFTPD 20 11200 20 11200
tFILED 0 0 0 0
tDbgInTask 8 3200 10 4512
tTelnetD 2 304 6 27296
tRed 7 576 10 1216992
tRMM 2241 267712 2241 267712
tAutoCard 4 272 7 672
tVsmCMM 2 368 3 1216928
tVsmConMgr 25 1808 26 18240
tVsmIlmi 0 0 0 0
BlkAssgn AssgnSz BlkFree FreeSz Fail
UNKOWN 0 0 0 0 0
tRootTask 0 0 0 0 0
tLOGD 0 0 2170 173600 0
tSAR 0 0 0 0 0
tSCM 7 560 2923 233840 0
tRPC 2 176 18 1504 0
tDBM 62 20832 121 33680 0
tDbmDisk 0 0 0 0 0
tDbmRam 0 0 0 0 0
tPMM 6 544 5 432 0
tLDRV 2 176 0 0 0
tOAM 0 0 1 16432 0
tTFTPD 0 0 0 0 0
tFILED 0 0 0 0 0
tDbgInTask 21 20032 21 18880 0
tTelnetD 0 0 22 81632 0
tRed 4 1219696 43274 5456384 0
tRMM 0 0 0 0 0
tAutoCard 1 176 2 224 0
tVsmCMM 0 0 4 1216800 0
tVsmConMgr 1 16432 0 0 0
tVsmIlmi 0 0 0 0 0
Task names | Task names for the tasks that are spawned. Note that some task names are repeated because they are dynamic tasks that are spawned, then exited. |
Blks | Number of memory blocks currently owned by the task. Blks provides an approximation of the memory consumption by a task under "normal" circumstances (assuming the command was executed when the node was "normal"). This value should not be negative. A negative value could indicate a preemptive update issue with the statistics. |
Size | The total size of memory owned by task, in bytes. This value should not be negative. A negative value could indicate a preemptive update issue with the statistics. |
MaxBlks | Maximum number of blocks currently used by a given task. This data helps in debugging memory-related aborts or problems. |
MaxSize | Maximum total memory used by a given task. |
BlkAssgn | When memory is sent or passed from one task to another task, its ownership is assigned to the task that is receiving the responsibility for the memory. BlkAssign and Assgnl counts keep track of blocks that have been assigned ownership to another task. |
AssgnSz | When memory is sent or passed from one task to another task, its ownership is assigned to the task that is receiving the responsibility for the memory. BlkAssign and AssgnSz counts keep track of blocks that have been assigned ownership to another task. |
BlkFree | Number of available memory blocks. |
FreeSz | Maximum total memory available. |
Fails | Number of times memory allocation failed for the task. |
Displays statistics on the amount of SAR buffer used for messaging with other cards or nodes.
NODENAME.1.7.PXM.a > dspprf in
Fail HP LP
CELL
0 63 0
0 63 0
0 64 0
SMALL
0 1 0
0 27 0
0 27 0
MEDIUM
0 0 0
0 0 0
0 0 0
LARGE
0 0 0
0 0 0
0 0 0
Pk Tx Low(APP->SCM)
0 0 0
Pk Tx High(APP->SCM)
0 0 0
Pk Rx Low(SAR->SCM)
1 1 1
Pk Rx High(SAR->SCM)
0 0 0
popftx43.1.8.PXM.a >
CELL | The CELL buffer is the size of one ATM cell. |
SMALL | The SMALL buffers are approximately 6 cells of frame payload in size. |
MEDIUM | The MEDIUM buffers are approximately 41 cells of frame payload in size. |
LARGE | The LARGE buffers are approximately 171 cells of frame payload in size. |
Pk Tx Low (APP->SCM) | Represents the interval counts of messages transmitted from the Shelf Control Module (SCM) of Type Low. |
Pk Tx High (APP->SCM) | Represents the interval counts of messages transmitted from the Shelf Control Module (SCM) of Type High. |
Pk Rx Low (SAR->SCM) | Represents the interval counts of messages received by the Shelf Control Module (SCM) of Type Low. |
Pk Rx High (SAR->SCM) | Represents the interval counts of messages received by the Shelf Control Module (SCM) of Type High. |
Fail | Indicates how many buffer allocations of that size have failed in the interval. |
HP | The high-priority allocation of buffer in the interval. |
LP | The low-priority allocation of buffer in the interval. |
This command displays information about some of the node-wide resources. Currently, message buffers usage for messaging between different processes are stored.
NODENAME.1.7.PXM.a > dspprf tn Pool Name: TotlChnk FreeChnk LoWatMk AllocOks AllcFail Frees ---------------- -------- -------- -------- -------- -------- -------- Nw_Prot_Pkt 100 100 100 0 0 0 Nw_Msg_Ltr 1000 999 999 1 0 0 Cm_SCon_Bmap 10 10 10 0 0 0 Cm_Mcon_Bmap 10 9 9 1 0 0 IPC port info 100 100 100 0 0 0
Pool names | The following chunk pool names are used in PAR and for IPC to the RPM:
· Nw_Prot_Pkt = Network Protocol Packet · Nw_Msg_Ltr = Network Message Letter · Cm_SCon_Bmap = Connection Management Standby Connection Bit map · Cm_Mcon_Bmap = Connection management Mandatory Connection Bit map · IPC port info = Interprocess Communication port information |
TotlChnk | Total number of chunks in a particular memory pool. |
FreeChnk | The number of chunks currently free. |
LoWatMk | The low-water mark, which indicates how low the number of free chunks has gone. |
AllocOks | Allocations OK is the total number of allocations that succeeded. |
AllcFail | Allocations Fail is the total number of allocation failures. |
Frees | The number of chunks that have been freed over time. |
NODENAME.1.7.PXM.a > dspprf ir
HP LP Fail
STATIC Smple 0 21 0 0
STATIC Smple -1 27 0 0
STATIC Smple -2 22 0 0
DYNAMIC Smple 0 1057 0 0
DYNAMIC Smple -1 1057 0 0
DYNAMIC Smple -2 1061 0 0
STATISTC Smple 0 0 0 0
STATISTC Smple -1 0 0 0
STATISTC Smple -2 0 0 0
HP | High-priority allocation to the various regions that succeeded in the interval. |
LP | Low-priority allocation to the various regions that succeeded in the interval |
Fail | The high-priority and low-priority allocation failures to the various regions that occurred during the interval. |
Static | Static region. |
Dynamic | Dynamic region. Note that a high-priority allocation in the dynamic region will go to the static region if necessary. Low-priority allocation in the region is blocked once the amount of free memory goes below a threshold. |
Statistic | Statistic region. |
NODENAME.1.7.PXM.a > dspprf tr
Aval Fail
STATIC 34649040 0
DYNAMIC 30099744 0
STATISTIC 6078464 0
Aval | Number of bytes available in the three memory regions. |
Fail | Fail represents memory allocations that have failed over time. |
Static | Static region. |
Dynamic | Dynamic region. |
Statistic | Statistic region. |
Use the dspprfhist command to view performance history. The history maintains the real-time usage (historical) of all the tasks in the system. It can maintain 120 intervals worth of real-time data before it is overwritten. The actual time then depends on the interval time as configured by cnfprfparam 1 command (Interval Time). By default, the interval time is 20 seconds. Multiplied by 120 intervals, this would result in 120 * 20 = 2400 seconds of data. Therefore, you can display 2400 seconds of real-time usage by the different tasks in the system. Unlike the regular dspprf screens, this data is NOT saved on an abort.
This command is useful to determine the real-time usage after a particular event. For example, after a CC switchover or a CC rebuild, run dspprfhist to view how the real time was being used to recover from the rebuild or switchover.
Display Performance History
PXM
dspprfhist [intervals]
intervals | Number of samples to display, in the range 1-120 Default = 10 |
Log: No State: Active_Only Privilege: Any
NODENAME.1.7.PXM.a > dspprfhist CURRENT TIME 19:4:53 Sample # 0 19:4:31(From)-19:4:51(To) TASK TaskId % --------------------------------------- INTERRUPT - 0.2000 KERNEL - 0.6000 IDLE - 55.1000 UNKOWN - 0.1000 tSpmLmi 41 1.4500 tBgndCheck 59 0.0500 tTnCmdTsk01 84 42.2500 tTnOutTsk01 85 0.2500 Sample # -1 19:4:11(From)-19:4:31(To) TASK TaskId % --------------------------------------- INTERRUPT - 0.2500 KERNEL - 0.3500 IDLE - 45.2000 UNKOWN - 0.2500 tSpmLmi 41 1.4500 PAR:Lmi 53 0.0500 PAR:Netw 56 0.0500 tBgndCheck 59 0.0500 tTnCmdTsk01 84 52.2500 tTnOutTsk01 85 0.1000 Sample # -2 19:3:51(From)-19:4:11(To) TASK TaskId % --------------------------------------- INTERRUPT - 0.0000 KERNEL - 0.0000 IDLE - 98.6000 UNKOWN - 0.0000 tSpmLmi 41 1.4000
Task | The task name that was running. |
Task ID | An ID number assigned to the task that was running. |
% | Utilization percentage. In each sample, only those processes/tasks that are actually being used in the respective time sample are presented with a %utilization, (except for the INTERRUPT, KERNEL, IDLE, UNKNOWN processes/tasks). |
Use the dspred command to view the current redundant slot links.
Display Redundancy
PXM
dspred
Log: No State: Active Privilege: Any
spirit.1.7.PXM.a > dspred
Primary Primary Primary Secondary Secondary Secondary Red. Red.Slot
SlotNum Type State SlotNum Type State Type Cover
------- ------- ------- --------- --------- --------- ---- --------
3 FRSM-8T1 Active 4 FRSM-8T1 Standby 1:N 0
spirit.1.7.PXM.a >
Use the dsprscprtn command to view the resource partition information for the specified interface.
Display Resource Partition
PXM
dsprscprtn <if_num> <ctrlr_num>
if_num | Interface Number, in the range 1-32. |
ctrlr_num | Value to set controller type. · 1 = PAR · 2 = PNNI · 3 = TAG |
Log: No State: Any Privilege: Any
MGX-01.1.7.PXM.a > dsprscprtn 1 1
bbIfNum Ctrlr Status ingrPctBw egrPctBw minVpi maxVpi minVci maxVci maxChans
-----------------------------------------------------------------------------
1 1 Ena 100 100 0 4095 0 65535 32767
MGX-01.1.7.PXM.a >
Use the dsprscprtns command to view the resource partition information for all the interfaces.
Display Resource Partitions
PXM
dsprscprtns
Log: No State: Any Privilege: Any
MGX-01.1.7.PXM.a > dsprscprtns
bbIfNum Ctrlr Status ingrPctBw egrPctBw minVpi maxVpi minVci maxVci maxChans
-----------------------------------------------------------------------------
1 1 Ena 100 100 0 4095 0 65535 32767
MGX-01.1.7.PXM.a >
Use the dspsarchans command to view the Segmentation and Reassembly (SAR) channels for the current card.
Display SAR channels
PXM
Log: No State: Any Privilege: Any
penguin.1.7.PXM.a > dspsarchans
GLCN SLOT LCN RX/TX
------------------------------------------
Intercard Channels:
1 23 0 TX
3 8 2 TX
6 8 2 RX
68 1 2 TX
69 1 2 RX
70 1 3 TX
71 1 3 RX
78 1 7 TX
79 1 7 RX
88 2 2 TX
89 2 2 RX
90 2 3 TX
91 2 3 RX
98 2 7 TX
99 2 7 RX
108 3 2 TX
109 3 2 RX
. . . .
. . . .
. . . .
568 26 2 TX
569 26 2 RX
570 26 3 TX
571 26 3 RX
658 30 7 TX
659 30 7 RX
External Channels:
GLCN IF VPI VCI RX/TX
-------------------------------------------------
720 1 3 31 RX
721 1 3 8 RX
32824 1 3 31 TX
32825 1 3 8 TX
penguin.1.7.PXM.a >
Use the dspsarcnt command to view the Segmentation and Reassembly (SAR) counters for the current card.
Display SAR Counters
PXM, FRSM, AUSM-8T1E1, CESM, VISM
dspsarcnt <ChanNum>
ChanNum | Channel number, in the range appropriate for the card. · PXM range = 16-1024 · FRSM
· CESM
· VISM range = 32-255 |
dspsarcnt <port.VPI.VCI | ChanNum>
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. |
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit3.1.13.CESM.a > dspsarcnt 22
SarShelfNum: 1
SarSlotNum: 13
SarChanNum: 22
Tx Rx
--------------- ---------------
Total Cells: 11227853 11529804
Total CellsCLP: 0 0
Total CellsAIS: 498805 0
Total CellsFERF: 0 302222
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Syntax : dspsarcnt "chan_num"
channel number---value ranging from 32 to 279
possible errors are :
a) illegal/invalid parameters
b) channel doesn't exist
spirit3.1.13.CESM.a >
wilco.1.1.FRSM.a > dspsarcnt 17
SarShelfNum: 1
SarSlotNum: 1
SarChanNum: 17
Tx Rx
--------------- ---------------
Total Cells: 0 0
Total CellsCLP: 0 0
Total CellsAIS: 3852 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Syntax : dspsarcnt "chan_num"
channel number -- value ranging from 16 to 1015
possible errors are :
a) illegal/invalid parameters
b) channel doesn't exist
wilco.1.1.FRSM.a >
spirit3.1.4.AUSM.a > dspsarcnt 98
SarShelfNum: 1
SarSlotNum: 4
SarChanNum: 98
Tx Rx
--------------- ---------------
Total Cells: 141357 0
Total CellsCLP: 0 0
Total CellsAIS: 0 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
spirit3.1.4.AUSM.a >
spirit.1.5.VISM8.a > dspsarcnt 37
SarShelfNum: 1
SarSlotNum: 5
SarChanNum: 37
Tx Rx
--------------- ---------------
Total Cells: 667605215 2717092629
Total CellsCLP: 0 0
Total CellsAIS: 2151235452 2150307780
Total CellsFERF: 229 33554690
Total CellsEnd2EndLpBk: 2150293128 15
Total CellsSegmentLpBk: 50331906 2151235408
RcvCellsDiscOAM: 2
Syntax : dspsarcnt "chan_num"
channel number -- values : 32 - 255
possible errors are :
a) illegal/invalid parameters
b) channel doesn't exist
spirit.1.5.VISM8.a >
Use the dspsarcnts command to view current segmentation and reassembly (SAR) counter values,
Display SAR Counters
PXM, FRSM, CESM
Log: No State: Any Privilege: Any
wilco.1.1.FRSM.a > dspsarcnts
SarShelfNum: 1
SarSlotNum: 1
SarChanNum: 0
Tx Rx
--------------- ---------------
Total Cells: 0 0
Total CellsCLP: 0 0
Total CellsAIS: 0 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Type <CR> to continue, Q<CR> to stop:
SarShelfNum: 1
SarSlotNum: 1
SarChanNum: 2
Tx Rx
--------------- ---------------
Total Cells: 3912 9611
Total CellsCLP: 0 0
Total CellsAIS: 0 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Type <CR> to continue, Q<CR> to stop:
SarShelfNum: 1
SarSlotNum: 1
SarChanNum: 3
Tx Rx
--------------- ---------------
Total Cells: 0 0
Total CellsCLP: 0 0
Total CellsAIS: 0 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Type <CR> to continue, Q<CR> to stop:
SarShelfNum: 1
SarSlotNum: 1
SarChanNum: 15
Tx Rx
--------------- ---------------
Total Cells: 0 0
Total CellsCLP: 0 0
Total CellsAIS: 0 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Type <CR> to continue, Q<CR> to stop:
SarShelfNum: 1
SarSlotNum: 1
SarChanNum: 17
Tx Rx
--------------- ---------------
Total Cells: 0 0
Total CellsCLP: 0 0
Total CellsAIS: 3952 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 0
Use the dspserialif command to view the speed of a serial port.
Display Serial Interface
PXM
dspserialif -if <serial_port_num>
serial_port_num | Serial port number, either: · 1 = console · 2 = slip |
Log: No State: Active Privilege: Any
NODENAME.1.7.PXM.a > dspserialif -if 1
SerialPortNum : 1
SerialPortType : debug
SerialPortEnable : Enable
SerialPortBps : 9600bps
NODENAME.1.7.PXM.a > dspserialif -if 2
SerialPortNum : 2
SerialPortType : main
SerialPortEnable : Enable
SerialPortBps : 9600bps
Use the dspservrate command to view the service rate in cells per second on the selected channel.
Display Service Rate
FRSM
dspservrate <ChanNum>
ChanNum | Channel number, in the range appropriate for the interface. · FRSM-8T1/E1 range = 16-1015 · FRSM-T3/E3/HS2 range = 16-2015 · FRSM-2CT3 range = 16-4015 · FRSM HS1/B range = 16-271 |
Log: No State: Any Privilege: Any
spirit3.1.17.FRSM.a > dspservrate 22
Service Rate (cells/sec): 1000
spirit3.1.17.FRSM.a >
Use the dspshelfalm command to view the shelf alarms for the MGX 8800 series shelf. The status of every alarm appears in the display unless you include the optional argument and include a specific alarm number. See the example for the number for each alarm.
In the dspshelfalm display, the State column shows whether the alarm has been asserted. "Normal" means that no alarm has been asserted. If an alarm exists, State shows "Above Normal" or "Below Normal." The presence of the word "missing" in the State column means that the input is missing or ignored. The content of the Severity column indicates the severity of the alarm.
Display Shelf Alarms
PXM
dspshelfalm [-alm <alarm number>]
-alm | Command delineator that precedes the alarm number entry. |
alarm number | Alarm number to display, in the range 1-27. |
Log: No State: Active Privilege: Any
This section contains the following examples.
spirit3.1.7.PXM.a > dspshelfalm manish.1.7.PXM.a > dspshelfalm Alarm Type Unit Thresh Severity Measurable Val State ----- ------------ ---- ------ -------- ---------- ----- ------- 1 Temperature 1 50 Minor Yes 28 Normal 2 Power Supply 1 0 Minor No 0 Missing 3 Power Supply 2 0 Minor No 0 Missing 4 Power Supply 3 0 Minor No 0 Normal 5 Power Supply 4 0 Minor No 0 Missing 6 Power Supply 5 0 Minor No 0 Missing 7 Power Supply 6 0 Minor No 0 Missing 8 DC Level 1 6 Minor Yes 0 Below normal 9 DC Level 2 6 Minor Yes 49 Normal 10 Fan Unit 1 2000 Minor Yes 0 Missing 11 Fan Unit 2 2000 Minor Yes 0 Missing 12 Fan Unit 3 2000 Minor Yes 0 Missing 13 Fan Unit 4 2000 Minor Yes 0 Missing 14 Fan Unit 5 2000 Minor Yes 0 Missing 15 Fan Unit 6 2000 Minor Yes 0 Missing 16 Fan Unit 7 2000 Minor Yes 0 Missing 17 Fan Unit 8 2000 Minor Yes 0 Missing 18 Fan Unit 9 2000 Minor Yes 0 Missing 19 Fan Unit 10 2000 Minor Yes 3582 Normal 20 Fan Unit 11 2000 Minor Yes 3588 Normal Type <CR> to continue, Q<CR> to stop: Alarm Type Unit Thresh Severity Measurable Val State ----- ------------ ---- ------ -------- ---------- ----- ------- 21 Fan Unit 12 2000 Minor Yes 3666 Normal 22 Fan Unit 13 2000 Minor Yes 3630 Normal 23 Fan Unit 14 2000 Minor Yes 3528 Normal 24 Fan Unit 15 2000 Minor Yes 3534 Normal 25 Fan Unit 16 2000 Minor Yes 3498 Normal 26 Fan Unit 17 2000 Minor Yes 3468 Normal 27 Fan Unit 18 2000 Minor Yes 3420 Normal ASMNumOfValidEntries: 27 ASMShelfAlarmState: 2 manish.1.7.PXM.a >
spirit3.1.7.PXM.a > dspshelfalm -alm 6 Alarm Type Unit Thresh Severity Measurable Val State ----- ------------ ---- ------ -------- ---------- --- ----- 6 Power Supply 4 ? Minor No 0 Normal ASMNumOfValidEntries: 27 ASMShelfAlarmState: 2 spirit.1.7.PXM.a >
Use the dspslftst command to view the self-test routine on the current card.
Display Self-Test
FRSM, AUSM, CESM
dspslftst
Log: No State: Any Privilege: Any
wilco.1.1.FRSM.a > dspslftst SelfTestEnable: Enabled SelfTestPeriod: 5 SelfTestState: SelfTest Passed SelfTestResultDescription: No failure information available wilco.1.1.FRSM.a >
Use the dspslftsttbl command to view the current contents of the self-test table.
Display Self-Test Table
FRSM
Log: No State: Any Privilege: 1-6
wilco.1.3.VHS2CT3.a > dspslftsttbl Test # Test Name Thold Fail Pass Last Enab Destr Card Rst 1 CPU DRAM access test 1 0 0 P Y N Y 2 SAR self test 1 0 0 P Y N Y 3 ISE self test 1 0 0 P Y N Y 4 ESE self test 1 0 0 P Y N Y 5 CODE checksum test 1 0 0 P Y N Y 6 Line loopback test 1 0 0 P Y Y Y 7 FREEDM test 1 0 0 P Y Y Y 8 Data loopback test 1 0 0 P Y Y Y 9 CellBus test 1 0 0 P Y N N wilco.1.3.VHS2CT3.a >
Use the dspslotlink command to view SRM-3T3 link information for all the lines on the specified service module slot.
Display Slot Link
PXM
dspslotlink <slot number>
slot number | Slot number of the card from which to view the SRM-3T3 link information. |
Log: No State: Active Privilege: 1
spirit3.1.7.PXM.a > dspslotlink 1 Slot Num : 1 Max Lines : 0 Link Counter: 0 Slot Line# T3 Line# T1 Slot# ==== ===== ======== ========= 1 1 0 0 1 2 0 0 1 3 0 0 1 4 0 0 1 5 0 0 1 6 0 0 1 7 0 0 1 8 0 0 spirit3.1.7.PXM.a >
Use the dspsmcnf command to view summaries of the configurations for service modules in the system.
Display Service Module Configuration
PXM
Log: Yes State: Active Privilege: Any
MGX 88003.1.3.PXM.a > dspsmcnf
slot Card Rate Channel MIB Feature
No. Type Control ized IMA MULTRKS Version Bits
------ ---------- ------- ------- ------- ------- ------- -------
1 ------> No configuration file exist for this slot <------
2 ------> No configuration file exist for this slot <------
3 FRSM-8T1 On On Off Off 20 0x3
4 FRSM-8T1 On On Off Off 20 0x3
5 ------> No configuration file exist for this slot <------
6 ------> No configuration file exist for this slot <------
9 ------> No configuration file exist for this slot <------
10 ------> No configuration file exist for this slot <------
11 ------> No configuration file exist for this slot <------
12 ------> No configuration file exist for this slot <------
13 ------> No configuration file exist for this slot <------
14 ------> No configuration file exist for this slot <------
17 ------> No configuration file exist for this slot <------
18 ------> No configuration file exist for this slot <------
19 ------> No configuration file exist for this slot <------
20 FRSM-8E1 Off Off Off Off 20 0x0
21 ------> No configuration file exist for this slot <------
22 ------> No configuration file exist for this slot <------
25 ------> No configuration file exist for this slot <------
26 ------> No configuration file exist for this slot <------
27 ------> No configuration file exist for this slot <------
28 ------> No configuration file exist for this slot <------
29 ------> No configuration file exist for this slot <------
30 ------> No configuration file exist for this slot <------
Use the dspsnmp command to view the community string configured on a service module.
Display SNMP
PXM
Log: No State: Active Privilege: Super User
popeye.1.7.PXM.a > dspsnmp Community String :POPEYE
Use the dspsrmclksrc command to view the SRM-3T3 clock source for a specified T3 line.
Display SRM Clock Source
PXM, SRM-3T3
dspsrmclksrc -ds3 <T3 line number>
-ds3 | Command delineator for the T3 line number entry. |
T3 line number | T3 line number is in the format slot.line. · Slot = enter a value from the range 7, 8, 15, 16, 31, 32 · Line range = 1-3 |
Log: No State: Active Privilege: 1
spirit.1.7.PXM.a > dspsrmclksrc -ds3 15.1 LineNum: 1 LineXmtClockSource: backplane clock from BNM spirit.1.7.PXM.a >
Use the dspstatparms command to view statistics parameters on the current card.
Display Statistics Parameters
PXM, AUSM, CESM, FRSM
dspstatparms
Log: No State: Active Privilege: 1
wilco.1.3.VHS2CT3.a > dspstatparms TFTP Retry Count: 1 TFTP ACK time-out (sec): 60 Bucket Interval: 0 File Interval: 0 Peak Enable Flag: Disabled Object Count: 0 STATS COLLECTION: Disabled Object Subtype Counts: 0 0 0 0 Total File Memory Used: 0 Number of File Allocated: 0 Current File Size: 0 Stat Memory Allocated: 0 Auto Memory Allocated: 0 Auto Mem Rgn Size: 6291456 wilco.1.3.VHS2CT3.a >
Use the dspswfunc PAR command to view status of certain node-level, paid features on the node. The features are the feeder implementation (or default routing implementation) of the switch and virtual source/virtual destination (VSVD) control for ABR traffic.
Display Software Function
PXM
dspswfunc
Log: Yes State: Active Privilege: SuperUser
spirit.1.8.PXM.a > dspswfunc
1. ABR VSVD(enable(yes)/disable(no): NO
2. Node Type(routing(routing)/Feeder(fdr): ROUTING
spirit.1.8.PXM.a >
Use the dspsysparm command to view system parameters.
Display System Parameters
PXM
dspsysparm
Log: No State: Any Privilege: Any
spirit.1.8.PXM.a > dspsysparm
Max Time Stamped Packet Age(msec) 32
Fail Connections On Communication Break YES
Interval Statistics polling rate for VCs 5
Max Network Delay for 'v' connections(msec) 112
Max Network Delay for 'c' connections(msec) 112
Max Network Delay for 't' & 'p' connections(msec) 112
Max Network Delay for 'a' connections(msec) 216
Max Network Delay for High Speed Data connections(msec) 256
Max Network Delay for CDP-CDP 'v' connections(msec) 512
Max Network Delay for CDP-CDP 'c' connections(msec) 512
Max Network Delay for CDP-CDP 't' & 'p' connections(msec) 512
Max Network Delay for CDP-CDP 'a' connections(msec) 512
Max Network Delay for CDP-CDP High Speed Data connections(msec) 512
Max Local Delay for Interdom CDP-CDP 'v' conns (msec) 216
Max Local Delay for Interdom CDP-CDP 'c' conns (msec) 216
Max Local Delay for Interdom CDP-CDP 't' & 'p' conns(msec) 216
Max Local Delay for Interdom CDP-CDP 'a' conns(msec) 216
Max Local Delay for Interdom CDP-CDP High Speed Data conns(msec) 216
Max Local Delay for Interdom High Speed Data conns (msec) 216
FastPAD Jitter Buffer Size (msec) 3
Enable Discard Eligibility 0
Use Frame Relay Standard Parameters Bc and Be 0
Enable Connection Deroute Delay feature 0
Number of Consecutive Invalid Login Attempts to Cause Major Alarm 0
spirit.1.8.PXM.a >
Use the dsptotals command to view line, port, and channel totals for the current card.
Display Totals
FRSM
Log: No State: Any Privilege: 1-6
spirit.1.13.VHS2CT3.a > dsptotals
total active lines = 0/56
total active ports = 0/256
total active chans = 0/1000
spirit.1.13.VHS2CT3.a >
Use the dsptrafficgen command to display the status of a traffic generation test. This traffic generation test is used to determine and troubleshoot cell loss and is intended for defective PVCs.
Command available with 1.1.20 and higher.
Display Traffic Generation Test
FRSM-VHS (2CT3/2T3/2E3/HS2)
Log: No State: Any Privilege: Any
spirit.1.1.VHS2CT3.a > dsptrafficgen Pvc Under Test : 16 Pattern type : 1( All 0's ) Total Test Frames To Send : 100 Total Test Frames Transmitted : 100 Total Test Frames Received : 0
Use the dsptrapip command to view the IP address of the interface associated with outgoing traps. The identity of this interface is derived from your settings using the cnftrapip command.
Display Outgoing Trap IP Address
PXM
Log: No State: Active Privilege: Any
spirit.1.8.PXM.a >dsptrapip Trap IP Address :172.29.22.214spirit.1.8.PXM.a >
Use the dsptrapmgr command to view a list of all the SNMP Managers that are registered to receive traps. This display also presents the current aging parameter set for the traps, as defined by using the agetrapmgr command.
Display Trap Managers
PXM
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a> dsptrapmgr ipAddress PortNum RowStatus ReadTrapFlag NextTrapSeqNum Aging ------------ ------- ---------- ------------ -------------- ------ 171.71.0.54 69 Add Off 0 ENABLE 171.71.54.65 162 Add Off 0 ENABLE 171.71.54.69 162 Add Off 0 ENABLE 172.29.37.75 2500 Add Off 100023 ENABLE 172.29.37.209 2500 Add Off 100150 ENABLE LastTrapSeqNum: 100150 NumOfValidEntries: 5 All the trap managers have aging enabled (default). wilco.1.7.PXM.a>
Use the dsptrkcnf PAR command to view the configuration for a trunk.
Display Trunk Configuration
PXM
dsptrkcnf <slot.port>
slot.port | Slot and port number. · Slot = enter the value 7, or 15, or 31 · Port range = 1-n, as appropriate for the physical installation. |
Log: No State: Any Privilege: Any
spirit3.1.8.PXM.a > dsptrkcnf 7.1
TRUNK CONFIGURATION
-----------------------
Statistical Reserve : 1000
CC Restriction : NO
Line Type :
Pass Sync : TRUE
Deroute Delay : 0
Traffic Classes : FST FR NTS TS VOICE CBR VBR ABR
Routing Cost : 10
Vcc Conids : 0
Vpc Conids : 0
spirit3.1.8.PXM.a >
Use the dsptrkload PAR command to view load information for a trunk. This command applies to only the routing node implementation.
Display Trunk Load
PXM
dsptrkload <slot.port>
slot.port | Slot and port number. · Slot = enter the value 7, or 15, or 31 · Port range = 1-n, as appropriate for the physical installation. |
Log: No State: Any Privilege: Any
Use the dsptrks PAR command to view all trunks on the node. This command applies to only the routing node implementation.
Display Trunks
PXM
dsptrks
Log: No State: Any Privilege: Any
Use the dspunit391 command to view the current setting for UNI T391 on a specified FRSM card.
Display UNI T391
FRSM
dspunit391
Log: No State: Any Privilege: Any
spirit.1.1.FRSM.a > dspunit391 System UNI T391 = 5 seconds spirit.1.1.FRSM.a >
Use the dspupgrade command to view the current upgrade status of the active and the standby PXMs.
Display Upgrade State
PXM
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > dspupgrade active: 'upgrade idle' standby: 'upgrade idle' spirit4.1.8.PXM.a >
Use the dspusers command to view the user IDs that have been added to the PXM configuration. The screen shows the user name and highest privilege level and displays the number of those levels above user-privilege.
Display Users
PXM
Log: No State: Any Privilege: Any
wilco.1.7.PXM.a > dspusers UserId AccessLevel ------------------------- cisco CISCO_GP service SERVICE_GP superuser SUPER_GP raoul GROUP3 duke GROUP1 wilco.1.7.PXM.a >
Use the dspver command to view firmware versions currently running in both PXM cards.
Display Firmware Version
PXM
[bt] | Backup boot. |
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > dspver PXM FW versions: active: 1.1.10 standby: 1.1.10
Use the dspvismip command to view the IP configuration information for the VISM card. This command displays the results of cnfvismip configurations.
Display VISM IP Parameters
VISM
dspvismip
Log: No State: Active Privilege: Any
spirit.1.5.VISM8.a > dspvismip VismIpAddress: 198.45.26.101 NetMask: 255.255.255.0 spirit.1.5.VISM8.a >
Use the dth command to view transaction trace handler statistics.
Display Transaction Trace Handler
PXM
dth
Log: No State: Active Privilege: Any
spirit.1.5.VISM8.a > dth Trace Buffer is empty spirit.1.5.VISM8.a >
Use the dvsi command to view the VIS trace buffer.
Display VSI
PXM
dvsi
Log: No State: Any Privilege: Cisco Group
porky.1.7.PXM.a > dvsi VSI Trace Buffer is empty porky.1.7.PXM.a >
Use the exit command to exit the current CLI shell.
Exit from CLI
PXM, FRSM, AUSM, CESM, VISM
Log: Yes State: Any Privilege: Any
spirit4.1.8.PXM.a > exit (session ended)
Use the formatdisk command to format the disk and removes all disk contents. There is a warning prompt before this command is executed, at which point you can cancel the command. If you acknowledge the prompt, the command executes, taking about 30 minutes to format a 2 GB disk.
Format Disk
PXM
Log: No State: Any Privilege: Super Group
Use the help command to view commands associated with the current card. The help command is case-sensitive.
This command takes no arguments and therefore does not provide information about specific commands.
Help
PXM, FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: Any
This section contains the following examples.
popeye3.1.8.PXM.a > help
Available commands
------------------
?
abort
addapsln
addcdrscprtn
addchan
addcon
addlink
addlmiloop
addln
addlnloop
addport
addred
addrscprtn
addserialif
addtrapmgr
adduser
agetrapmgr
arpAdd
arpDelete
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
arpFlush
arpShow
bootChange
bye
cc
cd
checkStack
clidbxlevel
cliPlugin
cliPlugout
clmi
clrallcnf
clralm
clralmcnt
clratmlncnt
clratmlncnts
clrchancnt
clrchancnts
clrconcnt
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
clrconcnts
clrerr
clrifcnt
clrifcnts
clrlmistats
clrlog
clrportcnt
clrportcnts
clrscrn
clrsmcnf
clrsrmcnf
cmdhistory
cnfapsln
cnfatmln
cnfbert
cnfcdprtntype
cnfcdrscprtn
cnfchan
cnfchanq
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
cnfclksrc
cnfcon
cnfdate
cnfextclk
cnfif
cnfifastrk
cnfifip
cnfilmi
cnfln
cnfname
cnfpasswd
cnfport
cnfportrscprtn
cnfprfparam
cnfrscprtn
cnfserialif
cnfsrmclksrc
cnfstatsmgr
cnfswfunc
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
cnftime
cnftmzn
cnftmzngmt
cnftrapip
cnftrk
cnfupcabr
cnfupccbr
cnfupcubr
cnfupcvbr
commit
copy
cp
cth
cvsi
dbxclierrcode
dcct
dcondb
del
delapsln
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
delbert
delcdrscprtn
delchan
delcon
delelete
delifip
dellink
dellmiloop
delln
dellnloop
delport
delred
delrscprtn
delserialif
delslotlink
deltrapmgr
deltree
deluser
dir
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
dlmi
dnibname
dnibnum
dnif
dnilmi
downloadflash
dspalm
dspalmcnf
dspalmcnt
dspalms
dspapsCfg
dspapsln
dspatmlncnf
dspatmlncnt
dspbert
dspcd
dspcderrs
dspcdprtntype
dspcdrscprtn
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
dspcds
dspchan
dspchancnt
dspchans
dspclkinfo
dspclksrc
dspcon
dspconcnt
dspcons
dspcurclk
dsperr
dspfw
dspfwrevs
dspif
dspifcnt
dspifip
dspifrsc
dspifs
dspilmi
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
dspilmicnt
dspilmis
dsplink
dsplmiloop
dsplmistats
dspln
dsplnrsc
dsplns
dsplog
dsplogs
dspname
dspnwip
dsponoff
dspparifs
dspportcnt
dspportrscprtn
dspports
dspprf
dspprfhist
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
dspred
dsprscprtn
dsprscprtns
dspsarchans
dspsarcnt
dspsarcnts
dspserialif
dspshelfalm
dspslotlink
dspsmcnf
dspsrmclksrc
dspstatparms
dspswfunc
dsptrapip
dsptrapmgr
dsptrkcnf
dsptrkload
dsptrks
dspupgrade
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
dspusers
dspver
dth
dumpaps
dumptrace
dvsi
exit
formatdisk
Help
history
ifShow
install
lkAddr
lkup
ll
lmitrace
logout
ls
memShow
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
mkdir
mkfs
modbert
mv
myid
newrev
onoff
pagemode
passwd
ping
printlog
printrev
pwd
remove
rename
resetcd
resetsys
restoreallcnf
rm
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
rmdir
routeAdd
routeDelete
routeNetAdd
routeShow
routestatShow
rstupgrade
saveallcnf
sesntimeout
sesnwatchdog
shellConn
showsyserr
shutdisk
smclrscrn
softswitch
stackdump
stacktrace
switchapsln
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
switchback
switchcc
syncdisk
syserr
taskRegsShow
taskShow
thtrace
timeout
tmOff
tmOn
tstcon
tstconseg
tstdelay
uncnfifastrk
upif
upilmi
users
version
vsistats
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
vsitrace
vxcd
vxcopy
vxd
vxi
vxll
vxls
vxm
vxpwd
vxreboot
vxrename
vxrm
vxsp
vxsysToMonitor
vxtd
vxti
vxtr
vxts
vxtt
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
who
whoami
xclratmlncnt
xclrchancnt
xclrifcnt
xcnfatmln
xcnfbert
xcnfcdprtntype
xcnfcdrscprtn
xcnfchan
xcnfif
xcnfifip
xcnfilmi
xcnfred
xcnfrscprtn
xcnfshelf
xcnfsrmlink
xcnftrapmgr
xcnfupcchan
Type <CR> to continue, Q<CR> to stop:
Available commands
------------------
xcnfuser
xdspatmlncnf
xdspatmlncnt
xdspcdprtntype
xdspcdrscprtn
xdspcds
xdspchancnt
xdspchans
xdspifcnt
xdspifs
xdspilmi
xdspilmicnt
xdspport
xdspred
xdsprscprtns
xdspshelf
xdspsrmlink
xdsptrapmgr
xdspusers
popeye3.1.8.PXM.a >
popeye3.1.6.AUSM8.a > help
Command Logging State Priority
-------------------- ------- ------ -------------------------
? No Any Any User
Help No Any Any User
addaimgrp Yes Active Group 1
addchan Yes Active Group 2
addchanloop No Active Group 4
addcon Yes Active Group 2
addimagrp Yes Active Group 1
addln Yes Active Group 1
addlnloop Yes Active Service Group (-1)
addlns2aimgrp Yes Active Group 1
addlns2imagrp Yes Active Group 1
addport Yes Active Group 1
addrscprtn Yes Active Group 1
aimhelp No Any Any User
chkflash No Any Strata Group (-2)
clear No Any Any User
clraimgrpcnt No Active Group 1
clraimlncnt No Active Group 1
clralm No Any Group 5
clralmcnt No Any Group 5
clralmcnts No Any Group 5
clralms No Any Group 5
clrcderrs No Any Super Group (0)
clrchancnt No Any Group 5
clrchancnts No Any Group 3
clrimagrpcnt No Active Group 1
clrimalncnt No Active Group 1
clrimatst No Any Group 1
clrmsgcnt No Any Group 5
clrportcnt No Any Group 5
clrportcnts No Any Group 5
clrsarcnt No Any Group 5
clrsarcnts No Any Group 5
clrscrn No Any Any User
clrslftst No Any Any User
clrtaskinfo No Any Service Group (-1)
cls No Any Any User
cnfaimgrp Yes Active Group 1
cnfcdprtntype Yes Active Group 2
cnfcdrscprtn Yes Active Group 1
cnfchan Yes Active Group 2
cnfchanfst Yes Active Group 2
cnfchanq Yes Active Group 2
cnfcon Yes Active Group 2
cnffst Yes Active Super Group (0)
cnfilmi Yes Active Group 1
cnfimaalmparm No Any Group 1
cnfimagrp Yes Active Group 1
cnfimatst No Active Group 1
cnfln Yes Active Group 1
cnflnloop Yes Active Service Group (-1)
cnfplpp Yes Active Group 1
cnfportq Yes Active Strata Group (-2)
cnfportrscprtn Yes Active Group 1
cnfrscprtn Yes Active Group 1
cnfslftst Yes Active Any User
cnfsvcrange Yes Active Group 1
cnfupcabr Yes Active Group 2
cnfupccbr Yes Active Group 2
cnfupcubr Yes Active Group 2
cnfupcvbr Yes Active Group 2
copychans Yes Active Group 1
delaimgrp Yes Active Group 1
delcdrscprtn Yes Active Group 1
delchan Yes Active Group 2
delchanloop No Active Group 4
delchans Yes Active Group 1
delcon Yes Active Group 2
delimagrp Yes Active Group 1
delln Yes Active Group 1
dellnloop Yes Active Service Group (-1)
dellnsfmaimgrp Yes Active Group 1
dellnsfmimagrp Yes Active Group 1
delport Yes Active Group 1
delrscprtn Yes Active Group 1
dnport Yes Active Group 1
dspaimgrp No Active Group 1
dspaimgrpcnt No Active Group 1
dspaimgrps No Active Group 1
dspaimlncnt No Active Group 1
dspalm No Any Any User
dspalmcnf No Any Any User
dspalmcnt No Any Any User
dspalms No Any Any User
dspcd No Any Any User
dspcderrs No Any Any User
dspcdprtntype Yes Active Group 2
dspcdrscprtn Yes Active Group 1
dspchan No Any Any User
dspchancnt No Any Any User
dspchans No Any Any User
dspcon No Any Any User
dspcons No Any Any User
dspfeature No Any Strata Group (-2)
dspfst No Any Strata Group (-2)
dspilmi No Any Any User
dspilmicnt No Any Any User
dspimaalmparm No Any Group 1
dspimagrp No Active Group 1
dspimagrpcnt No Active Group 1
dspimagrps No Active Group 1
dspimainfo No Active Any User
dspimaln No Any Group 1
dspimalncnt No Active Group 1
dspimatst No Any Group 1
dsplcn No Any Any User
dspln No Any Any User
dsplns No Any Any User
dsploads No Active Any User
dspmsgcnt No Any Any User
dspplpp Yes Active Group 1
dspport No Any Any User
dspportcnt No Any Any User
dspportq No Any Any User
dspportqs No Any Any User
dspportrscprtn Yes Active Group 1
dspports No Any Any User
dsprscprtn Yes Active Group 1
dspsarcnt No Any Any User
dspsarcnts No Any Any User
dspslftst No Any Any User
dspslftsttbl No Any Any User
dspstatparms No Any Any User
dspsvcrange Yes Any Any User
dsptaskinfo No Any Service Group (-1)
dsptotals No Any Any User
i No Any Service Group (-1)
memShow No Any Any User
myid No Any Any User
oldcnfcdrscprtn Yes Active Group 1
runslftstno No Any Any User
setcmdc No Any Any User
setpagemode No Any Any User
shellConn Yes Any Strata Group (-2)
tstcon No Active Group 4
tstconseg No Active Group 4
tstconsti No Active Group 4
tstdelay No Active Group 4
tstdelaysti No Active Group 4
upport Yes Active Group 1
version No Any Any User
xaddcon Yes Active Group 1
xclrchancnt No Any Group 3
xclrportcnt No Any Group 3
xcnfalm Yes Active Service Group (-1)
xcnfalmcnt Yes Active Group 3
xcnfcon Yes Active Group 1
xcnfilmi Yes Active Group 1
xcnfln Yes Active Service Group (-1)
xcnfportq Yes Active Group 1
xdelcon Yes Active Group 1
xdnport Yes Active Group 1
xdspcon No Any Any User
xdspcons No Any Any User
xdspilmi No Any Any User
xdspln No Any Any User
xdsplns No Any Any User
xdspport No Any Any User
xdspportq No Any Any User
xdspportqs No Any Any User
xdspports No Any Any User
xupport Yes Active Group 1
popeye3.1.6.AUSM8.a >
popeye3.1.3.FRSM.a > help Command Logging State Priority -------------------- ------- ------ ------------------------- ? No Any Any User Help No Any Any User addcdrscprtn Yes Active Group 1 addchan Yes Active Group 2 addchanloop No Active Group 4 addcon Yes Active Group 2 addln Yes Active Group 1 addlnloop Yes Active Service Group (-1) addport Yes Active Group 1 addrscprtn Yes Active Group 1 chkflash No Any Strata Group (-2) clear No Any Any User clrportcnt No Any Group 5 clrportcnts No Any Group 5 clrsarcnt No Any Group 5 clrsarcnts No Any Group 5 clrscrn No Any Any User clrslftst No Any Any User clrtaskinfo No Any Service Group (-1) cls No Any Any User cnfcdprtntype Yes Active Group 1 cnfcdrscprtn Yes Active Group 1 cnfchancacoff Yes Active Group 2 cnfchanegressq Yes Active Group 2 cnfchanfst Yes Active Group 2 cnfchaningressq Yes Active Group 2 cnfchanmap Yes Active Group 2 cnfchanpol Yes Active Group 2 cnfcon Yes Active Group 2 cnffst Yes Active Super Group (0) cnfln Yes Active Group 1 cnflnloop Yes Active Service Group (-1) cnfoamlpbk No Any Any User cnfport Yes Active Group 1 cnfportcllm Yes Active Group 1 cnfportrscprtn Yes Active Group 1 cnfrscprtn Yes Active Group 1 cnfslftst Yes Any Any User cnftrafficgen No Any Any User cnfunit391 No Active Super Group (0) copychans Yes Active Group 1 copyports Yes Active Group 1 delcdrscprtn Yes Active Group 1 delchan Yes Active Group 2 delchanloop No Active Group 4 delchans Yes Active Group 1 delcon Yes Active Group 2 delln Yes Active Group 1 dellnloop Yes Active Service Group (-1) delport Yes Active Group 1 delports Yes Active Group 1 downport Yes Active Group 2 dspalm No Any Any User dspalmcnf No Any Any User dspalmcnt No Any Any User dspalms No Any Any User dspbufoverflow No Any Super Group (0) dspcd No Any Any User dspcderrs No Any Any User dspcdprtntype No Any Any User dspcdrscprtn No Any Any User dspchan No Any Any User dspchancnt No Any Any User dspchanmap No Any Any User dspchans No Any Any User dspchstats No Any Any User dspcon No Any Any User dspcons No Any Any User dspfeature No Any Strata Group (-2) dspfst Yes Active Group 4 dsplcn No Active Any User dspln No Any Any User dsplns No Any Any User dspmaptbl No Any Any User dspmsgcnt No Any Any User dspoamlpbk No Any Any User dspport No Any Any User dspportcnt No Any Any User dspportrscprtn No Any Any User dspports No Any Any User dspportstats No Any Any User dsprscprtn No Any Any User dspsarcnt No Any Any User dspsarcnts No Any Any User dspservrate No Any Super Group (0) dspslftst No Any Any User dspslftsttbl No Any Any User dspstatparms No Any Any User dsptaskinfo No Any Service Group (-1) dsptotals No Any Any User dsptrafficgen No Any Any User dspunit391 No Active Any User i No Any Service Group (-1) memShow No Any Any User myid No Any Any User oldcnfcdrscprtn Yes Active Group 1 queDsp No Active Any User runslftstno No Any Any User setcmdc No Any Any User setpagemode No Any Any User shellConn Yes Any Strata Group (-2) tstcon No Active Group 4 tstconsti No Active Group 4 tstdelay No Active Group 4 tstdelaysti No Active Group 4 upport Yes Active Group 2 version No Any Any User xclrchancnt No Any Group 3 xclrportcnt No Any Group 3 xcnfalm Yes Active Service Group (-1) xcnfalmcnt Yes Active Group 3 xcnfchan Yes Active Group 2 xcnfln Yes Active Service Group (-1) xcnfport Yes Active Group 1 xdspchan No Any Any User xdspchancnt No Any Any User xdspchans No Any Any User xdspln No Any Any User xdsplns No Any Any User xdspport No Any Any User xdspportcnt No Any Any User xdspports No Any Any User clralm No Any Group 5 popeye3.1.3.FRSM.a >
spirit1.1.VISM.a > help ? Help addchan addcon addendpt addln addlnloop chkflash clralm clralmcnt clralmcnts clralms clrmsgcnt clrsarcnt clrsarcnts clrscrn clrtaskinfo cnfalm cnfcompsize cnfcompvad cnfdomain cnfecancnt cnfecanidle cnfecannoise cnfecannr cnfecannrn cnfecanrec cnfecantail cnfecantone cnfln cnfsuip cnfvismip delchan delcon delendpt delln dellnloop dmShellConn dspalm dspalmcnf dspalmcnt dspalms dspcarddsp dspcd dspchan dspchans dspcon dspcons dspdomain dspendpt dspendpts dsplinedsp dspln dsplns dspmsgcnt dspsarcnt dspsarcnts dspsuip dsptaskinfo dspvismip i memShow shellConn version
porky.1.12.CESM.a > help
Command Logging State Priority -------------------- ------- ------ ------------------------- ? No Any Any User Help No Any Any User addcdrscprtn No Any Any User addchan Yes Active Group 2 addcon Yes Active Group 2 addln Yes Active Group 1 addlnloop Yes Active Service Group (-1) addport Yes Active Group 1 addrscprtn No Any Strata Group (-2) chkflash No Any Strata Group (-2) clear No Any Any User clralm No Any Group 5 clralmcnt No Any Group 5 clralmcnts No Any Group 5 clralms No Any Group 5 clrcderrs No Any Super Group (0) clrchancnt No Any Group 5 clrchancnts No Any Group 3 clrmsgcnt No Any Group 5 clrsarcnt No Any Group 5 clrsarcnts No Any Group 5 clrscrn No Any Any User clrslftst No Any Any User clrtaskinfo No Any Service Group (-1) cls No Any Any User cnfcdprtntype No Any Any User cnfcdrscprtn No Any Any User cnfchan Yes Active Group 2 cnfcon Yes Active Group 2 cnfln Yes Active Group 1 cnfportrscprtn No Any Any User cnfrscprtn No Any Strata Group (-2) cnfslftst Yes Active Any User cnfswparms No Any Any User delcdrscprtn No Any Any User delchan Yes Active Group 2 delchans Yes Active Group 1 delcon Yes Active Group 2 delln Yes Active Group 1 dellnloop Yes Active Service Group (-1) delport Yes Active Group 1 delports Yes Active Group 1 delrscprtn No Any Strata Group (-2) dspalm No Any Any User dspalmcnf No Any Any User dspalmcnt No Any Any User dspalms No Any Any User dspcd No Any Any User dspcderrs No Any Any User dspcdprtntype No Any Strata Group (-2) dspcdrscprtn No Any Any User dspchan No Any Any User dspchancnt No Any Any User dspchans No Any Any User dspcon No Any Any User dspcons No Any Any User dspfeature No Any Strata Group (-2) dsplcn No Active Any User dspln No Any Any User dsplns No Any Any User dspmsgcnt No Any Any User dspport No Any Any User dspportrscprtn No Any Any User dspports No Any Any User dspsarcnt No Any Any User dspsarcnts No Any Any User dspslftst No Any Any User dspslftsttbl No Any Any User dspstatparms No Any Any User dsptaskinfo No Any Service Group (-1) i No Any Service Group (-1) memShow No Any Any User myid No Any Any User oldcnfcdrscprtn No Any Any User oldcnfportrscprtn No Any Any User runslftstno No Any Any User setpagemode No Any Any User shellConn Yes Any Strata Group (-2) tstchan No Active Group 4 tstchansti No Active Group 4 tstcon No Active Group 4 tstconsti No Active Group 4 tstdelay No Active Group 4 tstdelaysti No Active Group 4 version No Any Any User xclrchancnt No Any Group 3 xcnfalm Yes Active Service Group (-1) xcnfalmcnt Yes Active Group 3 xcnfcdprtntype No Any Strata Group (-2) xcnfcdrscprtn No Any Strata Group (-2) xcnfchan Yes Active Group 2 xcnfln Yes Active Service Group (-1) xcnfport Yes Active Group 1 xcnfrscprtn No Any Strata Group (-2) xdspchan No Any Any User xdspchancnt No Any Any User xdspchans No Any Any User xdspln No Any Any User xdsplns No Any Any User xdspport No Any Any User xdspports No Any Any User clralm No Any Group 5 clralmcnt No Any Group 5 porky.1.12.CESM.a >
Use the history command to view the last 10 commands executed on the current card.
Display Command History
PXM
history
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > history Size of cmdHistory is currently 10 line(s) 1 dspconcnt 2.39.45 2 dsplmistats 3 dsplmiloop 4 dsplm 5 clrportcnt 6 dspportcnts 7 dspportcnt 8 dspportcnt 1 9 dsplmistats 10 history spirit4.1.8.PXM.a >
Use the ifShow command to view the contents of all the currently configured interfaces.
Show Interfaces
PXM
ifShow
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > ifShow
lnPci (unit number 0):
Flags: (0x63) UP BROADCAST ARP RUNNING
Internet address: 172.29.23.149
Broadcast address: 172.29.23.255
Netmask 0xffff0000 Subnetmask 0xffffff00
Ethernet address is 00:c0:43:00:2d:c7
Metric is 0
Maximum Transfer Unit size is 1500
599468 packets received; 34476 packets sent
0 input errors; 0 output errors
0 collisions
lo (unit number 0):
Flags: (0x69) UP LOOPBACK ARP RUNNING
Internet address: 127.0.0.1
Netmask 0xff000000 Subnetmask 0xff000000
Metric is 0
Maximum Transfer Unit size is 4096
4 packets received; 4 packets sent
0 input errors; 0 output errors
0 collisions
sl (unit number 0):
Flags: (0x71) UP POINT-TO-POINT ARP RUNNING
Internet address: 0.0.0.0
Destination Internet address: 0.0.0.0
Netmask 0xff000000 Subnetmask 0xff000000
Metric is 0
Maximum Transfer Unit size is 576
0 packets received; 0 packets sent
0 input errors; 0 output errors
0 collisions
atm (unit number 0):
Flags: (0x43) UP BROADCAST TRAILERS ARP RUNNING
Internet address: 172.1.1.149
Broadcast address: 172.1.1.255
Netmask 0xffff0000 Subnetmask 0xffffff00
Ethernet address is 00:00:00:00:00:00
Metric is 0
Maximum Transfer Unit size is 1500
0 packets received; 47272 packets sent
0 input errors; 47272 output errors
0 collisions
spirit4.1.8.PXM.a >
Use the install command after transferring a PXM firmware image (using the downloadflash command) during a system upgrade session.
Refer to Figure 15 to see an illustration of how the install command is used in the upgrade process.
Install the Firmware Load
PXM
bt | Backup boot. |
sm <slot> | Location of the service module card and the slot number. |
version | Firmware file version. |
Log: No State: Active Privilege: Any
NODENAME.1.7.PXM.a > install 1.1.10 this may take a while ... install command completed ok. please wait for the other card to enter the hold state.
NODENAME.1.8.PXM.a > install 1.1.10 redundancy is not available the other card is not available you are not in redundant mode, do you want to try an ungraceful upgrade (yes or no)?
NODENAME.1.8.PXM.a > install 1.1.11 the new version is not compatible with the current version, do you want to try an ungraceful upgrade (yes or no)?
NODENAME.1.8.PXM.a > install bt 1.1.11 writing pxm_bkup_masukawa.fw to flash... Board recognised as a PXM1B board ... Checksum size is 1261544 ... Erasing the flash .... FLASH erase complete Downloading C:/FW/pxm_bkup_1.1.11.fw into the flash ... verifying flash contents .... Flash ok .... Flash download completed ... copying pxm_bt_1.1.11.fw to standby... writing flash on other card... command completed ok on both pxms. The new boot code will be used after the next reset
NODENAME.1.8.PXM.a > install 1.1.10 file "C:/FW/ComMat.dat" not found A graceful upgrade cannot be performed; these two versions are not compatible. ERR: command "install" failed NODENAME.1.8.PXM.a > install 1.1.13 FW version C:/FW/pxm_1.1.13.fw is not in the appropriate directory ERR: command "install" failed NODENAME.1.8.PXM.a > install 1.1.12 A graceful upgrade cannot be performed; these two versions are not compatible. ERR: command "install" failed NODENAME.1.8.PXM.a > install bt 1.1.12 writing pxm_bkup_1.1.12.fw to flash... Board recognised as a PXM1B board ... Backup boot file not found in the FW directory ... Cannot proceed ... error writing to flash ERR: command "install" failed
golden1.1.7.PXM.a > install sm 11 10.0.05 Do you want to proceed (Yes/No)? yes
NODENAME.1.8.PXM.a > install sm 5 10.0.05 you are not in redundant mode, do you want to try an ungraceful upgrade (yes or no)?
NODENAME.1.8.PXM.a > install bt sm 5 FR8_BT_1.0.01 downloading and burning flash on SM 5... Command completed ok The new boot code will be used after the next reset
NODENAME.1.8.PXM.a > install sm 5 1.1.11 Incorrect version : 1.1.11 Version 1.1.11 is not available ERR: command "install" failed NODENAME.1.8.PXM.a > install bt sm 5 1.1.11 Incorrect version : 1.1.11 The file is not found ERR: command "install" failed
Use the logout command to exit the current CLI shell.
Log Out
PXM, FRSM, AUSM, CESM, VISM
logout
Log: Yes State: Any Privilege: Any
spirit4.1.8.PXM.a > logout (session ended)
Use the ls command to list the contents of the working directory. The filename is listed for each entry. The total space of the file system and free space is also summarized at the end of the output.
List
PXM
ls
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > ls
SM
FW
DIAG
STATS
TMP
CNF
RPM
LOG
clrDB
upgrade.state
config.sys
DB
frsm_vhs_5.0.01_27May99_1_rmenon.fw
frsm_vhs_5.0.01_16Jun99_1_rmenon.fw
In the file system :
total space : 819200 K bytes
free space : 700583 K bytes
raviraj.1.7.PXM.a >
Use the memShow command to view the current memory map.
Show Memory
PXM
memShow
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > memShow status bytes blocks avg block max block ------ --------- -------- ---------- ---------- current free 2967104 37 80192 2879008 alloc 2561600 1774 1443 - cumulative alloc 241511616 1019558 236 - spirit4.1.8.PXM.a >
Use the mkdir command to create a new directory.
Make directory
PXM
mkdir <path_name>
path_name | Name of the target directory. |
Log: Yes State: Any Privilege: SERVICE_GP
Use the modbert command to inject errors into the bit stream for BERT testing.
Modify BERT
PXM
modbert <slot>
slot | Slot number |
Log: Yes State: Active Privilege: GROUP_1
Use the moddsx3bert command to inject multi-rate errors into the BERT bit stream.
Modify DSX3 BERT
FRSM 2T3E3, CESMT3
EIR | Value to define error insertion rate. · 0 = no error · 2 = 1 in 10 · 3 = 1 in 100 · 4 = 1 in 1000 · 5 = 1 in 10**4 · 6 = 1 in 10**7 |
Log: No State: Active Privilege: Any user
popeye1.1.21.CESMT3.a > moddsx3bert 2 popeye1.1.21.CESMT3.a >
popeye1.1.21.CESMT3.a > dspdsx3bert
Bert Control: Modify dsx3Bert
Bert Resource Status State: In Use
Bert Owner: CLI
Bert Status: In Sync
Bert Test Medium: Line
Bert Port: 1
Line Number : 1
Bert Mode : bertPatternTest
Bert Pattern : doubleOneZero
Loopback type: metallicLoopback
Start time (secs.) 14:14:44
Start Date FRI JUL 02 1999
Bit countupper: 3
Bit countlower: 389194075
Bit Error Countupper 0
Bit Error Countlower 14363002
Error Insertion Rate: oneInTenPowerTwo
Error Insertion count: 0
DSX3 BERT in Sync
Syntax : dspdsx3bert
Use the mv command to rename a file or directory.
Move
PXM
mv <path_name> <tgt_path_name>
path_name | Name of the existing file or directory. |
tgt_path_name | Name of the target file or directory. |
Log: Yes State: Any Privilege: SUPER_GP
Use the myid command to view information about the user of the current terminal session.
My Identification
PXM, FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: Any
manish.1.7.PXM.a > myid
User ID: cisco
Access Level: CISCO_GP
Terminal Port: telnet.01
manish.1.7.PXM.a >
Use the newrev command to complete an upgrade/downgrade procedure on the PXM. This operation assumes that the install command has been successfully completed.
When this command executes normally, no output is returned, but the card is reset.
Refer to Figure 15 for an illustration of how the newrev command is used in the firmware upgrade process.
New revision
PXM
slot | Slot number of the service module slot that needs to be upgraded or downgraded. |
version | Firmware version. |
Log: Yes State: Active Privilege: Any
NODENAME.1.8.PXM.a > newrev 1.1.11 in 'upgrade idle', must be in 'upgrade install' ERR: command "newrev" failed NODENAME.1.8.PXM.a > newrev 1.1.11 1.1.11 is not the PXM FW seondary image ERR: command "newrev" failed
golden1.1.7.PXM.a > newrev sm 11 10.0.05 Do you want to proceed (Yes/No)? yes
golden1.1.7.PXM.a > newrev sm 11 10.0.05 Incorrect version : 10.0.05 usage: newrev [sm <slot>] <version> ERR: command "newrev" failed
Use the pagemode command to adjust the way information is presented in your console display. Set pagemode off to enable continuous scrolling of displayed information, or set pagemode on to view incremental portions of the display.
Page mode
PXM
pagemode [off]
off | Present uninterrupted results of command. |
Log: No State: Any Privilege: Any User
raviraj.1.7.PXM.a > pagemode off Value of pageMode is now turned OFF raviraj.1.7.PXM.a >
raviraj.1.7.PXM.a > pagemode on Value of pageMode is now turned ON raviraj.1.7.PXM.a >
Use the passwd command to set the password on the PXM.
Password
PXM
password
Log: Yes State: Active Privilege: Any User
raviraj.1.7.PXM.a > passwd Enter password: (default password "newuser" will be used) raviraj.1.7.PXM.a >
Use the ping command to send an ICMP packet to a destination address to find out if the host is operational.
Ping
PXM
ping <IP_Addr> [<Num_Packets>]
IP_Addr | IP address of the destination host in dotted decimal format. |
Num_Packets | Number of packets, in the range 0-65535. · 0 = infinite · 3 = default |
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > ping 172.29.23.148 PING 172.29.23.148: 56 data bytes 64 bytes from 172.29.23.148: icmp_seq=0. time=0. ms 64 bytes from 172.29.23.148: icmp_seq=1. time=0. ms 64 bytes from 172.29.23.148: icmp_seq=2. time=0. ms ----172.29.23.148 PING Statistics---- 3 packets transmitted, 3 packets received, 0% packet loss round-trip (ms) min/avg/max = 0/0/0 raviraj.1.7.PXM.a >
Use the printrev command to view the primary and secondary versions of firmware saved in the BRAM.
Display Firmware Version
PXM
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > printrev primary : 1.0.00 secondary : 1.0.00 spirit4.1.8.PXM.a >
Use the pwd command to view the current working directory on the PXM.
Present Working Directory
PXM
pwd
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a > pwd C: raviraj.1.7.PXM.a >
Use the remove command to delete a file or directory from the PXM hard drive.
Remove
PXM
remove <path_name>
path_name | Name of an existing file or directory |
Log: Yes State: Any Privilege: SUPER_GP
Use the rename command to modify the current name of a file or directory.
Rename
PXM
rename <path_name> <tgt_path_name>
path_name | Name of an existing file or directory. |
tgt_path_name | Name of target file or directory. |
Log: Yes State: Any Privilege: SUPER_GP
Use the resetcd command to reset either the hardware of a selected service module or the failure history of the current card.
Using the resetcd command without defining a slot number results in an ungraceful (disruptive) upgrade. This is the fastest method to upgrade a card, but interrupts service.
A graceful (non-disruptive) upgrade requires that the install, newrev, and commit commands have already been executed, and that the card is identified in the command string.
Reset Card
PXM
resetcd [slot number]
slot number | Slot number, in the range 1-32. |
Log: Yes State: Active Privilege: 1-3
porky.1.7.PXM.a > resetcd 5
Use the resetsys command to reset the system.
Reset System
PXM
Log: Yes State: Active Privilege: GROUP_3
porky.1.7.PXM.a > resetsys
Do you want to proceed (Yes/No)? y
Syncing ......
Warning: firmware reset on active PXM card by cisco@telnet.01 (172.29.52.18)
(session ended)
Use the restoreallcnf command to save the shelf configuration into a file. This file can then be used to restore the configuration at a later time.
Restore All Configuration
PXM
restoreallcnf -f <FILENAME> [-v]
-f | Command delineator that precedes the FILENAME entry. |
FILENAME | Filename to be stored. |
-v | Command delineator to print the restored file. |
Log: Yes State: Active Privilege: SUPER_GP
Use the rnmnd command to renumber a routing node. This command is not applicable for a feeder node, and by default is set to 1.
Renumber Node
PXM
rnmnd <1 | 2>
<1 | 2> | 1 = feeder node 2 = routing node |
Log: No State: Any Privilege: GROUP 1
NODENAME.1.8.PXM.a > rnmnd 2
Node renumber not allowed for Feeder Node
Use the routeShow command to view the current IP routing of the network layer of the operating system.
Show Routing
PXM
routeShow
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > routeShow ROUTE NET TABLE destination gateway flags Refcnt Use Interface ------------------------------------------------------------------------ 0.0.0.0 172.29.23.149 1 1 21778 lnPci0 0.0.0.0 172.29.23.1 3 0 2755 lnPci0 172.1.1.0 172.1.1.149 1 0 0 atm0 172.29.23.0 172.29.23.149 1 2 5275 lnPci0 ------------------------------------------------------------------------ ROUTE HOST TABLE destination gateway flags Refcnt Use Interface ------------------------------------------------------------------------ 0.0.0.0 0.0.0.0 5 0 0 sl0 127.0.0.1 127.0.0.1 5 1 0 lo0 172.29.23.3 172.1.1.149 5 0 3555 atm0 172.29.23.5 172.1.1.149 5 0 3304 atm0 172.29.23.7 172.1.1.149 5 0 3335 atm0 171.71.29.18 172.1.1.149 5 0 3304 atm0 172.29.23.18 172.1.1.149 5 0 3304 atm0 172.29.23.28 172.1.1.149 5 0 6127 atm0 172.29.23.29 172.1.1.149 5 1 6065 atm0 171.71.29.32 172.1.1.149 5 0 5842 atm0 171.71.29.44 172.1.1.149 5 0 3304 atm0 172.29.23.53 172.1.1.149 5 0 3304 atm0 171.71.29.59 172.1.1.149 5 0 3304 atm0 171.71.28.126 172.1.1.149 5 0 3309 atm0 ------------------------------------------------------------------------ spirit4.1.8.PXM.a >
Use the routestatShow command to view the current IP routing statistics for the network layer of the operating system.
Show Routing Statistics
PXM
routestatShow
Log: No State: Any Privilege: Any
spirit4.1.8.PXM.a > routestatShow
routing:
0 bad routing redirect
0 dynamically created route
0 new gateway due to redirects
0 destination found unreachable
11095 uses of a wildcard route
spirit4.1.8.PXM.a >
Use the rstupgrade command to cancel the software upgrade process. In normal circumstances, the abort command is the best way to stop the software upgrade process. However, if a hardware failure or other error occurs during the installation, run the rstupgrade command to cancel the installation. Run the dspupgrade command to display the status. The status "upgrade idle" indicates that the upgrade has been cancelled. You then can correct the cause of the error, and start the upgrade process again.
Refer to Figure 15 for an illustration of how the rstupgrade command is used in the upgrade process.
Reset Upgrade
PXM
Log: No State: Active Privilege: Any
spirit4.1.8.PXM.a >rstupgrade spirit4.1.8.PXM.a > dspupgrade active: 'upgrade idle' standby: 'upgrade idle' spirit4.1.8.PXM.a >
Use the runslftstno command activate the self-test for the specified self-test number on the current card.
Run Self-Test Number
FRSM, AUSM, CESM
runslftstno <Test #>
Test # | Number of the test to run during this session. If this parameter is omitted, all |
Log: Yes State: Active Privilege: 1-2
This section contains the following examples.
spirit.1.19.AUSM8.a > runslftstno Test # Test Name Thold Fail Pass Last Enab Destr Card Rst 1 DRAM access test 1 0 0 P Y N Y 2 SRAM access test 1 0 0 P Y N Y 3 GRAM access test 1 0 0 P Y N Y 4 BRAM checksum test 1 0 0 P Y Y Y 5 CODE checksum test 1 0 0 P Y N Y 6 Line loopback test 1 0 0 P Y Y Y 7 CellBus test 1 0 0 P Y N N 8 DPRAM test 1 0 0 P Y N Y 9 CSERAM test 1 0 0 P Y N Y 10 CAM test 1 0 0 P Y Y Y 11 IMA grp lpbk test 1 0 0 P Y Y Y runslftstno "Test #" spirit.1.19.AUSM8.a >
spirit.1.1.FRSM.a > runslftstno Test # Test Name Thold Fail Pass Last Enab Destr Card Rst 1 DRAM access test 1 0 0 P Y N Y 2 SRAM access test 1 0 0 P Y N Y 3 GRAM access test 1 0 0 P Y N Y 4 BRAM checksum test 1 0 0 P Y N Y 5 CODE checksum test 1 0 0 P Y N Y 6 Line loopback test 1 0 0 P Y Y Y 7 M32 test 1 0 0 P Y Y N 8 Data loopback test 1 0 0 P N Y Y 9 CellBus test 1 0 0 P Y N N runslftstno "Test #" spirit.1.1.FRSM.a >
spirit.1.3.VHS2CT3.a > runslftstno Test # Test Name Thold Fail Pass Last Enab Destr Card Rst 1 CPU DRAM access test 1 0 0 P Y N Y 2 SAR self test 1 0 0 P Y N Y 3 ISE self test 1 0 0 P Y N Y 4 ESE self test 1 0 0 P Y N Y 5 CODE checksum test 1 0 0 P Y N Y 6 Line loopback test 1 0 0 P Y Y Y 7 FREEDM test 1 0 0 P Y Y Y 8 Data loopback test 1 0 0 P Y Y Y 9 CellBus test 1 0 0 P Y N N runslftstno "Test #" spirit.1.3.VHS2CT3.a >
spirit.1.3.VHS2CT3.a > runslftstno 1 Test Number 1 Result: PASS spirit.1.3.VHS2CT3.a >
Use the saveallcnf command to save the shelf configuration into a file. This file can then be used to restore the configuration at a later time.
Save All Configuration
PXM
saveallcnf -v
-v | Command delineator that prints the configuration file. |
Log: Yes State: Active Privilege: Any
Use the sesntimeout command to define maximum idle time, in seconds, for the current session. If you do not specify a timeout period in seconds, the system displays the current timeout. To disable the session timeout function, enter a 0.
Session Timeout
PXM
sesntimeout [time_out]
time_out | Number of idle time seconds allowed for the session. |
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit.1.7.PXM.a > sesntimeout The timeout period for this session is currently 600 second(s) spirit.1.7.PXM.a >
spirit.1.7.PXM.a > sesntimeout 720 The timeout period for this session is now set to 720 second(s) spirit.1.7.PXM.a >
Use the shutdisk command to quiesce the disk.
Shut Down the Disk
PXM
shutdisk
Log: No State: Any Privilege: SUPER_GP
Use the softswitch command to transfer control from the active primary service module to the active secondary (or redundant) service module. The primary service module will reboot and come up in standby mode. Use the switchback command to revert to normal operation after a softswitch.
Switch to Redundant from Primary
PXM
softswitch <PrimarySlotNum> <SecondarySlotNum>
PrimarySlotNum | Slot number of the primary card, in the range 1-6, or 9-14, or 17-22, |
SecondarySlotNum | Slot number of the secondary card, in the range 1-6, or 9-14, or 17-22, |
Log: No State: Active Privilege: Any
Use the startdsx3bert command to start a BERT testing session. You must reset the BERT counters, using the clrbertcntrs command, prior to using the startdsx3bert command.
Start DSX3 BERT
FRSM 2T3E3, CESMT3
startdsx3bert
Log: No State: Active Privilege: Any
popeye1.1.21.CESMT3.a > startdsx3bert popeye1.1.21.CESMT3.a >
Use the switchapsln command to control APS switching actions. This function applies to OC-3 and
OC-12 lines.
Switch APS Line
PXM
switchapsln <line number> <operation>
line number | OC-3 or OC-12 line number on which to apply APS. |
operation | Value to set type of APS switch functionality to use on the PXM line. · 1 = clear · 2 = forced · 3 = manual · 4 = lock-out · 5 = service |
Log: Yes State: Active Privilege: 1
Use the switchback command to revert to normal operation after a softswitch. The switchback command transfers control from the active secondary (or redundant) service module back to the active primary service module. The secondary (or redundant) service module will reboot and will come up in standby mode
Switch Back to Primary from Redundant
PXM
switchback <PrimarySlotNum> <SecondarySlotNum>
PrimarySlotNum | Slot number of the primary card, in the range 1-6, or 9-14, or 17-22, or 25-30. |
SecondarySlotNum | Slot number of the secondary card, in the range 1-6, or 9-14, or 17-22, or 25-30. |
Log: No State: Active Privilege: Any
Use the switchcc command to transfer control of the MGX 8800 series shelf from the active PXM to the standby PXM. If a standby PXM is not available, the command is not executed.
During a config copy, this command is disabled. If the command is attempted during a config copy, a "Can't execute, BRAM or FLASH is being updated" message is displayed.
Switch Core Cards
PXM
Log: Yes State: Active Privilege: 1-3
raviraj.1.7.PXM.a > switchcc Do you want to proceed (Yes/No)? y Core card redundancy unavailable
raviraj.1.7.PXM.a >
Use the syncdisk command to flush out the write buffers to the disk and put the device in standby mode. Use the syncdisk command before you remove the PXM card or reset the shelf.
Synchronize Disk
PXM
Log: No State: Any Privilege: Any
Use the timeout command to set maximum idle time, in seconds, for the current session on the PXM. If you do not specify a timeout period in seconds, the system displays the current timeout. To disable the session timeout function, enter a 0.
Session Timeout
PXM
timeout [time_out]
time_out | Number of idle time seconds allowed prior to automatically logging off the current user. |
Log: No State: Any Privilege: SuperUser
This section contains the following examples.
spirit.1.7.PXM.a > timeout The timeout period for this session is currently 600 second(s) spirit.1.7.PXM.a >
spirit.1.7.PXM.a > timeout 720 The timeout period for this session is now set to 720 second(s) spirit.1.7.PXM.a >
Use the tstcon command to tests the integrity of a connection between an MGX 8800 series card and a remote end within the WAN switching network by sending a single collection of supervisory cells to the remote end. The terminal displays only a pass or fail message.
Test Connection
PXM, FRSM, AUSM, CESM
tstcon <channel number>
channel number | A number in the range appropriate for the card. · FRSM
· PXM range = 16-1024 · AUSM range = 16-1015 · CESM
|
tstcon <con_id>
con_id | Connection identifier, in the format port.vpi.vci. · Port range = 1-n, as appropriate for the physical installation. · vpi range = 1-4095 · vci range = 1-65535 |
Log: No State: Any Privilege: 1-4
tstcon <port.VPI.VCI | channel number>
port.VPI.VCI | Connection identifier, in the format port.vpi.vci. · Port range = 1-n, as appropriate for the physical installation. · vpi range = 1-4095 · vci range = 1-65535 |
channel number | Channel number, in the range 16-1015. |
Log: No State: Any Privilege: 1-4
s1.1.12.AUSM8.a > tstcon 2.1.1
s1.1.12.AUSM8.a > tstcon 21 Output: tstcon in progress Test passed.
Use the tstconseg command to test the integrity of a connection between an MGX 8800 series card and service equipment (CPE) by sending a single collection of supervisory cells to the remote end. The terminal displays only a pass or fail message.
Test Connection Segment
PXM, AUSM-8T1E1
tstconseg <channel number>
channel number | Channel number, in the range 16-4111. |
tstconseg <port.VPI.VCI | channel number>
port.VPI.VCI | Port range = 1-n, as appropriate for the physical installation. VPI range = 1-4095 VCI range = 1-65535 |
chan_num | Channel number, in the range 16-1015. |
Log: No State: Any Privilege: 1-4
s1.1.12.AUSM8.a > tstconseg 2.1.1 Output: tstcon in progress Test passed.
s1.1.12.AUSM8.a > tstconseg 21 Output: tstcon in progress Test passed.
Use the tstdelay command to conduct an external connectivity test by sending a single collection of supervisory cells to the remote end to the network and back. The terminal displays a pass or fail message and the round-trip time in milliseconds.
Test Round Trip Delay
PXM, FRSM, AUSM, CESM
tstdelay <channel number>
channel number | Channel number, in the range appropriate for the card. · FRSM
· CESM
|
tstdelay <con_id>
con_id | Connection identifier, in the format port.vpi.vci. · Port range = 1-n, as appropriate for the physical installation. · vpi range = 1-4095 · vci range = 1-65535 |
tstdelay < port.VPI.VCI | channel number>
port.VPI.VCI | Port range = 1-n, as appropriate for the physical installation. VPI range = 1-4095. VCI range = 1-65535. |
channel number | Channel number, in the range 16-1015. |
Log: No State: Active Privilege: 1-4
MGX 880061.1.10.AUSM.a > tstdelay 16 TestDelay in progress. TestDelay Passed with 2 ms.
s1.1.12.AUSM8.a > tstdelay 2.1.1 Output: tstdelay in progress Delay Test Passed with 2 ms.
s1.1.12.AUSM8.a > tstdelay 21 Output: tstdelay in progress Delay Test Passed with 1 ms.
Use the PAR uncnfifastrk command to restore trunk routing operations on a PXM line.
Unconfigure Interface as Trunk
PXM
uncnfifastrk <slot.port> <iftype>
slot.port | Slot and port number of the line to be designated for trunking. · Slot = enter the value 7 (typical), or the slot where the PXM is installed. · Port = 1-n, as appropriate for the physical installation. |
iftype | Type of trunk. · ftrk = feeder trunk · rtrk = routing trunk (default) |
Log: Yes State: Active Privilege: SuperUser
MGX-01.1.7.PXM.a > uncnfifastrk 7.1 rtrk MGX-01.1.7.PXM.a >
An error message occurs if trunks are not deleted prior to invoking the uncnfifastrk command.
Use the upcon command to bring up a connection that was previously brought down by the dncon command. (The typical purpose of dncon is some form of operational modification or troubleshooting.)
Up Connection
AUSM, FRSM, VISM, CESM
upcon <slot >.<port>.<vpi>.<vci>
slot | Slot number, in the ranges 1-6, or 9-14, or 17-22, or 25-31. |
port | Port number, in the range 1-255. |
vpi | Virtual path identifier number, in the range 0-4095. |
vci | Virtual channel identifier number, in the range 0-65535. |
Log: No State: Active Privilege: 1
Use the upif command to add a logical interface to a broadband port on a PXM. The purpose of configuring logical interfaces for a line is to create a structure for resource partitioning. The network control applications (PAR, Tag, and so on) require resources linked to the logical interfaces.
A PXM can have 1-32 logical interfaces regardless of the number of physical lines. With multiple lines serving as uplinks, you can divide the 32 logical interfaces between the active lines according to need, yet each line would still have the full range of VPIs and VCIs. In summary, the number of logical interfaces per line can vary, but the maximum number of VPIs and VCIs is fixed (with the actual range subject to your configuration). To change the configuration of an existing logical interface on the PXM, use the cnfif command.
Up Interface
PXM
upif <if_num> <line_num> <pct_bw> <min_vpi> <max_vpi>
if_num | Number of the logical interface, in the range 1-32. |
line_num | PXM line number, in the range 1-4, 1 port on the OC-12 card, 4 ports on the OC-3 card, and 2 ports on the T3/E3 card. |
pct_bw | Percentage of the line bandwidth to be allocated to the logical interface, in the range 0-100. The value applies to both the ingress and egress. |
min_vpi | Minimum virtual path identifier value, in the range appropriate for either UNI or NNI. · UNI = 0-255 · NNI = 0-4095 The UNI range typically applies to a line connecting a stand-alone node to a workstation. |
max_vpi | Maximum virtual path identifier value, in the range appropriate for either UNI or NNI. · UNI = 0-255 · NNI = 0-4095 Typically, the UNI range applies to a line connecting a stand-alone node to a workstation. |
Log: No State: Active Privilege: 1-4
spirit.1.7.PXM.a > upif 1 1 100 1 2000 spirit.1.7.PXM.a >
Use the upport command to activate a specified AUSM port.
Up port
AUSM
upport <PortNum>
PortNum | Port Number, in the range 1-8. |
Log: Yes State: Active Privilege: 1
Use the upilmi command to activate ILMI on the PXM.
Up Interim Local Management Interface
PXM
xcnfilmi -ifNum <sigPortNum> -ilmi <ilmiEnable> -type <protocolType> -vpi <vpi> -vci <vci> -trap <ilmiTrapEnable> -trapint <minTrapInterval> -keepalive <keepAliveEnable> -err491 <errorThresholdN491> -event492 <eventThresholdN492> -pollint491 <pollingIntervalT491> -enqint493 <minEnquiryIntervalT493> -addrreg <addrRegEnable> -ifNum <sigPortNum>, where sigPortNum = 1 - 32 -ilmi <ilmiEnable>
-ifNum | Command delineator that precedes the sigPortNum entry. |
sigPortNum | Signal port number, in the range 1-32. |
-ilmi | Command delineator that precedes the ilmiEnable entry. |
ilmiEnable | Value to enable or disable ILMI. · 1 = disable · 2 = enable |
-type | Command delineator that precedes the protocolType entry. |
protocolType | Value to set protocol type. · 1 = other · 2 = noSignalling · 3 = iLMI |
-vpi | Command delineator that precedes the vpi entry. |
vpi | Virtual path identifier, in the range 0-4095. |
-vci | Command delineator that precedes the vci entry. |
vci | Virtual channel identifier, in the range 0-4095. |
-trap | Command delineator that precedes the ilmiTrapEnable entry. |
ilmiTrapEnable | Value to enable or disable ILMI trap. · 1 = disable · 2 = enable |
-trapint | Command delineator that precedes the minTrapInterval entry. |
minTrapInterval | Minimum number of seconds to allocate for trap interval, in the range 1-10. |
-keepalive | Command delineator that precedes the keepAliveEnable entry. |
keepAliveEnable | Value to enable or disable the keep alive function. · 1 = disable · 2 = enable |
-err491 | Command delineator that precedes the errorThresholdN491 entry. |
errorThresholdN491 | Error Threshold N491, in the range 1-10. |
-event492 | Command delineator that precedes the eventThresholdN492 entry. |
eventThresholdN492 | Event Threshold N492, in the range 1-10. |
-pollint491 | Command delineator that precedes the pollingIntervalT491 entry. |
pollingIntervalT491 | Polling Interval T491, in the range v1-v12 |
-enqint493 | Command delineator that precedes the minEnquiryIntervalT493 entry. |
minEnquiryIntervalT493 | Minimum Enquiry Interval T493, in the range 1-20. |
-addrreg | Command delineator that precedes the addrRegEnable entry. |
addrRegEnable | Value to enable or disable address registration. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: CISCO_GP
Use the users command to view details associated with currently active users on the PXM. The screen display shows the means through which each user logged into the switch, the slot number of the current card, and the login name of the users.
Display the names of all users currently logged in to the switch
PXM
Log: No State: Any Privilege: Any
spirit.1.7.PXM.a > users Port Slot Idle UserId From ------------------------------------------------------------- telnet.01 * 7 0:00:00 cisco 171.71.25.240 telnet.02 3 0:07:03 cisco 171.71.25.240 spirit.1.7.PXM.a >
Use the version command to view different types of version-related information, such as firmware version, operating system kernel version, the date of the software build, and so on (refer to screen examples).
Display Versions
PXM, FRSM, AUSM, CESM, VISM
Log: No State: Any Privilege: Any
This section contains the following examples.
spirit.1.7.PXM.a > versionVxWorks (for MGX 8850) version 5.3.1. Kernel: WIND version 2.5. Made on Feb 13 1999, 07:40:57. Boot line: lnPci(0,0) e=172.29.37.40 g=172.29.37.1 PXM firmware version : 1.0.00cp1 Boot Image Version : 1.0.00av spirit.1.7.PXM.a >
MGX 88003.1.11.FRSM.a > version
***** Cisco Systems, Inc. MGX 8800 FRSM Card *****
Firmware Version = eqa2.0.1g
Backup Boot version = model-B BT_2.0.0
PXMFRSM Xilinx file = frsm025.h
VxWorks (for STRATACOM) version 5.1.1-R3000.
Kernel: WIND version 2.4.
Made on Wed Jan 13 19:45:10 PST 1999.
Boot line:
MGX 88003.1.11.FRSM.a >
spirit.1.5.VISM8.a > version
***** Cisco Systems. AXIS VISM Card *****
Firmware Version = rangar
Backup Boot version = 3.2.02
Xilinx Firmware version = 10/ 2/1998
DSPCOM FPGA version = 1/20/1999
DSPM Firmware Details:
Major Release = 3
Minor Release = 0
Build number = 12
DSPM ecan Firmware Details:
Major Release = 7
Minor Release = 3
Build number = 9e1
VxWorks (for R5k PDC) version 5.3.1.
Kernel: WIND version 2.5.
Made on Mar 9 1999, 14:19:21.
Boot line:
spirit.1.5.VISM8.a >
MGX 88003.1.14.AUSM.a > version
***** Cisco Systems, Inc. MGX 8800 AUSM Card *****
Firmware Version = model-A 2.0.00
Backup Boot version = model-A BT_eqa2.0.1
AUSM Xilinx file = ausmfract.h
VxWorks (for STRATACOM) version 5.1.1-R3000.
Kernel: WIND version 2.4.
Made on Thu Jan 21 17:57:59 GMT 1999.
Boot line:
MGX 88003.1.14.AUSM.a >
Use the who command to view details associated with user IDs currently active on the PXM.
Who
PXM
who
Log: No State: Any Privilege: Any
spirit.1.7.PXM.a > who
Port Slot Idle UserId From ------------------------------------------------------------- telnet.01 * 7 0:00:00 cisco 171.71.25.240 spirit.1.7.PXM.a >
Use the whoami command to view the current login ID, access level, and associated terminal port.
Who Am I
PXM
whoami
Log: No State: Any Privilege: Any
spirit.1.7.PXM.a > whoami
User ID: cisco Access Level: CISCO_GP Terminal Port: telnet.01 spirit.1.7.PXM.a >
Use the xaddcon command to adds a connection to the current AUSM. No messages appear on screen after command entry unless the command cannot execute as entered.
Add Connection
AUSM
xaddcon <channel number> <connection type> <port number> <vpi> <vci> <service type>
<egress queue number>
channel number | Channel number, in the range 16-1015. |
connection type | Value to set connection type as either VPP or VCC. · 1 = VPP · 2 = VCC |
port number | Port number, in the range 1-8. |
vpi | Virtual path identifier, in the range 0-255. |
vci | Virtual channel identifier, in the range 0-65535. |
service type | Value to set service type as either, CBR, VBR, or ABR. · 1 = CBR · 2 = VBR · 3 = ABR |
egress queue number | Egress queue number, in the range 1-12. Zero (0) is for the default in addcon. |
Log: Yes State: Active Privilege: 1-2
MGX 88003.1.14.AUSM.a > xaddcon 16 2 1 1 1 3 1
MGX 88003.1.14.AUSM.a >
A system response does not occur unless an error is detected.
Use the xclrchancnt command to clear the channel counters for a specified Frame Relay channel on a specified card. Counting resumes after the command executes.
Clear Channel Counters
PXM, FRSM, AUSM, CESM
xclrchancnt -cnt <chanNum> -cc <clrButton>"
-cnt | Command delineator that precedes the PXM channel number entry. |
channel number | PXM channel number, in the range 16-4111. |
-cc | Command delineator that precedes the cntClrButton entry. |
clrButton | Value to set the underline MIB object to clear or retain the counters. · 1 = no action · 2 = clear counts |
xclrchancnt -chn <channel number>
-chn | Command delineator that precedes the channel number entry. |
channel number | Channel number in the range appropriate for the current card interface. · FRSM
· AUSM range = 16-1015 · CESM
|
Log: No State: Any Privilege: 1-5
Use the xclrportcnt command to clear port counter values from the current AUSM or FRSM.
No message appears upon successful execution of the command.
Clear Port Counters
FRSM, AUSM
xclrportcnt -pt <port number>
-pt | Command delineator that precedes the port number entry. |
port number | Port number, in the range appropriate for the current card. · AUSM range = 1-8 · FRSM range as appropriate for the interface.
|
Log: No State: Any Privilege: 1-5
.
Use the xcnfalm command to configures extended alarm counters and statistics for the specified line.
Configure Extended Alarm Counters and Statistics
FRSM, AUSM, CESM
xcnfalm -ds1 <LineNum> -red <RedSeverity> -rai <RAISeverity> -neu <NEAlarmUpcount> -ned <NEAlarmDncount> -net <NEAlarmThreshold> -feu <FEAlarmUpcount> -fed <FEAlarmDncount> -fet <FEAlarmThreshold>
-ds1 | Command delineator that precedes the LineNum entry. |
LineNum | Line number, in the range 1-n, as appropriate for the current card. |
-red | Command delineator that precedes the RedSeverity entry. |
RedSeverity | Value that defines RedSeverity as either major or minor. · 1 = minor · 2 = major |
-rai | Command delineator that precedes the RAISeverity entry. |
RAISeverity | Value that defines RAISeverity as either major or minor. · 1 = minor · 2 = major |
-neu | Command delineator that precedes the NEAlarmUpcount entry. |
NEAlarmUpcount | NEAlarmUpcount, in the range 1-65335. |
-ned | Command delineator that precedes the NEAlarmDncount entry. |
NEAlarmDncount | NEAlarmDncount, in the range 1-65335. |
-net | Command delineator that precedes the NEAlarmThreshold entry. |
NEAlarmThreshold | NEAlarmThreshold, in the range 1-65335. |
-feu | Command delineator that precedes the FEAlarmUpcount entry. |
FEAlarmUpcount | FEAlarmUpcount, in the range 1-65335. |
-fed | Command delineator that precedes the FEAlarmDncount entry. |
FEAlarmDncount | FEAlarmThreshold, in the range 1-65335. |
-fet | Command delineator that precedes the FEAlarmThreshold entry. |
FEAlarmThreshold | FEAlarmThreshold, in the range 1-65335. |
Log: Yes State: Active Privilege: 1
MGX 88003.1.14.AUSM.a > xcnfalm -ds1 1 -red 1 -rai 1 -neu 100 -ned 100 -net 100 -feu 100 -fed 100 -fet 100 MGX 88003.1.14.AUSM.a >
Use the xcnfalmcnt command to configures the extended alarm counters for the specified line.
Configure Alarm Counters
AUSM, FRSM, CESM
xcnfalmcnt -ds1 <LineNum> -sev <StatisticalAlarmSeverity> -lcv15 <lCV15minThreshold> -lcv24 <lCV24hrThreshold> -les15 <lES15minThreshold> -les24 <lES24hrThreshold> -lses15 <lSES15minThreshold> -lses24 <lSES24hrThreshold> -crc15 <cRC15MinThreshold> -crc24 <cRC24HrThreshold> -crces15 <cRCES15MinThreshold> -crces24 <cRCES24HrThreshold> -crcses15 <cRCSES15MinThreshold> -crcses24 <cRCSES24hrThreshold> -sefs15 <sEFS15minThreshold> -sefs24 <sEFS24hrThreshold> -aiss15 <aISS15minThreshold> -aiss24 <aISS24hrThreshold> -uas15 <uAS15minThreshold> -uas24 <uAS24hrThreshold>
Syntax Description
-ds1 | Command delineator that precedes the LineNum entry. |
LineNum |
|
-sev | Command delineator that precedes the StatisticalAlarmSeverity entry. |
StatisticalAlarmSeverity |
|
-lcv15 | Command delineator that precedes the 1CV15minThreshold entry. |
1CV15minThreshold |
|
-lcv24 | Command delineator that precedes the 1VC24hrThreshold entry. |
1VC24hrThreshold |
|
-les15 | Command delineator that precedes the 1ES15minThreshold entry. |
1ES15minThreshold |
|
-les24 | Command delineator that precedes the 1ES24hrThreshold entry. |
1ES24hrThreshold |
|
-lses15 | Command delineator that precedes the 1SES15minThreshold entry. |
1SES15minThreshold |
|
-lses24 | Command delineator that precedes the 1SES24hrThreshold entry. |
1SES24hrThreshold |
|
-crc15 | Command delineator that precedes the cRC15MinThreshold entry. |
cRC15MinThreshold |
|
-crc24 | Command delineator that precedes the cRC24HrThreshold entry. |
cRC24HrThreshold |
|
-crces15 | Command delineator that precedes the cRCES15MinThreshold entry. |
cRCES15MinThreshold |
|
-crces24 | Command delineator that precedes the cRCES24HrThreshold entry. |
cRCES24HrThreshold |
|
-crcses15 | Command delineator that precedes the cRCSES15MinThreshold entry. |
cRCSES15MinThreshold |
|
-crcses24 | Command delineator that precedes the cRCSES24hrThreshold entry. |
cRCSES24hrThreshold |
|
-sefs15 | Command delineator that precedes the sEFS15minThreshold entry. |
sEFS15minThreshold |
|
-sefs24 | Command delineator that precedes the sEFS24hrThreshold entry. |
sEFS24hrThreshold |
|
-aiss15 | Command delineator that precedes the aISS15minThreshold entry. |
aISS15minThreshold |
|
-aiss24 | Command delineator that precedes the aISS24hrThreshold entry. |
aISS24hrThreshold |
|
-uas15 | Command delineator that precedes the uAS15minThreshold entry. |
uAS15minThreshold |
|
-uas24 | Command delineator that precedes the uAS24hrThreshold entry. |
uAS24hrThreshold |
|
Log: Yes State: Active Privilege: 3
Use the xcnfbert command to set up a Bit Error Rate Test (BERT) and to add or remove loops on the ports and lines of a specified SM.
A BERT test session does not time out automatically. Use the delbert command to conclude the test.
Configure Bit Error Rate Test
PXM
xcnfbert -bcntl <bertControl> -bsl <bertSlotNum> -bmed <bertTestMedium> -bpt <bertPort> -bline <bertLine> -bmode <bertMode> -bdtl <bertDeviceToLoop> -bcnt <bertDS0DPIterationCount> -bpat <bertPattern> -blpbk <bertLoopback> -blpbkop <bertLoopbackOperation> -buid <bertUserId>
-bcntl | Command delineator that precedes the bertControl entry. |
bertControl | Value to set BERT control. · 1 = acquire · 2 = release · 3 = configure · 4 = start · 5 = modify · 6 = delete |
-bsl | Command delineator that precedes the bertSlotNum entry. |
bertSlotNum | BERT slot number, in the range 1-6, or 9-14, or 17-22, or 25-30. |
-bmed | Command delineator that precedes the bertTestMedium entry. |
bertTestMedium | Value to set either the port or the line as the test medium. · 1 = port · 2 = line |
-bpt | Command delineator that precedes the bertPort entry. |
bertPort | BERT port number, as a number greater than 0 (zero). |
-bline | Command delineator that precedes the bertLine entry. |
bertLine | BERT line number, as a number greater than 0 (zero). |
-bmode | Command delineator that precedes the bertMode entry. |
bertMode | Value to set BERT function as a patter test, DDS seek, or loopback. · 1 = pattern test · 2 = DDS seek · 3 = loopback |
-bdtl | Command delineator that precedes the bertDeviceToLoop entry. |
bertDeviceToLoop | Value that defines the type of BERT device to loop. · 1 = noLatchOCUwith1 · 2 = noLatchOCUwithout1 · 3 = noLatchCSU · 4 = noLatchDSU · 5 = latchDS0Drop · 6 = latchDS0Line · 7 = latchOCU · 8 = latchCSU · 9 = latchDSU · 10 = latchHL96 · 11 = v54Polynomial · 12 = inband · 13 = esf · 14 = metallic · 15 = noDevice |
-bcnt | Command delineator that precedes the bertDS0DPIterationCount entry. |
bertDS0DPIterationCount | BERT DS0 DP iteration count, in the range 1-32 |
-bpat | Command delineator that precedes the bertPattern entry. |
bertPattern | Value to set the type of BERT test pattern to use. · 1 = allZeros · 2 = allOnes · 3 = alternateOneZero · 4 = doubleOneZero · 5 = fifteenBit · 6 = twentyBit · 7 = twentyBitQRSS · 8 = twentyThreeBit · 9 = oneInEight · 10 = threeInTwentyFour · 11 = dds-1 · 12 = dds-2 · 13 = dds-3 · 14 = dds-4 · 15 = dds-5 · 16 = nineBit · 17 = elevenBit |
-blpbk | Command delineator that precedes the bertLoopback entry. |
bertLoopback | Value that defines type of BERT loopback to use. · 1 = farEndRemoteLoopback, · 2 = portRemoteFacilityLoopback, · 3 = metallicLoopback
|
-blpbkop | Command delineator that precedes the bertLoopbackOperation entry. |
bertLoopbackOperation | Value that defines the BERT loopback as either loop up or loop down. · 1 = loopUp · 2 = loopDown |
-buid | Command delineator that precedes the bertUserId entry. |
bertUserId | BERT user identifier. · User name = · IP address = 32 bit IP address in dotted decimal format. |
Log: Yes State: Active Privilege: SUPER_GP
Use the xcnfdsx3bert command to specify a pattern for BERT testing on the FRSM.
Configure DS3 BERT
FRSM 2T3E3
xcnfdsx3bert -dsx3bct <state> -dsx3btm <medium> -dsx3bln <line num> -dsx3bmo <mode> -ds3bei <EIR> -ds3bpt <test pattern>
-dsx3bct | Command delineator that precedes the state entry. |
state | Value to define type of DSX3 BERT control. · 1 = acquire BERT · 2 = Release BERT · 3 = Configure BERT · 4 = Start BERT · 5 = Modify BERT · 6 = Delete BERT |
-dsx3btm | Command delineator that precedes the medium entry. |
medium | Value to define DSX3 BERT Testing medium. · 1 = Port · 2 = Line |
-dsx3bln | Command delineator that precedes the line num entry. |
line num | Line number, in the range 1-2. |
-dsx3bmo | Command delineator that precedes the mode entry. |
mode | Value to define BERT mode as pattern or loopback. · 1 = pattern · 2 = loopback |
-ds3bei | Command delineator that precedes the EIR entry. |
EIR | Value to define the DSX3 Excess Information Rate. · 1 = no error · 2 = 1 in 10 · 3 = 1 in 100 · 4 = 1 in 1000 · 5 = 1 in 10^^4 · 6 = 1 in 10^^5 · 7 = 1 in 10 ^^6 · 8 = 1 in 10 ^^7 |
-ds3bpt | Command delineator that precedes the test pattern entry. |
test pattern | DSX3 BERT pattern, in the range 1-33. |
Log: No State: Active Privilege: Any
Use the xcnfif 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.
Configure a Broadband Interface
PXM
-if | Command delineator that precedes the bbIfNum entry. |
bbIfNum | Number of the logical interface, in the range 1-32. |
-bl | Command delineator that precedes the lineNum entry. |
lineNum | Number of the line to tie the logical interface to, in the range 1-4. |
-ie | Command delineator that precedes the rowStatus entry. |
rowStatus | Value to enable, disable, or modify the row status. · 1 = enable · 2 = disable · 3 = modify |
-ib | Command delineator that precedes the ingrPctBw entry. |
ingrPctBw | Percentage of interface bandwidth to be allocated to ingress traffic, in the range 0-100. |
-eb | Command delineator that precedes the egrPctBw entry. |
egrPctBw | Percentage of line egress queue bandwidth to be allocated for the logical interface, in the range 0-100. |
-iv | Command delineator that precedes the minVpi entry. |
minVpi | Minimum virtual path identifier value, in the range 0-4095. |
-av | Command delineator that precedes the maxVpi entry. |
maxVpi | Maximum virtual path identifier value, in the range 0-4095. |
Log: No: Yes State: Any Privilege: CISCO_GP
This section contains the following examples.
wilco.1.7.PXM.a > xcnfif -if 1 -bl 4 -ie 1 -ib 10 -eb 10 -iv 0 -av 19 wilco.1.7.PXM.a >
A system response does not occur unless an error is detected. To verify your entries, use the dspifip command.
wilco.1.7.PXM.a > dspif
ifNum Status Line ingrPctBw egrPctBw minVpi maxVpi ------------------------------------------------------ 1 Ena 1 10 10 0 19 wilco.1.7.PXM.a >
Use the xcnfifip command to set the IP address for the LAN, Slip, and ATM interfaces.
Configure Interface for IP
PXM
xcnfifip -ifn <Interface> -ipa <ip_addr> -msk <NetMask> -bc <Brocast addr> -ipo <Oper>
-ifn | Command delineator that precedes the Interface entry. |
Interface | Value that defines interface type. · 26 = Ethernet · 28 = SLIP · 37 = ATM |
-ipa | Command delineator that precedes the ip_addr entry. |
ip_addr | IP address in dotted decimal format. |
-msk | Command delineator that precedes the NetMask entry. |
NetMask | NetMask = nnn.nnn.nnn.nnn, n = 0-9, nnn < 256 |
-bc | Command delineator that precedes the Brocast Addr entry. |
Brocast Addr | Broadcast Address = nnnnnnnn, n is hexadecimal, Ethernet only |
-ipo | Command delineator that precedes the Oper entry. |
Oper | Value to enable or disable IP Address. · 1 = Add · 2 = Delete |
Log: Yes State: Any Privilege: SUPER_GP
This section contains the following examples.
spirit4.1.7.PXM.a > xcnfifip -if 26 -ipa 172.29.37.40 -msk 255.255.255.000 -bc 255.255.255.000 -ipo 1 spirit4.1.7.PXM.a >
A system response does not occur unless an error is detected. To verify your entries, use the dspifip command:
spirit4.1.7.PXM.a > dspifip
Interface IPAddress NetMask BroadcastAddress ------------ ----------------- ----------------- ----------------- Ethernet 172.29.37.40 255.255.255.000 255.255.255.000 Slip 192.169.3.18 255.255.255.000 ATM 255.255.255.000 spirit4.1.7.PXM.a >
Use the xcnfilmi command to configure local management interface for a port. No messages appear on screen unless an error occurs.
Configure ILMI
AUSM
xcnfilmi -pti <port_num> -s <signal_type> -vpi <virtual_path_identifier> -vci <virtual_channel_identifier> -t <trap_enable> -mti <min_trap_int> -kap <keep_alive> -eth <ErrorThreshold> -evh <EventThreshold> -pi <PollingInterval> -mei <MinimumEnquiryInterval> -ar <AddrRegEnable>
-pti | Command delineator that precedes the port_num entry. |
port_num | Port number, in the range 1-8. |
-s | Command delineator that precedes the signal_type entry. |
signal_type | Value that defines signaling type. · 1 = other · 2 = no signaling · 3 = ILMI |
-vpi | Command delineator that precedes the virtual_path_id entry. |
virtual_path_id | Virtual path identifier, in the range 1-255. |
-vci | Command delineator that precedes the virtual_channel_id entry. |
virtual_channel_id | Virtual channel identifier, in the range 1-65535. |
-t | Command delineator that precedes the trap_enable entry. |
trap_enable | Value that enables or disable ILMI traps. · 1 = disable · 2 = enable |
-mti | Command delineator that precedes the min_trap_int entry. |
min_trap_int | Minimum trap interval value, in the range 1-10 seconds. |
-kap | Command delineator that precedes the keep_alive entry. |
keep_alive | Value that enables or disables Keep Alive Polling. · 1 = disable · 2 = enable |
-eth | Command delineator that precedes the ErrorThreshold entry. |
ErrorThreshold | Error Threshold, in the range 1-10 seconds. |
-evh | Command delineator that precedes the EventThreshold entry. |
EventThreshold | Event Threshold, in the range 1-10 seconds. |
-pi | Command delineator that precedes the PollingInterval entry. |
PollingInterval | Polling interval, in the range 5-60 seconds. |
-mei | Command delineator that precedes the MinimumEnquiryInterval entry. |
MinimumEnquiryInterval | Minimum enquiry interval, in the range 1-20 seconds. |
-ar | Command delineator that precedes the AddrRegEnable entry. |
AddrRegEnable | Value that enables or disables Address Registration. · 1 = disable · 2 = enable |
Log: Yes State: Active Privilege: 1
Use the xcnfln command to configure a line on the current card to be either T1 or E1. If the command line does not include the E1 signalling parameter, the line is a T1.
For an FRSM-HS1 card, the xcnfln command is used to configure either an X.21 or a V.35 line.
Configure Line
FRSM, AUSM, CESM
xcnfln <line_num> <line_code> <line_len> <clk_src> [E1-signaling]
line_num | Line number, in the range 1-8. |
line_code | Value to set Line coding. · 2 = B8ZS · 3 = HDB3 · 4 = AMI |
line_len | Value to set Line length for either T1 or E1. · T1 range = 1-7 · E1 range = 8-9 |
clk_src | Value to set clock source for either loop clock or local clock. · 1 = loop clock · 2 = local clock |
E1-signalling | · N CRC: type CAS = CAS · CAS with CRC: type CAS_CRC · CCS = CCS no CRC · CCS_CRC = CCS with CRC · CLEAR = Clear E1 |
xcnfln xcnfln -hs1 <LineNum> -e <Enable> -lt <LineType> -sp <LineRate> -lpb <LoopCmd>
-sc <SendCode> -detect <LoopbackCodeDetection> -clktype <InvertClock>
LineNum | Line number, in the range 1-4. |
Enable | Line coding value from 1 to 3. · 1 = disable · 2 = enable · 3 = mod |
lineType | LineType, in the range 1 to 3. · 1 = DTE · 2 = DCE · 3 = DTE_ST (in V.35 only) |
LineRate | The rate in bits/sec. |
LoopCmd | A value, either 1, 4 or 5. 1 = no loop (X.21, V.35) 4 = remote (X.21) 5 = metallic (X.21, V.35) |
SendCode | A value, either 1, 4, 5 or 6. · 1 = no code · 4 = local loop · 5 = remote loop · 6 = unloop |
LoopbackCodeDetection | A value, either 1 or 2. · 1 = disable · 2 = enable |
InvertClock | A value, either 1 or 2. · 1 = normal · 2 = inverted |
Log: Yes State: Active Privilege: 1
MGX 88003.1.11.FRSM.a > xcnfln 4 2 1 1
MGX 88003.1.11.FRSM.a >
man.1.4.FRSM.a > xcnfln -hs1 1 -e 3 -lpb 4 -sc 5
Use the xcnfport command to configure a service port on an FRSM or an AUSM.
The screen does not display a message after successful command entry. The configuration can be verified using the xdspport or dspport command.
The syntax for this command differs according to the service module being addressed.
FRSM, AUSM
Configure Port
xcnfport <port_num> <PortLineNum> <PortEnable> <lmi_sig> <asyn> <T391> <T392> <N391> <N392> <N393> <CLLMEN> <CLLMTM>
port_num | Port number, in the range appropriate for the card. · FRSM T1: 1-192 · FRSM E1: 1-248 |
PortLineNum | Line number in the range 1-8. |
lmi_sig | Value that defines type of LMI signaling to be used on the card. · 1 = Other · 2 = None · 3 = StrataLMI · 4 = AnnexAUNI · 5 = AnnexDUNI · 6 = AnnexANNI · 7 = AnnexDNNI |
asyn | Asyn update is (y)es or (n)o |
T391 | T391 timer value, in the range 5-30 sec. |
T392 | T392 timer value, in the range 5-30 sec. |
N391 | N391 counter value, in the range 1-255. |
N392 | N392 counter value, in the range 1-10. |
N393 | N393 counter value, in the range 1-10. |
CLLMEN | Value to enable or disable Consolidated Link Management. · 1 = disable · 2 = enable |
CLLMTM | Consolidated Link Management Timer value, in the range 40-5000 ms. |
Possible errors are:
Log: Yes State: Active Privilege: 1-6
xcnfport <port_num> <plpp loopback>
port_num | Port number, in the range 1-8. |
plpp loopback | Value to set type of Physical Layer Protocol Processor loopback. · 1 = no loopback · 2 = remote loopback · 3 = local loopback |
Log: Yes State: Active Privilege: 1
A system response does not occur unless an error is detected.
Use the xcnfportq command to configure queue parameters on a port associated with the current AUSM. A system response does not occur unless an error is detected.
Configure Port Queue
AUSM
-pt | Command delineator that precedes the ServicePortNum entry. |
ServicePortNum | Port number, in the range 1-8. |
-pqn | Command delineator that precedes the PortQNumber entry. |
PortQNumber | Queue number, in the range 1-16. |
-e | Command delineator that precedes the Enable entry. |
Enable | Value to enable or disable the queue. · 1 = enable · 2 = disable |
-sn | Command delineator that precedes the SequenceNo entry. |
SequenceNo | Service sequence number, in the range 1-16. |
-qdm | Command delineator that precedes the QueueDepthMax entry. |
QueueDepthMax | Size of the queue. Set number of cells allowable in the queue, in the range 1-16000. |
-clph | Command delineator that precedes the EgressQCLPThresHigh entry. |
EgressQCLPThresHigh | Cell Loss Priority high-threshold value for traffic exiting the physical interface of the AUSM, in the range 1-16000. |
-clpl | Command delineator that precedes the EgressQCLPThresLow entry. |
EgressQCLPThresLow | Cell Loss Priority low-threshold value, in the range 1-16000. Once the low Cell Loss Priority threshold is passed, cells will no longer have the CLP bit set, making them eligible for discard. |
-clpt | Command delineator that precedes the EgressQEFCIThresh entry. |
EgressQEFCIThresh | Explicit Forward Congestion Indicator threshold value, in the range 1-16000. An Explicit Forward Congestion Indicator is sent to the sending node when the threshold is exceeded. |
-qa | Command delineator that precedes the EgressQAlgorith entry. |
EgressQAlgorith | Queue algorithm, in the range 1-5. To disable the queue, set value at 0 (zero). |
-mxbi | Command delineator that precedes the EgressMaxBandwidthInc entry. |
EgressMaxBandwidthInc | Egress Maximum Bandwidth Increment value, in the range 0-4096. An Explicit Forward Congestion Indicator is sent to the sending node when the threshold is exceeded. |
-mibi | Command delineator that precedes the MinimumBandwidthInc entry. |
MinimumBandwidthInc | Minimum Bandwidth Increment value, in the range 0-4096. |
Log: Yes State: Active Privilege: 1-6
spirit3.1.22.AUSM8.a > xcnfportq -pt 1 spirit3.1.22.AUSM8.a >
Use the xcnfred command to set redundancy between two PXM slots, and to set the primary and secondary PXMs in the pair. Redundancy can be 1:1 or 1:n. If the redundancy is 1:n, repeat the xcnfred command for each secondary slot to be linked to the primary slot.
Configure Redundancy
PXM
xcnfred -pri <redPrimarySlotNum> -en <rowStatus> -sec <redSecondarySlotNum> -type <redType>
-pri | Command delineator that precedes the redPrimarySlotNum entry. |
redPrimarySlotNum | Slot number that contains the primary card of the card pair. |
-en | Command delineator that precedes the rowStatus entry. |
rowStatus | Value to enable, disable, or modify the row status. · 1 = enable · 2 = disable · 3 = modify |
-sec | Command delineator that precedes the redSecondarySlotNum entry. |
redSecondarySlotNum | Slot number that contains the secondary card of the card pair. |
-type | Command delineator that precedes the redType entry. |
redType | Value that defines type of redundancy to be used. · 1 = 1:1 · 2 = 1:n |
Log: No State: Active Privilege: Any
node501.1.7.PXM.a > xcnfred -pri 1 -en 1 -ser 4 -type 1 node501.1.7.PXM.a >
Use the xcnfrscprtn command to partition PXM resources (bandwidth) as broadband interfaces.
Configure Resource Partition Extended Parameters
PXM
-pn | Command delineator that precedes the bbIfNum entry. |
bbIfNum | Broadband interface number, in the range 1-32. |
-cn | Command delineator that precedes the ctrlrNum entry. |
ctrlrNum | Value that represents the type of controller to be used on the interface. · 1 = PAR · 2 = PNNI · 3 = TAG |
-pr | Command delineator that precedes the rowStatus entry. |
rowStatus | Value to enable, disable, or modify the row status. · 1 = enable · 2 = disable · 3 = modify |
-ps | Command delineator that precedes the inUse entry. |
inUse | Value to set operational status of the interface. · 1 = In Use · 2 = Not In Use |
-pi | Command delineator that precedes the ingrPctBw entry. |
ingrPctBw | Percentage of interface bandwidth to be allocated to ingress traffic, in the range 0-100. |
-pe | Command delineator that precedes the egrPctBw entry. |
egrPctBw | Percentage of interface bandwidth to be allocated to egress traffic, in the range 0-100. |
-pv | Command delineator that precedes the minVpi entry. |
minVpi | Minimum Virtual Path Indicator value, in the range 0-4095. |
-pu | Command delineator that precedes the maxVpi entry. |
maxVpi | Maximum Virtual Path Indicator value. Enter a value that is greater than that defined for bbIfRscPrtVpiLow and less than 4095. |
-pc | Command delineator that precedes the minVci entry. |
minVci | Minimum Virtual Channel Indicator value, in the range 0-65535. |
-pn | Command delineator that precedes the maxVci entry. |
maxVci | Maximum Virtual Channel Indicator, in the range 0-65535. |
-pch | Command delineator that precedes the maxGLCNs entry. |
maxGLCNs | Maximum Global Logical Connection Number value, in the range 0-32767. |
Log: Yes State: Any Privilege: Cisco
spirit4.1.7.PXM.a > xcnfrscprtn -pn 1 -cn 1 -pr 1 -ps 1 -pi 100 -pe 100 -pi 0 -pu 4095 -pc 0 -pd 65535 - pth 32767 spirit4.1.7.PXM.a >
Use the xcnfsrmlink command to configure and to enable a link between a T1 line within a T3 line on an SRM-3T3 card and a slot and line number on a T1 service module.
Configure Link
PXM
xcnfsrmlink -srmt3 <T3 line number> -srmt1 <T1 line number> -en <rowStatus> -srms1 <Target Slot number> -srmln <Slot line number>
-srmt3 | Command delineator that precedes the T3 line number entry. |
T3 line number | SRM-3T3 T3 line number in the format slot.line. · slot = enter value either 15 or 31
· line range = 1-3 |
-srmt1 | Command delineator that precedes the T1 line number entry. |
T1 line number | T1 line number, in the range 1-28. |
-en | Command delineator that precedes the rowStatus entry. |
rowStatus | Value to enable, disable, or modify the row status. · 1 = enable · 2 = disable · 3 = modify |
-srms1 | Command delineator that precedes the Target Slot number entry. |
Target Slot number | Number of the T1 service module slot to be linked. Target Slot number ranges = 1-6|9-14|17-22|25-30 |
-srmln | Command delineator that precedes the Slot line number entry. |
Slot line number | T1 line number in the slot to be linked (range 1-4 or 1-8) as appropriate for the installed service module |
Log: Yes State: Active Privilege: SuperUser
spirit4.1.7.PXM.a > xcnfsrmlink -srmt3 15.2 -srmt1 1 -en 1 -srmsl 3 -srmln 5 spirit4.1.7.PXM.a >
Use the xcnftrapmgr command to configure, enable, and to disable the trap manager function on the PXM. If you enable the trap manager, this command allows you configure the number and IP address of the trap manager you intend to receive traps.
Configure Trap Manager
PXM
xcnftrapmgr -ip <ip_addr> -pt <portnum> -en <enabled> -tf <TrapFlag> -seq <SeqNum>
-ip | Command delineator that precedes the ip_addr entry. |
ip_addr | IP address of the trap manager in dotted decimal format nnn.nnn.nnn.nnn. |
-pt | Command delineator that precedes the portnum entry. |
portnum | Port number, in the range 1-n, as appropriate for the card. |
-en | Command delineator that precedes the enabled entry. |
enabled | Value that enables or disables the flag action on the row. · 1 = add row · 2 = delete row |
-tf | Command delineator that precedes the TrapFlag entry. |
TrapFlag | Trap flag entry. |
-seq | Command delineator that precedes the SeqNum entry. |
SeqNum | Sequence number entry. |
Log: Yes State: Active Privilege: SuperUser
spirit4.1.8.PXM.a > xcnftrapmgr -ip 192.169.3.102 -pt 3 -tf 1 -seq 100 -en 1
spirit4.1.8.PXM.a >
Use the xdelcon command to remove a connection on an AUSM. A system response does not occur unless an error is detected.
Delete a Connection
AUSM
xdelcon <connection number>
connection number | Connection number, in the range 16-1015. |
Log: Yes State: Active Privilege: 1-2
Use the xdnport command to deactivate a port. A system response does not occur unless an error is detected.
Down Port
AUSM
xdnport -pt <PortNum> -e <PortEnable> -ptyp <PortType> -ln <LineNum>
-pt | Command delineator that precedes the PortNum entry. |
PortNum | Port number, in the range 1-8. |
-e | Command delineator that precedes the PortEnable entry. |
PortEnable | Value that enables or disables the port. · 1 = disable · 2 = enable |
-ptyp | Command delineator that precedes the PortType entry. |
PortType | Value that represents either NNI or UNI port type. · 1 = NNI · 2 = UNI |
-ln | Command delineator that precedes the PhysLineNum entry. |
PhysLineNum | Physical line number, in the range 1-8. |
Log: No State: Active Privilege: 1
Use the xdspchan command to view a channel on the current service card.
Display Channel
FRSM, AUSM, CESM
xdspchan -chn <ChanNum>
-chn | Command delineator that precedes the ChanNum entry. |
ChanNum | Channel number, using the range appropriate for the current card. · FRSM
· AUSM range = 16-1015 · CESM
|
Log: No State: Any Privilege: 1-6
This section contains the following examples.
spirit3.1.20.FRSM.a > xdspchan 22 ChanNum: 22 ChanRowStatus: Add ChanPortNum: 1 ChanDLCI: 1000 EgressQSelect: 2 IngressQDepth: 65535 IngressQDEThresh: 32767 IngressQECNThresh: 6553 EgressQDepth: 65535 EgressQDEThresh: 32767 EgressQECNThresh: 6553 DETaggingEnable: Disabled CIR: 9600 Bc: 5100 Be: 5100 IBS: 100 ForeSightEnable: Disabled QIR: 25 MIR: 25 PIR: 25 ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanType: SIW-Xlat ChanFECNmap: setEFCIzero ChanDEtoCLPmap: mapCLP ChanCLPtoDEmap: mapDE ChanFrConnType: PVC ChanIngrPercentUtil: 100 ChanEgrPercentUtil: 100 ChanEgrSrvRate: 9600 ChanOvrSubOvrRide: Enabled ChanLocalVpi: 0 ChanLocalVci: 1000 ChanLocalNSAP: 504f504559453300000000000000000014000100 ChanRemoteVpi: 0 ChanRemoteVci: 0 ChanRemoteNSAP: NULL NSAP ChanMastership: Slave ChanVpcFlag: Vcc ChanConnServiceType: ATFR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 25 ChanConnMCR: 25 ChanConnPercentUti: 100 ChanNum: 42 ChanRowStatus: Mod ChanPortNum: 20 ChanDLCI: 300 EgressQSelect: 2 Type <CR> to continue, Q<CR> to stop: IngressQDepth: 65535 IngressQDEThresh: 32767 IngressQECNThresh: 6553 EgressQDepth: 65535 EgressQDEThresh: 32767 EgressQECNThresh: 6553 DETaggingEnable: Disabled CIR: 9600 Bc: 5100 Be: 5100 IBS: 100 ForeSightEnable: Disabled QIR: 25 MIR: 25 PIR: 25 ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanType: NIW ChanFECNmap: setEFCIzero ChanDEtoCLPmap: mapCLP ChanCLPtoDEmap: mapDE ChanFrConnType: PVC ChanIngrPercentUtil: 100 ChanEgrPercentUtil: 100 ChanEgrSrvRate: 9600 ChanOvrSubOvrRide: Enabled ChanLocalVpi: 0 ChanLocalVci: 300 ChanLocalNSAP: 504f504559453300000000000000000014001400 ChanRemoteVpi: 17 ChanRemoteVci: 18 ChanRemoteNSAP: 504f504559453300000000000000000000000100 ChanMastership: Master ChanVpcFlag: Vcc ChanConnServiceType: ATFR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 25 ChanConnMCR: 25 ChanConnPercentUti: 100 ChanNumNextAvailable: 25 spirit3.1.20.FRSM.a >
spirit3.1.21.CESM.a > xdspchan 33 ChanNum: 33 ChanRowStatus: Add ChanLineNum: 1 ChanMapVpi: 5 ChanMapVci: 33 ChanCBRService: structured ChanClockMode: Synchronous ChanCAS: Basic ChanPartialFill: 47 ChanMaxBufSize: 124 bytes ChanCDVT: 1000 micro seconds C L I P: 2500 milliseconds ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanPortNum 2 ChanConnType PVC ISDetType DetectionDisabled CondData 255 CondSignalling 0 ExtISTrig DisableIdleSupression ISIntgnPeriod 4095 seconds ISSignallingCode 0 OnHookCode 1 ChanLocalVpi: 0 ChanLocalVci: 0 ChanLocalNSAP: 504f504559453300000000000000000015000200 ChanRemoteVpi: 0 ChanRemoteVci: 0 ChanRemoteNSAP: NULL NSAP ChanMastership: Slave ChanVpcFlag: Vcc ChanConnServiceType: CBR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 688 ChanConnMCR: 688 ChanConnPercentUtil: 100 ChanNum: 41 ChanRowStatus: Mod ChanLineNum: 3 ChanMapVpi: 5 ChanMapVci: 41 ChanCBRService: unstructured ChanClockMode: Synchronous ChanCAS: Basic ChanPartialFill: 47 ChanMaxBufSize: 7680 bytes ChanCDVT: 20000 micro seconds C L I P: 30000 milliseconds ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: Failed ChanRTDresult: 65535 ms ChanPortNum 10 ChanConnType PVC ISDetType DetectionDisabled CondData 255 CondSignalling 8 Type <CR> to continue, Q<CR> to stop: ExtISTrig DisableIdleSupression ISIntgnPeriod 4095 seconds ISSignallingCode 0 OnHookCode 1 ChanLocalVpi: 0 ChanLocalVci: 0 ChanLocalNSAP: 504f504559453300000000000000000015000a00 ChanRemoteVpi: 11 ChanRemoteVci: 111 ChanRemoteNSAP: 504f504559453300000000000000000000000100 ChanMastership: Master ChanVpcFlag: Vcc ChanConnServiceType: CBR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction ChanConnPCR: 4107 ChanConnMCR: 4107 ChanConnPercentUtil: 100 ChanNumNextAvailable: 49 spirit3.1.21.CESM.a >
Use the xdspchancnt command to view the counter contents of all channels (or the specified channel with the optional -chn parameter).
Display Channel Count
PXM, FRSM, AUSM, CESM
xdspchancnt -chn <ChanNum>
-chn | Command delineator that precedes the ChanNum entry. |
ChanNum | Channel number, using the range appropriate for the current card. · FRSM
· PXM range = 16-4111 · AUSM range = 16-1015 · CESM
|
Log: No State: Any Privilege: 1-6
This section contains the following examples.
spirit3.1.20.FRSM.a > xdspchancnt -chn 22
ChanNum: 22
ChanState: okay
ChanUpTime: 1634994
Tx Rx
--------------- ---------------
AbitState: Sending A=1 Off
ATMState: Not sending any state Not receiving any state
Total Frames: 64187 57994
Total Bytes: 3410008 3317254
Frames DE: 0 0
Bytes DE: 0 0
Frames Discarded: 2 7079
Bytes Discarded: 118 410582
FramesDiscXceedQDepth: 0 0
BytesDiscXceedQDepth: 0 0
FramesDiscXceedDEThresh: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
FramesTagged FECN: 0 0
FramesTagged BECN: 0 0
KbpsAIR: 0 0
Type <CR> to continue, Q<CR> to stop:
Tx Rx
--------------- ---------------
FramesTaggedDE: 0 0
BytesTaggedDE: 0 0
RcvFramesDiscShelfAlarm: 0
XmtFramesDiscPhyLayerFail: 0
XmtFramesDiscCRCError: 0
XmtFramesDiscReAssmFail: 0
XmtFramesDiscSrcAbort: 0
XmtFramesDuringLMIAlarm: 14
XmtBytesDuringLMIAlarm: 794
RcvFramesDiscUPC: 0
XmtFramesInvalidCPIs: 0
XmtFramesLengthViolations: 0
XmtFramesOversizedSDUs: 0
XmtFramesUnknownProtocols: 0
RcvFramesUnknownProtocols: 7079
Type <CR> to continue, Q<CR> to stop:
ChanNum: 42
ChanState: alarm
ChanUpTime: 4
Tx Rx
--------------- ---------------
AbitState: Sending A=0 Off
ATMState: Sending AIS OAM state Receiving AIS OAM
Total Frames: 0 0
Total Bytes: 0 0
Frames DE: 0 0
Bytes DE: 0 0
Frames Discarded: 0 0
Bytes Discarded: 0 0
FramesDiscXceedQDepth: 0 0
BytesDiscXceedQDepth: 0 0
FramesDiscXceedDEThresh: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
FramesTagged FECN: 0 0
FramesTagged BECN: 0 0
KbpsAIR: 0 0
Type <CR> to continue, Q<CR> to stop:
Tx Rx
--------------- ---------------
FramesTaggedDE: 0 0
BytesTaggedDE: 0 0
RcvFramesDiscShelfAlarm: 0
XmtFramesDiscPhyLayerFail: 0
XmtFramesDiscCRCError: 0
XmtFramesDiscReAssmFail: 0
XmtFramesDiscSrcAbort: 0
XmtFramesDuringLMIAlarm: 0
XmtBytesDuringLMIAlarm: 0
RcvFramesDiscUPC: 0
XmtFramesInvalidCPIs: 0
XmtFramesLengthViolations: 0
XmtFramesOversizedSDUs: 0
XmtFramesUnknownProtocols: 0
RcvFramesUnknownProtocols: 0
spirit4.1.7.PXM.a > xdspchancnt -cnt 17 Channel Number : 17 Channel State : alarm Channel Ingress State : alarm Channel Egress State : other CLP=0 Rcvd. Cells : 0 CLP=1 Rcvd. Cells : 0 GCRA1 Non Conforming Cells : 0 GCRA2 Non Conforming Cells : 0 EOF Cells Rcvd. : 0 CLP=0 Discard Cells : 0 CLP=1 Discard Cells : 0 Total Xmtd. Cells : 2125 CLP=0 Xmtd. Cells : 0 CLP=1 Xmtd. Cells : 3203 CLP=0 Discard Cells to Port : 0 CLP=1 Discard Cells to Port : 0 spirit4.1.7.PXM.a >
spirit3.1.21.CESM.a > xdspchancnt ChanNum: 33 Chan State: alarm Chan RCV ATM State: Normal Chan XMT ATM State: Sending AIS OAM Cell Loss Status: No Cell Loss Reassembled Cells: 0 Generated Cells: 1234508943 Header Errors: 0 Seqence Mismatches : 0 Lost Cells: 0 Channel Uptime (secs.) 1808376 Signalling Status Offhook Type <CR> to continue, Q<CR> to stop: ChanNum: 41 Chan State: alarm Chan RCV ATM State: Normal Chan XMT ATM State: Sending AIS OAM Cell Loss Status: Cell Loss Reassembled Cells: 0 Generated Cells: 317857344 Header Errors: 0 Seqence Mismatches : 0 Lost Cells: 0 Channel Uptime (secs.) 77406 Signalling Status Offhook spirit3.1.21.CESM.a >
spirit3.1.21.CESM.a > xdspchancnt -chn 33 ChanNum: 33 Chan State: alarm Chan RCV ATM State: Normal Chan XMT ATM State: Sending AIS OAM Cell Loss Status: No Cell Loss Reassembled Cells: 0 Generated Cells: 1234551200 Header Errors: 0 Seqence Mismatches : 0 Lost Cells: 0 Channel Uptime (secs.) 1808438 Signalling Status Offhook spirit3.1.21.CESM.a >
spirit3.1.20.FRSM.a > xdspchancnt -chn 22
ChanNum: 22
ChanState: okay
ChanUpTime: 1635192
Tx Rx
--------------- ---------------
AbitState: Sending A=1 Off
ATMState: Not sending any state Not receiving any state
Total Frames: 64187 58001
Total Bytes: 3410008 3317660
Frames DE: 0 0
Bytes DE: 0 0
Frames Discarded: 2 7079
Bytes Discarded: 118 410582
FramesDiscXceedQDepth: 0 0
BytesDiscXceedQDepth: 0 0
FramesDiscXceedDEThresh: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
FramesTagged FECN: 0 0
FramesTagged BECN: 0 0
KbpsAIR: 0 0
Type <CR> to continue, Q<CR> to stop:
Tx Rx
--------------- ---------------
FramesTaggedDE: 0 0
BytesTaggedDE: 0 0
RcvFramesDiscShelfAlarm: 0
XmtFramesDiscPhyLayerFail: 0
XmtFramesDiscCRCError: 0
XmtFramesDiscReAssmFail: 0
XmtFramesDiscSrcAbort: 0
XmtFramesDuringLMIAlarm: 14
XmtBytesDuringLMIAlarm: 794
RcvFramesDiscUPC: 0
XmtFramesInvalidCPIs: 0
XmtFramesLengthViolations: 0
XmtFramesOversizedSDUs: 0
XmtFramesUnknownProtocols: 0
RcvFramesUnknownProtocols: 7079
spirit3.1.20.FRSM.a >
Use the xdspchans command to view the current channels on the card.
Display Channels
PXM, FRSM, CESM
Log: No State: Any Privilege: 1-6
This section contains the following examples.
spirit4.1.7.PXM.a > xdspchans Chan Stat Intf locVpi locVci conTyp srvTyp PCR[0+1] Mst rmtVpi rmtVci State ---------------------------------------------------------------------------- 17 ADD 2 39 45 VCC VBR 353208 Slv 0 0 alarm spirit4.1.7.PXM.a >
spirit3.1.20.FRSM.a > xdspchans
DLCI Chan EQ I/EQDepth I/EQDEThre I/EECNThre Fst/ DE Type Alarm
------------- ---- -- ----- ----- ----- ----- ----- ----- --- --- ----- -----
20.1.1.1000 22 2 65535/65535 32767/32767 6553/6553 Dis/Dis SIW-X No
20.8.20.300 42 2 65535/65535 32767/32767 6553/6553 Dis/Dis NIW Yes
Number of channels: 2
ChanNumNextAvailable: 26
spirit3.1.20.FRSM.a >
spirit3.1.21.CESM.a > xdspchans
Channel ChanNum Status CDVT MaxBufSize CLIP CBRservice
------------ ------- ------ ----- ---------- ------ ------------
21.1.2.33 33 Add 1000 124 2500 structured
21.3.10.41 41 Mod 20000 7680 30000 unstructured
Number of channels: 2
ChanNumNextAvailable: 47
spirit3.1.21.CESM.a >
Use the xdspcon command to view AUSM configuration data.
Display Connection
AUSM
xdspcon -chn <channel number>
-chn | Command delineator that precedes the channel number entry. |
channel number | Channel number, in the range 16-1015. |
Log: No State: Any Privilege: 1-6
spirit3.1.22.AUSM8.a > xdspcon -chn 16 ChanNum: 16 RowStatus: Del ConnectionType: VCC ServiceType: CBR PortNum: 1 VPI: 0 VCI (For VCC): 0 Local VPId(for VPC): 0 EgressQNum: 0 IngressQDepth(cells): 1000 IngressDiscardOption: CLP hysterisis IngressFrameDiscardThreshold 1000 IngressQCLPHigh(cells): 900 IngressQCLPLow(cells): 800 QCLPState: LOW IngressEfciThreshold(cells): 1000 UPCEnable: Enabled PeakCellRate[0+1](cells/sec): 50 CellDelayVariation[0+1]: 10000 (micro secs) PeakCellRate[0](cells/sec): 50 CellDelayVariation[0]: 10000 (micro secs) SustainedCellRate(cells/sec): 50 Type <CR> to continue, Q<CR> to stop: MaximumBurstSize(cells): 1000 SCRPolicing: CLP[0] CLPTagEnable: Enabled FrameGCRAEnable: Disable ForesightEnable: Disable InitialBurstSize(cells): 0 ForeSightPeakCellRate(cells/sec): 50 MinimumCellRate(cells/sec): 0 InitialCellRate(cells/sec): 1 LocalRemoteLpbkState: Disable ChanTestType: No Test ChanTestState: Not In Progress ChanRTDresult: 65535 ms Ingress percentage util: 100 Egress percentage util : 100 Egress Service Rate: 50 LocalVpi: 0 LocalVci: 0 spirit3.1.22.AUSM8.a > Type <CR> to continue, Q<CR> to stop: LocalNSAP: 5468697320697320612064756d6d79204e534150 RemoteVpi: 0 RemoteVci: 0 RemoteNSAP: 5468697320697320612064756d6d79204e534150 Mastership: Slave VpcFlag: Vcc ConnServiceType: CBR RoutingPriority: 1 MaxCost: 255 RestrictTrunkType: No Restriction ConnPCR: 50 ConnMCR: 0 ConnPercentUtil: 100 ChanNumNextAvailable : 16 Local VpId NextAvailable : 4 spirit3.1.22.AUSM8.a >
Use the xdspcons command to view details of all connections between the current AUSM and the card to which the current shelf is attached.
Display Connections
AUSM
Log: No State: Any Privilege: 1-6
spirit.1.19.AUSM8.a >xdspcons Chan Port.VPI.VCI ConnType Service Type PCRlot1 Q-Depth State 30 1.10.100 VCC ABR 3622 2000 Active 33 1.10.200 VPC CBR 3622 100 Alarmspirit.1.19.AUSM8.a >
Use the xdspdsx3bert command to view parameters and results of the current BERT testing session.
Display DSX3 BERT
FRSM 2T3E3, CESMT3
xdspdsx3bert
Log: No State: Active Privilege: Any
popeye1.1.21.CESMT3.a > xdspdsx3bert
Bert Control: Start dsx3Bert
Bert Resource Status State: In Use
Bert Owner: CLI
Bert Status: In Sync
Bert Test Medium: Line
Bert Port: 1
Line Number : 1
Bert Mode : bertPatternTest
Bert Pattern : doubleOneZero
Loopback type: metallicLoopback
Start time (secs.) 14:14:44
Start Date FRI JUL 02 1999
Bit countupper: 0
Bit countlower: 1553476045
Bit Error Countupper 0
Bit Error Countlower 0
Error Insertion Rate: Error injection disabled
Error Insertion count: 0
DSX3 BERT in Sync
popeye1.1.21.CESMT3.a >
Use the xdspilmi command to view the interim local management interface (ILMI) configuration.
Display ILMI
PXM, AUSM
xdspilmi -ifNum <sigPortNum>
-ifNum | Command delineator that precedes the sigPortNum entry. |
sigPortNum | Number of the broadband interface port. |
xdspilmi -pt <PortNum>
Syntax Description
-pt | Command delineator that precedes the PortNum entry. |
PortNum | Number of the broadband interface port. |
Log: No State: Any Privilege: 1-6
This section contains the following examples.
porky.1.7.PXM.a > xdspilmi -ifNum 1
Sig. Ilmi Sig Sig Ilmi T491 T492 T493 Addr
Port State/Type Vpi Vci Trap/Int KA ErrTh/Pollint EvntTh EnqInt Reg.
---- --------- ---- ---- -------- --- ------------- ------ ------ ----
1 Off/none 0 16 Off/01 Off 3/v6 4 10 Off
porky.1.7.PXM.a >
porky.1.19.AUSM8.a > xdspilmi -pt 1 Port Num: 1 Signalling: No signalling SignallingVPI: 0 SignallingVCI: 0 ILMITrap: Disabled ILMI-Min-Trap-Interval (secs): 1 KeepAlivePolling: Disabled ErrorThreshold: 3 EventThreshold: 4 PollingInterval (secs): 30 MinimumEnquiryInterval (secs) 10 EXT Operation: port 2 porky.1.19.AUSM8.a >
Use the xdspln command to view configuration for a specified line.
Display Line Configuration
FRSM, AUSM, CESM
xdspln -ds1 <line number>
or
xdspln -rs232 <line number>
-ds1 | Command delineator that precedes T1 line number entry. |
-rs232 | Command delineator that precedes RS232 line number entry. |
line number | Line number of the DS1 or RS232 interface. · -ds1 range = 1-8 (on 8-port service modules) · -rs232 range = 1-2 |
Log: No State: Any Privilege: 1-6
This section contains the following examples.
spirit3.1.22.AUSM8.a >xdspln -ds1 2LineNum: 2 LineConnectorType: RJ-48 LineType: dsx1ESF LineEnable: Disable LineCoding: dsx1B8ZS LineLength: 0-131 ft LineXmtClockSource: LocalTiming LineLoopbackCommand: NoLoop LineSendCode: NoCode LineUsedTimeslotsBitMap: 0xffffffff LineLoopbackCodeDetection: codeDetectDisabled LineBERTEnable: Disable LineNumOfValidEntries: 8spirit3.1.22.AUSM8.a >
spirit.1.17.CESM.a > xdspln -ds1 8 LineNum: 8 LineConnectorType: SMB LineEnable: Enabled LineType: dsx1E1CAS LineCoding: dsx1HDB3 LineLength: G.703 75 ohm LineXmtClockSource: LocalTiming LineLoopbackCommand: NoLoop LineSendCode: NoCode LineUsedTimeslotsBitMap: 0x0 LineLoopbackCodeDetection: codeDetectDisabled LineNumOfValidEntries: 8 spirit.1.17.CESM.a >
spirit.1.1.FRSM.a > xdspln -ds1 1 LineNum: 1 LineConnectorType: RJ-48 LineType: dsx1ESF LineEnable: Disable LineCoding: dsx1B8ZS LineLength: 0-131 ft LineXmtClockSource: LocalTiming LineLoopbackCommand: NoLoop LineSendCode: NoCode LineUsedTimeslotsBitMap: 0x0 LineLoopbackCodeDetection: codeDetectDisabled LineBertEnable: Disable LineNumOfValidEntries: 8 spirit.1.1.FRSM.a >
spirit3.1.21.CESM.a > xdspln -rs232 1 Port Type Enable Baudrate ---- ---------------------- -------- -------- 21.1 Maintenance RS232 Port Disable 19200 SerialPortNumOfValidEntries: 1 spirit3.1.21.CESM.a >
Use the xdsplns command to view the configuration parameters for all lines on the current card.
Display Lines
PXM FRSM, AUSM, CESM
Log: No State: Any Privilege: 1-6
This section contains the following examples.
spirit.1.1.FRSM.a >xdsplns -ds1
Line Conn Type Status/Coding Length XmtClock Alarm Stats Type Source Alarm ---- ----- ------------ ------ -------- ------------- -------- ----- ----- 1.1 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.2 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.3 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.4 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.5 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.6 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.7 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim 1.8 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim LineNumOfValidEntries: 8
spirit.1.1.FRSM.a >
spirit.1.1.FRSM.a >xdsplns -rs232 Port Type Enable Baudrate ---- ---------------------- -------- -------- 1.1 Maintenance RS232 Port Disable 19200 SerialPortNumOfValidEntries: 1spirit.1.1.FRSM.a >
spirit.1.7.PXM.a >xdsplns Line Type Coding Length Criteria AIScBitsCheck ---- -------------- -------- ------------- ----------- ------------- 2.1 dsx3CbitParity dsx3B3ZS LessThan450ft 3 out of 8 Check C-bits LineNumOfValidEntries: 1spirit.1.7.PXM.a >
spirit.1.7.PXM.a > xdsplns
Medium Medium Medium Medium Sonet Line Line HSC Payload Frame Time Valid Line Line Line Type Lpbk mask Scramble Scramble Elapsed Intvls Coding Type ---- -------------- -------- ------------- ----------- ------------------
LineNumOfValidEntries: 1
spirit.1.7.PXM.a >
spirit.1.17.CESM.a > xdsplns -ds1
Line Conn Type Status/Coding Length XmtClock Alarm Stats
Type Source Alarm
---- ----- ------------ ------ -------- ------------- -------- ----- -----
17.1 SMB dsx1E1CAS Ena/dsx1HDB3 G.703 75 ohm LocalTim Yes No
17.2 SMB dsx1E1CAS Dis/dsx1HDB3 G.703 75 ohm LocalTim
17.3 SMB dsx1E1CAS Dis/dsx1HDB3 G.703 75 ohm LocalTim
17.4 SMB dsx1E1CAS Dis/dsx1HDB3 G.703 75 ohm LocalTim
17.5 SMB dsx1E1CAS Dis/dsx1HDB3 G.703 75 ohm LocalTim
17.6 SMB dsx1E1CAS Dis/dsx1HDB3 G.703 75 ohm LocalTim
17.7 SMB dsx1E1CAS Dis/dsx1HDB3 G.703 75 ohm LocalTim
17.8 SMB dsx1E1CAS Ena/dsx1HDB3 G.703 75 ohm LocalTim Yes No
LineNumOfValidEntries: 8
spirit.1.17.CESM.a >
Use the xdspport command on the PXM to view the port configuration for the specified PXM port.
Use the xdspport command on an FRSM and CESM to view the port configuration for the specified port.
Use the xdspport command on an AUSM to view the Physical Layer Protocol Processor of a port on the current AUSM.
Display Port
PXM, FRSM, AUSM, CESM
xdspport <port number>
or
xdspport -port <port number>
(for PXM)
-port | Command delineator that precedes PXM port number entry. |
port number | Port number, using the range appropriate for the current card. · PXM
· FRSM
· AUSM range = 1-8 · CESM
|
Log: No State: Active Privilege: 1-6
This section contains the following examples.
raviraj.1.7.PXM.a > xdspport -port 1
Port Status Line PctBw minVpi maxVpi
------------------------------------------------------
1 OFF 0 0 0 0
raviraj.1.7.PXM.a >
spirit.1.17.FRSM.a >xdspport 1 SlotNum: 17 PortLineNum: 1 PortNum: 1 PortRowStatus: Add PortDs0Speed: 64k PortDs0ConfigBitMap: 0xffffff PortEqueueServiceRatio: 1 PortFlagsBetweenFrames: 1 PortSpeed: 1536kbps SignallingProtocolType: NoSignalling AsynchronousUpdates: Disable T391LineIntegrityTimer: 10 T392PollingVerificationTimer: 15 N391FullStatusPollingCounter: 6 N392ErrorThreshold: 3 N393MonitoredEventCount: 4 PortState: FailedDuetoLineFailure PortSignallingState: No Signalling Failure CLLMEnableStatus: Disable CLLMxmtStatusTimer: 0 PortDs0UsedLine1: 0x00ffffff PortDs0UsedLine2: 0x00ffffff PortDs0UsedLine3: 0x00ffffff PortDs0UsedLine4: 0x00ffffff PortNumNextAvailable: 60 Syntax : dspport "port_num" port number---values ranging from 1-192 are acceptedspirit.1.17.FRSM.a >
spirit.1.20.AUSM.a >xdspport 1 PortNumber: 1 Cell Framing: ATM Cell Scramble: No Scramble Plpp Loopback: No Loopbackspirit.1.20.AUSM.a >
Use the xdspportcnt command to view counters for a specified port on an FRSM or AUSM.
Display Port Counters
FRSM, AUSM
xdspportcnt <port number>
port number | Port number, using the range appropriate for the current card. · FRSM T1 range = 1-192 · FRSM E1 range = 1-248 · AUSM range = 1-8 |
Log: No State: Any Privilege: 1-6
This section contains the following examples:
spirit.1.20.AUSM.a >dspportcnt 1 PortNum: 1 PortState: Sig. Failure IngressRcvCells: 0 IngressRcvCellRate (cells/sec): 0 IngressRcvUtilization (percentage): 0 IngressXmtCells: 0 IngressGFCErrorCells: 0 IngressVpiVciErrCells: 0 IngressUnknownVpiVci: 0x0 IngressRcvClpSetCells: 0 EgressRcvCells: 0 EgressRcvCellRate (cells/sec): 0 EgressRcvUtilization (percentage): 0 EgressXmtCells: 0 EgressXmtCellRate (cells/sec): 0 EgressXmtUtilization (percentage): 0 EgressPortAlarmDiscardCells: 0 EgressXmtClpSetCells: 0 EgressXmtEfciSetCells: 0 PortXmtAisCells: 0 PortXmtSgmtLpbkCells: 0 PortRcvAisCells: 0 PortRcvFerfCells: 0 PortRcvSgmtLpbkCells: 0 PortRcvCrcErrOAMCells: 0 TotalIngressQFullDiscardCells: 0 TotalIngressClpSetDiscardCells: 0 TransmitFIFOFullCount (per card): 0 ReceivedHECErrorCells: 0 HECErroredSeconds: 0 SeverelyHECErroredSeconds: 0spirit.1.20.AUSM.a >
spirit.1.17.FRSM.a > dspportcnt 1
PortNum: 1
Tx Rx
--------------- ---------------
Total Frames: 233706 228459
Total Bytes: 6181533 5892272
Frames FECN: 0 0
Frames BECN: 0 0
Frames Abort: 0 2
Buf Not Available: 0 0
KbpsAIR: 0 0
XmtFramesDiscXceedQDepth: 0
XmtBytesDiscXceedQDepth: 0
XmtFramesDuringLMIAlarm: 17
XmtByteDuringLMIAlarm: 791
XmtFramesUnderrun: 0
RcvFramesDE: 0
RcvFramesDiscCRCError: 0
RcvFramesDiscIllegalHeader: 0
RcvFramesDiscAlignmentError: 0
RcvFramesDiscIllegalLen: 0
RcvFramesDiscXceedDEThresh: 0
RcvFramesDiscNoChan: 0
RcvFramesUnknownDLCI: 2
RcvLastUnknownDLCI: 0
RcvFramesTaggedFECN: 0
RcvFramesTaggedBECN: 0
RcvFramesTaggedDE: 0
Status: 169459 0
StatusInquiry: 0 169459
AsynchUpdate: 0 0
RcvInvalidRequest: 0
RcvUNISeqMismatch: 1
RcvNNISeqMismatch: 0
UNISignallingTimeout: 3
NNISignallingTimeout: 0
FramesCLLM: 0 0
BytesCLLM: 0 0
CLLMFailures: 0
Type <CR> to continue, Q<CR> to stop:
PortNum: 20
Tx Rx
--------------- ---------------
Total Frames: 0 0
Total Bytes: 0 0
Frames FECN: 0 0
Frames BECN: 0 0
Frames Abort: 0 0
Buf Not Available: 0 0
KbpsAIR: 0 0
XmtFramesDiscXceedQDepth: 0
XmtBytesDiscXceedQDepth: 0
XmtFramesDuringLMIAlarm: 0
XmtByteDuringLMIAlarm: 0
XmtFramesUnderrun: 1
RcvFramesDE: 0
RcvFramesDiscCRCError: 0
RcvFramesDiscIllegalHeader: 0
RcvFramesDiscAlignmentError: 0
RcvFramesDiscIllegalLen: 0
RcvFramesDiscXceedDEThresh: 0
RcvFramesDiscNoChan: 0
RcvFramesUnknownDLCI: 0
RcvLastUnknownDLCI: 0
RcvFramesTaggedFECN: 0
RcvFramesTaggedBECN: 0
RcvFramesTaggedDE: 0
Status: 0 0
StatusInquiry: 0 0
AsynchUpdate: 0 0
RcvInvalidRequest: 0
RcvUNISeqMismatch: 0
RcvNNISeqMismatch: 0
UNISignallingTimeout: 0
NNISignallingTimeout: 0
FramesCLLM: 0 0
BytesCLLM: 0 0
CLLMFailures: 0
spirit3.1.20.FRSM.a >
Use the xdspportq command to view queue information for a specified port and egress queue on the AUSM.
Display a Specified Egress Queue on the Specified Port
AUSM
xdspportq -pt <port number> -pqn <egress queue number>
-pt | Command delineator that precedes the port number entry. |
port number | Port number, in the range 1-8. |
-pqn | Command delineator that precedes the egress queue number entry. |
egress queue number | Egress queue number, in the range 1-16 |
Log: No State: Any Privilege: 1-6
spirit3.1.22.AUSM8.a >xdspportq -pt 1 -pqn 1
ServicePortNum: 1 QueueNumber: 1 PortBinState: Disable ServiceSequence: 255 QueueDepth(cells): 500 CLPThresholdHigh(cells): 450 CLPThresholdLow(cells): 400 EFCIThreshold(cells): 400 QueueAlgorithm: 255 MaxBandwidthIncrement: 4096 MinBandwidthIncrement: 0 QCLPState: Low QFullDiscardedCells: 0 CLPSetDiscardedCells: 0spirit3.1.22.AUSM8.a >
Use the xdspportqs command to view queue information for all the egress queues on an AUSM port.
Display All Egress Queues on a Specified Port
AUSM
xdspportqs <port number>
port number | Port number, in the range 1-8. |
Log: No State: Any Privilege: 1-6
spirit.1.20.AUSM.a > xdspportqs 1 Port Q Num State Q-Algo Service-Seq Depth-Max CLP-High CLP-Low EFCI-Thrsh ---- ----- ----- ------ ----------- --------- -------- ------- ---------- 1 1 Enabled 3 1 200 180 160 160 1 2 Enabled 3 2 900 800 700 700 1 3 Enabled 3 3 900 800 700 700 4 1 Enabled 3 1 200 180 160 160 4 2 Enabled 3 2 900 800 700 700 4 3 Enabled 3 3 900 800 700 700 spirit.1.20.AUSM.a >
Use the xdspports command to view information on all the ports associated with the current card.
Display Ports
FRSM, AUSM, CESM
Log: No State: Any Privilege: 1-6
raviraj.1.3.FRSM.a > xdspports
Port Ena/Speed EQServ SignalType T391 T392 N391 N392 N393 Type Alarm ELMI
Ratio
-------- --- ----- ------ ------------ ---- ---- ---- ---- ---- -------- ----- ----
3.1.1 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.2 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.3 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.4 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.5 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.6 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.7 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
3.1.8 Add/ 192k 1 NoSignalling 10 15 6 3 4 frameRel No Off
Number of ports: 8
PortDs0UsedLine1: 0x00ffffff
PortDs0UsedLine2: 0x00000000
PortDs0UsedLine3: 0x00000000
PortDs0UsedLine4: 0x00000000
PortDs0UsedLine5: 0x00000000
PortDs0UsedLine6: 0x00000000
PortDs0UsedLine7: 0x00000000
PortDs0UsedLine8: 0x00000000
PortNumNextAvailable: 89
raviraj.1.3.FRSM.a >
Use the xdspred command to view the currently configured redundant slot links on the switch.
Display Redundancy
PXM
xdspred
Log: No State: Active Privilege: SuperUser
raviraj.1.7.PXM.a >xdspredPrimary Primary Primary Secondary Secondary Secondary Red. Red.SlotSlotNum Type State SlotNum Type State Type Cover------- ------- ------- --------- --------- --------- ---- --------4 FRSM-2CT Active 10 FRSM-2CT Standby 1:1 0raviraj.1.7.PXM.a >
Use the xdspshelf command to view shelf information on card and line status.
Display Shelf
PXM
xdspshelf
Log: No State: Any Privilege: Cisco_GP
spirit.1.8.PXM.a >xdspshelf NumOfValidEntries: 32 NodeName: spirit Date: 01/29/1999 Time: 18:12:48 TimeZone: GMT TimeZoneGMTOff: 0 StatsMasterIpAddress: 0.0.0.0 shelfIntegratedAlarm: Clear BkplnSerialNum: 12345 BkplnType: 2 BkplnFabNumber: BkplnHwRev: 80spirit.1.8.PXM.a >
Use the xdspsrmlink command to view a link on a specific T3 line on an SRM-3T3 card.
Display Link
PXM
xdspsrmlink -srmt3 <T3LineNum> -srmt1 <T1Slot> -srmsl <TargetSlotNum> <T3LineNum>
-srmt3 | Command delineator that precedes the T3LineNum entry. |
T3LineNum | T3 line number expressed in the form Slot.Line. · Line range = 1-3 · Slot = enter value of either 15 or 31 |
-srmt1 | Command delineator that precedes the T1Slot entry. |
T1Slot | T1 slot number, in the range 1-28. |
-srmsl | Command delineator that precedes TargetSlotNum and T3LineNum entry. |
TargetSlotNum |
|
T3LineNum | T3 line number in the form slot.line. Slot range = 15, 31 Line range = 1-3 |
Log: No State: Any Privilege: Any
spirit.1.8.PXM.a > xdspsrmlink 7.1
| T3Line | StartT | TRowStatus | TargetSlot | TargetSlotLine |
|---|---|---|---|---|
1 | 1 | Add | 7 | 1 |
1 | 2 | Add | 7 | 2 |
1 | 3 | Add | 7 | 3 |
1 | 4 | Add | 7 | 4 |
Use the xdsptrapmgr command to view trap information collected by the PXM trap manager. This information contains the IPAddress, port number, trap flag operational status, row status, and the current sequence number of the next trap.
Display Trap Manager
PXM
Log: No State: Any Privilege: Any
raviraj.1.7.PXM.a >xdsptrapmgr
ipAddress PortNum RowStatus ReadTrapFlag NextTrapSeqNum--------------- ------- ---------- ------------ --------------172.29.28.41 2500 Add Off 260338LastTrapSeqNum: 260837NumOfValidEntries: 1raviraj.1.7.PXM.a >
Use the xdspusers command to view the list of currently configured user identifications and associated access levels.
Display User(s)
PXM
xdspusers
or
xdspusers -u <userId>
-u | Command delineator that precedes the userId entry. |
userId | String of up to12 characters that identify a specific user. |
Log: No State: Any Privilege: CISCO_GP
This section contains the following examples.
raviraj.1.7.PXM.a >xdspusersUserId AccessLevel-------------------------cisco CISCO_GPservice SERVICE_GPsuperuser SUPER_GPraviraj.1.7.PXM.a >
raviraj.1.7.PXM.a >xdspuser -u superuserUserId AccessLevel-------------------------superuser SUPER_GPraviraj.1.7.PXM.a >
Use the xupport command to bring up a port on the AUSM.
Up Port
AUSM
xupport -pt <PortNum> -e <PortEnable> -ptyp <PortType> -ln <PhysLineNum>
-pt | Command delineator that precedes the PortNum entry. |
PortNum | Port number, in the range 1-8. |
-e | Command delineator that precedes the PortEnable entry. |
PortEnable | Value that enables or disables the port. · 1 = disable · 2 = enable |
-ptyp | Command delineator that precedes the PortType entry. |
PortType | Value that represents either NNI or UNI port type. · 1 = NNI · 2 = UNI |
-ln | Command delineator that precedes the PhysLineNum entry. |
PhysLineNum | Physical line number, in the range 1-8. |
Log: Yes State: Active Privilege: 1
spirit3.1.22.AUSM8.a >xupport -pt 1 -e 2 -ptyp 1 -ln 1spirit3.1.22.AUSM8.a >
A system message does not occur unless an error is detected.
Posted: Wed Feb 23 12:52:17 PST 2000
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