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Table Of Contents
burnfwrev (Burn Firmware Image into Card(s)
clrcderrs (Clear Detailed Card Errors)
clrcnf (Clear Configuration Memory)
clrfpevt (Clear FastPAD Event Reporting)
cnfabrparm (Configure Assigned Bit Rate Queue Parameters)
cnfbusbw (Configure UXM Card Bus Bandwidth)
cnfcdpparm (Configure CDP Card Parameters)
cnfcftst (Configure Communication Fail Test Pattern)
cnfchstats (Configure Channel Statistics Collection)
cnfchts (Configure Channel Timestamp)
cnfclnparm (Configure Circuit Line Parameter)
cnfclnsigparm (Configure Circuit Line Signaling Parameters)
cnfclnstats (Configure Circuit Line Statistics)
cnfcmparm (Configure Connection Management Parameters)
cnfdiagparm (Configure Diagnostic Test Parameters)
cnfdlparm (Configure Download Parameters)
cnfecparm (Configure Echo Canceller Parameters)
cnffpcom (Configure FastPAD Communication Parameter)
cnffpcon (Configure FastPAD Connection Parameters)
cnffpddelay (Configure FastPAD Delay)
cnffpdpvc (Configure FastPAD PVC)
cnffpmap (Configure FastPAD Map Table)
cnffpport (Configure FastPAD Port)
cnffpsys (Configure FastPAD System Parameters)
cnffstparm (Configure ForeSight Node Parameter)
cnflnparm (Configure ATM Line Card Parameters)
cnflnsigparm (Configure Line Signalling Parameters)
cnflnstats (Configure Line Statistics Collection)
cnfmxbutil (Configure Muxbus Utilization)
cnfnodeparm (Configure Node Parameter)
cnfnwip (Configure Network IP Address)
cnfphyslnstats (Configure Physical Line Statistics)
cnfportstats (Configure Port Statistics Collection)
cnfrobparm (Configure Robust Alarms Parameters)
cnfslotstats (Configure Slot Statistics Collection)
cnftcpparm (Configure TCP Parameters)
cnftermfunc (Configure Terminal Port Functions)
cnftlparm (Configure Trunk-Based Loading Parameters)
cnftrkparm (Configure Trunk Card Parameter)
cnftrkstats (Configure Trunk Statistics Collection)
cnftstparm (Configure Card Test Parameters)
cnfuiparm (Configure User Interface Parameters)
cnfuvmchparm (Configure Channel Parameters on a UVM)
cnfvchparm (Configure Voice Channel Parameter)
cpyfpmap (Copy FastPAD Map Table)
dchst (Display Channel Status)
drtop (Display Route Op Table)
dspasich (Display ASI Channel Routing Entry)
dspcardstats (Display BXM Card Statistics)
dspcderrs (Display Card Errors)
dspcftst (Display Communication Fail Test Pattern)
dspchan (Display Channel Configuration)
dspchstatcnf (Display Statistics Enabled for a Channel)
dspchstathist (Display Statistics History for a Channel)
dspchstats (Display All Enabled Statistics for a Channel)
dspclnstatcnf (Display Circuit Line Statistics Configuration)
dspclnstathist (Display Statistics History for a Circuit Line)
dspcnf (Display Configuration Save/Restore Status)
dspdutl (Display Data Channel Utilization)
dspecparm (Display Echo Canceller Parameters)
dspfpdsc (Display FastPAD Card Descriptor)
dspfwrev (Display Firmware Revision)
dsplnstatcnf (Display Statistics Enabled for a Line)
dsplnstathist (Display Statistics Data for a Line)
dspphyslnstatcnf (Display Statistics Enabled for a Physical Line)
dspphyslnstathist (Display Statistics Data for a Physical Line)
dspportstatcnf (Display Statistics Enabled for a FR Port)
dspportstathist (Display Statistics History for a FR Port)
dsprobst (Display Robust Statistics)
dsprrst (Display Reroute Statistics)
dspslotstatcnf (Display Statistics Enabled for a BXM Card Slot)
dspslotstathist (Display Statistics History for a BXM Card)
dspstatmem (Display Statistics Memory Use)
dsptcpparm (Display TCP Parameters)
dsptrkcons (Display Trunk Connection Counts)
dsptrkmcons (Display Trunk Connection Counts by Master Node)
dsptrkstatcnf (Display Statistics Enabled for a Trunk)
dsptrkstathist (Display Statistics History for a Trunk)
getfwrev (Get Firmware Revision)
rststats (Reset Statistics Collection Time)
setfpevt (Set FastPAD Event Reporting)
SuperUser Commands
Introduction
This chapter contains detailed descriptions of the Cisco WAN switching software super user commands for Release 9.1. The Cisco WAN switching software super user command descriptions appear in alphabetical order. Access to these commands requires user privilege level 0 (zero).
CautionOnly Cisco personnel and other qualified users, such as system administrators, should use these commands. Do not distribute this information to casual users because improper use of some super user commands may lead to system malfunction or complete failure.
General Information
Note Access to the super user commands (privilege level 0) requires a different login and password than access to commands with privilege levels 1-6.
Because the privilege level for all super user commands is 0, the privilege level does not appear in the command definition.
Table 1-1 lists the Cisco WAN switch software level 0 (super user) commands in alphabetical order. The table also lists the nodes on which each command is available and whether you can include the command in a job. To access these commands, type in SuperUser at the login prompt. Enter the super user password and the password prompt. To exit a command at any point, press the Delete key.
The screen examples in this chapter are based on a network containing an IPX, IGX, or BPX or any combination of these nodes. For detailed descriptions of commands requiring a user-privilege level in the range 1-6, refer to the Cisco WAN Switching Command Reference.
Note Some superuser commands rarely are applicable, while misuse of other superuser commands can cause serious problems in the network. For these commands, the descriptions contain an advisory for you to call the Cisco Technical Assistance Center (TAC) through Customer Engineering before you proceed. The number in the United States is 800 553-2447. For international access, use 1-408 526-4000.
burnfwrev (Burn Firmware Image into Card(s)
The burnfwrev command burns a new firmware image into a specific card.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dspfwrev, getfwrev
Syntax
burnfwrev <image name> <slot number>
Function
This command is used to burn a firmware image into the memory of a specific card. Before you use burnfwrev, the firmware image must already reside in the controller card's memory. (Use getfwrev to load the image to the controller.)
A few seconds after you enter burnfwrev, the system displays a screen similar to the one in , then the Burn Address column starts to indicate the addresses that are being "burned." When burnfwrev finishes, the status changes to "Complete."
After all cards at a node have been updated with burnfwrev, enter the following to clear the firmware image from the controller card's buffer area:
getfwrev 0.0 node_name
Use the dspfwrev command to display the firmware image status on the controller card at any time after burnfwrev has finished.
At the super user level (0), you can use burnfwrev only to change the revision level of a card's firmware. If the firmware revision would result in a new model number for the card, only a user with a higher privilege level can burn the firmware image. In this case, you would have to call the TAC to execute the command.
Figure 1-1 burnfwrev—Burn Firmware Revision into Card
gamma TRM SuperUser Rev: 9.1 Aug. 17 1997 14:28 PDT
Firmware Size Status
F.D.A 256 K Burning into slot 19 (6 lives)
File Address Length CRC Burn Address
0 800000 10 E986E939
1 800800 410 22996DDA
2 801000 2D40 B212147F
3 805E60 480 85CB29EA
4 80A630 70 57A938AE
5 80A6B0 20 4B9E8DDC
6 810000 10000 338E45F6
7 820000 4400 95990113
8 835000 1810 875771B2
9 8368A0 15D0 4C597B97
This Command: burnfwrev
Continue?
clrcderrs (Clear Detailed Card Errors)
The clrcderrs command clears the history of card failures (errors) associated with the specified slot.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dspcderrs, prtcderrs
Syntax
clrcderrs <slot number | *>
Function
This command clears the history of card failures associated with the specified slot. When you enter this command system responds with Slot Number or *. After you enter the command, the system asks you to confirm that it is OK to clear this data.
For example, to clear the data from the FRM card in slot 3, enter the command illustrated in Figure 1-2. This screen also illustrates the card's stored data.
Figure 1-2 clrcderrs—Clear Card Errors (before confirmation)
pubsigx1 TN SuperUser IGX 32 9.1 Aug. 5 1997 18:48 GMT
FRM in Slot 3 : 172240 Rev ESJ Failures Cleared: Date/Time Not Set
----------------------------------- Records Cleared: Date/Time Not Set
Self Test Threshold Counter: 0 Threshold Limit: 300
Total Pass: 495 Total Fail: 0 Total Abort: 2
First Pass: Date/Time Not Set Last Pass: July 29 1997 19:36:48 GMT
First Fail: Last Fail:
Background Test Threshold Counter: 0 Threshold Limit: 300
Total Pass: 29849 Total Fail: 0 Total Abort: 0
First Pass: Date/Time Not Set Last Pass: Aug. 5 1997 18:46:34 GMT
First Fail: Last Fail:
Hardware Error Total Events: 0 Threshold Counter: 0
First Event: Last Event:
This Command: clrcderrs 3
OK to clear (y/n)?
After replying `y' (yes) to the confirmation prompt, the screen appears as in Figure 1-3.
Figure 1-3 clrcderrs—Clear Card Errors (after confirmation)
pubsigx1 TN SuperUser IGX 32 9.1 Aug. 5 1997 18:55 GMT
FRM in Slot 3 : 172240 Rev ESJ Failures Cleared: Date/Time Not Set
----------------------------------- Records Cleared: Aug. 5 1997 18:55:02 GMT
Self Test Threshold Counter: 0 Threshold Limit: 300
Total Pass: 0 Total Fail: 0 Total Abort: 0
First Pass: Last Pass:
First Fail: Last Fail:
Background Test Threshold Counter: 0 Threshold Limit: 300
Total Pass: 0 Total Fail: 0 Total Abort: 0
First Pass: Last Pass:
First Fail: Last Fail:
Hardware Error Total Events: 0 Threshold Counter: 0
First Event: Last Event:
Last Command: clrcderrs 3
Next Command:
clrcnf (Clear Configuration Memory)
The clrcnf command clears the configuration memory at the current node and resets the node.
Attributes
Jobs: No Log: No Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
loadcnf, runcnf, savecnf
Syntax
clrcnf
Function
The clrcnf command erases most network configuration data. This configuration data includes connections, trunks, circuit lines, and so on, for the local node. You may need to use the clrcnf command when you upgrade the network with a new software release or when you move a node. A warning and a confirmation prompt appear before the command executes. Figure 1-4 illustrates a typical screen.
This command should be used only on a node that has not yet been placed in service or when the network configuration has been previously saved so it can be quickly reloaded. The configuration can be saved in one of several ways:
•On a StrataView Plus terminal using the savecnf command. The node is then reloaded using the loadcnf command.
•On a standby controller card. Before entering the clrcnf command, remove the standby controller from its slot. The configuration data will be maintained in BRAM even though the power has been removed from the card.
CautionUse clrcnf with extreme caution. Typically, you should use clrcnf only if the Cisco TAC has instructed you to do so. This command can make the node unreachable to the network.
Figure 1-4 clrcnf—Clear Node Configuration
*** Warning: ***
This command clears the configuration memory and resets the Node.
This Command: clrcnf
Are you sure (y/n)?
clrfpevt (Clear FastPAD Event Reporting)
The clrfpevt command disables the reporting of FastPAD events.
Attributes
Jobs: No Log: Yes Lock: No Node Type: IPX, IGX
Associated Commands
setfpevt, dsplog
Syntax
clrfpevt <FastPAD name> | <slot.port>
Function
The reason for executing clrfpevt is to prevent the large number of logged events that accumulate when certain user-controlled disruptions occur. Without suspension of event-logging, the number of events caused by the disruption can cause the FastPAD to become unreachable. Remember to resume event logging by using the setfpevt command. Examples of these events are:
•FTM Y-cable switchover
•NPM/NPC switchover
•Adding a connection by using the addfrcons command
•Resetting the FastPAD (power cycling or by the resetfp command).
Example
clrfpevt 9.3
Description
The example command halts event logging for the FastPAD connected to port 9.3.
Note No screen appears when clrfpevt executes. The example shows the dsplog output after a sequence of clrfpevt then setfpevt. Earlier FastPAD events appear near the bottom of the screen.
Figure 1-5 clrfpevt—Clear FastPAD Event Reporting
sw152 TN SuperUser IGX 16 9.1 Nov. 26 1997 15:14 GMT
Most recent log entries (most recent at top)
Class Description Date Time
Info FP fp93 event: 9.3.B grp:0-0 code:12 11/26/97 15:13:28
Info FP fp93 event: 9.3.B grp:0-0 code:1 11/26/97 15:13:28
Info User SuperUser logged in (Local) 11/26/97 14:28:40
Info User SuperUser logged in (Local) 11/26/97 12:56:49
Info Invalid Login Attempt via LAN Port (Local) 11/26/97 12:56:46
Info User SuperUser logged in (Local) 11/26/97 11:31:51
Info AD 9.2.3 dallas COM OK (Kickoff) 11/26/97 11:23:17
Info AD 9.2.3 dallas Unreachable 11/26/97 10:59:32
Info AD 9.2.3 dallas COM OK (Kickoff) 11/26/97 10:56:54
Info FP fp93 event: 9.3.B grp:0-0 code:12 11/25/97 18:16:45
Info FP fp93 event: 9.3.B grp:0-0 code:1 11/25/97 18:16:45
Last Command: dsplog
Next Command:
cnfabrparm (Configure Assigned Bit Rate Queue Parameters)
The cnfabrparm command configures parameters for the ABR (Assigned Bit Rate) queue on all ports on the selected UXM.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX
Associated Commands
cnfportq, dspportq, cnfport, dspport
Syntax
cnfabrparm <slot> <CI_control> <ER_control>
<slot>
Specifies the slot number of the UXM.
<CI_control>
Enables or disables Egress/Ingress Congestion Information control.
<ER_control>
Enables or disables ABR RM cell Explicit Rate stamping.
Function
The cnfabrparm command lets you toggle the Egress/Ingress Congestion Information control and/or the ABR RM cell Explicit Rate stamping parameters on and off. All ports on the UXM in the selected slot are dynamically reconfigured according to the new parameters.
Example
sw205 TN SuperUser IGX 16 9.1 Jan. 27 1997 04:50 GMT
ABR Configuration for UXM in slot 5
CI Control : N
Egress ER Stamping : N
This Command: cnfabrparm 5
cnfbusbw (Configure UXM Card Bus Bandwidth)
The cnfbusbw command configures the amount of bandwidth allocated on the bus for a UXM card.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX
Associated Commands
dspbusbw (a standard user command)
Syntax
cnfbusbw <slot>
Function
The cnfbusbw command lets you configure the amount of bandwidth allocated on the bus for the selected UXM. The default amount of bus bandwidth allocated depends on the connection type you are adding. 77 Mbps (1/2 OC3 rate) of bus bandwidth is allocated to an OC3 port card when the first line is upped. For the T3/E3 line, 44/34 Mbps (T3/E3 rate) is allocated as default bus bandwidth. For a T1/E1 line, the amount of bandwidth allocated will be enough for all T1/E1 lines supported on the card. After the default bus bandwidth is allocated, the system will not allocate any more bus bandwidth to the card when you activate more lines, so you must manually allocate the bus bandwidth to the card using the cnfbusbw command. lists the cnfbusbw screen information. All ports on the UXM in the selected slot are dynamically reconfigured according to the new parameters.
Table 1-2 cnfbusbw—Screen Information
Figure 1-6 cnfbusbw (Configure UXM Card Bus Bandwidth)
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 03:15 GMT
Bus Bandwidth Usage for UXM card in slot 5 Last Updated on 04/07/98 03:15:42
FPkts/sec Cells/sec UBUs
Minimum Reqd Bandwidth: 0 100100 26
Average Used Bandwidth: 0 0 0
Peak Used Bandwidth: 0 0 0
Maximum Port Bandwidth: - 288000 72
Allocated Bandwidth: 1
(Cell Only): - 4000
(Cell+Fpkt): 2000 3000
(Fpkts / 2 + Cells) <= 4000
Reserved Bandwidth: - 4000 1
This Command: cnfbusbw 5
Allocated UBU count:
cnfcdpparm (Configure CDP Card Parameters)
The cnfcdpparm command configures parameters for the CVM or CDP.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfchts, dchst, cnfecparm
Syntax
cnfcdpparm <parameter number> <new value>
<parameter number>
Specifies the number of the parameter to change. (See Table 1-3.)
<new value>
Specifies the new value for the parameter.
Function
The cnfcdpparm command lets you configure CDP or CVM parameters for Modem Detection (MDM), certain reserved debug parameters, and In Frame and Out of Frame (I Frm and O Frm) thresholds for DS0A-type T1 applications. (See the cnfln description for information on assigning % Fast Modem on a per-channel basis.) lists the cnfcdpparm parameters. All CDPs or CVMs in the node are dynamically reconfigured according to the new parameters. When you enter the command, the system prompts for a parameter number, as illustrates.
CautionYou should consult the Cisco TAC before changing any of these parameter.
Figure 1-7 cnfcdpparm Parameters
pubsigx1 TN SuperUser IGX 32 9.1 Oct. 20 1997 18:06 PDT
1 MDM Low Pwr Thrsh [3160] (H) 15 0 Frm 4.8 Thrsh (msecs) [ 500] (D)
2 MDM Stationary Coef. [ 14] (H) 16 I Frm 9.6 Thrsh (msecs) [ 500] (D)
3 MDM ZCR High Frq Thrsh [ 5A] (H) 17 O Frm 9.6 Thrsh (msecs) [ 500] (D)
4 MDM ZCR Low Frq Thrsh [ 56] (H)
5 MDM Detect Failure Cnt [ 4] (H)
6 MDM Detect Window Min. [ 39] (H)
7 MDM Detect Silence Max. [ 24] (H)
8 MDM Pkt Header [ 6] (D)
9 Null Timing Pkt Header [ 4] (D)
10 Debug Parm A [ 0] (H)
11 Debug Parm B [ 0] (H)
12 I Frm 2.4 Thrsh (msecs) [ 500] (D)
13 O Frm 2.4 Thrsh (msecs) [ 500] (D)
14 I Frm 4.8 Thrsh (msecs) [ 500] (D)
This Command: cnfcdpparm
Which parameter do you wish to change:
cnfcftst (Configure Communication Fail Test Pattern)
The cnfcftst command changes the test pattern for communication failure testing.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dspcftst
Syntax
cnfcftst
Function
The communication fail test pattern is used to periodically test for failure of nodes to communicate with each other. This test pattern is also used to recover from communication fail conditions. A communication fail is defined as a loss of controller communication over one or more trunks to a particular node. A communication fail differs from a communication break condition in that the node may be reachable over other paths. The communication fail test is used to test the failed trunk for proper controller traffic.
This command allows the user to configure the communication fail test pattern byte-by-byte. It defaults to a pattern of 4 bytes of 1s followed by 4 bytes of 0s. Varying the length of the test pattern makes the communications test more or less rigorous. Changing the characters determines the pattern sensitivity for strings of less than 14 bytes.
The dspcftst command displays the current communication test pattern. The parameters used for declaring and clearing communication fails are set by the cnfnodeparm command. illustrates a typical screen.
Figure 1-8 cnfcftst—Configure Communication Fail Test Pattern
pubsigx1 TN SuperUser IGX 32 9.1 Feb 24 1997 21:17 GMT
Comm Fail Test Pattern
==> Byte 0: FF Byte 12: 00 Byte 24: FF Byte 36: 00 Byte 48: FF
Byte 1: FF Byte 13: 00 Byte 25: FF Byte 37: 00 Byte 49: FF
Byte 2: FF Byte 14: 00 Byte 26: FF Byte 38: 00 Byte 50: FF
Byte 3: FF Byte 15: 00 Byte 27: FF Byte 39: 00 Byte 51: FF
Byte 4: 00 Byte 16: FF Byte 28: 00 Byte 40: FF Byte 52: 00
Byte 5: 00 Byte 17: FF Byte 29: 00 Byte 41: FF Byte 53: 00
Byte 6: 00 Byte 18: FF Byte 30: 00 Byte 42: FF Byte 54: 00
Byte 7: 00 Byte 19: FF Byte 31: 00 Byte 43: FF Byte 55: 00
Byte 8: FF Byte 20: 00 Byte 32: FF Byte 44: 00 Byte 56: FF
Byte 9: FF Byte 21: 00 Byte 33: FF Byte 45: 00 Byte 57: FF
Byte 10: FF Byte 22: 00 Byte 34: FF Byte 46: 00 Byte 58: FF
Byte 11: FF Byte 23: 00 Byte 35: FF Byte 47: 00 Byte 59: FF
This Command: cnfcftst
Enter Byte 0:
cnfchstats (Configure Channel Statistics Collection)
The cnfchstats command enables statistics collection for various channel parameters.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: BPX, IGX, IPX
Associated Commands
dspchstatcnf
Syntax
cnfchstats <channel> <stat> <interval> <e | d> [<samples> <size> <peaks>] [nodename]
<channel>
specifies the channel (connection) to configure.
<stat>
specifies the type of statistic to enable/disable. (See Table 1-4.)
<interval>
specifies the time interval of each sample (1-255 minutes).
<e|d>
enables/disables a statistic. 'E' to enable; 'D' to disable a statistic.
[samples]
specifies the number of sample to collect (1-255).
[size]
specifies the number of bytes per data sample (1, 2 or 4).
[peaks]
enables/disables the collection of one minute peaks. 'Y' to enable: 'N' to disable.
[nodename]
specifies the name of the node to which the StrataView terminal connects.
Function
This debug command enables statistics collecting for channel parameters. lists the statistics by type. Not all statistic types are available for all connections. Only valid statistics are displayed for you to select; inapplicable statistics appear in gray. If you are unsure of the size parameter to specify, select four bytes per sample.
The dspchstatcnf command displays the channel statistics configuration. Statistics are collected by and displayed on the StrataView Plus workstation. StrataView Plus allows statistics collection to be customized. A StrataView Plus-enabled channel statistic may be disabled by specifying the optional node name of the workstation as the last parameter on the command line. illustrates the parameters available for a typical connection.
Figure 1-9 cnfchstats—Configure Channel Statistics
sw199 TN SuperUser IGX 16 9.1 Aug. 28 1997 09:28 PDT
Channel Statistic Types
46) Cells Received from Port 60) Average Tx Vcq Depth in Cells
47) EOF Cells Received from Port 61) Bkwd Severely Errored Cell Blocks
48) Cells Transmitted to Network 62) Bkwd Lost Cell Count
49) Cells Received from Network 63) Bkwd Misinserted Cell Count
50) Cells Received with CLP=1 64) Bkwd Bipolar Violation Count
51) Non-Compliant Cells Received 65) Fwd Severely Errored Cell Blocks
52) Average Rx VCq Depth in Cells 66) Fwd Lost Cell Count
53) Cells Transmitted with EFCI=1 67) Fwd Misinserted Cell Count
54) Cells Transmitted to Port 68) Fwd Bipolar Violation Count
56) Cells Received with CLP=0 69) Good Pdu's Received by the Sar
57) Cells Transmitted with EFCI=0 70) Good Pdu's Transmitted by the Sar
58) Ingress Vsvd Allowed Cell Rate 71) Rx pdu's discarded by the Sar
59) Egress Vsvd Allowed Cell Rate 72) Tx pdu's discarded by the Sar
sw199 TN SuperUser IGX 16 9.1 Aug. 28 1997 09:28 PDT
Channel Statistic Types
73) Invalid CRC32 pdu rx by the sar
74) Invalid Length pdu rx by the sar
75) Shrt-Lgth Fail detected by the sar
76) Lng-Lgth Fail detected by the sar
This Command: cnfchstats 9.2.1.100
Statistic Type:
cnfchts (Configure Channel Timestamp)
The cnfchts command configures a pre-aging parameter for data channels. Applicable cards are the SDP, LPD, LDM, and HDM. Applicable traffic is time-stamped data.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfcdpparm
Syntax
cnfchts <channel(s)> <pre-age>
<channel(s)>
specifies the data channel.
<pre-age>
specifies a value in 250-microsecond increments to go in the age field in the header of a time-stamped.
Function
This command configures the pre-age parameter for data channels. The pre-age parameter specifies the initial age of a time-stamped packet. With a non-zero pre-age, the packet has less time to wait at the destination before it reaches the Max Time Stamped Packet Age and is taken out of the ingress queue. (Data channels with the greater pre-age value are processed sooner.) However, if the pre-age value is too high because of queuing delays in the network, packets could be discarded because they appear too old at the destination.
The value you enter for Pre-Age should be a multiple of 250 microseconds (otherwise, the system rounds the value down to the nearest multiple of 250 microseconds). The default value is 0. Acceptable values are in the range 0 to the Max Time Stamped Packet Age (set by the cnfsysparm command). After you finish entering this command, the screen as in the example. After you change a timestamp, the connection should be rerouted or restarted for the new value to take effect.
Note You can see the value for Pre-Age in the screen display for the dspchcnf command. If dspchcnf is entered at a user-privilege level below super user level, the Pre-Age parameter does not appear in the dspchcnf output.
Example
pubsipx1 TN SuperUser IPX 16 9.1 Aug. 14 1997 03:50 GMT
Maximum EIA % DFM Pattern DFM PreAge
Channels Update Rate Util Length Status (usec)
3.1 2 100 8 Enabled 1000
3.2-4 2 100 8 Enabled 0
Last Command: cnfchts 3.1 1000
Next Command:
cnfclnparm (Configure Circuit Line Parameter)
The cnfclnparm command configures the alarm integration time for circuit lines originating on a UVM, CDP or CVM and for T1/E1 Frame Relay circuits originating on an FRP, FRM, or UFM.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfclnsigparm, dchst
Syntax
cnfclnparm <line>
Function
This command configures the circuit line alarm integration times for RED and YELLOW circuit line alarms. These integration times are specified in milliseconds and should be set to correspond to the local carrier's alarm integration times. Carrier integration times are typically 800 to 1500 ms. for RED Alarm and 1500 to 3000 ms. for YELLOW Alarm. The allowable range for these parameters are 60 to 3932100 ms. When you enter this command, the system responds with the screen in .
Figure 1-10 cnfcln—Configure Circuit Line Alarm Integration Times
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 14:27 PDT
CLN 11 Parameters
1 Red Alarm - In/Out [ 1000 / 2000] (Dec)
2 Yel Alarm - In/Out [ 1000 / 2000] (Dec)
This Command: cnfclnparm 11
Which parameter do you wish to change:
cnfclnsigparm (Configure Circuit Line Signaling Parameters)
The cnfclnsigparm command configures signalling parameters for a UVM, CVM or CDP.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfclnparm, dspsig
Syntax
cnfclnsigparm <parameter number> <parameter value>
<parameter number>
specifies the parameter number of the signalling parameter to change. (See Table 1-5.)
<parameter value>
specifies the new value to enter.
Function
The cnfclnsigparm command configures any of the UVM, CVM or CDP circuit line signalling parameters associated with the node. See Table 1-5 for the parameters and their values.
When you enter this command, the system responds with the display as shown in Figure 1-11.
Figure 1-11 cnfclnsigparm—Configure Circuit Line Signalling Parameters
sw83 TN SuperUser IPX 16 9.1. Aug. 1 1997 15:26 PST
1 CDP & CIP Heartbeat [ 2] (sec)
2 CDP & CIP Sig. Polling Rate [ 10] (sec)
3 CDP & CIP Default Inband Sig Delay [ 96] (msec)
4 CDP & CIP Default Inband Playout Delay [ 200] (msec)
5 CDP & CIP Default Pulse Sig Delay [ 96] (msec)
6 CDP & CIP Default Pulse Playout Delay [ 200] (msec)
7 CIP Number of Packet Slices [ 1]
8 CDP & CIP Packet Rate [ 200] (pkt/sec)
9 CDP & CIP Condition CCS Lines? [ NO]
10 CIP Default Inband Min. Wink [ 140] (msec)
11 CIP Default Pulse Min. Wink [ 140] (msec)
This Command: cnfclnsigparm
Which parameter do you wish to change:
cnfclnstats (Configure Circuit Line Statistics)
The cnfclnstats command configures parameters for circuit line statistics collection.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
dspchstats
Syntax
cnfclnstats <line> <stat> <interval> <e|d> [<samples> <size> <peaks>]
Function
This command configures circuit line statistics. The cnfclnstats command lets you customize statistics collection on each circuit line. It primarily applies to debugging and not standard network operation. Table 1-6 lists the statistics by type. Figure 1-12 illustrates the display.
Not all statistic types are available for all lines. Valid statistics appear in full brightness while unavailable types appear in half brightness.
Note Typically, bipolar violations do not accumulate on E1 trunks and circuit lines. They accumulate only on T1 lines and trunks.
Figure 1-12 illustrates the screens displayed after entering cnfclnstats. The card in the example is a UXM. The line is 5.1. The only statistic in this example is 215—the number of seconds that the path was unavailable. (To configure more statistics, you would have to re-enter the command.) Other parameters in this example are an interval of 5 minutes, an accumulation of 29 samples, a sample size of 2 bytes, and the choice of enabling of 10 minute peaks.
Figure 1-12 cnfclnstats—Configure Circuit Line Statistics (T1 Line)
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 01:21 GMT
Line Statistic Types
1) Bipolar Violations 37) Severely Err Secs - Path
3) Out of Frames 38) Severely Err Frame Secs
4) Losses of Signal 40) Unavail. Seconds
5) Frames Bit Errors 41) BIP-8 Code Violations
6) CRC Errors 42) Cell Framing Errored Seconds
29) Line Code Violations 43) Cell Framing Sev. Err Secs.
30) Line Errored Seconds 44) Cell Framing Sec. Err Frame Secs
31) Line Severely Err Secs 45) Cell Framing Unavail. Secs.
32) Line Parity Errors 62) Total Cells Tx to line
33) Errored Seconds - Line 69) Total Cells Rx from line
34) Severely Err Secs - Line 98) Frame Sync Errors
35) Path Parity Errors 141) FEBE Counts
36) Errored Secs - Path 143) Cell Framing FEBE Err Secs
This Command: cnfclnstats 5.1
Continue?
Line Statistic Types
144) Cell Framing FEBE Sev. Err. Secs. 202) Section BIP8 Err. Secs.
151) Yellow Alarm Transition Count 203) Line BIP24 Err. Secs.
152) Cell Framing Yel Transitions 204) Line FEBE Err. Secs.
153) AIS Transition Count 205) Path BIP8 Err. Secs.
193) Loss of Cell Delineation 206) Path FEBE Err. Secs.
194) Loss of Pointer 207) Section BIP8 Severely Err. Secs.
195) OC3 Path AIS 208) Section Sev. Err. Framing Secs.
196) OC3 Path YEL 209) Line BIP24 Severely Err. Secs.
197) Section BIP8 210) Line FEBE Severely Err. Secs.
198) Line BIP24 211) Path BIP8 Severely Err. Secs.
199) Line FEBE 212) Path FEBE Severely Err. Secs.
200) Path BIP8 213) Line Unavailable Secs.
201) Path FEBE 214) Line Farend Unavailable Secs.
This Command: cnfclnstats 5.1
Continue? y
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 01:22 GMT
Line Statistic Types
215) Path Unavailable Secs.
216) Path Farend Unavailable Secs.
217) HCS Uncorrectable Error
218) HCS Correctable Error
Last Command: cnfclnstats 5.1 215 5 e 29 2 y
Next Command:
cnfcmparm (Configure Connection Management Parameters)
The cnfcmparm command configures various connection management parameters for the node.
In Release 9.1, cnfcmparm is used to enable cost-based route selection and the use of delay as the trunk cost. By default, delay is enabled. This worst-case delay for each connection type is calculated from the configured voice and non-timestamped trunk queue depths. For delay sensitive connections on the IPX/IGX (voice and non-timestamped), the worst-case trunk delay can be used as the per trunk cost. For delay sensitive connections on the BPX (ATM CBR), end-to-end delay is not used as a routing constraint in AutoRoute.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dsprrst, cnftlparm
Syntax
cnfcmparm <parameter number> <value>
<parameter number>
specifies the number of the parameter to change. See Table 1-7.
<value>
specifies the new parameter value to enter.
Function
This command configures parameters that affect Adaptive Voice, Rerouting, and Courtesy Up/Down. These parameters are used only at the local node. Table 1-7 lists the parameters, their descriptions, and their default values.
Example
The example shows the two screens required to display all cnfcmparm parameters.
Figure 1-13 cnfcmparm Parameters
sw66 TN SuperUser BPX 15 9.1 Aug. 28 1997 19:49 GMT
1 Normalization Interval [ 2] (D)
2 Max Number To Normalize [ 5] (D)
3 Normalization Logging [ No]
4 Settling Interval [ 4] (D)
5 Minimum Open Space [ 1000] (D)
6 Normalization Priority [ Load]
7 Load Sample Period [ 4] (D)
8 Maximum Routing Bundle [ 24] (D)
9 Reroute Timer [ 0] (secs)
10 Reset Timer on Line Fail [ Yes]
11 Max Down/Up Per Pass [ 50] (D)
12 Down/Up Timer [30000] (msecs)
13 Max Route Errs per cycle [ 50] (D)
14 Time between Rrt cycles [ 5] (mins)
15 Max. Rrt Err cycles [ 10] (D)
This Command: cnfcmparm
Continue? y
sw66 TN SuperUser BPX 15 9.1 Aug. 28 1997 19:50 GMT
16 Routing pause timer [ 0] (msecs)
17 Max msgs sent per update [ 10] (D)
18 Send SVC urgent msg [ No]
19 Max SVC Retry [ 0] (D)
20 Wait for TBL Updates [ 70] (100 msecs)
21 Max Derouting Bndl (0=all)[ 500] (D)
22 Enable Cost-Based Routing [ No]
23 Enable Route Cache Usage [ No]
24 Use Delay for Routing [ No]
25 # of reroute groups used [ 50] (D)
26 Starting size of RR grps [ 0] (CLU)
27 Increment between RR grps [ 100] (CLU)
This Command: cnfcmparm
Enter parameter index:
cnfdiagparm (Configure Diagnostic Test Parameters)
The cnfdiagparm command sets various diagnostic test parameters for the nodes.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnftstparm
Syntax
cnfdiagparm
Function
This command sets several parameters that affect the three IPX/IGX/BPX automatic diagnostic tests. Use this command to set test parameters on the internal system clock. Table 1-8 lists the parameters, their descriptions, and their default values.
When you enter this command, the system responds with the screen illustrated in Figure 1-14. Note that parameters 1 and 4 are obsolete.
Figure 1-14 cnfdiagparm—Configure Diagnostic Test Parameters
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 01:39 GMT
1. Vdp Test Frequency (seconds) [50]
2. LDP tstport delay [10]
3. System clock drift (8.192 MHz) +- [480]
4. UEC-B's PLL railing (8.192 MHz) +- [2720]
5. PCC's PLL minimum (8.192 MHz) - [92000]
6. PCC's PLL maximum (8.192 Mhz) + [508000]
7. Clock Test Window [10]
8. Clock Test Max Error in Window [4]
9. Clock Fault Isolation Window [10]
10. Clock Fault Max Error in Window [3]
11. Clock Test Frequency (msec) [200]
12. Clock Test Switch Delay (msec) [2000]
13. Card Reset Threshold [60]
14. Card Reset Increment [10]
Last Command: cnfdiagparm
Next Command:
cnfdlparm (Configure Download Parameters)
The cnfdlparm command sets various software and firmware downloader parameters.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dspdnld
Syntax
cnfdlparm
Function
This command sets parameters that affect the SW/FW download protocol. It is primarily a debug command. It is included only to accomodate the possibility that some future software or firmware revision may need to be adjusted for optimizing the downloading process. See Table 1-9 for descriptions of the downloading parameters.
CautionYou should not change downloader parameters except under specific direction from the Technical Assistance Center (TAC). Contact the TAC through Customer Engineering.
Parameters
When you enter cnfdlparm, the system displays an indexed list of parameters. describes these parameters, and illustrates the cnfdlparm screen.
When you enter this command the system responds with the screen illustrated in Figure 1-15.
Figure 1-15 cnfdlparm—Configure Download Parameters
pubsbpx1 VT SuperUser BPX 15 9.1 May 24 1997 23:18 GMT
1 Rmt Blk Freq (msec) [ 100] 16 FW Dnld Msgs/Block(dec) [ 4]
2 Rmt Blk Size (hex) [ 400] 17 Flash Write TO(msec) [ 16000]
3 Lcl Blk Freq (msec) [ 100] 18 Flash Erase TO(msec) [ 100]
4 Lcl Blk Size (hex) [ 400] 19 Erase Verify TO(msec) [ 16000]
5 Image Req Freq (msec) [ 10000] 20 Standby Flash TO(sec) [ 300]
6 Dnld Req Freq (msec) [ 10000] 21 Lcl Flash Init TO(msec) [ 1000]
7 Session Timeout (msec) [ 30000] 22 Flsh Write Blk Sz (hex) [ 10000]
8 Request Hop Limit (dec) [ 1] 23 Flsh Verfy Blk Sz (hex) [ 400]
9 Crc Throttle Freq (dec) [ 5000] 24 Chips Per Write/Erase [ 1]
10 Crc Block Size (hex) [ 400]
11 Rev Change Wait(dec) [ 0]
12 CCs Switch Wait(dec) [ 1000]
13 Lcl Response TO(msec) [ 5000]
14 Rmt Response TO(msec) [ 20000]
15 FW Dnld Block TO(msec) [ 50]
This Command: cnfdlparm
Which parameter do you wish to change:
cnfecparm (Configure Echo Canceller Parameters)
The cnfecparm command configures the CDP or CVM integrated echo canceller (IEC) parameters for specified voice circuit line.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfchec, dspecparm
Syntax
cnfecparm <line> <parameter number> <parameter value>
<line>
specifies the circuit line to configure.
<parameter number>
specifies the number of the parameter to change. (See Table 1-10.)
<parameter value>
specifies the new value to enter for the parameter.
Function
The cnfecparm command configures the UVM, CVM or CDP integrated echo canceller (IEC). It configures IEC parameters associated with all voice channels for the specified circuit line. Setting these parameters allows you to optimize the IEC performance. lists the parameters you can modify. The dspecparm command description lists the defaults and provides a sample display. Also, refer to the cnfchec command in the Cisco WAN Switching Command Reference for configuring per-channel parameters.
When you enter this command the system responds with the screen illustrated in Figure 1-16.
Figure 1-16 cnfecparm—Configure Echo Canceller Parameters
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 15:35 PST
IEC Line 7 Parameters
1 CDP IEC Echo Return Loss High (.1 dBs) [ 60] (D)
2 CDP IEC Echo Return Loss Low (.1 dBs) [ 30] (D)
3 CDP IEC Tone Disabler Type [ G.164]
4 CDP IEC Non-Linear Processing [Center Clipper]
5 CDP IEC Non-Linear Processing Threshold [ 18] (D)
6 CDP IEC Noise Injection [ Enabled]
7 CDP IEC Voice Template [ USA]
This Command: cnfecparm 7
Which parameter do you wish to change:
cnffpcom (Configure FastPAD Communication Parameter)
The cnffpcom command configures the FastPAD communication parameters.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
None
Syntax
cnffpcom <slot.port> | <name> <trans timer> <alive timer> <retry count>
Function
This command configures the FastPAD communication parameters. When you enter this command, the system responds as shown in .
Figure 1-17 cnffpcom—Configure FastPAD Communication Parameters
cc7 VT SuperUser IPX 32 9.1 Aug. 30 1997 10:05 PST
Last Command: cnffpcom 31.2 2 2 3
Next Command:
cnffpcon (Configure FastPAD Connection Parameters)
The cnffpcon command configures the FastPAD connection parameters.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
addcon, dspcon, dncon, upcon
Syntax
cnffpcon <connection> [fr_bw]
<connection>
specifies the connection whose parameters to configure.
[fr_bw]
specifies the Frame Relay bandwidth parameters for the connection.
Function
This command configures connection parameters. When you enter this command, the system responds as shown in .
Figure 1-18 cnffpcon—Configure FastPAD Connection Parameters
cc7 VT SuperUser IPX 32 9.1 Aug. 30 1997 10:10 PST
Conn: 31.2.B.1 ca12 9.1.B.1 9.6
MIR CIR VC Q Depth PIR Cmax ECN QThresh QIR FST
11.6/11.6 11.6/11.6 2048/2048 11.6/11.6 10/10 1024/1024 11.6/11.6 n
% Util: 100/100
Owner: LOCAL Restriction: NONE COS: 0 Status: New Conn
Group: NONE Priority: N/A TestRTD: 0 msec
Path: cc7 19-- 6.2cc1 6.3-- 2.2ca13 1.3-- 13ca12
Pref: Not Configured
cc7 FTC: OK ca12 FTC: OK
FTI: OK FTI: OK
FastPAD: OK FastPAD: OK
This Command: cnffpcon 31.2.B.1 ca12 9.1.B.1
Enter FRP parameters (mir/oe_mir * ...):
cnffpddelay (Configure FastPAD Delay)
The cnffpddelay command configures thresholds for severe congestion (Sc) and mild congestion (Mc) on the FastPAD.
Attributes
Jobs: No Log: Lock: Node Type: IPX, IGX
Associated Commands
none
Syntax
cnffpddelay <slot.port.subslot.subport><Sc><Mc>
<slot.port.subslot.subport>
specifies the FTC or FTM port and subport that connects to the FastPAD for configuring Sc and Mc.
<Sc>
severe congestion
<Mc>
mild congestion
Function
Use this command to set up the delay on the FTC port and subport to which the FastPAD is connected. See for a sample screen.
Figure 1-19 cnffpddelay—Configure FastPAD Delay
pubsigx1 TN SuperUser IGX 32 9.1 Aug. 20 1997 14:07 GMT
Port: 8.1.7.2[FAILED ] Configured Clock: 256.0 Kbps
Rcv Clocking: EXTERNAL Measured Clock: N/A
Xmt Clocking: EXTERNAL
Data Coding: NRZ
Interface: V.35
Signalling Protocol STRATA LMI Interface Control Template
T391 Link Intg Timer 10
T392 Polling Verif Timer 15 Lead State
N391 Full Status Poll Cycle 6 CTS ON
N392 Error Threshold 3 DSR ON
Monitored Events Count 4 DCD ON
Severe Congestion (Sc) 64000 (512000)
Mild Congestion (Mc) 57600 (460800)
This Command: cnffpddelay 8.1.7.2
Sc[64000]:
cnffpdpvc (Configure FastPAD PVC)
The cnffppvc command configures the FastPAD bc/bc PVC parameters.
Attributes
Jobs: No Log: Lock: Node Type: IPX, IGX
Associated Commands
none
Syntax
cnffpdpvc <slot.port.subslot.subport.dlci> <bc> <bc>
cnffpmap (Configure FastPAD Map Table)
The cnffpmap command configures the FastPAD map table.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cpyfpmap
Syntax
cnffpmap <slot.port>
Function
This command configures FastPAD map table. The map table contains the dialing plan for the FastPAD. When you enter this command, the system responds with the screen shown in .
Figure 1-20 cnffpmap—Configure FastPAD Map Table
cc7 VT SuperUser IPX 32 9.1 Aug. 30 1997 10:14 PST
Index # DLCI Slot Index # DLCI Slot Index # DLCI Slot Jump:
[000] 9915 0991 05 [014] FFFF 1023 15 [028] FFFF 1023 15
[001] 0182 0018 02 [015] FFFF 1023 15 [029] FFFF 1023 15
[002] 0528 0052 08 [016] FFFF 1023 15 [030] FFFF 1023 15
[003] 0186 0018 06 [017] FFFF 1023 15 [031] FFFF 1023 15
[004] 0188 0018 08 [018] FFFF 1023 15 [032] FFFF 1023 15
[005] 0524 0052 04 [019] FFFF 1023 15 [033] FFFF 1023 15
[006] 0526 0052 06 [020] FFFF 1023 15 [034] FFFF 1023 15
[007] 0528 0052 08 [021] FFFF 1023 15 [035] FFFF 1023 15
[008] 0528 1023 09 [022] FFFF 1023 15 [036] FFFF 1023 15
[009] FFFF 1023 15 [023] FFFF 1023 15 [037] FFFF 1023 15
[010] FFFF 1023 15 [024] FFFF 1023 15 [038] FFFF 1023 15
[011] FFFF 1023 15 [025] FFFF 1023 15 [039] FFFF 1023 15
[012] FFFF 1023 15 [026] FFFF 1023 15 [040] FFFF 1023 15
[013] FFFF 1023 15 [027] FFFF 1023 15 [041] FFFF 1023 15
This Command: cnffpmap 31.2
Next Command:
cnffpport (Configure FastPAD Port)
The cnffpport command configures the FastPAD port parameters.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
dspftcport, dnftcport, upftcport
Syntax
cnffpport <slot.port.subslot.subport> <parameter number> <parameter value>
<slot.port.subslot.subport>
specifies the port.
<parameter number>
specifies the number of the parameter to change.
<parameter value>
specifies the new value to enter.
Function
This command configures port parameters for the FastPAD port. When you enter this command, the system responds as in the screen example shown in .
Figure 1-21 cnffpport—Configure FastPAD Port Parameters
cc7 VT SuperUser IPX 32 9.1 Aug. 30 1997 10:16 PST
FastPad Port Configuration
Index: 0x0000 Location: 0x30E84C40
Port in Use : 01 Port Type : 02 Conn Exist : 01
Phy Port Code : 00 Port Code : 00 Abs Rate : 07
Data Parameters
[01] Mode : 00 [02] Baud Rate : 06 [03] Underrun Fill : 7E
[04] Clock Stop FC : 00 [05] Transmit Clock: 00 [06] Local CTS : 01
[07] Local CTS Dly : 00 [08] Local DSR : 01 [09] Local DCD : 01
[10] Hunt Group Mem: 01 [11] Dest Switch Nm: 01 [12] Dest Port Nm : 03
[13] Dest Slot/Chnl: 00 [14] Call Timer : 05 [15] Enable Channel: 01
[16] Initiate Calls: 01 [17] Allocate BW : 00 [18] Intrframe Fill: 00
[19] DPLL Mode : 00 [20] Set DE on Data: 00 [21] Async In Timer: 05
[22] Checksum : 00 [23] Sync Pattern : 0000
This Command: cnffpport 31.2.B.1
Enter parameter number to change (DEL to quit):
cnffpsys (Configure FastPAD System Parameters)
The cnffpsys command configures the FastPAD system parameters.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
dspftcport, dnftcport, upftcport
Syntax
cnffpsys <slot.port> <parameter number> <parameter value>
<slot.port>
specifies the port.
<parameter number>
specifies the number of the parameter to change.
<parameter value>
specifies the new value to enter.
Function
This command configures system parameters for the FastPAD port. When you enter this command, the system responds with the screen shown in .
Figure 1-22 cnffpsys—Configure System Parameters
cc7 VT SuperUser IPX 32 9.1 Aug. 30 1997 10:17 PST
FastPad Configuration
Index: 0x0000 Location: 0x30E9D0B2
FPD in Use : 01 Conn State : 01 FPD Name : cc7FP
Alarm Status : 00 Switched Conn : 01 FPD Index : 05
IPX Slot Nm : 1F FTC Port Nm : 01 Link Int : 01
Link Rate : 0C Card Dsc Index: 00 Avail SwVoice : 00
Sfail/Nack : 00/00 TmOut/OutOfSeq: 00/00 Unknown/Q len : 00/00
System Parameters
[04] Ring Freq : 00 [05] Spd Dial Digit: 04 [06] Country Code : 0100
[07] Line Mgmt Ptcl: 02 [08] Local Swtch Nm: 0C [09] Local Port Nm : 51
[10] Inquire Poll : 05 [11] Full Stat Poll: 05 [12] Min Frame Size: 22
[13] Max Frame Size: 43 [14] Jitter Buf Sz : 00 [15] User Lockout : 01
Link Parameters
[16] Clock : 00 [17] Rate : 0C [18] Bandwidth : 8000
[19] Data Card Slot: FF [20] Data Card Chnl: 00 [21] Bundled DLCI : 1000
This Command: cnffpsys 31.2
Enter parameter number to change (DEL to quit)
cnffstparm (Configure ForeSight Node Parameter)
The cnffstparm command configures the ForeSight parameters for Frame Relay ports.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnffrcon
Syntax
cnffstparm
No line or port number need be entered.
Function
This command configures the ForeSight parameters for Frame Relay ports. This command only has an effect if the Frame Relay ForeSight option is enabled. The parameter values set by this command apply to all Frame Relay connections enabled with ForeSight. Therefore, these parameters must be configured on each node in the network that has ForeSight connections. (The cnffrcon command enables ForeSight on a connection.) lists the parameters. and illustrate IPX and BPX command menus.
Figure 1-23 IPX System Response for cnffstparm
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 15:41 PST
1 FRP/FTC Increase Rate [ 10] (%)
2 FRP/FTC Decrease Rate [ 87] (%)
3 FRP Fast Decrease Rate [ 50] (%)
4 RTD Measurement Time [ 5] (secs)
5 Default RTD [ 100] (msecs)
6 Minimum RTD [ 40] (msecs)
7 Maximum RTD [ 250] (msecs)
8 FECN for congested mins [ 50] (%)
9 QIR Time-out [ 10] (secs)
10 Max TstDelay Retries [ 2] (dec)
This Command: cnffstparm
Enter parameter index:
Figure 1-24 BPX System Response for cnffstparm
sw66 TN SuperUser BPX 15 9.1 Aug. 28 1997 23:50 GMT
1 FST Increase Rate [ 10] (%)
2 FST Decrease Rate [ 93] (%)
3 FST Fast Decrease Rate [ 50] (%)
4 RTD Measurement Time [ 5] (secs)
5 Default RTD [ 100] (msecs)
6 Minimum RTD [ 40] (msecs)
7 Maximum RTD [ 250] (msecs)
8 FECN for congested mins [ 50] (%)
9 QIR Time-out [ 244] (secs)
10 Max TstDelay Retries [ 2] (dec)
Last Command: cnffstparm
Next Command:
cnflan (Configure LAN)
The cnflan command configures node communication parameters.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
upln, dnln, cnfln
Syntax
cnflan <IP_Address> <IP_Subnet_Mask> <Maximum LAN Transmit Unit> <TCP Service Port>
Function
This command configures node communication parameters, so the node can communicate with a StrataView Plus terminal over an Ethernet LAN using TCP/IP protocol. The parameters all contain address information about the Ethernet TCP/IP network that connects the StrataView Plus station to an IPX, IGX, or BPX node. The values must conform to those of the network. The network administrator can supply the parameters. Refer to the screen in .
Figure 1-25 cnflan—Configure LAN Parameters
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 01:48 GMT
Active IP Address: 172.29.9.111
IP Subnet Mask: 255.255.255.0
IP Service Port: 5120
Default Gateway IP Address: 172.29.9.1
Maximum LAN Transmit Unit: 1500
Ethernet Address: 00.C0.43.00.1F.7F
Type State
LAN READY
TCP UNAVAIL
UDP READY
Telnet READY
TFTP READY
TimeHdlr READY
SNMP READY
This Command: cnflan
Enter IP Address:
cnflnparm (Configure ATM Line Card Parameters)
The cnflnparm command configures several parameters for ATM lines originating on the BPX or IGX nodes.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: BPX, IGX
Associated Commands
upln, dnln, cnfln
Syntax
cnflnparm <slot.port> <option 1-4>
Function
This command configures the circuit line alarm integration times in milliseconds for Red and Yellow circuit line alarms. You should set them to correspond to the local carrier's alarm integration times. The cnflnparm range for each of these parameters is 60-3932100 ms. Carrier integration times are typically 800 ms-1500 ms for Red Alarm and 1500-3000 ms for Yellow Alarm.
You can also set the queue depth for the two queues associated with the ASI-0 card, the constant bit rate (CBR) queue and the Variable Bit Rate (VBR) queue. The queue depths may be increased to 16,000 bytes per queue.
When you enter cnflnparm, the system responds with the screen in . The cnflnparm command is quite similar to the cnfln command.
Figure 1-26 cnflnparm—Configure ATM Line Card Parameters
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 01:54 GMT
LN 5.1 Parameters
1 Red Alarm - In/Out [ 2500 / 15000] (Dec)
2 Yel Alarm - In/Out [ 2500 / 15000] (Dec)
This Command: cnfclnparm 5.1
Which parameter do you wish to change: Which parameter do you wish to change:
cnflnsigparm (Configure Line Signalling Parameters)
The cnflnsigparm command configures the line signalling parameters for the CDP, CVM, and UVM voice cards.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnflnparm, cnflnstats, dsplnstatcnf, dsplnstathist, upln, dnln, cnfln
Syntax
cnflnsigparm <parameter number> <parameter value>
<parameter number>
specifies the number of the parameter to change.
<parameter value>
specifies the new value to enter.
Function
The cnflnsigparm command configures the line signalling parameters associated with a line. When you enter cnflnsigparm, the screen displays the parameters, as shown in .
Note The screen shows an obsolete card (CIP) and should show the CVM and UVM.)
Figure 1-27 cnflnsigparm—Configure Line Signalling Parameters
cc2 LAN SuperUser IGX 32 9.1 Aug. 30 1997 11:16 PST
1 CDP & CIP Heartbeat [ 2] (sec)
2 CDP & CIP Sig. Polling Rate [ 10] (sec)
3 CDP & CIP Default Inband Sig Delay [ 96] (msec)
4 CDP & CIP Default Inband Playout Delay [ 200] (msec)
5 CDP & CIP Default Pulse Sig Delay [ 96] (msec)
6 CDP & CIP Default Pulse Playout Delay [ 200] (msec)
7 CIP Number of Packet Slices [ 1]
8 CDP & CIP Packet Rate [ 200] (pkt/sec)
9 CDP & CIP Condition CCS Lines? [ YES]
10 CIP Default Inband Min. Wink [ 140] (msec)
11 CIP Default Pulse Min. Wink [ 140] (msec)
This Command: cnflnsigparm
Which parameter do you wish to change
cnflnstats (Configure Line Statistics Collection)
The cnflnstats command configures statistics collection for a line.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dsplnstatcnf, dsplnstathist
Syntax
cnflnstats <line> <stat> <interval> <e | d> [<samples> <size> <peaks>]
Function
Primarily, cnflnstats is a debug tool. It lets you customize statistics collected on each line. lists the statistics for FastPacket-based cards with T1 or E1 lines. For other available parameters, refer to the actual screens on a node. For example, and show available statistics for a UXM port and an ASI-155 port, respectively.
Not all statistic types are available for all lines. Only valid statistics are displayed for you to select.
Note Bipolar violations are not generally accumulated on E1 trunk and circuit lines. They are accumulated only on T1 lines connected to Frame Relay ports.
illustrates the screen displayed after entering cnflnstats on a FastPacket-based card. The three screens in show the statistics available on a UXM port. The two screens in show the statistics available on an ASI-155 card.
Figure 1-28 cnflnstats—Configure Line Statistics
cc2 LAN SuperUser IPX 32 9.1 Aug. 30 1997 11:20 PST
Line Statistic Types
1) Bipolar Violations
2) Frames Slips
3) Out of Frames
4) Losses of Signal
5) Frames Bit Errors
6) CRC Errors
7) Out of Multi-Frames
8) All Ones in Timeslot 16
Last Command: cnflnstats 15 6 255 e
Next Command:
Figure 1-29 cnflnstats for a UXM Port
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 02:11 GMT
Line Statistic Types
1) Bipolar Violations 37) Severely Err Secs - Path
3) Out of Frames 38) Severely Err Frame Secs
4) Losses of Signal 40) Unavail. Seconds
5) Frames Bit Errors 41) BIP-8 Code Violations
6) CRC Errors 42) Cell Framing Errored Seconds
29) Line Code Violations 43) Cell Framing Sev. Err Secs.
30) Line Errored Seconds 44) Cell Framing Sec. Err Frame Secs
31) Line Severely Err Secs 45) Cell Framing Unavail. Secs.
32) Line Parity Errors 62) Total Cells Tx to line
33) Errored Seconds - Line 69) Total Cells Rx from line
34) Severely Err Secs - Line 98) Frame Sync Errors
35) Path Parity Errors 141) FEBE Counts
36) Errored Secs - Path 143) Cell Framing FEBE Err Secs
This Command: cnflnstats 5.1
Continue? y
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 02:12 GMT
Line Statistic Types
144) Cell Framing FEBE Sev. Err. Secs. 202) Section BIP8 Err. Secs.
151) Yellow Alarm Transition Count 203) Line BIP24 Err. Secs.
152) Cell Framing Yel Transitions 204) Line FEBE Err. Secs.
153) AIS Transition Count 205) Path BIP8 Err. Secs.
193) Loss of Cell Delineation 206) Path FEBE Err. Secs.
194) Loss of Pointer 207) Section BIP8 Severely Err. Secs.
195) OC3 Path AIS 208) Section Sev. Err. Framing Secs.
196) OC3 Path YEL 209) Line BIP24 Severely Err. Secs.
197) Section BIP8 210) Line FEBE Severely Err. Secs.
198) Line BIP24 211) Path BIP8 Severely Err. Secs.
199) Line FEBE 212) Path FEBE Severely Err. Secs.
200) Path BIP8 213) Line Unavailable Secs.
201) Path FEBE 214) Line Farend Unavailable Secs.
This Command: cnflnstats 5.1
Continue? y
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 02:12 GMT
Line Statistic Types
215) Path Unavailable Secs.
216) Path Farend Unavailable Secs.
217) HCS Uncorrectable Error
218) HCS Correctable Error
This Command: cnflnstats 5.1
Statistic Type:
Figure 1-30 cnflnstats for an ASI-155
sw59 TN SuperUser BPX 15 9.1 Apr. 7 1998 10:42 GMT
Line Statistic Types
3) Loss of Frames 176) Line FEBE
4) Loss of Signal 177) Path BIP8
46) HCS Errors 178) Path FEBE
147) HCS Errored Seconds 179) Section BIP8 Err. Secs.
148) HCS Severely Err. Secs. 180) Line BIP24 Err. Secs.
151) YEL Transitions 181) Line FEBE Err. Secs.
153) Alarm Indication Signal 182) Path BIP8 Err. Secs.
170) Loss of Cell Delineation 183) Path FEBE Err. Secs.
171) Loss of Pointer 184) Section BIP8 Severely Err. Secs.
172) OC3 Path AIS 185) Section Sev. Err. Framing Secs.
173) OC3 Path YEL 186) Line BIP24 Severely Err. Secs.
174) Section BIP8
175) Line BIP24
This Command: cnflnstats 10.1
Continue?
sw59 TN SuperUser BPX 15 9.1 Apr. 7 1998 10:43 GMT
Line Statistic Types
187) Line FEBE Severely Err. Secs.
188) Path BIP8 Severely Err. Secs.
189) Path FEBE Severely Err. Secs.
190) Line Unavailable Secs.
191) Line Farend Unavailable Secs.
192) Path Unavailable Secs.
193) Path Farend Unavailable Secs.
194) HCS Correctable Error
195) HCS Correctable Error Err. Secs
196) HCS Correctable Error SevErr Secs
This Command: cnflnstats 10.1
Statistic Type:
cnfmxbutil (Configure Muxbus Utilization)
The cnfmxbutil command configures the Muxbus or Cellbus utilization factor for each FRP or FRM, respectively.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
none
Syntax
cnfmxbutil <slot number> <percentage>
<slot number>
specifies the slot number of the associated FRP card.
<percentage>
specifies the percent of Muxbus or Cellbus bandwidth to allocate.
Function
The cnfmxbutil command lets you configure the Muxbus or Cellbus utilization factor for each FRP or FRM in the node on a slot-by-slot basis. (System software automatically allocates a certain amount of bandwidth for each FRP or FRM in a node. Since the maximum data rate for an FRP or FRM is 2 Mbps, this bandwidth is also the maximum amount of the bus reserved for an FRP or FRM.)
In many applications, each of the four FRP or FRM ports is configured for a large number of 56 or 64 Kbps connections. System software totals the bandwidth required for all the connections, multiplies the total by 121% to reserve extra bandwidth for overhead, then subtracts this amount from the total available bus bandwidth.
However, statistically full utilization is not often required on ports with a large number of connections, so the reserved bus bandwidth may be further reduced. In a node with a T3 or E3 ATM trunk card, much of the bus bandwidth may be assigned to the ATM trunk, so you should exercise caution when allocating the remaining bus bandwidth.
See Figure 1-31 for a sample screen. The screen displays "N/A" for a slot where no FRP or FRM exists. Once the slot is selected, the system displays the message "Enter Utilization Factor." The range is 1-250%. The default is 121%. The extra 21% for the default is for the overhead for encapsulating the Frame Relay frame into the FastPackets or ATM cells.
Figure 1-31 cnfmxbutil—Configure Muxbus Utilization
gamma SV+ SuperUser IPX32 Rev: 9.1 Aug. 14 1997 14:27 PDT
Slot 1: N/A Slot 9: N/A Slot 17: 121% Slot 25: N/A
Slot 2: N/A Slot 10: N/A Slot 18: 121% Slot 26: N/A
Slot 3: N/A Slot 11: N/A Slot 19: N/A Slot 27: N/A
Slot 4: N/A Slot 12: N/A Slot 20: N/A Slot 28: N/A
Slot 5: N/A Slot 13: N/A Slot 21: N/A Slot 29: N/A
Slot 6: N/A Slot 14: N/A Slot 22: N/A Slot 30: N/A
Slot 7: N/A Slot 15: N/A Slot 23: N/A Slot 31: N/A
Slot 8: N/A Slot 16: N/A Slot 24: N/A Slot 32: N/A
This Command: cnfmxbutil
Enter Slot:
cnfnodeparm (Configure Node Parameter)
Sets a variety of general parameters for the nodes in a network.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
none
Syntax
cnfnodeparm
Function
The cnfnodeparm command lets you change some of the node's system parameters. The parameters you can set with cnfnodeparm are not closely related. and describe the parameters for the IPX/IGX and BPX nodes, respectively. After each table, an applicable set of cnfnodeparm screens appears. The defaults for the parameters are selected by Cisco engineering to operate under normal network conditions. With few exceptions, you should change them only with the guidance of the Cisco TAC.
shows the available parameters on an IGX node.
Figure 1-32 IGX cnfnodeparm Parameters
The example shows the two screens required to show all cnfnodeparm parameters on an IGX node.
pubsigx1 TN SuperUser IGX 16 9.1 May 9 1998 09:30 GMT
1 Update Initial Delay [ 5000] (D) 16 CC Redundancy Cnfged [ Y] (Y/N)
2 Update Per-Node Delay [30000] (D) 17 MT3 Pass Through Relay [ Y] (Y/N)
3 Comm-Break Test Delay [30000] (D) 18 Nw Pkt Tx Rate (pps) [ 500] (D)
4 Comm-Break Test Offset [ 10] (D) 19 Stats Memory (x 10KB) [ 61] (D)
5 Network Timeout Period [ 1700] (D) 20 Standby Update Timer [ 1] (D)
6 Network Inter-p Period [ 4000] (D) 21 Stby Updts Per Pass [ 30] (D)
7 NW Sliding Window Size [ 1] (D) 22 Gateway ID Timer [ 30] (D)
8 Num Normal Timeouts [ 7] (D) 23 GLCON Alloc Timer [ 30] (D)
9 Num Inter-p Timeouts [ 3] (D) 24 Comm Fail Delay [ 60] (D)
10 Num Satellite Timeouts [ 6] (D) 25 Nw Hdlr Timer (msec) [ 100] (D)
11 Num Blind Timeouts [ 4] (D) 26 CBUS Delay (msec) [ 20] (D)
12 Num CB Msg Timeouts [ 2] (D) 27 SNMP Event logging [ Y] (Y/N)
13 Comm Fail Interval [10000] (D) 28 TFTP Grant Delay (sec) [ 1] (D)
14 Comm Fail Multiplier [ 3] (D) 29 TFTP ACK Timeout (sec) [ 10] (D)
15 Temperature Threshold [ 50] (D) 30 TFTP Write Retries [ 3] (D)
This Command: cnfnodeparm
Continue? y
pubsigx1 TN SuperUser IGX 16 9.1 May 9 1997 09:31 GMT
31 FRP Link Status Alarm [ Y] (Y/N)
32 Job Lock Timeout [ 0] (D)
33 Max Via LCONs [ 5000] (D)
34 Max Blind Segment Size [ 3570] (D)
35 Max Nib Xmit Msgs [ 1000] (D)
36 Max Stby Update Q Sz [ 412] (D)
37 Trk Cell Rtng Restrict [ Y] (Y/N)
38 Stat Config Proc Cnt [ 1000] (D)
39 Stat Config Proc Delay [ 2000] (D)
40 Enable Degraded Mode [ N] (Y/N)
This Command: cnfnodeparm
Enter parameter index:
shows the available parameters on a BPX node.
Figure 1-33 BPX cnfnodeparm Parameters
Note This example illustrates the two screens required to show all cnfnodeparm parameters on a BPX node.
sw45 TN SuperUser BPX 15 9.1 Aug. 27 1997 18:25 PDT
1 Update Initial Delay [ 5000] (D) 16 Stats Memory (x 10KB) [ 61] (D)
2 Update Per-Node Delay [30000] (D) 17 Standby Update Timer [ 10] (D)
3 Comm-Break Test Delay [30000] (D) 18 Stby Updts Per Pass [ 50] (D)
4 Comm-Break Test Offset [ 10] (D) 19 Gateway ID Timer [ 30] (D)
5 Network Timeout Period [ 1700] (D) 20 GLCON Alloc Timer [ 30] (D)
6 Network Inter-p Period [ 4000] (D) 21 Comm Fail Delay [ 60] (D)
7 NW Sliding Window Size [ 1] (D) 22 Nw Hdlr Timer (msec) [ 50] (D)
8 Num Normal Timeouts [ 7] (D) 23 SAR CC Transmit Rate [ 560] (D)
9 Num Inter-p Timeouts [ 3] (D) 24 SAR High Transmit Rate [ 280] (D)
10 Num Satellite Timeouts [ 6] (D) 25 SAR Low Transmit Rate [ 56] (D)
11 Num Blind Timeouts [ 4] (D) 26 SAR VRAM Cngestn Limit [ 7680] (D)
12 Num CB Msg Timeouts [ 5] (D) 27 SAR VRAM Cell Discard [ 256] (D)
13 Comm Fail Interval [10000] (D) 28 ASM Card Cnfged [ Y] (Y/N)
14 Comm Fail Multiplier [ 3] (D) 29 TFTP Grant Delay (sec) [ 1] (D)
15 CC Redundancy Cnfged [ N] (Y/N) 30 TFTP ACK Timeout (sec) [ 10] (D)
This Command: cnfnodeparm
Continue? y
sw45 TN SuperUser BPX 15 9.1 Aug. 27 1997 18:26 PDT
31 TFTP Write Retries [ 3] (D)
32 SNMP Event logging [ Y] (Y/N)
33 Job Lock Timeout [ 60] (D)
34 Max Via LCONs [50000] (D)
35 Max Blind Segment Size [ 3570] (D)
36 Max XmtMemBlks per NIB [ 3000] (D)
37 Max Stby Update Q Sz [ 5000] (D)
38 Stat Config Proc Cnt [ 1000] (D)
39 Stat Config Proc Delay [ 2000] (D)
40 Enable Degraded Mode [N] (Y/N)
41 Trk Cell Rtng Restrict [N] (Y/N)
This Command: cnfnodeparm
Enter parameter index:
cnfnwip (Configure Network IP Address)
The cnfnwip command configures an IP address and subnet mask for the node.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
none
Syntax
cnfnwip <IPAddr> <IPSubnetMask>
<IPAddr>
IP address of the node: the format is nnn.nnn.nnn.nnn, where nnn can be 1-255
<IPSubnetMask>
subnet mask: the format is nnn.nnn.nnn.nnn
An example of this command is:
cnfnwip 199.35.96.217 255.255.255.0
where 199.35.96.217 is the IP address, and 255.255.255.0 is the subnet mask.
Function
The network IP address and subnet mask support statistics collection for StrataView Plus. The cnfnwip command defines the IP address the system uses to pass messages between StrataView Plus and the node. The Statistics Master process in StrataView Plus Network collects statistics. The Statistics Manager requests and receives statistics using TFTP Get and Put messages. These TFTP messages pass between the node and the Statistics Master using IP Relay. (See the cnfstatmast description for details on setting the Statistics Master address.) For an example of the cnfnwip command, refer to the screen in .
Figure 1-34 cnfnwip—Configure Network IP Address
axiom TN Bootzilla IGX 32 9.1 Aug. 5 1997 18:25 GMT
Active Network IP Address: 169.134.90.106
Active Network IP Subnet Mask: 255.255.255.0
Last Command: cnfnwip 169.134.90.106 255.255.255.0
Next Command:
cnfphyslnstats (Configure Physical Line Statistics)
The cnfphyslnstats command configures parameters for circuit line statistics collection. This is a debug command that applies to physical lines on a UXM that is using Inverse Multiplexing Over ATM (IMA)—a logical trunk configuration.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX
Associated Commands
dspphyslnstats
Syntax
cnfphyslnstats <port> <line> <stat> <interval> <e|d> [<samples> <size> <peaks>]
Function
This command configures physical line statistics on a UXM card. The cnfphyslnstats command lets you customize statistics collection on each physical line. It primarily applies to debugging and not standard network operation. To see the statistics available for each type of interface, refer to the actual screens for each interface, as in the subsequent figures. , , , , and show the available statistics for OC-3/STM1, T3, E3, T1, and E1, respectively.
Figure 1-35 cnfphyslnstats—Configure Physical Line Statistics (OC3)
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:11 PST
Line Statistic Types
1) Bipolar Violations 197) Section BIP8
3) Out of Frames 198) Line BIP24
4) Losses of Signal 199) Line FEBE
5) Frames Bit Errors 200) Path BIP8
6) CRC Errors 201) Path FEBE
62) Total Cells Tx to line 202) Section BIP8 Err. Secs.
69) Total Cells Rx from line 203) Line BIP24 Err. Secs.
151) Yellow Alarm Transition Count 204) Line FEBE Err. Secs.
153) AIS Transition Count 205) Path BIP8 Err. Secs.
193) Loss of Cell Delineation 206) Path FEBE Err. Secs.
194) Loss of Pointer 207) Section BIP8 Severely Err. Secs.
195) OC3 Path AIS 208) Section Sev. Err. Framing Secs.
196) OC3 Path YEL 209) Line BIP24 Severely Err. Secs.
Last Command: cnfphyslnstats 6.2
Continue? y
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:11 PST
Line Statistic Types
210) Line FEBE Severely Err. Secs.
211) Path BIP8 Severely Err. Secs.
212) Path FEBE Severely Err. Secs.
213) Line Unavailable Secs.
214) Line Farend Unavailable Secs.
215) Path Unavailable Secs.
216) Path Farend Unavailable Secs.
217) HCS Uncorrectable Error
218) HCS Correctable Error
This Command: cnfphyslnstats 6.2
Figure 1-36 cnfphyslnstats—Configure Physical Line Statistics (T3)
sw224 TN SuperUser IGX 16 9.1 Aug. 27 1997 16:19 GMT
Line Statistic Types
3) Out of Frames 40) Unavail. Seconds
4) Loss of Signal 41) BIP-8 Errors
6) CRC Errors 42) BIP-8 Errored Seconds
29) Line Code Violation 43) BIP-8 Severely Err Secs.
30) Line Errored Seconds 44) Cell Framing Sev. Err Frame Secs
31) Line Severely Err Secs 45) Cell Framing Unavail. Secs.
32) Line Parity Errors 98) PLCP OOF counts
33) Errored Seconds - Parity 141) FEBE Counts
34) Severely Err Secs - Parity 144) Cell Framing FEBE Sev. Err. Secs.
35) Path Parity Errors 152) PLCP YEL Counts
36) Errored Secs - Path
37) Severely Err Secs - Path
38) Severely Err Frame Secs
This Command: cnfphyslnstats 8.1
Statistic Type:
Figure 1-37 cnfphyslnstats—Configure Physical Line Statistics (E3)
sw224 TN SuperUser IGX 16 9.1 Aug. 27 1997 16:19 GMT
Line Statistic Types
3) Out of Frames 40) Unavail. Seconds
4) Loss of Signal 41) BIP-8 Errors
6) CRC Errors 42) BIP-8 Errored Seconds
29) Line Code Violation 43) BIP-8 Severely Err Secs.
30) Line Errored Seconds 44) Cell Framing Sev. Err Frame Secs
31) Line Severely Err Secs 45) Cell Framing Unavail. Secs.
32) Line Parity Errors 98) PLCP OOF counts
33) Errored Seconds - Parity 144) Cell Framing FEBE Sev. Err. Secs.
34) Severely Err Secs - Parity 152) PLCP YEL Counts
38) Severely Err Frame Secs
This Command: cnfphyslnstats 10.1
Figure 1-38 cnfphyslnstats—Configure Physical Line Statistics (T1)
sb-reef TN SuperUser IGX 16 9.1 Aug. 27 1997 18:17 PDT
Line Statistic Types
1) Bipolar Violations 197) Section BIP8
3) Out of Frames 198) Line BIP24
4) Losses of Signal 199) Line FEBE
5) Frames Bit Errors 200) Path BIP8
6) CRC Errors 201) Path FEBE
62) Total Cells Tx to line 202) Section BIP8 Err. Secs.
69) Total Cells Rx from line 203) Line BIP24 Err. Secs.
151) Yellow Alarm Transition Count 204) Line FEBE Err. Secs.
153) AIS Transition Count 205) Path BIP8 Err. Secs.
193) Loss of Cell Delineation 206) Path FEBE Err. Secs.
194) Loss of Pointer 207) Section BIP8 Severely Err. Secs.
195) OC3 Path AIS 208) Section Sev. Err. Framing Secs.
196) OC3 Path YEL 209) Line BIP24 Severely Err. Secs.
Last Command: cnfphyslnstats 10.1
Continue? y
sb-reef TN SuperUser IGX 16 9.1 Aug. 27 1997 18:17 PDT
Line Statistic Types
210) Line FEBE Severely Err. Secs.
211) Path BIP8 Severely Err. Secs.
212) Path FEBE Severely Err. Secs.
213) Line Unavailable Secs.
214) Line Farend Unavailable Secs.
215) Path Unavailable Secs.
216) Path Farend Unavailable Secs.
217) HCS Uncorrectable Error
218) HCS Correctable Error
This Command: cnfphyslnstats 10.1
Statistic Type:
Figure 1-39 cnfphyslnstats—Configure Physical Line Statistics (E1)
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:07 PST
Line Statistic Types
3) Out of Frames 198) Line BIP24
4) Losses of Signal 199) Line FEBE
5) Frames Bit Errors 200) Path BIP8
6) CRC Errors 201) Path FEBE
62) Total Cells Tx to line 202) Section BIP8 Err. Secs.
69) Total Cells Rx from line 203) Line BIP24 Err. Secs.
151) Yellow Alarm Transition Count 204) Line FEBE Err. Secs.
153) AIS Transition Count 205) Path BIP8 Err. Secs.
193) Loss of Cell Delineation 206) Path FEBE Err. Secs.
194) Loss of Pointer 207) Section BIP8 Severely Err. Secs.
195) OC3 Path AIS 208) Section Sev. Err. Framing Secs.
196) OC3 Path YEL 209) Line BIP24 Severely Err. Secs.
197) Section BIP8 210) Line FEBE Severely Err. Secs.
This Command: cnfphyslnstats 11.4
Continue? y
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:07 PST
Line Statistic Types
211) Path BIP8 Severely Err. Secs.
212) Path FEBE Severely Err. Secs.
213) Line Unavailable Secs.
214) Line Farend Unavailable Secs.
215) Path Unavailable Secs.
216) Path Farend Unavailable Secs.
217) HCS Uncorrectable Error
218) HCS Correctable Error
This Command: cnfphyslnstats 11.4
cnfportstats (Configure Port Statistics Collection)
The cnfportstats command configures parameters for ports.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
none
Syntax
cnfportstats <port> <stat> <interval> <e|d> [<samples> <size> <peaks>]
Function
The cnfportstats command configures port statistics. The primary purpose of this command is debugging. lists the configurable statistics for a Frame Relay port. For port statistics in general, refer to the actual cnfportstats screens on a node. Not all statistic types are applied to all ports. To see the statistics for Frame Relay, UXM, and ASI-155 ports, refer to , , and , respectively.
In , for example, the screen shows that the selected statistic is 33—the number of transmitted bytes while the ingress LMI is showing a failed condition. After the port number and statistic number (33) on the command line, the remaining parameters are the interval, enable for this statistic, number of samples, and so on.
Figure 1-40 cnfportstats—Configure Port Statistics for a Frame Relay Card
pubsigx1 TN SuperUser IGX 32 9.1 Aug. 5 1997 17:21 GMT
Port Statistic Types
1) Frames Received 14) LMI UNI Status Update Count
2) Frames Transmitted 15) LMI Invalid Status Enquiries
3) Bytes Received 16) LMI UNI Link Timeout Errors
4) Bytes Transmitted 17) LMI UNI Keepalive Sequence Errors
5) Frames Transmitted with FECN 18) Receive Frames Undefined DLCI Count
6) Frames Transmitted with BECN 19) DE Frames Dropped
7) Receive Frame CRC Errors 20) LMI NNI Status Enquiries
8) Invalid Format Receive Frames 21) LMI NNI Status Receive Count
9) Receive Frame Alignment Errors 22) LMI NNI Status Update Count
10) Illegal Length Receive Frames 23) LMI NNI Link Timeout Errors
11) Number of DMA Overruns 24) LMI NNI Keepalive Sequence Errors
12) LMI UNI Status Enquiries 25) CLLM Frames Transmitted
13) LMI UNI Status Transmit Count 26) CLLM Bytes Transmitted
This Command: cnfportstats 3.1
Continue?
pubsigx1 TN SuperUser IGX 32 9.1 Aug. 5 1997 17:24 GMT
Port Statistic Types
27) CLLM Frames Received
28) CLLM Bytes Received
29) CLLM Failures
30) Tx Frames Discarded - Queue Overflow
31) Tx Bytes Discarded - Queue Overflow
32) Tx Frames while Ingress LMI Failure
33) Tx Bytes while Ingress LMI Failure
Last Command: cnfportstats 3.1 33 2 e 2 4 y
Next Command:
Figure 1-41 cnfportstats for a UXM Port
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 03:12 GMT
Port Statistic Types
34) PORT: Unknown VPI/VCI count 47) VI: Cells received
35) VI: Cells received w/CLP=1 55) ILMI: Get Request PDUs rcvd
36) VI: OAM cells received 56) ILMI: Get Next Request PDUS rcvd
37) VI: Cells transmitted w/CLP=1 57) ILMI: Get Next Request PDUS xmt
38) PORT: Last unknown VPI/VCI pair 58) ILMI: Set Request PDUs rcvd
39) VI: Cells received w/CLP=0 59) ILMI: Trap PDUs rcvd
40) VI: Cells discarded w/CLP=0 60) ILMI: Get Response PDUs rcvd
41) VI: Cells discarded w/CLP=1 61) ILMI: Get Request PDUs xmt
42) VI: Cells transmitted w/CLP=0 62) ILMI: Get Response PDUs xmt
43) VI: OAM cells transmitted 63) ILMI: Set Request PDUs xmt
44) VI: RM cells received 64) ILMI: Trap PDUs xmt
45) VI: RM cells transmitted 65) ILMI: Unknown ILMI PDUs rcvd
46) VI: Cells transmitted 66) LMI: Status messages xmt
This Command: cnfportstats 5.1
Continue? y
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 03:12 GMT
Port Statistic Types
67) LMI: Update Status msgs xmt
68) LMI: Status Acknowledge msgs xmt
69) LMI: Status Enquiry msgs rcvd
70) LMI: Status Enquiry msgs xmt
71) LMI: Status msgs rcvd
72) LMI: Update Status msgs rcvd
73) LMI: Status Acknowledge msgs rcvd
74) LMI: Invalid LMI PDUs rcvd
75) LMI: Invalid LMI PDU length rcvd
76) LMI: Unknown LMI PDUs rcvd
77) LMI: Invalid LMI IE rcvd
78) LMI: Invalid Transaction IDs
This Command: cnfportstats 5.1
Statistic Type:
Figure 1-42 cnfportstats for an ASI-155
sw59 TN SuperUser BPX 15 9.1 Apr. 7 1997 11:18 GMT
Port Statistic Types
1) Unknown VPI/VCI count 13) OAM cells received count
2) Cell buff overflow (ingress) 14) Tx payload err cnt due to BIP-16 err
3) Non-zero GFC count 15) Number of cells xmitted w/CLP set
4) ISU discard count 16) Number of cells xmitted w/EFCI set
5) ISU free list empty count 17) Tx header err discard
6) Receive AIS cell count 18) Get Request PDUs received
7) Receive FERF cell count 19) Get Next Request PDUS received
8) Number of cells received 20) Get Next Request PDUS transmitted
9) Number of cells rcvd w/CLP set 21) Set Request PDUs received
10) Number of cells rcvd w/EFCI set 22) Trap PDUs received
11) Number of BCM cells rcvd 23) Get Response PDUs received
12) Number of cells xmitted 24) Get Request PDUs transmitted
This Command: cnfportstats 10.1
Continue? y
sw59 TN SuperUser BPX 15 9.1 Apr. 7 1997 11:19 GMT
Port Statistic Types
25) Get Response PDUs transmitted 37) Invalid LMI PDU length received
26) Trap PDUs transmitted 38) Unknown LMI PDUs received
27) Unknown ILMI PDUs Received 39) Invalid LMI IE received
28) Status messages transmitted 40) Invalid Transaction IDs
29) Update Status messages transmitted 41) Number of cells rcvd w/clp 0
30) Status Acknowledge messages transmit42) Number of cells dscd w/clp 0
31) Status Enquiry messages received 43) Number of cells dscd w/clp set
32) Status Enquiry messages transmitted 44) Number of cells tx w/clp 0
33) Status messages received 45) Tx OAM cell count
34) Update Status messages received 46) Rx RM cell count
35) Status Acknowledge messages received47) Tx RM cell count
36) Invalid LMI PDUs received received 48) Last unknown VPI/VCI pair
This Command: cnfportstats 10.1
Statistic Type:
cnfrobparm (Configure Robust Alarms Parameters)
The cnfrobparm command sets parameters associated with the Robust Alarms feature.
Attributes
Jobs: No Log: No Lock: Yes Node Type: IGX, BPX
Associated Commands
none
Syntax
cnfrobparm <index> <value>
<index>
specifies the parameter to configure.
<value>
specifies new value to be entered for the parameter.
Function
This command sets Robust Alarms parameters. Robust Alarms is a protocol for node-to-Network Management System (NMS) communications. When a node has statistics or alarm information for the NMS, it requires a confirmation from the NMS of database update. lists the parameters. illustrates the command.
Figure 1-43 cnfrobparm—Configure Robust Alarm Parameters
a34 TRM SuperUser IGX 16 9.1 Aug. 14 1997 15:02 PDT
Robust Parameters
1 Robust State wakeup timer (sec) .................................. 10
2 Robust update timer (sec) ........................................ 10
3 Robust acknowledge timeout (sec) .................................600
4 Robust acknowledge reset timeout (sec) ...........................60
This Command: cnfrobparm
Which parameter do you wish to change:
cnfslotstats (Configure Slot Statistics Collection)
The cnfslotstats command configures the statistics for a card slot.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: BPX
Associated Commands
dspsloterrs
Syntax
cnfslotstats <port> <stat> <interval> <e|d> [<samples> <size> <peaks>]
Function
This command sets the collection interval for each of the BPX node slot statistics. The default is for no statistics to be collected. The collection interval range is 1 minute-255 minutes (4 1/4 hours).
lists the statistics associated with each slot in the BPX node. illustrates the command screen. This command is primarily a troubleshooting tool for use when hardware errors are experienced that may not be detected by the individual care self-test routines. An associated display command (dspsloterrs) is available for all users.
You must enter the statistic type (1-9) to set the collection interval. When you enter the command, the system responds with the following prompt:
Collection Interval (1-255 minutes): __
Figure 1-44 cnfslotstats—Configure Slot Statistics Parameters
sw81 TN SuperUser BPX 15 9.1 Aug. 1 1997 15:42 PST
Card Statistics Types
1) Standby PRBS Errors
2) Rx Invalid Port Errs
3) PollA Parity Errors
4) PollB Parity Errors
5) Bad Grant Errors
6) Tx Bip 16 Errors
7) Rx Bip 16 Errors
8) Bframe parity Errors
9) SIU phase Errors
10) Rx FIFO Sync Errors
11) Poll Clk Errors
12) CK 192 Errors
13) Monarch Specific Errors
This Command: cnfslotstats 8
cnftcpparm (Configure TCP Parameters)
The cnftcpparm command configures the TCP parameter.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
dsptcpparm
Syntax
cnftcpparm <network ip throttle>
<network ip throttle>
specifies the number of times that the BCC card polls the LAN for attention requests.
Function
This command specifies the number of times per second that the BCC checks the IP addressees for attention requests. illustrates the system response when you enter cnftcpparm.
Figure 1-45 Configure TCP Parameters
sw81 TN SuperUser BPX 15 9.1 Aug. 1 1997 15:46 PST
NWIP Bandwidth Throttle (Kbytes/sec): 32
This Command: cnftcpparm
Enter NWIP Bandwidth Throttle (Kbytes/sec):
cnftermfunc (Configure Terminal Port Functions)
Configures port functions for the IGX, or BPX control and auxiliary ports. The IGX nodes support two EIA/TIA-232 asynchronous serial ports on the SCC and SCM, respectively. The BPX node supports two EIA/TIA-232 asynchronous serial ports on the LMBCC. In all cases, the top port is the CONTROL TERMINAL port, and the lower port is the AUX PORT. The CONTROL TERMINAL port can connect to a control terminal, StrataView Plus, a direct dial-in modem, or any external EIA/TIA-232 device. The AUX PORT can connect to a printer, an auto-dial modem to call a control center, or an external EIA/TIA-232 device.
The interface specified for the port must match the equipment physically attached to the port. The baud rate and other data transmission parameters for the port are set with the cnfterm command. If either port is configured as an external device window, enter the window command to begin a session with the external device.
If the auxiliary port is configured as an autodial modem, designate a "network ID" and a "phone number". Configuring the auxiliary port for an autodial modem enables the following to occur: When a change in alarm status happens anywhere in the network, the autodial modem attached to the auxiliary port dials the specified "phone number." If the call goes to the TAC, the alarm is logged under the specified "network ID." With this log, Cisco engineers are automatically notified of any problems that occur in the network.
Full Name
Configure terminal port functions
Syntax
cnftermfunc <a/c> <index> [escape_string | (Network_ID Dial_String)]
Related Commands
cnfterm, cnfprt, dsptermfunc
Attributes
Example 1
cnftermfunc
Description
Configure an IGX or BPX node control or auxiliary port.
System Response
Without an argument on the command line, the switch displays a list of parameters. shows the screen on an IGX 8420 switch.
Figure 1-46 cnftermfunc Screen on an IGX 8420 Switch
TN SuperUser IGX 16 9.1 Apr. 7 1997 03:46 GMT
Control port Auxiliary port
1. VT100/StrataView 1. Okidata 182 Printer
2. VT100 2. Okidata 182 Printer with LOG
3. External Device Window 3. VT100
4. Alarm Message Collector
5. External Device Window
6. Autodial Modem
This Command: cnftermfunc
Select Control port (c) or Auxiliary port (a)
Example 2
cnftermfunc a 5 Intrepid 18007674479
Description
Configure an auxiliary port. The port configuration screen appears with "Autodial Modem" highlighted to indicate that this interface has been chosen for the auxiliary port. When an alarm occurs on the network, the modem dials 18007674479 to reach the TAC. The alarm is logged on a Cisco computer under the name "Intrepid".
Table 1-18
Parameter Descriptiona
specifies that the auxiliary port will be configured.
c
specifies that the control port will be configured.
cnftermfunc—Parameters
Table 1-19 cnftermfunc—Index Parameters
Table 1-20 cnftermfunc—Optional Parameters
cnftlparm (Configure Trunk-Based Loading Parameters)
The cnftlparm command configures the trunk based loading (TBL) parameters.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
cnfcmparm
Syntax
cnftlparm <index>
Parameters
describes the cnftlparm parameters.
Note Cisco Systems recommends that you leave all parameters at the default values. If you need to change a TBL parameter, first call the TAC through Cisco Customer Engineering.
Function
The cnftlparm command lets you control the rate of update messages in conjunction with trunk-based loading. For descriptions of the trunk-based loading parameters, refer to .
shows the screen for cnftlparm.
Figure 1-47 cnftlparm Parameters
sw66 TN SuperUser BPX 15 9.1 Aug. 27 1997 22:31 GMT
1 Enable [ Yes]
2 Normal Interval [ 150] (100msecs)
3 Fast Interval [ 50] (100msecs)
4 Low Threshold [ 50] (D)
5 High Threshold [ 90] (D)
6 Min Percent Chg, Mid 1 [ 10] (D)
7 Min Percent Chg, Mid 2 [ 6] (D)
8 Min Percent Chg, Mid 3 [ 3] (D)
9 Min Percent Chg, Upper [ 2] (D)
10 Background Updt Count [ 0] (D)
11 Update Algorithm [ 0] (D)
This Command: cnftlparm
Enter parameter index:
cnftrkparm (Configure Trunk Card Parameter)
The cnftrkparm command sets specified trunk parameters for the following front cards:
•UXM
•ALM/B
•AIT
•BTM
•NTC
•NTM
•BNI
•BXM
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
dsptrkstathist, dsptrkstatcnf
Syntax
cnftrkparm <trk number> <parm index> <parm value>
<trk number>
specifies the trunk to configure (can be a virtual trunk).
<parm index>
specifies the parameter to change.
<parm value>
specifies the value of the parameter.
Function
Use the cnftrkparm command to optimize a network for particular traffic mixes. This command configures any of the trunk-specific parameters associated with a trunk card. It applies to either a FastPacket trunk or an ATM trunk. For ATM trunks, cnftrkparm applies to both physical and virtual trunks. Spacer queues indicated for the CLP and FECN thresholds pertain to AIT and BTM cards in an IGX node, respectively.
This command can also reconfigure trunk queue depths to meet the CEPT requirement for a maximum end-to-end delay of 10 milliseconds. For this purpose, enter the following:
cnftrkparm <trunk number> <parameter index> <parameter value>
where: trunk number specifies the trunk.
parameter index is 2 (which corresponds to the NTS queue).
parameter value is 7 (which is the maximum allowable queue depth).When the system receives this command and a trunk number, it displays the configurable parameters with an index number for each. The parameters vary with the trunk type, as the subsequent figures and tables show. , , and list the parameters for trunks carrying FastPackets and ATM cells on different platforms as well as virtual trunks. , , , and show the response when you specify a FastPacket line or trunk on a variety of platforms. A table follows one or two screen examples.
Figure 1-48 cnftrkparm for an IGX Node
sw83 TN SuperUser IGX 16 9.1 Aug. 23 1997 15:58 PST
PLN 13 Parameters:
1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000]
2 Rx Max Age - Voice (D) [ N/A] 19 Tx Max Age - Voice (D) [ 20]
3 Rx EFCN - BdataB (D) [ N/A] 20 Tx EFCN - BdataB (D) [ 30]
4 Gateway Efficiency (D) [ N/A]
5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D)
6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ 128] 23 BDataA [ 128]
7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ 128] 24 BDataB [ 128]
Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%)
8 BDataA [ N/A] 10 BDataA [ N/A] 25 BDataA [ 100] 27 BDataA [ 100]
9 BDataB [ N/A] 11 BdataB [ N/A] 26 BDataB [ 75] 28 BDataB [ 25]
Receive Queue Depth (D) Transmit Queue Depth (D)
12 Voice [ N/A] 15 BDataA [ N/A] 29 Voice [ 22] 32 BDataA [ 301]
13 Non TS [ N/A] 16 BDataB [ N/A] 30 Non TS [ 114] 33 BDataB [ 301]
14 TS [ N/A] 17 HighPri[ N/A] 31 TS [2616] 34 HighPri[ 100]
Last Command: cnftrkparm 13
Next Command:
Note For parameter 12, the system displays the following: "Warning—don't change Voice Q size, use Max Voice Age."
Figure 1-49 cnftrkparm for a BPX Trunk
pubsbpx1 TN SuperUser BPX 15 9.1 July 15 1997 09:37 GMT
TRK 1.1 Parameters
1 Q Depth - Voice [ 242] (Dec) 15 Q Depth - CBR [ 600] (Dec)
2 Q Depth - Non-TS [ 360] (Dec) 16 Q Depth - VBR [ 1000] (Dec)
3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [ 9070] (Dec)
4 Q Depth - BData A [ 1000] (Dec) 18 Low CLP - CBR [ 100] (%)
5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 100] (%)
6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 100] (%)
7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 100] (%)
8 Red Alm - I/O (Dec) [ 2500 / 15000] 22 Low CLP - ABR [ 25] (%)
9 Yel Alm - I/O (Dec) [ 2500 / 15000] 23 High CLP - ABR [ 75] (%)
10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 30] (Dec)
11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 144] (Dec)
12 Low CLP - BData B [ 25] (%)
13 High CLP - BData B [ 75] (%)
14 EFCN - BData B [ 30] (Dec)
This Command: cnftrkparm 1.1
Which parameter do you wish to change:
Figure 1-50 cnftrkparm for a BXM OC12 Trunk
sw97 TRM SuperUser BPX 15 9.1 Apr. 30 1997 13:14 GMT
TRK 13.1 Parameters
Trunk Type: NNI
1 Q Depth - Voice [ 3000] (Dec) 15 Q Depth - CBR [ 1200] (Dec)
2 Q Depth - Non-TS [ 3000] (Dec) 16 Q Depth - VBR [ 10000] (Dec)
3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [ 30000] (Dec)
4 Q Depth - BData A [ 20000] (Dec) 18 Low CLP - CBR [ 100] (%)
5 Q Depth - BData B [ 20000] (Dec) 19 High CLP - CBR [ 100] (%)
6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 100] (%)
7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 100] (%)
8 Red Alm - I/O (Dec) [ 2500 / 15000] 22 Low CLP - ABR [ 25] (%)
9 Yel Alm - I/O (Dec) [ 2500 / 15000] 23 High CLP - ABR [ 75] (%)
10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 30] (Dec)
11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 144] (Dec)
12 Low CLP - BData B [ 25] (%)
13 High CLP - BData B [ 75] (%)
14 EFCN - BData B [ 30] (Dec)
Last Command: cnftrkparm 13.1
Next Command:
Note Although the traffic consists of frame relay in cells, the traffic can pass through a BPX node. Therefore, the Bursty Data queues exist in the BPX node.
Figure 1-51 cnftrkparm for a Virtual Trunk
sw97 TN SuperUser BPX 15 9.1 Aug. 9 1997 10:11 GMT
TRK 1.1.1 Parameters
8 Red Alm - I/O (Dec) [ 2500 / 10000]
9 Yel Alm - I/O (Dec) [ 2500 / 10000]
15 Q Depth - CBR [ 2678] (Dec)
18 Low CLP - CBR [ 100] (%)
19 High CLP - CBR [ 100] (%)
This Command: cnftrkparm 1.1.1
Which parameter do you wish to change:
Figure 1-52 cnftrkparm for a UXM OC3 Trunk
sw228 TN SuperUser IGX 16 9.1.w2 Aug. 27 1997 18:25 PST
TRK 6.3 Parameters:
1 Yel Alm-In/Out (D) [ 2500/ 10000] 18 Red Alm-In/Out (D) [ 2500/ 10000]
2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20]
3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30]
4 Gateway Efficiency (D) [ 2.0]
5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D)
6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A]
7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A]
Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%)
8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100]
9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25]
Receive Queue Depth (D) Transmit Queue Depth (D)
12 Voice [ 1952] 15 BDataA [10000] 29 Voice [ 1952] 32 BDataA [10000]
13 Non TS [ 2925] 16 BDataB [10000] 30 Non TS [ 2924] 33 BDataB [10000]
14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000]
This Command: cnftrkparm 6.3
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:26 PST
TRK 6.3 Parameters:
Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (D) Tx EFCN (D)
35 CBR [ 600] 38 CBR [ 600]
36 VBR [ 5000] 39 VBR [ 5000]
37 ABR [20000] 40 ABR [20000] 47 ABR [ 30] 48 ABR [ 30]
Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%)
41 CBR [ 100] 44 CBR [ 100] 49 CBR [ 100] 52 CBR [ 100]
42 VBR [ 100] 45 VBR [ 100] 50 VBR [ 100] 53 VBR [ 100]
43 ABR [ 75] 46 ABR [ 25] 51 ABR [ 75] 54 ABR [ 25]
This Command: cnftrkparm 6.3
Figure 1-53 cnftrkparm for a UXM T3 or E3 Trunk
sw228 TN SuperUser IGX 16 9.1.w2 Aug. 27 1997 18:25 PST
TRK 8.1 Parameters:
1 Yel Alm-In/Out (D) [ 2500/ 10000] 18 Red Alm-In/Out (D) [ 2500/ 10000]
2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20]
3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30]
4 Gateway Efficiency (D) [ 2.0]
5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D)
6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A]
7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A]
Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%)
8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100]
9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25]
Receive Queue Depth (D) Transmit Queue Depth (D)
12 Voice [ 242] 15 BDataA [ 8000] 29 Voice [ 242] 32 BDataA [ 8000]
13 Non TS [ 360] 16 BDataB [ 8000] 30 Non TS [ 360] 33 BDataB [8000]
14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000]
This Command: cnftrkparm 8.1
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:26 PST
TRK 8.1 Parameters:
Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (D) Tx EFCN (D)
35 CBR [ 400] 38 CBR [ 400]
36 VBR [ 5000] 39 VBR [ 5000]
37 ABR [10000] 40 ABR [10000] 47 ABR [ 30] 48 ABR [ 30]
Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%)
41 CBR [ 100] 44 CBR [ 100] 49 CBR [ 100] 52 CBR [ 100]
42 VBR [ 100] 45 VBR [ 100] 50 VBR [ 100] 53 VBR [ 100]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 8.1
cnftrkstats (Configure Trunk Statistics Collection)
The cnftrkstats command configures collection of statistics for a selected trunk.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
dsptrkstatcnf, dsptrkstathist
Syntax
cnftrkstats <line> <stat> <interval> <e|d> [<samples> <size> <peaks>]
Function
The cnftrkstats command is primarily a debug command. It configures the collection of statistics for a physical or virtual trunk. After displaying all statistic types for the trunk, the system prompts for "statistic type." Enter the index number associated with the statistic.
Not all types of statistics are available for all lines. Unavailable selections appear in half-tone. lists the types of statistics that are configurable for FastPacket T1 trunks and ATM T3 trunks. The subsequent figures show the screens associated with T1 packet trunks and T3 ATM trunks.
is the only screen for T1 trunks.
Figure 1-54 cnftrkstats—Configure T1 Trunk Statistics
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 14:42 PST
Line Statistic Types
1) Bipolar Violations 18) Voice Packets Transmitted
3) Out of Frames 19) TS Packets Transmitted
4) Losses of Signal 20) NTS Packets Transmitted
5) Frames Bit Errors 21) CC Packets Transmitted
6) CRC Errors 22) BDA Packets Transmitted
9) Packet Out of Frames 23) BDB Packets Transmitted
10) Packet CRC Errors 24) Total Packets Transmitted
12) Tx Voice Packets Dropped 25) BDA CLP Packets Dropped
13) Tx TS Packets Dropped 26) BDB CLP Packets Dropped
14) Tx NTS Packets Dropped 27) BDA EFCN Pkts Transmitted
15) Tx CC Packets Dropped 28) BDB EFCN Pkts Transmitted
16) Tx BDA Packets Dropped 149) Bdata A CLP Packets Tx to Line
17) Tx BDB Packets Dropped 150) Bdata B CLP Packets Tx to Line
Last Command: cnftrkstats 13
Next Command:
The following screens, shown in through , pertain to an ATM trunk
(AIT card) on an IGX node. Other trunk types and cards have other parameters. To see the list of these, enter the command and continue from page to page without entering an index number.Figure 1-55 cnftrkstats—Configure ATM Trunk Statistics (Screen 1)
sw83 TN SuperUser IGX 8410 9.1 Aug. 1 1997 14:45 PST
Line Statistic Types
3) Out of Frames 22) BDA Packets Transmitted
4) Losses of Signal 23) BDB Packets Transmitted
10) Packet CRC Errors 24) Total Packets Transmitted
12) Tx Voice Packets Dropped 25) BDA CLP Packets Dropped
13) Tx TS Packets Dropped 26) BDB CLP Packets Dropped
14) Tx NTS Packets Dropped 27) BDA EFCN Pkts Transmitted
15) Tx CC Packets Dropped 28) BDB EFCN Pkts Transmitted
16) Tx BDA Packets Dropped 29) Line Code Violations
17) Tx BDB Packets Dropped 30) Line Errored Seconds
18) Voice Packets Transmitted 31) Line Severely Err Secs
19) TS Packets Transmitted 32) Line Parity Errors
20) NTS Packets Transmitted 33) Errored Seconds - Line
21) CC Packets Transmitted 34) Severely Err Secs - Line
This Command: cnftrkstats 11
Continue?
Figure 1-56 cnftrkstats—Configure ATM Trunk Statistics (Screen 2)
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 14:46 PST
Line Statistic Types
35) Path Parity Errors 48) Tx Voice Cells Drpd
36) Errored Secs - Path 49) Tx TimeStamped Cells Drpd
37) Severely Err Secs - Path 50) Tx NTS Cells Dropped
38) Severely Err Frame Secs 51) Tx Hi-Pri Cells Drpd
39) AIS Signal Seconds 52) Tx BData A Cells Drpd
40) Unavail. Seconds 53) Tx BData B Cells Drpd
41) BIP-8 Code Violations 54) Voice Cells Tx to line
42) Cell Framing Errored Seconds 55) TimeStamped Cells Tx to ln
43) Cell Framing Sev. Err Secs. 56) NTS Cells Tx to line
44) Cell Framing Sec. Err Frame Secs 57) Hi-Pri Cells Tx to line
45) Cell Framing Unavail. Secs. 58) BData A Cells Tx to line
46) ATM Cell Header HEC Errs 59) BData B Cells Tx to line
47) Pkts. Rx from Muxbus 60) Half Full cells Tx to ln
This Command: cnftrkstats 11
Continue?
Figure 1-57 cnftrkstats—Configure ATM Trunk Statistics (Screen 3)
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 14:47 PST
Line Statistic Types
61) Full cells Tx to ln 74) Rx Hi-pri Pkts Dropped
62) Total Cells Tx to line 75) Rx BDA Pkts Dropped
63) Tx Bdata A CLP Cells Drpd 76) Rx BDB Pkts Dropped
64) Tx Bdata B CLP Cells Drpd 77) Voice pkts Tx to Muxbus
65) Bdata A EFCN Cells Tx ln 78) TS pkts Tx to Muxbus
66) Bdata B EFCN Cells Tx ln 79) NTS pkts Tx to Muxbus
67) Half Full Cells Rx from ln 80) Hi-pri pkts Tx to Muxbus
68) Full Cells Rx from line 81) Bdata A pkts Tx to Muxbus
69) Total Cells Rx from line 82) Bdata B pkts Tx to Muxbus
70) Total pkts Rx from line 83) Rx Bdata A CLP pkts drpd
71) Rx Voice Pkts Dropped 84) Rx Bdata B CLP pkts drpd
72) Rx TS Pkts Dropped 85) Bdata A EFCN Pkts Tx muxbus
73) Rx NTS Pkts Dropped 86) Bdata B EFCN Pkts Tx muxbus
This Command: cnftrkstats 11
Continue?
Figure 1-58 cnftrkstats—Configure ATM Trunk Statistics (Screen 4)
sw83 TN SuperUser IGX 16 9.2 Aug. 1 1997 14:48 PST
Line Statistic Types
87) Total Pkts Tx to muxbus 100) Rx Spacer 2 Pkts dropped
88) Rx voice cells drpd 101) Rx Spacer 3 Pkts dropped
89) Rx TimeStamped Cells drpd 102) Rx Spacer 4 Pkts dropped
90) Rx NTS Cells dropped 103) Rx Spacer 5 Pkts dropped
91) Rx Hi-pri Cells dropped 104) Rx Spacer 6 Pkts dropped
92) Rx Bdata A Cells dropped 105) Rx Spacer 7 Pkts dropped
93) Rx Bdata B Cells dropped 106) Rx Spacer 8 Pkts dropped
94) Rx Bdata A CLP cells drpd 107) Rx Spacer 9 Pkts dropped
95) Rx Bdata B CLP cells drpd 108) Rx Spacer 10 Pkts dropped
96) Rx Spacer CLP Pkts drpd 109) Rx Spacer 11 Pkts dropped
97) Spacer EFCN Pkts Tx to Muxbus 110) Rx Spacer 12 Pkts dropped
98) Frame Sync Errors 111) Rx Spacer 13 Pkts dropped
99) Rx Spacer 1 Pkts dropped 112) Rx Spacer 14 Pkts dropped
This Command: cnftrkstats 11
Figure 1-59 cnftrkstats—Configure ATM Trunk Statistics (Screen 5)
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 14:49 PST
Line Statistic Types
113) Rx Spacer 15 Pkts dropped 126) Spacer 10 Pkts Tx to Muxbus
114) Rx Spacer 16 Pkts dropped 127) Spacer 11 Pkts Tx to Muxbus
115) Rx Spacer Pkts drpd 128) Spacer 12 Pkts Tx to Muxbus
116) Spacer 0 Pkts Tx to Muxbus 129) Spacer 13 Pkts Tx to Muxbus
117) Spacer 1 Pkts Tx to Muxbus 130) Spacer 14 Pkts Tx to Muxbus
118) Spacer 2 Pkts Tx to Muxbus 131) Spacer 15 Pkts Tx to Muxbus
119) Spacer 3 Pkts Tx to Muxbus 132) Spacer 16 Pkts Tx to Muxbus
120) Spacer 4 Pkts Tx to Muxbus 133) Rx Voice QSE Cells Tx
121) Spacer 5 Pkts Tx to Muxbus 134) Rx Time Stamped QSE Cells Tx
122) Spacer 6 Pkts Tx to Muxbus 135) Rx NTS QSE Cells Tx
123) Spacer 7 Pkts Tx to Muxbus 136) Rx Hi Priority QSE Cells Tx
124) Spacer 8 Pkts Tx to Muxbus 137) Rx BData A QSE Cells Tx
125) Spacer 9 Pkts Tx to Muxbus 138) Rx Bdata B QSE Cells Tx
This Command: cnftrkstats 11
Figure 1-60 cnftrkstats—Configure ATM Trunk Statistics (Screen 6)
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 15:02 PST
Line Statistic Types
139) Rx BData A EFCN QSE Cells Tx 152) Cell Framing Yel Transitions
140) Rx BData B EFCN QSE Cells Tx 153) AIS Transition Count
141) FEBE Counts 161) CGW Packets Rx From IPX Net
142) FERR Counts (M or F bit) 162) CGW Cells Tx to Line
143) Cell Framing FEBE Err Secs 163) CGW Frms Relayed to Line
144) Cell Framing FEBE Sev. Err. Secs. 164) CGW Aborted Frames Tx to Line
145) Cell Framing FEBE Counts 165) CGW Dscd Pkts From Abted Frms
146) Cell Framing FE Counts 166) CGW 0-Lngth Frms Rx from Line
147) ATM CRC Errored Seconds 167) CGW Packets Tx to IPX Net
148) ATM CRC Severely Err. Secs. 168) CGW Cells Rx from Line
149) Bdata A CLP Packets Tx to Line 169) CGW Frms Relayed from Line
150) Bdata B CLP Packets Tx to Line 170) CGW Aborted Frms Rx From Line
151) Yellow Alarm Transition Count 171) CGW Dscd Cells From Abted Frms
This Command: cnftrkstats 11
Figure 1-61 cnftrkstats—Configure ATM Trunk Statistics (Screen 7)
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 14:51 PST
Line Statistic Types
172) CGW Bd CRC32 Frms Rx from Line 185) OAM Valid OAM Cells Rx
173) CGW Bd Lngth Frms Rx from Line 186) OAM Loopback Cells Rx
174) CGW Bd CRC16 Frms Rx from IPX 187) OAM AIS Cells Rx
175) CGW Bd Length Frms Rx from IPX 188) OAM FERF Cells Rx
176) CGW 0-Length Frms Rx from IPX 189) OAM RTD Cells Rx
177) OAM Valid OAM Cells Tx 190) OAM RA Cells Rx
178) OAM Loopback Cells Tx 191) OAM Invalid OAM Cells Rx
179) OAM AIS Cells Tx 192) OAM CC Cells Rx
180) OAM FERF Cells Tx
181) OAM RTD Cells Tx
182) OAM RA Cells Tx
183) OAM Invalid Supv Packets Rx
184) OAM CC Cells Tx
This Command: cnftrkstats 11
Figure 1-62 cnftrkstats—Configure ATM Trunk Statistics (UXM OC3/T3/E3/T1/E1)
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:19 PST
Virtual Interface Statistic Types
1) QBIN: Voice Cells Tx to line 14) QBIN: Tx BData A Cells Discarded
2) QBIN: TimeStamped Cells Tx to ln 15) QBIN: Tx BData B Cells Discarded
3) QBIN: NTS Cells Tx to line 16) QBIN: Tx CBR Cells Discarded
4) QBIN: Hi-Pri Cells Tx to line 17) QBIN: Tx ABR Cells Discarded
5) QBIN: BData A Cells Tx to line 18) QBIN: Tx VBR Cells Discarded
6) QBIN: BData B Cells Tx to line 19) QBIN: Tx NTS Cells Received
7) QBIN: Tx CBR Cells Served 20) QBIN: Tx Hi-Pri Cells Received
8) QBIN: Tx VBR Cells Served 21) QBIN: Tx Voice Cells Received
9) QBIN: Tx ABR Cells Served 22) QBIN: Tx TS Cells Received
10) QBIN: Tx NTS Cells Discarded 23) QBIN: Tx BData A Cells Received
11) QBIN: Tx Hi-Pri Cells Discarded 24) QBIN: Tx BData B Cells Received
12) QBIN: Tx Voice Cells Discarded 25) QBIN: Tx CBR Cells Received
13) QBIN: Tx TS Cells Discarded 26) QBIN: Tx ABR Cells Received
This Command: cnftrkstats 6.2
Continue?
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:19 PST
Virtual Interface Statistic Types
27) QBIN: Tx VBR Cells Received 40) CGW: Packets Rx From Network
28) VI: Cells received w/CLP=1 41) CGW: Cells Tx to Line
29) VI: OAM cells received 42) CGW: NIW Frms Relayed to Line
30) VI: Cells transmitted w/CLP=1 43) CGW: SIW Frms Relayed to Line
31) VI: Cells received w/CLP=0 44) CGW: Aborted Frames Tx to Line
32) VI: Cells discarded w/CLP=0 45) CGW: Dscd Pkts
33) VI: Cells discarded w/CLP=1 46) CGW: 0-Length Frms Rx from Network
34) VI: Cells transmitted w/CLP=0 47) CGW: Bd CRC16 Frms Rx from Network
35) VI: OAM cells transmitted 48) CGW: Bd Length Frms Rx from Network
36) VI: RM cells received 49) CGW: OAM RTD Cells Tx
37) VI: RM cells transmitted 54) CGW: Packets Tx to Network
38) VI: Cells transmitted 55) CGW: Cells Rx from Line
39) VI: Cells received 56) CGW: NIW Frms Relayed from Line
This Command: cnftrkstats 6.2
Continue?
sw228 TN SuperUser IGX 16 9.1 Aug. 27 1997 18:19 PST
Virtual Interface Statistic Types
57) CGW: SIW Frms Relayed from Line
58) CGW: Aborted Frms Rx From Line
59) CGW: Dscd Cells
60) CGW: 0-Lngth Frms Rx from Line
61) CGW: Bd CRC32 Frms Rx from Line
62) CGW: Bd Lngth Frms Rx from Line
63) CGW: OAM RTD Cells Rx
64) CGW: OAM Invalid OAM Cells Rx
This Command: cnftrkstats 6.2
cnftstparm (Configure Card Test Parameters)
The cnftstparm command sets parameters for the internal diagnostic self tests that can be performed for each card type in the node.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
cnfdiagparm, dspcderrs, prtcderrs, tststats
Syntax
cnftstparm <tp> <freq> <s_e> <s_inc> <s_thr> <s_to> <b_e> <b_inc> <b_thr>
Function
This command sets internal diagnostic, self-test parameters. Upon command entry, the system displays a two-page screen illustrating each of the various card types equipped in the node along with their self test parameters. Each card has two tests: a diagnostic self-test and a background test. The self-test affects the normal operation of the card. The background test can execute while the card is carrying traffic.
The following is a list of the configurable test parameters for each card type:
•Frequency For Test Execution (sec)
•Enable/Disable Self Test (e or d)
•Self Test Failure Increment
•Self Test Failure Threshold
•Timeout For Self Test (sec)
•Enable/Disable Background Test (e or d)
•Background Test Failure Increment
•Background Test Failure Threshold
After cnftstparm is entered on a BPX node, shows the first page of the display.
Figure 1-63 cnftstparm—Parameters on a BPX Node
sw45 TN SuperUser BPX 15 9.1 Aug. 27 1997 16:04 PDT
Card Test - - - - - - Self Test - - - - - - - - - Background Test - - -
Type Freq Enable Inc Thresh Timeout Enable Inc Thresh
---- ----- -------- ------- ------- ------- -------- ------- -------
BCC 90 Enabled 100 300 300 N/A 100 300
ASM 300 Disabled 100 300 60 N/A 100 300
BNI-T3 300 Enabled 100 300 150 N/A 100 300
BNI-E3 300 Enabled 100 300 150 N/A 100 300
ASI-E3 900 Enabled 100 300 800 Enabled 100 300
ASI-T3 900 Enabled 100 300 800 Enabled 100 300
ASI-155 900 Enabled 100 300 800 Enabled 100 300
BNI-155 300 Enabled 100 300 150 N/A 100 300
BXM 2000 Disabled 100 300 1800 Enabled 100 300
Last Command: cnftstparm
Next Command:
To see the second screen, enter "y" at the Continue prompt.
The screens of the cnftstparm display for an IGX node appear in .
Figure 1-64 cnftstparm—Parameters on an IGX 8420 Node
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 03:58 GMT
Card Test - - - - - - Self Test - - - - - - - - - Background Test - - -
Type Freq Enable Inc Thresh Timeout Enable Inc Thresh
---- ----- -------- ------- ------- ------- -------- ------- -------
PSM 300 Enabled 100 300 31 N/A 100 300
HDM 300 Enabled 100 300 80 Enabled 100 300
LDM 300 Enabled 100 300 80 Enabled 100 300
NTM 300 Enabled 100 300 31 N/A 100 300
FRM 300 Enabled 100 300 80 Enabled 100 300
MT3 300 Enabled 100 300 50 N/A 100 300
CVM 300 Enabled 100 300 300 N/A 100 300
NPM 180 Enabled 100 300 120 N/A 100 300
ARM 300 Enabled 100 300 60 N/A 100 300
BTM 300 Enabled 100 300 120 N/A 100 300
FTM 300 Enabled 100 300 80 Disabled 100 300
UFM 300 Enabled 100 300 80 Enabled 100 300
This Command: cnftstparm
Continue? y
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 03:59 GMT
Card Test - - - - - - Self Test - - - - - - - - - Background Test - - -
Type Freq Enable Inc Thresh Timeout Enable Inc Thresh
---- ----- -------- ------- ------- ------- -------- ------- -------
UFMU 300 Enabled 100 300 80 Enabled 100 300
ALM 300 Enabled 100 300 120 N/A 100 300
UVM 300 Disabled 100 300 60 N/A 100 300
UXM 300 Enabled 100 300 300 Enabled 100 300
This Command: cnftstparm
Enter Card Type To Modify:
Enter the card type at the prompt to begin modifying the test parameter.
cnfuiparm (Configure User Interface Parameters)
The cnfuiparm command sets various control terminal user interface parameters.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX, BPX
Associated Commands
cnfnodeparm, dsptsmap
Syntax
cnfuiparm <parameter number> <value>
<parameter number>
specifies the index number of the parameter to set. (See Table 1-26.)
<value>
specifies the new parameter value to enter.
Function
This command lets you set user interface parameters for the control terminal on the local node. It may be necessary to change these parameters in special circumstances, such as when you need to observe a screen for a long period of time or when modem password protection makes logging in difficult. Table 1-26 lists the user interface parameters. Figure 1-65 illustrates the associated display.
Figure 1-65 cnfuiparm—Configure User Interface Parameters
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 04:01 GMT
1. Logout Time ........... 999 minutes
2. VT Logout Time ........ 4 minutes
3. Prompt Time ........... 60 seconds
4. Command Time .......... 3 minutes
5. UID Privilege Level ... 6
6. Input Character Echo .. Enabled
7. Screen Update Time .... 10 seconds
This Command: cnfuiparm
Enter parameter index:Enter parameter index:
cnfuvmchparm (Configure Channel Parameters on a UVM)
Configures default parameters for a channel or range of channels on a UVM. The parameters are:
•Voice codec unit (VCU) level
•PCM interface unit (PIU) level
•VAD threshold
•Modem threshold
See for an explanation of the preceding UVM channel parameters.
Full Name
Configure UVM channel parameters
Syntax
cnfuvmchparm <channel(s)> <value>
Related Commands
none
Attributes
Example 1
cnfuvmchparm 7.1.1
Description
Configure the parameters for channels 1-23 on port 1 of the UVM in slot 7.
System Response
sw109 VT SuperUser IGX 16 9.1 Aug. 26 1997 17:25 PST
From Parameter:
VCU PIU VAD mdm
7.1.1 lvl lvl thld thld 5 6 7 8 9 10 11
7.1.1-23 6 6 40 40 0 0 0 0 0 0 0
7.2.1-23 6 6 40 40 0 0 0 0 0 0 0
This Command: cnfuvmchparm 7.1.
Enter VCU Noise Level/-10dB [0-15]:
Table 1-27 cnfuvmchparm—Parameters
cnfvchparm (Configure Voice Channel Parameter)
The cnfvchparm command modifies CDP or CVM voice channel parameters.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IGX
Associated Commands
cnfcdpparm, dspchan
Syntax
cnfvchparm <channel(s)> <parameters>
channel(s)
specifies the voice channel number(s) to configure.
parameters
specifies values for the voice parameters ( lists parameters).
Function
The cnfvchparm command specifies voice card parameters for:
•Voice Activity Detection (VAD)
•Background noise injection
•VF channel loss
•Echo suppression
•Modem detection
Table 1-28 lists the voice parameters you can specify with cnfvchparm. Table 1-29 lists some calculated examples for a sample delay for VAD and non-VAD connections.
Different versions of firmware for the CDP and CVM present different ways of specifying the level of background noise you can select to cover awkward periods of silence at the ends of voice connections. For cards with Model A firmware, you specify the actual level in dBm (deciBels) or dBrnC0. For Model A cards, you can specify the noise levels with a granularity of 0.1 dBm or dBrnC0. For cards with Model B firmware, you enter a number that maps to a noise level. Table 1-30 lists the numbers that correspond to the levels of injected background noise for Model B firmware.
The screen displays in Example 1 and Example 2 illustrate cnfvchparm applied to a Model A CDP and a Model B CDP, respectively. The display for Model A cards shows the deciBel level of the injected noise. The display for the Model B shows the number that corresponds to a deciBel (or dBrnC0) level of background noise.
After you enter cnfvchparm, the system displays "Enter channel(s)." After you enter the parameters, the system requests confirmation by displaying "Reconfigure active CDP channels? (y/n)."
Without the cnfvchparm command, the other ways to re-configure channels are:
•By switching cards
•By deleting then re-adding connections
Table 1-28 VF Channel Parameters
Parameter Description DefaultSample delay for VAD connections
Adds processing to speech information to prevent front-end clipping due to speech detector latency. One increment is 125 msecs. See Table 1-29.
A8 (H)
Sample delay for non-VAD connections
Same for non-VAD circuits.
01 (H)
Background Noise
Sets the level of background noise the far-end card adds to the connection while it receives no voice packets. For Model A firmware, specify levels in actual decibels in 0.1 dB increments. For Model B firmware, see .
2 (H)
High Pass Filter mode
Enables/disables high-pass filter to assist in VAD and modem detect.
enabled
Floating Priority mode
When enabled, sets higher priority for modem detection on "c" and
"v" channels. Effectively changes the trunk queue for the channel.enabled
V.25 modem detect mode
Enables/disables V.25 modem-detect mode. The default is enabled with "detect-64K," which specifies that a 2100 Hz tone indicates the presence of V.25-type modem. The options with V.25 modem detect are "disable,"
"32" for 32K upgrade, and "64" for 64K upgrade. Enter "32" for fax transmission at 32 Kbps FAX Optimized ADPCM. Use the default "64" for fax transmission at 64 kbps PCM.enabled
32K
Auto-upgrade line to 32 Kbps ADPCM when a 32K modem is detected.
disabled
64K
Automatically upgrade line to 64 Kbps clear channel PCM when a high speed modem is detected.
enabled
Table 1-29 Sample Delay Parameter
Delay for VAD and Non-VAD Delay01
0.125 msec.
50
10 msec.
A8
21 msec.
Example 1 cnfvchparm for Model A
sw110 TN SuperUser IGX 16 9.1 Aug. 6 1997 17:43 PDT
CDP Models All None All
UVM Models All None All
Sample Delay Bkgnd Echo Suppression V.25 Xmit
From 14.1 VAD Non-VAD Noise HPF Float Function Loss Detect Delay
14.1-15 A8 01 67 ON ON ON ON 64K 5
14.17-24 A8 01 67 ON ON ON ON 64K 5
This Command: cnfvchparm 14.1-6 A8 1 67 e e e e
V.25 Modem detect, 'd' - disable, '32' - 32K upgrade, '64' - 64K upgrade:
Example 2 cnfvchparm for Model B
sw83 TN SuperUser IGX 16 9.1 Aug. 1 1997 17:01 PST
CDP Models All None All
Sample Delay Bkgnd Echo Suppression V.25 Xmit
From 11.1 VAD Non-VAD Noise HPF Float Function Loss Detect Delay
11.1-15 A8 01 2 ON ON ON ON ON 5
11.17-31 A8 01 2 ON ON ON ON ON 5
This Command: cnfvchparm
Next Command:
cpyfpmap (Copy FastPAD Map Table)
The cpyfpmap command copies the FastPAD map table from one FastPAD port to another.
Attributes
Jobs: No Log: No Lock: Yes Node Type: IGX
Associated Commands
cnffpmap
Syntax
cpyfpmap <source slot.port> <nodename> <destination slot.port>
<source slot.port>
specifies the FTC port to copy from.
<nodename>
specifies the nodename.
<destination slot.port>
specifies the FTC port to copy to.
Function
This command copies a FastPAD map table from one FastPAD port to another FastPAD port. When you enter this command, the system responds as shown in .
Figure 1-66 cpyfpmap—Configure FastPAD Map Table
cc7 VT SuperUser IGX 16 9.1 Aug. 30 1997 10:05 PST
Last Command: 31.2 cc5 31.1
Next Command:
dchst (Display Channel Status)
The dchst command displays CDP or CVM card parameters.
Attributes
Jobs: No Log: No Lock: Yes Node Type: IGX
Associated Commands
cnfcdpparm
Syntax
dchst <channel> [interval]
<channel(s)>
specifies the voice channel number(s) to configure
<interval>
specifies the refresh time for the data (1-60 sec.)
Function
This command displays state information for a CDP or CVM channel used for a specific connection. The interval parameter specifies the refresh time for the data. It defaults to 5 seconds. The Transmit and Receive dBm0 for both CDP or CVM indicate the input (towards the circuit line) and output power (from the circuit line) levels for the channel. Modem state indicates whether modem-detect is on or off.
Table 1-31 lists the parameters for the CDP or CVM card. Figure 1-67 illustrates the system display for a CDP or CVM.
Figure 1-67 dchst—Display Channel Status
alpha TRM SuperUser Rev: 9.1 Aug. 14 1997 16:30 PST
CDP state display for channel 11.1 Snapshot
Transmit dBm0:
Receive dBm0:
Register 0 =
Register 1 =
Register 2 =
Register 3 =
Register 4 =
Register 5 =
Register 6 =
Last Command: dchst 11.1
Next Command:
diagbus (Diagnose Failed Bus)
The diagbus command is used to diagnose a failed IPX Muxbus or an IGX Cellbus.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
none
Syntax
diagbus
Function
This command runs detailed diagnostics to isolate Muxbus problems to a failed card or bus. It is used when a minor alarm is indicated and displaying the alarm (dspalms) screen indicates the message "bus needs diagnosis."
This command can only be run locally with a terminal connected directly to the CONTROL port or remotely from a modem connection. It can not be executed through a VT (virtual terminal) command or when the node's CONTROL port is configured for StrataView mode.
CautionThis command may cause a major disruption in service on all lines and connections and should only be run at a time when this can be tolerated.
Performing this test can result in a major disruption in the operation of the node. It should not be performed except as a last resort. To fully isolate the failure may require manual removal of cards, including controller cards and so forth. For this reason, the command may not be executed over a Virtual Terminal connection.
If the test is successful, and no problems found, the system displays:
Both buses are OK
Otherwise, the system displays various messages to the operator for additional steps to perform in isolating the problem. These messages depend on the results of the diagnostics testing.
drtop (Display Route Op Table)
The drtop command displays the routing table from the local node to each connected remote node.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
dsptrkcons
Syntax
drtop
Function
The drtop command displays the routing table from the local node to each remote node to which it connects. It shows how NPC/B.C. traffic is routed to other nodes in the network. Use drtop to find which trunks are used to send control cells/packets to other nodes.
The display includes remote node name, number of hops to the remote node, the trunk(s) used, and number of satellite hops if any, and the number of unused DS0s (open space) if any on the route. Figure 1-68 illustrates the display.
Figure 1-68 drtop—Display Route Op Table
pubsipx2 VT SuperUser IPX 32 9.1 Aug. 2 1997 02:27 GMT
Node Number Node Name Hops To Via Trk SAT Hops No HP Hops Open Space
1 npubsbpx1 2 6 0 0 3
2 npubsigx1 3 6 0 0 3
3 npubsipx2 0 0 0 0 0
5 npubsipx1 1 6 0 0 24
7 npubsipx3 2 6 0 0 24
Last Command: drtop
Next Command:
dspasich (Display ASI Channel Routing Entry)
The dspasich command displays the ATM channel routing entries for an ASI card.
Attributes
Jobs: No Log: No Lock: Yes Node Type: BPX
Associated Commands
None
Syntax
dspasich <line> <channel>
<line>
specifies the line in the format slot.port.
<channel>
specifies the channel in the format vpi.vci.
Function
This command displays the routing entries for an ASI card shown in .
Figure 1-69 dspasich—Display ASI Channel Routing Entry
pubsbpx1 VT SuperUser BPX 15 9.1 May 24 1997 21:09 GMT
ASI Channel Configuration Query & Display
Slot.port.lcn:5.1.1
Status: Added BF hdr: 4145 9002 8012 0501 8640 0000 2DEB
[00] BF tp: 4 [11] VCI: 00000064 [22] UPC CDV: 0 [33] FST up: 0
[01] Pri SDA: 5 [12] Con tp: VC [23] UPC CIR: 500 [34] FST dn: 0
[02] Dst Prt: 1 [13] Rmt tp: ASI [24] UPC CBS: 1000 [35] FST fdn: 0
[03] Dst lcn: 2 [14] Srv tp: VBR [25] UPC IBS: 0 [36] FST rmx: 0
[04] BCF tp: 0 [15] Gen AIS: N [26] UPC MFS: 200 [37] Q max:64000
[05] Qbin#: 12 [16] Mcst: 0 [27] CLP enb: Y [38] EFCI: 100
[06] BF VPI: 64 [17] Mc grp: 1 [28] FST enb: N [39] CLP hi: 100
[07] BF VCI: 0 [18] & msk: 0000000F [29] FST MIR: 500 [40] CLP lo: 100
[08] Pl Cls: 0 [19] | msk: 06400640 [30] FST PIR: 500 [41] BCM: N
[09] Rmt lp: N [20] Prt QBN: 2 [31] FST QIR: 500 [42] Inhibit:N
[10] VPI: 00000064 [21] UPC GCR: 0 [32] QIR TO: 0 [43] UPC enb:Y
Last Command: dspasich 5.1 1 N
Next Command:
dspbuses (Display Bus Status)
Displays the available Muxbus or Cellbus bandwidth. The display does not dynamically receive updates and is therefore a snapshot. The dspbuses command lists the dedicated and pooled bandwidth units as well as the status of the available Muxbus.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
cnfbus
Syntax
dspbuses
Function
This command displays the available Muxbus bandwidth. The display is not updated and is referred to as a snapshot. The command lists the dedicated and pooled bandwidth units as well as the status of the available Muxbus or Cellbus. Figure 1-70 illustrates the dspbuses display on a BPX node. illustrates the dspbuses display on an IGX node
Figure 1-70 dspbuses on a BPX Switch
bpx1 TN SuperUser BPX 15 9.1 July 2 1997 13:22 GMT
Bus Status
Bus A (slot 7): Active - OK
Bus B (slot 8): Standby - OK
Last Command: dspbuses
Next Command:
Figure 1-71 dspbuses on an IGX Switch
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 04:10 GMT
Bus Info
Bus Bandwidth usage in Fastpackets/second (Snapshot)
Allocated = 86000 ( 8%)
Available = 1082000 (92%)
-----------
Bus A: Active - OK
Bus B: Standby - OK
Last Command: dspbuses
Next Command:
dspcardstats (Display BXM Card Statistics)
The dspcardstats command displays the collected BXM card statistics for the selected node slot.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: BPX
Associated Commands
cnfslotstats
Syntax
dspcardstats <slot number>
Function
This command displays all card statistics for an active BXM card in the current node. Refer to Figure 1-72 illustrates screen displayed after entering the dspcardstats command.
Figure 1-72 dspcardstats—Display BXM Card Statistics
sw59 TN SuperUser BPX 15 9.1 Date/Time Not Set
ASI-T3 12 Status: Clear - Slot OK Clrd: Date/Time Not Set
Type Count ETS Status Type
utopia-2 discard count 0 0
utopia-2 misalign count 0 0
atm fr. pyld parity err 0 0
bfr hdr parity err 0 0
null bfrm header err 0 0
brame hoq req t/o 0 0
poll bus parity err 0 0
bfr queue parity err 0 0
bfr bip16 parity err 0 0
mc addr tbl parity err 0 0
eap arfd pndg err 0 0
This Command: dspcardstats 12
Continue?
dspcderrs (Display Card Errors)
The dspcderrs command displays detailed card failure information resulting from card diagnostics testing at the local node.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
clrcderrs, prtcderrs
Syntax
dspcderrs [<slot>]
Function
This command displays a history of card failures associated with a specified slot. If no argument is specified, a summary is displayed, indicating which slots have failures recorded against them. The command displays the results of the self tests and background tests as well as the total hardware errors.
To clear the card error counters, use the clrcderrs command. To obtain a hard copy of the report, use the prtcderrs command. Figure 1-73 illustrates the command display.
Figure 1-73 dspcderrs—Display Card Errors
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 17:56 PST
AIT in Slot 11 : 176767 Rev AEF Failures Cleared: Aug. 19 1997 11:25:29 PST
----------------------------------- Records Cleared: Aug. 20 1997 13:14:03 PST
Self Test Threshold Counter: 0 Threshold Limit: 300
Total Pass: 0 Total Fail: 0 Total Abort: 0
First Pass: Last Pass:
First Fail: Last Fail:
Hardware Error Total Events: 0 Threshold Counter: 0
First Event: Last Event:
Last Command: dspcderrs 11
Next Command:
dspcftst (Display Communication Fail Test Pattern)
The dspcftst command displays the test pattern used for the communications fail test.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
cnfcftst
Syntax
dspcftst
Function
This command displays the test pattern used to test the controller communication path to a node that does not respond to normal controller traffic. The test pattern defaults to an alternating 8-byte sequence of 00 and FF. Refer to cnfcftst command for other patterns and how to reconfigure this pattern. Figure 1-74 illustrates the command display.
Figure 1-74 dspcftst—Display Comm. Fail Test Pattern
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 17:57 PST
Comm Fail Test Pattern.
Byte 0: FF Byte 12: 00 Byte 24: FF Byte 36: 00 Byte 48: FF
Byte 1: FF Byte 13: 00 Byte 25: FF Byte 37: 00 Byte 49: FF
Byte 2: FF Byte 14: 00 Byte 26: FF Byte 38: 00 Byte 50: FF
Byte 3: FF Byte 15: 00 Byte 27: FF Byte 39: 00 Byte 51: FF
Byte 4: 00 Byte 16: FF Byte 28: 00 Byte 40: FF Byte 52: 00
Byte 5: 00 Byte 17: FF Byte 29: 00 Byte 41: FF Byte 53: 00
Byte 6: 00 Byte 18: FF Byte 30: 00 Byte 42: FF Byte 54: 00
Byte 7: 00 Byte 19: FF Byte 31: 00 Byte 43: FF Byte 55: 00
Byte 8: FF Byte 20: 00 Byte 32: FF Byte 44: 00 Byte 56: FF
Byte 9: FF Byte 21: 00 Byte 33: FF Byte 45: 00 Byte 57: FF
Byte 10: FF Byte 22: 00 Byte 34: FF Byte 46: 00 Byte 58: FF
Byte 11: FF Byte 23: 00 Byte 35: FF Byte 47: 00 Byte 59: FF
Last Command: dspcftst
Next Command:
dspchan (Display Channel Configuration)
The dspchan command displays the configuration of various IPX or IGX voice channels.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX
Associated Commands
cnfcdpparm
Syntax
dspchan <channel>
Function
This command displays the configuration of IPX or IGX voice channels. It is primarily a debug command and allows inspection of the data structure defining a channel. Parameters for voice and signalling processing on a CDP or CVM voice channel are displayed by this command. Table 1-32 lists the parameters. Many of these parameters are also displayed elsewhere. Figure 1-75 illustrates the command display.
Figure 1-75 dspchan—Display Channel (CDP card)
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 18:06 PST
Channel Data Base for CDP card 7 chan. 000000 at address 30BF29EC
VC Index -1 Onhk C 4
In Loss 0 Onhk D 4
Out Loss 0 Dial Type 0
Chan Type 1 TX A bit 1
Sig. Intg 96 TX B bit 1
Xmt. dlay 5 TX C bit 0
Smpl dlay 1 TX D bit 1
Bk noise 67 RX A bit 1
DSI smple 168 RX B bit 1
Chan Util 40 RX C bit 0
Onhk A 3 RX D bit 1
Onhk B 3 Signalling TSP MODE
This Command: dspchan 7.1
Continue?
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 18:07 PST
Channel Data Base for CDP card 7 chan. 000000 at address 30BF29EC
Echo supr 1 TX A Qual 3
Hi Pass F 1 TX B Qual 3
Float 1 TX C Qual 3
es loss 1 TX D Qual 3
Fmodem 64 RX A Qual 3
ADV 1 RX B Qual 3
Cond ID 0 RX C Qual 3
Wink Puls 20 RX D Qual 3
END OF UNI CNFG
This Command: dspchan 7.1
Continue?
sw83 TN SuperUser IPX 16 9.1. Aug. 1 1997 18:07 PST
Channel Data Base for CDP card 7 chan. 000000 at address 30BF29EC
TX CODE 3 iec cancel 0
RX CODE 3 iec nlp 1
TX SIG 0 iec converg. 1
RX SIG 0 iec erl lvl 1
CLR CHN 0 iec Hregs. 1
SIG RATE 0 iec tone dsbl 1
PLY MSBhx 1 adpcm flag 0
PLY LSBhx 90
In use 0
DPU -
Last Command: dspchan 7.1
Next Command:
dspchstatcnf (Display Statistics Enabled for a Channel)
The dspchstatcnf command displays the configuration of enabled statistics for a channel.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfchstats, dspchstathist
Syntax
dspchstatcnf <channel>]
Function
The dspchstatcnf command displays the enabled interval statistics for a channel. It is intended to help debug problems with statistics gathering. The command output is a list of the connection statistics as set by the cnfchstats command, by StrataView Plus, or by IPX or IGX features. Figure 1-76 illustrates a typical example.
The Owner column identifies who or what set the statistic. If the Owner column shows "Automatic," the node's features set the statistic. If the node name appears under Owner, StrataView Plus set the statistic. If the user name appears under Owner, the cnfchstats command executed from the command line interface set the statistic.
Figure 1-76 dspchstatcnf—Display Channel Statistics Enabled (FR channel)
pubsbpx1 VT SuperUser BPX 15 9.1 May 24 1997 23:13 GMT
Statistics Enabled on Channel 5.1.100.100
Statistic Samples Interval Size Peaks Owner
------------------------------------ ------- -------- ---- ----- ----------
41) AAL5 Cells Discarded for VCQ Full 1 30 4 NONE TFTP
42) Average VCq Depth in Cells 1 30 4 NONE TFTP
43) Cells lost due to Rsrc Overflow 1 30 4 NONE TFTP
44) Cells discarded for SBIN full 1 30 4 NONE TFTP
45) Cells Transmitted with EFCI(Port) 1 30 4 NONE TFTP
46) Cells Transmitted(Port) 1 30 4 NONE TFTP
47) Cells Received from Network 1 30 4 NONE TFTP
48) Cells discarded for QBIN full 1 30 4 NONE TFTP
49) Cells discarded when QBIN>CLP 1 30 4 NONE TFTP
50) Cells Transmitted with CLP (Port) 1 30 4 NONE TFTP
51) BCM Cells Received(Port) 1 30 4 NONE TFTP
This Command: dspchstatcnf 5.1.100.100
Continue?
dspchstathist (Display Statistics History for a Channel)
The dspchstathist command displays a history of statistics configured as enabled for a channel.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnfchstats, dspchstatcnf
Syntax
dspchstathist <channel> <stat> <owner> <interval>
Function
This command displays a history of the enabled statistics for a selected channel. It is intended for debugging problems with statistics gathering. It displays the data for the number of samples specified in the configuration of the channel statistic. You select a statistic from the list in the dspchstathist display. Specify only an enabled statistic.
Use the dspchstatcnf to display the statistics enabled on the selected channel. Record the statistics types enabled, the collection interval, and owner; you will need this information to obtain the statistics history. Use cnfchstats to enable a statistic if it is not already enabled. Figure 1-77 illustrates a display for channel 6.1 packets transmitted (1 second interval) history.
Note You may have to enter owner "auto" in all capital letters.
Figure 1-77 dspchstathist—Display Channel Statistics History
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 13:53 PDT
Packets Transmitted on Channel 6.1
Interval: 1 Minute(s), Data Size: 4 Byte(s), NO Peaks, Owner: Automatic
0 - 1699
-1 - 1698
-2 - 1698
-3 - 1699
-4 - 1698
-5 - 1698
-6 - 1698
-7 - 1699
-8 - 1697
-9 - 1699
Last Command: dspchstathist 6.1 7 1 AUTO
Next Command:
dspchstats (Display All Enabled Statistics for a Channel)
The dspchstats command displays all statistics configured as enabled for a selected channel.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnfchstats, dspchstatcnf
Syntax
dspchstats <channel> [interval]
Function
This command displays the enabled statistics for the selected channel. It is intended for debugging problems with statistics gathering. It displays the data for the last five occurrences of the channel statistic. The channel statistic is selected from the list displayed when this command is first entered.
Use the dspchstats command to display the statistics enabled on the selected channel. Record the statistics types enabled, the collection interval, and owner; you will need this information to obtain the statistics history. Use cnfchstats to enable a statistic if it is not already enabled. Figure 1-78 shows a display for channel on a UXM port.
Figure 1-78 dspchstats—Display Channel Statistics
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 00:20 GMT
Channel Statistics: 5.1.70.100 Snapshot
Collection Time: 0 day(s) 00:00:00 Clrd: 04/04/98 16:47:00
Type Count Traffic Rate (cps)
Cells Received from Port 0 From port 0
Cells Transmitted to Network 0 To network 0
Cells Received from Network 0 From network 0
Cells Transmitted to Port 0 To port 0
EOF Cells Received from Port 0
Cells Received with CLP=1 0
Cells Received with CLP=0 0
Non-Compliant Cells Received 0
Average Rx VCq Depth in Cells 0
Average Tx Vcq Depth in Cells 0
Cells Transmitted with EFCI=1 0
Cells Transmitted with EFCI=0 0
Last Command: dspchstats 5.1.70.100
Next Command:
dspclnstatcnf (Display Circuit Line Statistics Configuration)
The dspclnstatcnf command displays statistics configured as enabled for a selected circuit line.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfclnstats
Syntax
dspclnstatcnf <line>
<line> Specifies the circuit line in the format slot or slot.line. If the card has only one line, you can enter just the slot.
Function
This command displays the circuit line statistics as enabled by the cnfclnstats command, by StrataView Plus, or by IPX or IGX features. See Figure 1-79 for an example display.
The Owner column shows what set the statistic. If the owner is "Automatic," the statistic was derived from the features. If the node name appears under Owner, the statistic came from StrataView Plus. If "User" is under Owner, the source of the statistic was the cnfchstats command.
Figure 1-79 dspclnstatcnf—Display Circuit Line Statistics Enabled (T1 line)
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 18:14 PST
Statistics Enabled on Circuit Line 7
Statistic Samples Interval Size Peaks Owner
----------------------------------- ------- -------- ---- ----- ----------
Frames Slips 60 0 4 NONE IPX
Out of Frames 60 0 4 NONE IPX
Losses of Signal 60 0 4 NONE IPX
Frames Bit Errors 60 0 4 NONE IPX
CRC Errors 60 0 4 NONE IPX
Out of Multi-Frames 60 0 4 NONE IPX
All Ones in Timeslot 16 60 0 4 NONE IPX
Last Command: dspclnstatcnf 7
Next Command:
dspclnstathist (Display Statistics History for a Circuit Line)
The dspclnstathist command displays a history of statistics enabled for a circuit line.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfclnstats, dspclnstatcnf
Syntax
dspclnstathist <line> <statistic number> <interval> <owner>
Function
This command displays the last five occurrences of the circuit line statistic. The circuit line statistic is selected from the list displayed when you first enter this command. Use the dspclnstatcnf to display the statistics enabled for the selected channel. Use cnfclnstats to enable a statistic.
Figure 1-80 illustrates a display for T1 circuit line 14 bipolar violations (60 second interval) history.
Note You may have to enter owner "auto" in all capital letters.
Figure 1-80 dspclnstathist—Display Circuit Line Statistics History
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 14:00 PDT
Bipolar Violations on Circuit Line 14
Interval: 60 Minute(s), Data Size: 4 Byte(s), 10 S Peaks, Owner: Automatic
0 - 0(0)
-1 - 0(0)
-2 - 0(0)
-3 - 0(0)
-4 - 0(0)
Last Command: dspclnstathist 14 1 60 AUTO
Next Command:
dspcnf (Display Configuration Save/Restore Status)
The dspcnf command displays the status for the configuration save/restore processes on all nodes in the network.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
savecnf, loadcnf, runcnf
Syntax
dspcnf
Function
This command displays the status for the configuration save/restore process. The display lists the various nodes, the backup ID name of the saved configuration, the time and date saved, and the StrataView Plus terminal it is saved on. See Figure 1-81 for an example.
If the status displays "Reserved for Firmware," a firmware image is being maintained in memory after being loaded. Use the getfwrev 0.0 command to clear the firmware image. Likewise, if a configuration image is displayed, clear the old configuration image using savecnf clear or loadcnf clear.
CautionDo not use clrcnf without discussing the action with the TAC.
Figure 1-81 dspcnf—Display Configuration Save/Restore Status
sw83 TN SuperUser IPX 16 9.1 Aug. 24 1997 18:21 PST
Node Backup ID Revision Date/Time (GMT) Status
-------- --------- -------- ----------------- ---------------------------------
sw78 mark 9.1.00 02/22/97 16:36:26 Unreachable
sw81 mark 9.1.00 02/22/97 16:36:26 Unreachable
sw84 mark 9.1.00 02/22/97 16:36:26 Save on SV+ at sw78 complete
sw79 mark 9.1.00 02/22/97 16:36:26 Save on SV+ at sw78 complete
sw86 mark 9.1.00 02/22/97 16:36:26 Unreachable
sw83 mark 9.1.00 02/22/97 16:36:26 Save on SV+ at sw78 complete
Last Command: dspcnf
Next Command:
dspdnld (Display Download)
The dspdnld command displays the status of a download to a nodes.
Attributes
Jobs: No Log: Yes Lock: No Node Type: IPX, IGX, BPX
Associated Commands
loadrev, getfwrev
Syntax
dspdnld
Function
This command displays the status of any software or firmware download operation from StrataView Plus to the node controller card. You should be connected to the node being downloaded either directly or via virtual terminal connection. The display download command shows:
•download destination—node currently being downloaded.
•download type—destination of the downloaded image, standby RAM or active or standby ROM, or firmware.
•download source—where the image to be downloaded is currently stored, StrataView or StrataView Plus, standby controller, active or standby controller, or remote node.
•download image—where the image is located, ROM or RAM.
This command can be used to check how far along the download has progressed. Figure 1-82 illustrates the command screen. Blocks of data already downloaded appear highlighted; the remaining blocks appear dim. If there was no download initiated when this command was entered, the blocks of data will appear as all zeros.
Figure 1-82 dspdnld—Display Download
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 18:23 PST
dl_dest: Active CC dl_source: Active CC
dl_type: None dl_image: ROM (NPC)
30010800 30020800 30030800 30040800 30050800 30060800 30070800 30080800
30090800 300A0800 300B0800 300C0800 300D0800 300E0800 300F0800 30100800
30110800 30120800 30130800 30140800 30150800 30160800 30170800 30180800
30190800 301A0800 301B0800 301C0800 301D0800 301E0800 301F0800 30200800
30210800 30220800 30230800 30240800 30250800 30260800 30270800 30280800
30290800 302A0800 302B0800 302C0800 302D0800 302E0800 302E3E7C
Last Command: dspdnld
Next Command:
dspdutl (Display Data Channel Utilization)
The dsputl command displays the percentage utilization for data connections.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX
Associated Commands
dsputl
Syntax
dspdutl <start bslot> [clear]
<start bslot>
specifies the slot where the data card is located.
[clear]
specifies that all data channel utilization buffers should be cleared after the display.
Function
This command displays the percentage utilization for the data connections starting at the back slot (bslot) number specified. All data connections for the node are displayed (maximum of 32).
The percentage is calculated by dividing the number of packets transmitted over the total number of packets allocated to the specified channel. Only transmit packet rates are used. If percentage utilization exceeds configured utilization the channel appears in reverse video.
Figure 1-83 illustrates a display where there is very low utilization (2%) on three of the four ports and no utilization of the forth port. The clear option clears all slots. Use dsputl to display utilization for voice channels.
Figure 1-83 dspdutl—Display Data Channel Utilization
sw150 TN SuperUser IGX 16 9.1 Aug. 1 1997 20:07 GMT
Percentage utilization Last Cleared: Date/Time Not Set Snapshot
From
Slot 1 2 3 4 5 6 7 8 Slot 1 2 3 4 5 6 7 8
13 6 99 99
Last Command: dspdutl 13
Next Command:
dspecparm (Display Echo Canceller Parameters)
The dspecparm command displays statistics configured as enabled for a selected CDP echo canceller.
Attributes
Jobs: No Log: Yes Lock: No Node Type: IPX, IGX
Associated Commands
cnfecparm
Syntax
dspecparm <line>
Function
This command displays the Integrated Echo Canceller card parameters associated with the specified circuit line. These parameters are set using the cnfecparm command. Table 1-33 lists the parameter options. Figure 1-84 illustrates a typical display.
Figure 1-84 dspecparm—Display Echo Canceller Parameters
sw83 TN SuperUser IPX 16 9.1. Aug. 1 1997 18:34 PST
IEC Line 7 Parameters
1 CDP IEC Echo Return Loss High (.1 dBs) [ 60] (D)
2 CDP IEC Echo Return Loss Low (.1 dBs) [ 30] (D)
3 CDP IEC Tone Disabler Type [ G.164]
4 CDP IEC Non-Linear Processing [Center Clipper]
5 CDP IEC Non-Linear Processing Threshold [ 18] (D)
6 CDP IEC Noise Injection [ Enabled]
7 CDP IEC Voice Template [ USA]
Last Command: dspecparm 7
Next Command:
dspfpdsc (Display FastPAD Card Descriptor)
The dspfpdsc command displays FastPAD card descriptor information.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX
Associated Commands
dspfp, dspfps
Syntax
dspfpdsc <slot.port.subslot>
Function
This command displays FastPAD card descriptor information including:
•Card in use
•Card state
•FastPAD configuration index
•FastPAD port index
illustrates the system response.
Figure 1-85 dspfpdsc—Display FastPAD Card Descriptor
cc7 VT SuperUser IPX 32 9.1 Aug. 30 1997 11:08 PST
FastPad Card Descriptor Configuration
Card in Use : 01 Card State : 03 FPD CNFG indx : 00
Port Index Array
FastPad Port Indx
0 1 2 3 4 5 6 7 8 9 A B
0000 0001 0002 0003 0004 0005 0006 FFFF FFFF FFFF FFFF FFFF
Last Command: dspfpdsc 31.2.B
Next Command:
dspfwrev (Display Firmware Revision)
The dspfwrev command displays the status of card firmware revision image loaded in the controller card's RAM.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
getfwrev, burnfwrev
Syntax
dspfwrev
Function
This command displays the revision level and an indication of the length of the firmware in the controller card. It may require two screens to display all the parameters. Figure 1-86 illustrates the screen display. This command can be used during firmware download to get an idea of how far along the downloading process has progressed. The blocks already downloaded appear normal. Blocks that are yet to be downloaded appear shaded.
If no getfwrev command was issued, nothing displays. If "Configuration image present" displays, use the loadcnf clear command to clear this status.
Figure 1-86 dspfwrev—Display Firmware Revision
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 14:28 PDT
Firmware Size Status
F.D.A 256 K Complete
File Address Length CRC Burn Address
File Address Length CRC Burn Address
1 800800 410 22996DDA
1 800800 410 22996DDA
3 805E60 480 85CB29EA
4 80A630 70 57A938AE
4 80A630 70 57A938AE
6 810000 10000 338E45F6
7 820000 4400 95990113
8 835000 1810 875771B2
9 8368A0 15D0 4C597B97
This Command: dspfwrev
Continue?
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 14:29 PDT
Firmware Size Status
F.D.A 256 K Complete
File Address Length CRC Burn Address
10 838000 20F0 0F4898D2
11 83A100 1E20 175F4B39
12 83C000 2FC0 F39B0302
13 83F000 1B0 E755FE4E
14 83FFFE 2 A1F4726D
Last Command: dspfwrev
Next Command:
dsplnstatcnf (Display Statistics Enabled for a Line)
The dsplnstatcnf command displays statistics configured as enabled for a selected line.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnflnstats
Syntax
dsplnstatcnf <line>
Function
This command displays the line statistics as enabled by the cnflnstats command, by StrataView Plus, or by node features. (Note that the dsplnstatcnf command is the same as dspclnstatcnf.) Figure 1-87 illustrates an example display.
The Owner column identifies who or what set the statistic. If the Owner column shows "Automatic," the node's features set the statistic. If the node name appears under Owner, StrataView Plus set the statistic. If the user name appears under Owner, the cnfchstats command executed from the command line interface set the statistic.
Figure 1-87 dsplnstatcnf—Display Statistics Enabled for a Line
cc2 LAN SuperUser IPX 32 9.1 Aug. 30 1997 11:38 PST
Statistics Enabled on Circuit Line 15
Statistic Samples Interval Size Peaks Owner
----------------------------------- ------- -------- ---- ----- ----------
Bipolar Violations 60 0 4 NONE IPX
Frames Slips 60 0 4 NONE IPX
Out of Frames 60 0 4 NONE IPX
Losses of Signal 60 0 4 NONE IPX
Frames Bit Errors 60 0 4 NONE IPX
CRC Errors 60 0 4 NONE IPX
Out of Multi-Frames 60 0 4 NONE IPX
All Ones in Timeslot 16 60 0 4 NONE IPX
Last Command: dsplnstatcnf 15
Next Command:
dsplnstathist (Display Statistics Data for a Line)
The dsplnstathist command displays a history of statistics configured as enabled for a selected line.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnflnstats, dsplnstatcnf
Syntax
dsplnstathist <line> <statistic number> <interval> <owner>
Function
This command displays the last five occurrences of the line statistic. (Note that dspclnstathist the command is the same as dsplnstathist.) The line statistic is selected from the list displayed when this command is first entered. Use the dsplnstatcnf to display the statistics enabled on the selected channel. Use cnflnstats to enable a statistic.
Figure 1-88 illustrates an example display.
Note You may have to enter owner "auto" in all capital letters
Figure 1-88 dsplnstathist—Display Statistics Data for a Line
pubsbpx1 TN SuperUser BPX 15 9.1 Mar. 24 1998 16:33 PST
Line Statistic Types
3) Loss of Frames 41) BIP-8 Errors
4) Loss of Signal 42) BIP-8 Errored Seconds
29) Line Code Violation 43) BIP-8 Severely Err Secs.
30) Line Errored Seconds 44) Cell Framing Sev. Err Frame Secs
31) Line Severely Err Secs 45) Cell Framing Unavail. Secs.
32) Line Parity Errors 46) HCS Errors
33) Errored Seconds - Parity 98) Frame Sync Errors
34) Severely Err Secs - Parity 141) FEBE Counts
35) Path Parity Errors 143) Cell Framing FEBE Err. Secs.
36) Errored Secs - Path 144) Cell Framing FEBE Sev. Err. Secs.
37) Severely Err Secs - Path 145) Cell Framing FEBE Counts
38) Severely Err Frame Secs
40) Unavail. Seconds
This Command: dsplnstathist 5.1
Continue?
pubsbpx1 TN SuperUser BPX 15 9.1 Mar. 24 1998 16:34 PST
Line Statistic Types
146) Cell Framing FE Counts
147) HCS Errored Seconds
148) HCS Severely Err. Secs.
151) YEL Transitions
152) Cell Framing YEL Transitions
153) Alarm Indication Signal
194) HCS Correctable Error
195) HCS Correctable Error Err. Secs
196) HCS Correctable Error SevErr Secs
This Command: dsplnstathist 5.1
Statistic Type:
dspphyslnstatcnf (Display Statistics Enabled for a Physical Line)
The dspphyslnstatcnf command displays statistics configured as enabled for a selected line on a UXM card.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX
Associated Commands
cnfphyslnstats
Syntax
dspphyslnstatcnf <line>
Function
This command displays the physical line statistics on a UXM card as enabled by the cnfphyslnstats command, by StrataView Plus, or by node features. Figure 1-87 illustrates an example display.
The Owner column identifies who or what set the statistic. If the Owner column shows "Automatic," the node's features set the statistic. If the node name appears under Owner, StrataView Plus set the statistic. If the user name appears under Owner, the cnfchstats command executed from the command line interface set the statistic.
Figure 1-89 dspphyslnstatcnf—Display Statistics Enabled for a Line
cc2 LAN SuperUser IGX 32 9.1 Aug. 30 1997 11:38 PST
Statistics Enabled on Circuit Line 15
Statistic Samples Interval Size Peaks Owner
----------------------------------- ------- -------- ---- ----- ----------
Bipolar Violations 60 0 4 NONE IPX
Frames Slips 60 0 4 NONE IPX
Out of Frames 60 0 4 NONE IPX
Losses of Signal 60 0 4 NONE IPX
Frames Bit Errors 60 0 4 NONE IPX
CRC Errors 60 0 4 NONE IPX
Out of Multi-Frames 60 0 4 NONE IPX
All Ones in Timeslot 16 60 0 4 NONE IPX
Last Command: dspphyslnstatcnf 15
Next Command:
dspphyslnstathist (Display Statistics Data for a Physical Line)
The dspphyslnstathist command displays a history of statistics configured as enabled for a selected physical line on an active IMA trunk on a UXM card.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IGX
Associated Commands
cnfphyslnstats, dspphyslnstatcnf
Syntax
dspphyslnstathist <line> <statistic number> <interval> <owner>
Function
This command displays the last five occurrences of the line statistic for physical line on an active IMA trunk on a UXM card. The line statistic is selected from the list displayed when this command is first entered. Use the dspphyslnstatcnf to display the statistics enabled on the selected channel. Use cnfphyslnstats to enable a statistic.
Figure 1-88 illustrates an example display.
Note You may have to enter owner "auto" in all capital letters.
Figure 1-90 dspphyslnstathist—Display Statistics Data for a Line
pubsigx1 TN SuperUser IGX 15 9.1 Mar. 24 1998 16:33 PST
Line Statistic Types
3) Loss of Frames 41) BIP-8 Errors
4) Loss of Signal 42) BIP-8 Errored Seconds
29) Line Code Violation 43) BIP-8 Severely Err Secs.
30) Line Errored Seconds 44) Cell Framing Sev. Err Frame Secs
31) Line Severely Err Secs 45) Cell Framing Unavail. Secs.
32) Line Parity Errors 46) HCS Errors
33) Errored Seconds - Parity 98) Frame Sync Errors
34) Severely Err Secs - Parity 141) FEBE Counts
35) Path Parity Errors 143) Cell Framing FEBE Err. Secs.
36) Errored Secs - Path 144) Cell Framing FEBE Sev. Err. Secs.
37) Severely Err Secs - Path 145) Cell Framing FEBE Counts
38) Severely Err Frame Secs
40) Unavail. Seconds
This Command: dspphyslnstathist 15
Next Command:
dspportstatcnf (Display Statistics Enabled for a FR Port)
The dspportstatcnf command displays statistics configured as enabled for a selected Frame Relay port.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
cnfportstats
Syntax
dspclnstatcnf <line>
Function
This command displays the enabling of Frame Relay port statistics. These are the statistics set by the cnfportstats command, by StrataView Plus, or by node features. See Figure 1-91 for an example.
The owner column shows what set the statistic. If "Automatic", it was set by features, if node name it was set by StrataView Plus, if user it was set with the cnfportstats command.
Figure 1-91 dspportstatcnf—Display Port Statistics Enabled
gamma SV+ YourID Rev: 9.1 Aug. 14 1997 13:47 PDT
Statistics Enabled on Port 8.1
Statistic Samples Interval Size Peaks Owner
------------------------------------ ------- -------- ---- ----- ----------
Frames Received 5 60 4 1 M beta
Frames Received 5 60 4 1 M beta
Bytes Received 5 60 4 1 M beta
Last Command: dspportstatcnf 8.1
dspportstathist (Display Statistics History for a FR Port)
The dspportstathist command displays a history of statistics configured as enabled for a selected Frame Relay port.
Attributes
Jobs: No Log: Yes Lock: Yes Type: IPX, IGX
Associated Commands
cnfportstats, dspportstatcnf
Syntax
dspportstathist <line> <statistic number> <interval> <owner>
Function
This command displays the data for the last five occurrences of the port statistic. The port statistic is selected from the list displayed when this command is first entered. Use the dspportstatcnf to display the statistics enabled on the selected port. Use cnfportstats to enable a statistic.
Figure 1-92 illustrates a display for FR port 8.2 DE Frames Dropped (1 second interval) history.
Note You may have to enter owner "auto" or "user" in all capital letters.
Figure 1-92 dspportstathist—Display Port Statistics History
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 14:15 PDT
DE Frames Dropped on Port 8.2
Interval: 1 Minute(s), Data Size: 4 Byte(s), NO Peaks, Owner: IPX User
0 - 0
-1 - 0
-2 - 0
-3 - 0
Last Command: dspportstathist 8.2 19 1 USER
Next Command:
dsprevs (Display Revisions)
The dsprevs command displays the system software revision running on all nodes in the network.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
runrev, loadrev, forcerev
Syntax
dsprevs
Function
This command displays the configuration and status of the primary and secondary software revisions for all nodes in the network. The primary revision is the software that is running on the node. The secondary revision is the software that is available in memory but not being run. Table 1-34 lists the various status messages. Figure 1-93 illustrates a typical display.
Figure 1-93 dsprevs—Display Revisions
sw171 TN SuperUser IGX 16 9.1.h0 June 26 1997 14:52 GMT
------ Primary ------ ----- Secondary -----
NodeName Status Revision Status Revision
sw29 Running 9.1.h3
sw43 Running 9.1.h5
sw44 Running 9.1.h3
sw171 Running 9.1.h0 Loaded 9.1.h9
sw177 Running
sw106 Running 9.1.h3
sw181 Running 9.1.h3
Lowest revision running in net: 9.1.h0
Last Command: dsprevs
Next Command:
dsprobst (Display Robust Statistics)
The dsprobst command displays the statistics associated with the Robust Alarms feature.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
cnfrobparm
Syntax
dsprobst [clear]
Function
This command displays the statistics associated with the Robust Alarms messages between the node and StrataView Plus NMS. The optional "clear" argument clears the statistics buffers. illustrates a sample display screen.
Figure 1-94 dsprobst—Display Robust Statistics
sw197 TN SuperUser IGX 16 9.1 Apr. 7 1997 05:43 GMT
Robust Communications Statistics since : Date/Time Not Set
Updts msg xmit: 0
Updts msg ackd: 0
Updts ack tout: 0
LCBs freed: 0
Updts ack reset: 0
Last Command: dsprobst
Next Command:
dsprrst (Display Reroute Statistics)
The dsprrst command displays the connection rerouting statistics for the network.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
rrtcon, drtop
Syntax
dsprrst [s] [clear]
Function
This command displays the statistics related to connection rerouting resulting from failed trunks. These statistics may be useful in determining the performance of the reroute algorithm. Use the "clear" option to clear the counters before accumulating the statistics. Table 1-35 lists reroute statistics, but Figure 1-95 illustrates the Release 9.1 statistics.
Figure 1-95 dsprrst—Display Reroute Statistics
sw197 TN SuperUser IGX 16 9.1.a1 Apr. 7 1997 05:49 GMT
Conn. Routing Statistics LOC_DOMAIN
Number of Completed Routes: 0 Blocked by other st machines: 0
Number of Failed Routes: 0 Timeouts waiting for ACK/NACK: 0
Number of Collisions: 0 Timeouts in LOCKED state: 0
Max # of Consec Collisions: 0 Number of Routes Not found: 0
Max Secs To Select Route: 0.000 # of Rrts with rrt_req bit set: 0
Max Secs To Perform Route: 0.000 Address of Forced Rrt Counts: 313F9860
Max Bundle Size Routed: 0 Max routes checked in search: 0
Avg Secs To Select Route: 0.000 Max good rts checked in search: 0
Avg Secs To Perform Route 0.000 # nibs rmvd out from under us: 0
Avg Secs To Route a Conn: 0.000 # our lns rmvd from under us: 0
Avg Bundle Size Routed: 0 # lns rmvd from under us: 0
% of Collisions/Rrt Attempt: 0% Number of conid conflicts: 0
Max Secs To NOT find Route: 0.022 Number of LCON deroutes: 0
Times conns deletd while rtng: 0 Number of VLCON deroutes: 0
This Command: dsprrst
Continue?y
sw197 TN SuperUser IGX 16 9.1.a1 Apr. 7 1997 05:50 GMT
Conn. Routing Statistics LOC_DOMAIN
# conns added to Rrt waitlist: 0 # no destination trunk: 0
# conns unroutable: 0 # lowest cost route found: 0
# Reroute_Line_Debug: 4000103 # lowest cost route not found: 0
# Reroute_Debug: FFFFFFFF # unsuccessful cache usage: 0
# Upd_via_info: 0 # successful cache usage: 0
# diff rrt cons number: 0 # successful on-demand: 0
# hop count exceeded: 0
# cost exceeded: 0
# delay exceeded: 0
# open cell space too low: 0
# open packet space too low: 0
# open conid space too low: 0
# open GW LCN space too low: 0
# lowest cost path replaced: 0
Last Command: dsprrst
Next Command:
dspsig (Display Signalling)
The dspsig command displays the current signalling state received at the node from the specified voice channel.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX
Associated Commands
cnfclnsigparm, cnfrcvsig, dspclnsigparm
Syntax
dspsig <start_channel>
Function
This command displays the current signalling state received at the node from the specified voice channel. The status of the transmit and receive A and B signalling bits (for DS1 trunks) or A, B, C and D signalling bits (for E1 trunks) are displayed as a 0 or 1. The status of the bits (0 or 1) depends on the signalling type utilized on the connection displayed. The transmit direction of transmission is towards the remote node; the receive direction is towards the local circuit line.
The dspsig command can be used to verify the connection signalling type. Figure 1-96 illustrates a typical screen. If you compare the A/B bit states on-hook and off-hook with those shown in the dspchcnf command, you will note that the node passes signalling straight through. The signalling definition is only important for monitoring the on-hook/off-hook state and setting conditioning patterns.
Figure 1-96 dspsig—Display Signalling
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 19:25 PST
Signalling Information
From 7.1 TXAbit TXBbit TXCbit TXDbit RXAbit RXBbit RXCbit RXDbit no_serv
7.1-15 1 1 0 1 1 1 0 1
7.17-31 1 1 0 1 1 1 0 1
Last Command: dspsig 7.1
Next Command:
dspslot (Display Slot)
The dspslot command displays system information associated with a specific card in the node.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
none
Syntax
dspslot <slot number>
Function
This command displays system information associated with a specific card in the node. The information can help you debug card failures. When a card failure is reported to the Cisco TAC, the TAC engineer records the parameters for the associated card displayed by using dspslot.
The information displayed by the dspslot command is unique to the card and is used primarily by the controller card to supervise background system tasks. lists the card parameters. illustrates a typical display—an FRP in this case.
Use this command to add information on a failed card when you return it. Print the screen or otherwise record the information and return it with the faulty card to Cisco.
Figure 1-97 dspslot—Display Slot
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 19:27 PST
Card Data Base for FRP card in slot 6 at address 30BD820C
Logical Card 6 Test in Prog 0
Verify DB Flag 0 Slft Res Abort 0
Info Ptr 30B88C2C Slft Abort 0
Last Event TEST_FREE Last Test BKGD_TEST
Fail Inter 0 FRP Test Fail 0
Selftest Fail 0 FRP Test Fail I 0
Selftest Inter 0 FRP Port Test Fail 0
Selftest Timeout 0 FRP Port Capacity 31
Con Test Fail 0 FRP Line Capable 1
Red LED Flag 0 FRP V35 Capable 0
Restart Reason Not maintained FRP X21 Capable 0
Selftest Results FRP NNI/CLLM Cap 1
FRP CGW/ATFR Cap 1
Last Command: dspslot 6
Next Command:
dspslotstatcnf (Display Statistics Enabled for a BXM Card Slot)
The dspslotstatcnf command displays enabled statistics for a BXM card resides.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: BPX
Associated Commands
cnfslotstats
Syntax
dspslotstatcnf <slot>
Function
This command displays the enabled BXM card slot statistics. These statistics are set by the cnfslotstats command, by StrataView Plus, or by node features. See for possible statistics. Note that "Monarch" is a BXM card.
The "Owner" column shows what set the statistic, as follows:
•If the column shows "Automatic," it was set by features.
•If the column shows the node name, it was is set by StrataView Plus.
•If the column shows the name of the user, it was set with the cnfslotstats command.
Figure 1-98 Slot Statistics for a BXM
sw59 TN SuperUser BPX 15 9.1 Apr. 7 1997 14:02 GMT
Statistics Enabled on Slot 2
Statistic Samples Interval Size Peaks Owner
------------------------------------ ------- -------- ---- ----- ----------
1) Standby PRBS Errors 60 0 4 NONE AUTO
2) Rx Invalid Port Errs 60 0 4 NONE AUTO
3) PollA Parity Errors 60 0 4 NONE AUTO
4) PollB Parity Errors 60 0 4 NONE AUTO
5) Bad Grant Errors 60 0 4 NONE AUTO
6) Tx Bip 16 Errors 60 0 4 NONE AUTO
7) Rx Bip 16 Errors 60 0 4 NONE AUTO
8) Bframe parity Errors 60 0 4 NONE AUTO
9) SIU phase Errors 60 0 4 NONE AUTO
10) Rx FIFO Sync Errors 60 0 4 NONE AUTO
11) Poll Clk Errors 60 0 4 NONE AUTO
12) CK 192 Errors 60 0 4 NONE AUTO
13) Monarch Specific Errors 60 0 4 NONE AUTO
This Command: dspslotstatcnf 2
Continue?
dspslotstathist (Display Statistics History for a BXM Card)
The dspslotstathist command displays a history of statistics enabled for a BXM card slot.
Attributes
Jobs: No Log: Yes Lock: Yes Type: BPX
Associated Commands
cnfslotstats, dspslotstatcnf
Syntax
dspslotstathist <port>
Function
This command displays the data for the last five occurrences of the slot statistic. The statistic is selected from the list displayed when this command is first entered. Use the dspslotstatcnf to display the statistics enabled on the selected slot. Use cnfslotstats to enable a statistic.
Note You may have to enter owner "auto" or "user" in all capital letters.
dspstatmem (Display Statistics Memory Use)
The dspstatmem command displays memory usage for statistics collection.
Attributes
Jobs: No Log: Yes Lock: No Node Type: IPX, IGX, BPX
Associated Commands
none
Syntax
dspstatmem
Function
This command displays memory usage for statistics collection. It is intended for debugging statistics collection problems, not everyday use. The command shows the amount of controller card memory allocated by the user to statistics display (defaults to 650 Kbytes).
The memory occupied by USER is used for user-enabled statistics. Figure 1-99 illustrates a typical screen. The memory occupied by USER figure is that used by the StrataView Plus user. Memory occupied by AUTO is that used by node features.
Figure 1-99 dspstatmem—Display Statistics Memory Usage
sw83 TN SuperUser IPX 16 9.1 Aug. 1 1997 19:29 PST
User Configured Statistics Memory (In bytes) = 624640
Memory Occupied by USER (In bytes) = 0
Memory Occupied by AUTO (In bytes) = 21584
Last Command: dspstatmem
Next Command:
dsptcpparm (Display TCP Parameters)
The dspftcpparm command displays the TCP bandwidth throttle parameter.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
cnftcpparm
Syntax
dsptcpparm
Function
This command displays the TCP bandwidth throttle parameter. Figure 1-100 shows a typical display.
Figure 1-100 dsptcpparm—Display TCP Parameters
cc2 LAN SuperUser IPX 32 9.1 Aug. 30 1997 11:42 PST
NWIP Bandwidth Throttle (Kbytes/sec): 32
Last Command: dsptcpparm
Next Command:
dsptrkcons (Display Trunk Connection Counts)
The dsptrkcons command displays the number of connections routed over the specified trunk. This command applies to physical and virtual trunks.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
dsptrkmcons, dspplnmcons
Syntax
dsptrkcons <line number>
Function
This command displays the total number of connections being carried by the specified trunk. The connections are summed for each terminating node in the network and lists the connection count for the transmit direction (out of the node).
This command is useful in determining the source of dropped packets in cases where the specified trunk is oversubscribed. Use the dsptrks command to list the trunks that originate at each node. Next, use the dsptrkcons to determine the number of connections (the more connections per trunk the greater the possibility of over-subscription). Then use the dsprts command to identify any through nodes (where the trunk is not terminated). Finally, look at the utilization factor for each of these lines using the dsputl and dspdutl commands. Figure 1-101 illustrates the dsptrkcons command display.
Figure 1-101 dsptrkcons—Display Trunk Connection Counts
batman TN SuperUser BPX 15 9.1 Aug. 9 1997 15:57 GMT
Connection Counts For TRK 5.1
Src Node Conns Src Node Conns Src Node Conns Src Node Conns
batman 1765
Last Command: dsptrkcons 5.1
Next Command:
dsptrkmcons (Display Trunk Connection Counts by Master Node)
The dsptrkmcons command displays the number of connections routed over the specified trunk (BNI) by the master node.
Attributes
Jobs: No Log: Lock: Node Type: IPX, IGX, BPX
Associated Commands
dsptrkcons
Syntax
dsptrkmcons <line number>
<line number>
specified trunk number. Note that in a BPX, the line number must include a port number.
Function
This command displays the total number of connections being carried by the specified trunk. Rather than showing the remote end of the connection, the display lists the connection and the node that owns that connections.
This command is useful in determining the source of dropped packets in cases where the specified trunk is oversubscribed. First, use the dsptrkmcons command to list the trunks that originate at each node (the more connections per trunk, the greater the possibility of over-subscription). Next, use the dsprts command to identify any through-nodes (on which the trunk is not terminated). Finally, look at the utilization for each of these lines by using the dsputl and dspdutl commands. Figure 1-102 illustrates the dsptrkmcons command display.
Figure 1-102 dsptrkmcons—Display Trunk Connection Counts by Master Node
sw81 TN SuperUser BPX 15 9.1 Aug. 26 1997 13:16 PST
Connection Counts For TRK 6.1
Mst Node Conns Mst Node Conns Mst Node Conns Mst Node Conns
sw86 26
Last Command: dsptrkmcons 6.1
Next Command:
dsptrkstatcnf (Display Statistics Enabled for a Trunk)
The dsptrkstatcnf command displays the enabled statistics a physical or virtual trunk.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnftrkstats
Syntax
dsptrkstatcnf <line>
Function
This command displays the statistics enabled for a trunk. It is intended for debugging statistics collection problems. It displays the trunk statistics set by the cnftrkstats command, by StrataView Plus, or by node features. shows example statistics for a T3 ATM trunk. The Owner column shows the source of the specification. If the Owner column shows "AUTO," the node's features determined the statistics. If the Owner column shows the name of the node, StrataView Plus determined the statistics. If the Owner column shows "USER," the cnftrkstats command was used to configure the statistics. The display may take up to four screens to display completely depending on statistics displayed.
Figure 1-103 dsptrkstatcnf—Display T3 Trunk Statistics Enabled (Screen 1)
sw81 TN SuperUser BPX 15 9.1 Oct. 22 1997 23:47 PST
Statistics Enabled on Trunk 1.1
Statistic Samples Interval Size Peaks Owner
------------------------------------ ------- -------- ---- ----- ----------
3) Out of Frames 60 0 4 NONE AUTO
4) Loss of Signal 60 0 4 NONE AUTO
29) Line Code Violation 60 0 4 NONE AUTO
32) Line Parity Errors 60 0 4 NONE AUTO
35) Path Parity Errors 60 0 4 NONE AUTO
41) BIP-8 Errors 60 0 4 NONE AUTO
46) HCS Errors 60 0 4 NONE AUTO
48) Tx Voice Overflow Drpd Cells 60 0 4 NONE AUTO
49) Tx TS Overflow Drpd Cells 60 0 4 NONE AUTO
50) Tx NTS Overflow Drpd Cells 60 0 4 NONE AUTO
51) Tx Hi-Pri Overflow Drpd Cells 60 0 4 NONE AUTO
This Command: dsptrkstatcnf 1.1
Continue? y
sw81 TN SuperUser BPX 15 9.1 Oct. 22 1997 23:48 PST
Statistics Enabled on Trunk 1.1
Statistic Samples Interval Size Peaks Owner
------------------------------------ ------- -------- ---- ----- ----------
52) Tx BData A Overflow Drpd Cells 60 0 4 NONE AUTO
53) Tx BData B Overflow Drpd Cells 60 0 4 NONE AUTO
98) Frame Sync Errors 60 0 4 NONE AUTO
167) Tx CBR Overflow Drpd Cells 60 0 4 NONE AUTO
168) Tx VBR Overflow Drpd Cells 60 0 4 NONE AUTO
169) Tx ABR Overflow Drpd Cells 60 0 4 NONE AUTO
Last Command: dsptrkstatcnf 1.1
Next Command:
dsptrkstathist (Display Statistics History for a Trunk)
The dsptrkstathist command displays a history of configured statistics for a physical or virtual trunk.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
cnftrkstats, dsptrkstatcnf
Syntax
dsptrkstathist <trunk>
<trunk>
specifies the trunk in one of the following formats:
slot for a trunk card with one line
slot.port for a trunk card with more than one line
slot.port.vtrk for a virtual trunk
Function
The dsptrkstathist command is a statistics debugging command. It displays the data for the last five occurrences of the selected statistic. The available trunk statistics appear on screen upon entry of the dsptrkstathist command. (The cnftrkstats command enables individual statistics. The dsptrkstatcnf command displays the enabled statistics for a trunk.) Figure 1-104 displays a statistic history for virtual trunk 1.1.1. The statistic is TX ABR Overflow Dropped Cells. This is statistic number 169, which execution of dsptrkstatcnf shows as enabled for this trunk. (If a disabled statistic is selected, a message stating this appears above the command line prompt.) The entered bucket interval is 0 minutes, which means that only the preceding 60 seconds worth of gathered data for number 169 appears.
Note Enter the owner in all capital letters. You may have to enter owner "auto" in all capital letters.
Figure 1-104 dsptrkstathist—Display Trunk Statistics History
sw97 TN SuperUser BPX 15 9.1 Aug. 9 1997 12:42 GMT
Tx ABR Overflow Drpd Cells on Trunk 1.1.1
Interval: 10 Second(s), Data Size: 4 Byte(s), NO Peaks, Owner: AUTO
0 - 0 -11 - 0
-1 - 0 -12 - 0
-2 - 0 -13 - 0
-3 - 0 -14 - 0
-4 - 0 -15 - 0
-5 - 0 -16 - 0
-6 - 0 -17 - 0
-7 - 0 -18 - 0
-8 - 0 -19 - 0
-9 - 0 -20 - 0
-10 - 0 -21 - 0
This Command: dsptrkstathist 1.1.1 169 0 BPX
Continue?
dsputl (Display Utilization)
The dsputl command displays the utilization factor for all voice connections on a circuit line.
Attributes
Jobs: No Log: No Lock: Yes Node Type: IPX, IGX
Associated Commands
dspdutl
Syntax
dsputl <bslot> [clear]
<bslot>
specifies the shelf back slot number of the circuit line.
[clear]
directs the controller card to clear the utilization counters after being displayed.
Function
This command displays the actual percentage utilization for all voice connections on a single circuit line specified by the back slot (bslot) number. The percentage is calculated by dividing the number of packets transmitted over the total number of packets allocated to the specified channel. Only transmit packet rates are used. If percentage of actual utilization exceeds the configured utilization the channel appears in reverse video.
Figure 1-105 illustrates a typical display. In this example, the connections from 11.1 to 11.11 use VAD and the connections from 11.12 to 11.17 do not. The connections using VAD do not use any network bandwidth (0 utilization) until the connection is used. The other connections utilize the full bandwidth (100% utilization) even though they may be idle.
Use the dspdutl command to display utilization for data channels.
Figure 1-105 dsputl—Display Voice Channel Utilization
gamma TRM SuperUser Rev: 9.1 Aug. 14 1997 16:36 PDT
Percentage utilization Last Cleared: Date/Time Not Set Snapshot
CLN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
11 0 0 0 0 0 0 0 0 0 0 0 0 99 99 99
CLN 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
11 99
Last Command: dsputl 11
Next Command:
forcerev (Force Revision)
The forcerev command forces a software revision to be sent down a trunk to a remote node.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dsprevs, loadrev
Syntax
forcerev <line number> <primary/secondary> <revision>
<line number>
specifies the trunk number used to send the revision.
<primary/secondary>
specifies which revision is to be sent.
<revision>
specifies the software revision to be forced down the line.
Function
This command sends a change revision message blindly down the specified trunk from the local node to the remote node. This allows primary revisions to be changed regardless of communication breaks and unreachable nodes. You should only need to use this command if a problem results from there being inconsistent revisions in use throughout a network.
CautionUse this command only when requested by the Cisco TAC and under TAC supervision.
Figure 1-106 illustrates an example screen. If the local node does not have the SW revision specified, the system will display "Unavailable X.X". Use the getfwrev command to load the desired software revision into the node. Use the dsprevs command to display the revisions available on each node in the network.
Figure 1-106 forcerev—Force Revision Down a Line
alpha TRM SuperUser Rev: 9.1 Aug. 14 1997 13:42 PDT
------ Primary ------ ----- Secondary -----
NodeName Status Revision Status Revision
NodeName Status Revision Status Revision
gamma Running 9.1
Last Command: forcerev 10 s 7.2
Next Command:
getfwrev (Get Firmware Revision)
The getfwrev command gets and loads a firmware image from StrataView, StrataView Plus, or a remote node into the specified card on the specified node or on all reachable nodes.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
burnfwrev, dspfwrev, dspdnld
Syntax
getfwrev <card type> <image name> <nodename>
Function
This command gets and loads a firmware revision image into the specified node's NPC memory. This firmware image can then be downloaded to specific interface cards within the node with the burnfwrev command. The firmware image must be already loaded into the StrataView or StrataView + terminal before using this command.
When the command is first entered, the status is temporarily "Unavailable" while the node attempts to locate the source of the firmware image. Once the download begins, a list of all of the files that make up the image is displayed and as the downloading progresses, the address of the file is updated.
•getfwrev a.b.cd *—loads firmware revision a.b.cd at all reachable nodes
•getfwrev BNI-E3 a.b.cd nodename—loads firmware revision a.b.cd on the BNI-E3 card at one node only (nodename specifies the node).
•getfwrev 0.0 —clears a firmware revision image from NPC memory. Should be issued after every firmware download to clear the NPC memory.
•getfwrev BNI-E3 0.0 nodename—clears a firmware revision image from the BNI-E3 card at one node only (nodename specifies the node).
CautionThis command is not to be confused with loadrev. The loadrev command loads system software, not firmware.
killuser (Log Out a User)
The killuser command logs out a user.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
none
Syntax
killuser <user number>
Function
This command logs out a user. The killuser screen in Figure 1-107 displays a numbered list of users. The number is the argument that killuser takes. The display indicates your user number so that you do not log out yourself.
Figure 1-107 killuser—Kill User
sw83 TN SuperUser IPX 16 9.1 Dec. 9 1997 00:11 PST
# TASK PURPOSE USER ID # TASK PURPOSE USER ID
-- ---- ------------ ------- -- ---- ------------ -------
1 USR1 control port none 13 VT_5 VT none
2 USR2 auxilry port none 14 VT_6 VT none
3 USR3 lan port(SV) none 15 SNMP agent n/a
4 TN_1 lan (telnet) SuperUser < You 16 JOBS runs jobs n/a
5 TN_2 lan (telnet) none
6 TN_3 lan (telnet) none
7 TN_4 lan (telnet) none
8 TN_5 lan (telnet) none
9 VT_1 VT none
10 VT_2 VT none
11 VT_3 VT none
12 VT_4 VT none
This Command: killuser
Please Enter User Number:
loadcnf (Load Configuration)
The loadcnf command loads a configuration image from StrataView Plus to a node.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX, IPX/AF, IGX/AF
Associated Commands
dspcnf, runcnf, savecnf
Syntax
loadcnf <backup_id | clear> <node_name> <source_SV_node>
Function
This command causes a saved network configuration file to be downloaded from StrataView Plus to one node or all nodes. (See savecnf.) The configuration image downloaded is temporarily stored in a buffer area in a node's controller card memory. The process runs in the background and may take several minutes if the configuration file is large. Although loaded, the configuration is not yet restored. The configuration is restored to the controller card's BRAM memory using the runcnf command.
After loading and restoring a network configuration, the control card buffer area used for this purpose should be cleared so it is available for other downloading processes, such as that of firmware. To clear the buffer area, execute loadcnf with the clear parameter specified instead of backup_id. Specify the buffer of an individual node with node_name or all nodes with *. For the purpose of clearing the buffer area, do not specify the source_SV_node parameter.
To execute this command on an IPX/AF or IGX/AF interface shelf, telnet to the shelf or use a control terminal attached to the shelf.
loadrev (Load Revision)
The loadrev command loads a secondary system software revision image from StrataView or StrataView Plus into a node.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX, IPX/AF, IGX/AF
Associated Commands
runrev, dsprevs, cnfdlparm, forcerev, upggrp
Syntax
loadrev <revision> <node_name | group_name | *>
Function
This command loads the secondary revision system software for the specified nodes. The secondary revision system software is the code that is loaded onto a controller card but is not being run. Use the runrev command (after you have loaded a revision with loadrev) to make the secondary revision the primary revision. The primary revision then becomes the secondary.
Examples of this command:
•loadrev a.b.cd *—loads revision a.b.cd at all reachable nodes.
•loadrev a.b.cd nodename—loads revision a.b.cd at nodename only
•loadrev 0.0.—clears a software revision image from controller memory. You should issue this command after every software download to clear the controller memory.
After entering the command, the system responds with: "Enter Rev Number:" Use the dsprevs command to view the software revisions that are currently loaded in the controller memory. Use the dspdnld command to display a running picture of the download procedure status once it has begun. The runrev command also displays the lowest revision running in the network.
CautionDo not confuse loadrev with getfwrev. The getfwrev command loads firmware, not system software.
prtcderrs (Print Card Errors)
The prtcderrs command prints out detailed card failure information.
Attributes
Jobs: Yes Log: No Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
clrcderrs, dspcderrs
Syntax
prtcderrs [<slot>]
Function
Prints a history of card failures associated with a specified slot on the network printer. If no argument is specified, a summary is printed, indicating the slots that have failures recorded against them. Refer to dspcderrs command for an example of a typical card error record that might be printed.
rrtcon (Reroute Connection)
The rrtcon command is used to manually reroute one or more connections.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
drtop
Syntax
rrtcon <group | channel(s) | *>
<group | channel(s) | *>:
specifies a group, a channel, or a range of channels to be rerouted. A "*" specifies all locally owned groups and connections.
Function
This command forces a group, channel or range of channels to be rerouted. If a free-routing connection is rerouted by the system for whatever reason, it will not automatically return to its original route when the trouble clears. This may leave the connection on a path that is not the most direct or cost effective.
You can use rrtcon to force a reroute that will likely put the connection back to its original route if that route is available. Over time, many routes may need to be rerouted back to their original paths. In this case, use the "*" parameter with rrtcon on the node where you originally executed it to reroute all connections.
To use this command you must first vt to the node that owns the connection (local node). If not at the local node, the system displays "This node is not owner of the connection(s)."
There is no provision for specifying a route. The node determines the connection route according to the same rules that are used when adding a new connection. If no network bandwidth is available for rerouting the connection, the node marks the connection as failed.
CautionUsing this command on a connection that is in service should be done with some discretion because the reroute interrupts service for as long as it takes to reroute the connection.
rststats (Reset Statistics Collection Time)
The rststats command resets the statistics collection time for the tststats command. Executing rststats clears all statistics. When you enter it, a prompt warns you that the command clears all statistics and asks if you want to proceed.
Attributes
Jobs: Yes Log: No Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
tststats
Syntax
rststats
Function
This command resets the collection time for the tststats command. The tststats command displays a test statistics summary. Before there will be any meaningful statistics, the tstcon command must be performed on one or more network connections. Refer to the Cisco WAN Switching Command Reference for information on the tstcon command. Figure 1-108 illustrates the system response.
Figure 1-108 rststats—Reset Statistics Collection Time
alpha32 LAN SuperUser IPX 32 9.1 Aug. 30 1997 13:35 PST
This Command: rststats
Warning: This command clears all statistics
Continue?
runcnf (Run Configuration)
The runcnf command restores a network configuration image at one or all nodes.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX, IPX/AF, IGX/AF
Associated Commands
savecnf, loadcnf, clrcnf
Syntax
runcnf <backup_id> <node_name>
Function
This command restores the specified configuration to the controller card's BRAM memory and overwrites the current configuration. Once restored, the specified node (or all nodes) rebuilds with the restored configuration image. To execute this command on an IPX/AF or IGX/AF interface shelf, telnet to the shelf or use a control terminal attached to the shelf.
This command is usually run after a previous configuration has been lost. If doubts exist about the state of the configuration at other nodes in the network, load the configuration into all nodes by specifying "*" for the node name. The new configuration must have previously been loaded into the controller buffer area with the loadcnf command.
CautionAll network nodes must be run with the same configuration.
The system may display two warnings in response to the runcnf command:
A. When single node specified:
•Warning—node_name not reachable. Continue? Y/N.
•Warning—node_name does not have the specified configuration. Continue? Y/N.
B. When all nodes specified:
•Warning—all nodes not reachable. Continue? Y/N.
•Warning—all nodes do not have the specified configuration. Continue? Y/N.
If a single node is not reachable, responding with a "Y" does not affect the operation of the network. If node(s) do not all have the specified configuration or all are unreachable, it is not recommended that you continue until after the problem is resolved.
runrev (Run Revision)
The runrev command runs a specific revision of the system software at a node.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX, BPX
Associated Commands
dsprevs, loadrev, cnfdlparm, forcerev, upggrp
Syntax
runrev <revision> <node_name | group_name | *>
Function
This command sets the primary revision for the specified nodes. The primary software revision is the one that is actively controlling node operation. You can also load a non-active secondary revision that differs from the primary revision running in the controller. To set the primary software revision, enter:
•runrev a.b.cd *—to run revision a.b.cd at all reachable nodes.
or
•runrev a.b.cd nodename—to run revision a.b.cd at a single node (nodename) only.
After entering the command, the system responds with "Enter Rev Number." Use the dsprevs command to determine which revision(s)—primary and secondary—are available on the node. The runrev command also displays the lowest revision running in the network. The runrev command will be ignored if the required revision is not present on the node.
You may need to load the new revision onto the StrataView Plus terminal and then use loadrev command to download the new software image into the standby controller before you issue the runrev command. If you enter a revision number that does not exist at the node, the system displays the message
"Warning—the node does not have the specified revision. Continue? Y/N"
CautionAll network nodes typically should be run with the same software revision to ensure normal network operation.
savecnf (Save Configuration)
The savecnf command saves a configuration image on a StrataView Plus workstation disk.
Attributes
Jobs: Yes Log: Yes Lock: Yes Node Type: IPX, IGX, BPX, IPX/AF, IGX/AF
Associated Commands
loadcnf, runcnf, clrcnf
Syntax
savecnf <backup_id | clear> <node_name> <dest_SV_node> [<dest_SV_ip>]
Function
The savecnf command has two possible applications. It saves all the configurations for the nodes in a routing network, or it saves the configuration of one IPX/AF or IGX/AF interface shelf to a specific StrataView Plus workstation. Once saved, you can restore the configuration to BRAM by using the loadcnf and runcnf commands. You should execute savecnf in the following situations:
•After making any configuration changes in a network
•Before upgrading to a new system software release
Execution on a Routing Node
In a routing network, savecnf saves a configuration image for one node or all routing nodes (node_name = *) on the StrataView Plus workstation specified by dest_SV_node.
Execution on an IPX/AF or IGX/AF Interface Shelf
To execute savecnf on an IPX/AF or IGX/AF, either telnet to the shelf or use a control terminal attached to it: savecnf saves a configuration image of only the current shelf. The image is stored on the workstation with the IP address in the parameter dest_SV_ip. (In a routing network, dest_SV_ip is not necessary.) Note that node_name and dest_SV_node must both be the name of the shelf. The IP address of the destination StrataView Plus workstation uniquely identifies where to store the configuration image.
setfpevt (Set FastPAD Event Reporting)
The setfpevt command enables the reporting of FastPAD events.
Attributes
Jobs: No Log: Yes Lock: Yes Node Type: IPX, IGX
Associated Commands
clrfpevt, dsplog
Syntax
setfpevt <slot.port>
Function
Executing setfpevt restarts FastPAD event logging after you have stopped logging by using clrfpevt.
The reason for executing clrfpevt is to prevent the large number of logged events that accumulate when certain user-controlled disruptions occur. Without suspension of event-logging, the number of events caused by the disruption can cause the FastPAD to become unreachable. Examples of these events are:
•FTM Y-cable switchover
•NPM/NPC switchovers
•Adding a connection by using the addfrcons command
•Resetting the FastPAD (power cycling or by the resetfp command)
Example
setfpevt 9.3
Description
The example command resumes event logging for the FastPAD connected to port 9.3.
Note No screen appears when setfpevt executes. The example shows the dsplog output after a sequence of clrfpevt then setfpevt. Earlier FastPAD events appear near the bottom of the screen.
Figure 1-109 setfpevt—Set FastPAD Event Reporting
sw152 TN SuperUser IGX 16 9.1 Nov. 26 1997 15:14 GMT
Most recent log entries (most recent at top)
Class Description Date Time
Info FP fp93 event: 9.3.B grp:0-0 code:12 11/26/97 15:13:28
Info FP fp93 event: 9.3.B grp:0-0 code:1 11/26/97 15:13:28
Info User SuperUser logged in (Local) 11/26/97 14:28:40
Info User SuperUser logged in (Local) 11/26/97 12:56:49
Info Invalid Login Attempt via LAN Port (Local) 11/26/97 12:56:46
Info User SuperUser logged in (Local) 11/26/97 11:31:51
Info AD 9.2.3 dallas COM OK (Kickoff) 11/26/97 11:23:17
Info AD 9.2.3 dallas Unreachable 11/26/97 10:59:32
Info AD 9.2.3 dallas COM OK (Kickoff) 11/26/97 10:56:54
Info FP fp93 event: 9.3.B grp:0-0 code:12 11/25/97 18:16:45
Info FP fp93 event: 9.3.B grp:0-0 code:1 11/25/97 18:16:45
Last Command: dsplog
Next Command:
tststats (Test Statistics)
The tststats command displays a summary of the test statistics that result from performing a tstcon command on various network connections.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
tstcon
Syntax
tststats [clear]
Function
Before tststats displays any meaningful statistics, the tstcon command must run on one or more network connections. Refer to the Cisco WAN Switching Command Reference for information on the tstcon command. The following are displayed for voice, data, and Frame Relay connections.
•Tests Completed, Passed, Failed, and Aborted.
•Failure data per failed connection (applies only to voice connections).
•Slot.channel—indicates which connection has failed.
•Good reads—indicates number of good reads on the test failure.
•Bad reads—indicates number of bad reads on the test failure.
Figure 1-110 illustrates a typical test statistics display.
Note The tstcon command should have run before you enter tststats.
Figure 1-110 tststats—Display Test Statistics
sw150 TN SuperUser IGX 16 9.1 Aug. 1 1997 21:54 GMT
Connection Test results since: Date/Time Not Set
Type Total Passed Failed Aborted
Voice 0 0 0 0
Data 0 0 0 0
Fr Relay 0 0 0 0
Last Command: tststats
Next Command:
upggrp (Upgrade Groups)
The loadrev and runrev commands take "upgrade group" names as arguments, allowing you to upgrade any subset of nodes at the same time.
Previous to Release 9.1, you could specify either a single node name, or an '*' (asterisk) to specify all nodes in the network, as an argument to runrev or loadrev. An "upgrade group" is a list of nodes, which could be all nodes in the network. Instead of running runrev for each node to be upgraded, upgrading an entire group of nodes at one time leads to a synchronized upgrade process (which the "staggered update mechanism" relies on). The staggered mechanism prevents a situation where many nodes send messages to a single node at the same time.
After an upgrade, each node requests information from every node about its topology and connection database to compensate for any errors or race conditions that may occur during the upgrade. Every node sends its messages to only one node during a given interval. If all nodes start sending these updates at the same time (and the interval is configured the same on all nodes), then all nodes will send messages to different nodes as everyone has a different node number. Whenever the interval ends, they start sending to a node with the next node number. If they would not start at the same time, there would be overlaps as one node could be in its first interval, whereas others are already in the second or third interval.
If all nodes start at the same time, it is guaranteed that one node will exchange updates with only one other node during a given interval, reducing the amount of stress that would occur when multiple nodes send updates to one node at the same time.
Attributes
Jobs: No Log: No Lock: No Node Type: IPX, IGX, BPX
Associated Commands
dsprevs, cnfdlparm, loadrev, runrev, forcerev
Syntax
upggrp [-c[reate] | -d[elete] | -s[how] ] <group_name>
upggrp [-a[dd] -r[emove]] <group_name> <node_list
Function
This command creates a group of nodes to be upgraded by the loadrev and runrev commands. To create an upgrade group type
upggrp -c <group name>
You can create up to 20 upgrade groups. Naming the upgrade groups follows the same convention as for node names; that is, choose group names that are different from the node names in the network. If loadrev or runrev encounter a name conflict, the commands chose the node name interpretation.
Note Upgrade groups are only known on the node where they are created. They are neither sent to the Standby, nor saved in BRAM. It is assumed they are needed for a short time only. Once the upgrade is done, you can delete the groups.
To delete an upgrade group that is no longer needed, enter:
upggrp -d <group name>
This frees up the resources used by that group.
To show (list) the currently defined upgrade groups, enter:
upggrp -s
To list all the member nodes of a group, enter:
upggrp -s <group name>
To add several nodes to an upgrade group, enter:
upggrp -a <group name> <node 1> <node 2> ...
The length of the node list can be as long as the command line allows. If an entry is invalid, that is, it is not a valid node name or not a name of a node in the network, an error message prints, and the remainder of the node list is not processed. The nodes before the invalid node are added to the group.
After the command is executed, the members of the group are listed. You can add nodes to an upgrade group in multiple iterations.
To remove a node or several nodes from an upgrade group, enter:
upggrp -r <group name> <node 1> <node 2> ...
The length of the node list can be as long as the command line allows. If an entry is invalid, that is, it is not a valid node name or not the name of a node in the net, an error message is printed, and the remainder of the node list is not processed. The nodes before the invalid node name are removed from the group. After the command is executed, the members of the group are listed.
Posted: Wed Aug 25 16:33:43 PDT 2004
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