Display ABR Parameter Defaults—PXM45, PXM1E
The dspabrtparmdft command displays the default ABR parameters for a logical port under PNNI.
dspabrtparmdft <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
addcon, cnfabr, cnfabrtparmdft
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the default ABR parameters on port ID 1:1.1:1.
8850_NY.8.PXM.a > dspabrtparmdft 1:1.1:1
Default ABR Traffic Parameters For: 1:1.1:1
-----------------------------------
RIF: 7 (= 1/512)
RDF: 4 (= 1/4096)
TBE: 1048320 (Cells)
NRM: 5 (= 32 Cells)
TRM: 8 (= 100 misc.)
ADTF: 50 (= 0.50 Sec)
CDF: 7 (= 1/2)
FSD: 0 (microSec)
Display Active Audit—PXM45, PXM1E
The dspactaudit shows whether the background active audit process is enabled and shows any related events from the audit window. This audit periodically sends a status enquiry across a link for a very small number of connections to determine whether two peers have the same record of the connection.
dspactaudit
This command takes no parameters.
actaudit
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display Address—PXM45, PXM1E
The dspaddr command displays ATM addresses and associated information for a UNI or IISP. For details on the displayed items, see the addaddr description. The items in the display are as follows:
•All the ATM addresses on the port and the length of each address
•Address plan
•The type of address—internal or external
•The protocol for advertising the address
•The choice for address distribution
•The transit node ID if the node is a transit node
•The scope—applicable to multi-peer groups only
dspaddr <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
addaddr, deladdr
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the ATM address and other details for port 3:1.1:1.
8850_NY.8.PXM.a > dspaddr 3:1.1:1
47.0091.8100.0002.0003.6b5e.30c0
length: 104 type: internal proto: local
scope: 0 plan: nsap_icd redistribute: false
transit network id:
8850_NY.8.PXM.a >
Display Address CUG—PXM45, PXM1E
The dspaddrcug command displays the following attributes for a closed user group (CUG) associated with an ATM address:
•Preferential CUG index
•Outgoing access
•Incoming access
•List of CUG indices associated with the ATM address
If no CUG assignment exists for an ATM address, the display shows nothing. To see the detailed attributes of a particular CUG index, use the dspcug command. For more information on CUGs, see the addcug description.
dspaddrcug <atm-address> <length> <plan>
addcug, cnfcug, clrcugdefaddr, cnfaddrcug, cnfnodecug, delcug, dspcug, dspcugdefaddr, dspnodecug, setcugdefaddr
log: no |
State: active, standby |
Privilege: ANYUSER |
Display CUG details for ATM address 47.0091.8100.0000.0001.4444.7777 (length 104 and NSAP plan). Note that the Pref CUG index of 0 means that no preferential CUG has been specified. If the AESA in this example were to have a preferential CUG, it would have an index of 12, 50, 100, or 101.
p2spvc14.7.PXM.a > dspaddrcug 47.0091.8100.0000.0001.4444.7777 104 nsap
Address : 47.0091.8100.0000.0001.4444.7777 Length : 104 Plan : nsap Pref cug index : 0 Incoming Access : allowed Outgoing Access : disallowed Number of CUGs : 4 CUG indices : 12 50 100 101
Display Adjacent Line Alarms—PXM45, PXM1E
The dspadjlnalm command lets you display the alarm status line for the adjacent back card. To acquire the status, enter the bay and line number for the active back card.
Note The clradjlnalmcnt command works for only inter-card APS.
dspadjlnalm <X.line>
dspadjlnalmcnt, clradjlnalmcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
MGX8850.7.PXM1E.a > dspadjlnalm 15.1
Line Number : 15.1
Section Alarm State : LOS
Line Alarm State : Clear
Path Alarm State : Clear
Section Stat Alarm State: CurrentESs,CurrentSESs,CurrentSEFSs
Line Stat Alarm State : CurrentSESs,CurrentUASs
Path Stat Alarm State : CurrentSESs,CurrentUASs
LOCD Alarm State : Clear
APS Alarm State : Major
Display Adjacent Line Alarm Counters—PXM45, PXM1E
The dspadjlnalmcnt command lets you display the alarm counters for the adjacent back card. To acquire the status, enter the bay and line number for the active back card.
Note The clradjlnalmcnt command works for only inter-card APS.
dspadjlnalmcnt <bay.line> <intvl>
dspadjlnalm, clradjlnalmcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
MGX88503.7.PXM1E.a> dspadjlnalmcnt 15.1 1
Interval Number: 1
Section PM:
-----------
Num of LOSs : 0
Num of Loss : 0
ESs : 1
SESs : 0
SEFSs : 0
CVs : 4
Line PM:
-----------
Num of AISs : 0
Num of RFIs : 0
Near End Far End
ESs : 1 0
SESs : 0 0
CVs : 39 0
UASs : 0 0
Path PM:
-----------
Num of AISs : 0
Num of RFIs : 0
Near End Far End
ESs : 0 0
SESs : 1 1
CVs : 25 25
UASs : 0 0
Display AINI Hop Count—PXM45, PXM1E
The dspainihopcount command shows the enable or disable status and the limit for the number of hops a connection can have over AINI links. The counter is the Hop Counter Information Element. This configuration applies to the entire node.
dspainihopcount
This command takes no parameters.
cnfainihopcount
Log: yes |
State: active, standby |
Privilege: ANYUSERP |
Display the current configuration for AINI hop count.
8850_NY.8.PXM.a > dspainihopcount
AINI Hop Counter Generation: enable
Max AINI Hops: 20
8850_NY.8.PXM.a >
Display AIS Delay Timer—PXM45, PXM1E
The dspaisdelaytimer display shows the number of seconds that the switch waits before it sends AIS/Abit to CPE. See the cnfaisdelaytimer description for details.
dspaisdelaytimer
This command takes no parameters.
cnfaisdelaytimer
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Display the current AIS delay timer setting.
p2spvc14.8.PXM.a > dspaisdelaytimer
AIS Delay Timer: 0 seconds
p2spvc14.8.PXM.a >
Display Alarm—PXM45, PXM1E
The dspalm command on the PXM1E displays line alarms on either the UNI/NNI back card or an SRM. See cnfalm for a description of the types of alarms you can see. In addition to the configurable alarm types, the output also shows instances of loss of cell delineation (LOCD). (For line alarms on an AXSM, see the dspalm description in the AXSM-specific documentation.)
dspalm -<lineType> <X>.<line>
dspln, dsplns, dspalmcnts, clralmcnts
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Display alarms for line 1 on the UNI/NNI back card. In this case, the back card has E3 lines.
Unknown.8.PXM.a > dspalm -e3 2.1
Line Number : 2.1
Alarm State : Clear
Statistical Alarm State: No Statistical Alarms
LOCD Alarm State : Clear
Unknown.8.PXM.a >
Display Alarm Configuration—PXM45, PXM1E
The dspalmcnf command displays the threshold information about the alarm statistics being collected. Refer to the cnfalm description for details regarding alarm thresholds.
dspalmcnf -<lineType> <X.line>
cnfalm, dspalm, dspalms
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the SONET section alarm configuration for the SRME in slot 31.
Unknown.8.PXM.a > dspalmcnf -sonetsec 31.1
LineNum: 31.1
Section Stat Alarm Severity: None
15min Threshold 24hr Threshold
Section ESs : 20 200
Section SESs : 3 7
Section SEFSs: 3 7
Section CVs : 25 250
Unknown.8.PXM.a >
Display Alarm Counters—PXM45, PXM1E
The dspalmcnt command on the PXM1E lets you display lines alarms on either the UNI/NNI back card or an SRM. For line alarms on an AXSM, see the other version of the dspalmcnt command.
dspalmcnt -<lineType> <X.line>
dspln, dsplns, dspalmcnt
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Display the alarm count for the SRME in slot 31. To see the alarm configuration, use dspalmcnf.
Unknown.8.PXM.a > dspalmcnt -sonet 31.1
Line Number : 31.1
Elapsed Time(in sec): 0
Section PM:
-----------
Num of LOSs : 0
Num of LOFs : 0
CurrentESs : 0
CurrentSESs : 0
CurrentSEFSs : 0
CurrentCVs : 0
TotalESs : 0
TotalSESs : 0
TotalSEFSs : 0
TotalCVs : 0
Line PM:
--------
Num of AISs: 0
Num of RFIs: 0
CurrentESs : 0
CurrentSESs : 0
CurrentCVs : 0
CurrentUASs : 0
TotalESs : 0
TotalSESs : 0
TotalCVs : 0
TotalUASs : 0
Path PM:
--------
Num of AISs: 0
Num of RFIs: 0
CurrentESs : 0
CurrentSESs : 0
CurrentCVs : 0
CurrentUASs : 0
TotalESs : 0
TotalSESs : 0
TotalCVs : 0
TotalUASs : 0
Unknown.8.PXM.a >
Display Alarms—PXM45, PXM1E
The dspalms command displays all line-related alarms on the card. RFC 2258 describes the alarm categories. The display can easily scroll for many pages if more than one line is active. See cnfalm for a description of types of alarms you might see. In addition to the alarms from cnfalm, the dspalms command also displays instances of loss of cell delineation (LOCD).
dspalms
This command takes no parameters.
dspalm, clralm
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display alarms for the lines on the current card.
pxm1enode.7.PXM.a > dspalms
---------------------------------------------
Line Number : 2.1
Alarm State : XmtRAI,RcvLOF,RcvLOS,RcvOtherFailure
Statistical Alarm State: UAS15minAlarm,UAS24hrAlarm
LOCD Alarms State : LOCD
Line Number : 2.2
Alarm State : XmtRAI,RcvLOF,RcvLOS,RcvOtherFailure
Statistical Alarm State: UAS15minAlarm,UAS24hrAlarm
LOCD Alarms State : LOCD
Line Number : 2.3
Alarm State : Clear
Statistical Alarm State: No Statistical Alarms
LOCD Alarms State : Clear
Line Number : 2.4
Alarm State : Clear
Statistical Alarm State: No Statistical Alarms
LOCD Alarms State : Clear
Line Number : 2.5
Alarm State : Clear
Type <CR> to continue, Q<CR> to stop:
Statistical Alarm State: No Statistical Alarms
LOCD Alarms State : Clear
Line Number : 2.6
Alarm State : Clear
Statistical Alarm State: No Statistical Alarms
LOCD Alarms State : Clear
Line Number : 2.7
Alarm State : Clear
Statistical Alarm State: No Statistical Alarms
LOCD Alarms State : Clear
Line Number : 2.8
Alarm State : Clear
Statistical Alarm State: No Statistical Alarms
LOCD Alarms State : Clear
pxm1enode.7.PXM.a >
Display APS Backplane—PXM45, PXM1E
The dspapsbkplane output states whether the automatic protection switching (APS) mini-backplane is absent or is properly seated and engaged with the back cards. (See the addapsln description for details on APS.
See the hardware installation guide for information on installing the APS assembly to the backplane.
dspapsbkplane
No parameters. |
addapsln, cnfapsln, delapsln, dspapsln, dspapslns, switchapsln, clrbecnt, dspbecnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Example of dspapsbkplane when no APS mini-backplane is installed.
Mumbai.7.PXM.a > dspapsbkplane
This feature does not apply to the card present in this slot
SRME Top Bay:APS Back Plane Not Engaged or Adjacent Back Card Not
Present.
SRME Bottom Bay:APS Back Plane Not Engaged or Adjacent Back Card Not
Present.
Display APS Line—PXM45, PXM1E
The dspapsln command displays the configuration of an APS line on a Service Resource Module (SRM) or the PXM1E UNI/NNI back card. This command can be used for a working line or a protection line.
See the addapsln description for an explanation of automatic protection switching (APS).
dspapsln <working-slot.bay.line>
addapsln, cnfapsln, delapsln, dspapslns, switchapsln, dspapsbkplane, clrbecnt, dspbecnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display APS Lines—PXM45, PXM1E
The dspapslns command displays all working and protection APS lines on a card. After identifying a particular APS line, you can use dspapsln to view details about the line.
See the addapsln command for an explanation of Automatic Protection Switching (APS).
dspapslns
This command takes no parameters.
addapsln, cnfapsln, delapsln, dspapsln, switchapsln, dspapsbkplane, clrbecnt, dspbecnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display ATM Addresses—PXM45, PXM1E
The output of dspatmaddr includes configured ATM addresses, configured ILMI address prefixes, and ATM addresses registered by way of the ILMI address registration procedure.
dspatmaddr <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
dspaddr
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Display the ATM addresses and prefixes on port 2:1.1:1.
Geneva.7.PXM.a > dspatmaddr 2:1.1:1
Port Id: 2.1
Configured Port Address(es):
39.840f.8011.3744.0000.0040.1005.3456.7834.7777.77
length: 160 type: internal proto: local
scope: 0 plan: nsap-dcc redistribute: false
ILMI Configured Port Prefix(es):
47.0091.8100.0000.0000.0ca7.9e01
88.8888.8888.0000.0000.0000.0000
ILMI Registered Port Address(es):
47.0091.8100.0000.0000.0ca7.9e01.1234.5678.9012.34
88.8888.8888.0000.0000.0000.0000.1234.5678.9012.34
length: 160 type: internal proto: local
scope: 0 plan: nsap-dcc redistribute: false
Geneva.7.PXM.a >
Display ATM IMA Group—PXM1E
The dspatmimagrp command displays the ATM payload scramble enable for an IMA group. The command that lets you enable or disable payload scrambling is cnfatmimagrp. The setting applies to all links in an IMA group.
dspatmimagrp <group>
group |
The group identifier consists of a bay number as well as a group number in the format bay.group, as follows: • • |
cnfatmimagrp
Log: yes |
State: active |
Privilege: ANYUSER |
Display the payload scrambling enable status for IMA group 1.
PXM1E.7.PXM.a > dspatmimagrp 2.1
Group HCScoset PayloadScramble
------- --------- ---------------
2.1 Enable Enable
PXM1E-IMA-227.7.PXM.a >
Display ATM Line—PXM45, PXM1E
Displays the cell header configuration for the line that was set using cnfatmln. The display indicates NNI or UNI cell headers.
Note In the current release, this command does not apply to a PXM45.
dspatmln <X.line>
cnfatmln, clratmlncnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the ATM line configuration for line 1 on the PXM1E UNI.NNI card.
Unknown.8.PXM.a > dspatmln 2.1
LineNum HCScoset PayloadScramble NullCellHdr NullCellPayload
------- --------- --------------- ----------- ---------------
? Enable Enable 0x00000001 6a
Unknown.8.PXM.a >
Display Bit Error Count—PXM45, PXM1E
The dspbecnt command displays the APS-related bit error counters.
dspbecnt <working-slot.bay.line>
addapsln, clrbecnt, cnfapsln, delapsln, dspapsln, dspapslns, switchapsln, dspapsbkplane
Log: no |
State: active |
Privilege: ANYUSER |
MGX8850.7.PXM1EE.a > dspbecnt 7.2.9
Working Section 1 7.2.9 :
24 Hour Bit Error Count 0
15 Minute Bit Error Count 130
15 Second Bit Error Count 0
Working Section 2 8.2.9 :
24 Hour Bit Error Count 0
15 Minute Bit Error Count 30413
15 Second Bit Error Count 2307
Display Bit Error Rate Test—PXM45, PXM1E
The dspbert command lets you display the configuration and current data for a bit error rate test (BERT). Only one BERT session at a time can run in a particular bay. A dspbert command also runs on the AXSM-E. Refer to that description for BERT on an AXSM-E.
The information this command displays is as follows:
•The user Id of the person who started the BERT session
•Start date and time
•Current date and time
•Physical slot number running BERT
•Line number
•Port number, if applicable (port is an optional parameter for configuring a BERT session)
•DS0 speed
•Type of test
The screen layout includes the following:
•One or more rows for the results of the BERT: bit count, bit error count, bit error rate, and so on.
•Whether and how many times errors were injected.
dspbert <SMbay>
SMbay |
To specify a bay, enter one of the following numbers: • • For an MGX 8830 chassis, SMbay must be 0. |
addbert, delbert, dspbertcap
Log: no |
State: active |
Privilege: ANYUSER |
Display the BERT session in the lower bay. The target is line 1 of an FRSM in slot 25.
modena1.7.PXM.a > dspbert 1
Start Date : 05/07/2002
Current Date : 05/07/2002
Start Time : 15:41:11
Current Time : 16:15:00
Physical Slot Number : 25
Logical Slot Number : 25
Line Number : 1 (Line test)
Device To Loop : Local Loopback
BERT Pattern : All Zeroes Pattern
Error Inject Count : 0
Bit Count : 3107466159
Bit Count Received : 3107466159
Bit Error Count : 0
Bit Error Rate (BER) : 0
BERT is in sync.
Display BERT Capabilities—PXM45, PXM1E
The dspbertcap command lists the capability of a particular line or port on a service module to support specific BERT patterns or loopbacks. The numbers in the dspbertcap output are the possible pattern or loopback numbers you can provide to the cnfbert command. For example, a particular service module may support 12 of the 32 possible BERT patterns, so you would use the dspbertcap command for that service module to see what you can provide to the cnfbert command.
Only the SRME supports smart jack loopbacks, so the dspbertcap output for loopbacks shows where the capability requires an SRME.
Note The current release does not support DDS patterns.
dspbertcap <SM Interface> <Test Option>
dspbert, cnfbert
Log: no |
State: active |
Privilege: ANYUSER |
Determine the pattern list for line 1 of the card in slot 3. In this example, the card is an FRSM-2CT3.
pxm1e.7.PXM.a > dspbertcap 3.1 1
Pattern List:
-------------
1: allZeros, 2: allOnes, 3: altOneZero,
4: doubleAltOnesZeros 6: oneIn8, 8: threeIn24,
18: twoE9MinusOne, 20: twoE11MinusOne 21: twoE15MinusOne,
24: twoE20MinusOne, 25: twoE20MinusOneQRSS 28: twoE23MinusOne
Device to loop options supported:
---------------------------------
FarEnd Loopback: All listed patterns supported
12: lineInband, 13: lineLoopbackESF
18: smartJackInband -Supported only on SRME
Local Loopback: All listed patterns supported
14: localLoopback
No Loopback: All listed patterns supported
15: noLoopbackCode
Use cnfbert and delbert cli to configure and delete bert
Display the loopback capabilities of the same card and line.
pxm1e.7.PXM.a > dspbertcap 3.1 2
1: farEndLineLoopback: supported
12: lineInband, 13: lineLoopbackESF
17: smartJackInband - Supported only on SRME
3: remoteLineLoopback: supported
15: noCode
5: localLoopback: supported
15: noCode
Use addlpback and dellpback cli to add and delete loopback codes
Display the BERT capabilities of line 1 of the CESM in slot 20.
pxm1e.7.PXM.a > dspbertcap 20.1 1
Pattern List:
-------------
1: allZeros, 2: allOnes, 3: altOneZero,
4: doubleAltOnesZeros 6: oneIn8, 8: threeIn24,
18: twoE9MinusOne, 20: twoE11MinusOne 21: twoE15MinusOne,
24: twoE20MinusOne, 25: twoE20MinusOneQRSS 28: twoE23MinusOne
Device to loop options supported:
---------------------------------
FarEnd Loopback: All listed patterns supported
12: lineInband, 13: lineLoopbackESF
18: smartJackInband -Supported only on SRME
Local Loopback: All listed patterns supported
14: localLoopback
No Loopback: All listed patterns supported
15: noLoopbackCode
Use cnfbert and delbert cli to configure and delete bert
Display the loopback capabilities of line 1 of the CESM in slot 20.
pxm1e.7.PXM.a > dspbertcap 20.1 2
1: farEndLineLoopback: supported
12: lineInband, 13: lineLoopbackESF
17: smartJackInband - Supported only on SRME
3: remoteLineLoopback: supported
15: noCode
5: localLoopback: supported
15: noCode
Use addlpback and dellpback cli to add and delete loopback codes
pxm1e.7.PXM.a >
Display Backplane—PXM45, PXM1E
The dspbkpl command shows the following types of information about the backplane:
•Card type (a hexadecimal number)
•Chassis-level part number and revision number
•PCB 73-level part number
•Chassis serial number
•CLEI code
•PCB 28-level part number
dspbkpl
This command takes no parameters.
dspcd
Log: no |
State: active |
Privilege: ANYUSER |
Display details about the backplane.
Unknown.8.PXM.a > dspbkpl
BackPlane Information
---------------------
Card Type: 0x12b
Chassis 800-level P/N: 800-03145-07
Chassis 800-level rev: B0
PCB 73-level P/N: 73-3094-02
Chassis serial number: SAA03190530
CLEI CODE: IPMAABOARA
PCB 28-level P/N: 28-2681-02
Display Cellbus Clock—PXM45, PXM1E
The dspcbclk command displays the following for individual Cellbuses:
•The Cellbuses that support only the default clock rate of 21 MHz and the Cellbuses that support either 21 Mhz or 42 Mhz rates
•Whether an individual Cellbus is running at the standard rate of 21 MHz or the double-speed rate of 42 Mhz
•The card slots that reside on each of the eight Cellbuses
The application of dspcbclk and cnfcbclk is the clocking for the Route Processor Module Premium (RPM-PR). The RPM-PR runs much more efficiently at 42 Mhz, but not all card slots can receive this double-speed clock. Use dspcbclk to see which slots can receive 42 Mhz, then use cnfcbclk to configure the applicable Cellbus for double-speed clocking.
dspcbclk
This command takes no parameters.
cnfcbclk
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the current Cellbus clock configuration. The display shows that all Cellbuses currently have the default speed of 21 Mhz.
pop20two.8.PXM.a > dspcbclk
CellBus Rate (MHz) Slots Allowable Rates (MHz)
----------------------------------------------------------
CB1 21 1, 2 21, 42
CB2 21 3, 4 21, 42
CB3 21 5, 6 21, 42
CB4 21 17 - 22 21
CB5 21 9, 10 21, 42
CB6 21 11, 12 21, 42
CB7 21 13, 14 21, 42
CB8 21 25 - 30 21
Display Card—PXM45, PXM1E
The dspcd command displays card-level details. On a PXM, you can display information about the PXM or another card. On a service module, you can display details for only that service module. Different card types result in variations in the display. (See the Examples section.)
A list of information in the dspcd output follows. Refer to the Syntax Description and the Examples for additional details. In general, the display shows:
•Serial numbers.
•Front and back card types and the status of each.
•Runtime and boot firmware revision numbers. (See the loadrev description for an explanation of how to interpret the revision field.)
•Status, possibly including the reason for the last reset and state of the integrated alarm.
•When dspcd is entered on the CLI of a service module:
–A count of configured lines, ports, and connections
–Card-level SCT number
–The APS-related mode of an AXSM/A or AXSM/B (see the enableaxsmbaps description)
•On the PXM only:
–General node information, such as nodename, date, and time
–Crossbar status (PXM45 only—the PXM1E does not have crossbar ASICs)
–The version of firmware that is currently running
–Back card mismatch information if you specify a slot number
On a service module, the dspcd display shows the physical lines that constitute a port group and the maximum number of connections in that port group. A port group consists of one to many physical lines. This maximum connection count is a function of the line type (OC-3, OC-12, and so on). The port group information also shows the number of existing SVCs, SPVCs, and SPVPs. This part of the dspcd output can help you configure resource partitions by showing the maximum number of supported connections. If a particular resource partition has close to the maximum supported by hardware on a line, few or no connections would be possible in another partition on the same line.
Note The total number of connections in the dspcd output includes control VCs. The types of control VCs are SSCOP, PNNI-RCC, and ILMI (if ILMI is enabled). To see connection counts that do not include control VCs, use dsppnport.
dspcd [slot]
dspcds, dsppnport, dspversion
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display the current PXM45.
Note The "P1" at the end of the software revision and boot firmware revision numbers shows that these versions are pre-release. Refer to the loadrev or setrev description for details.
p2spvc14.8.PXM.a > dspcd
p2spvc14 System Rev: 03.09 Jan. 12, 2003 17:23:58 PST
MGX8850 Node Alarm: NONE
Slot Number 8 Redundant Slot: 7
Front Card Upper Card Lower Card
---------- ---------- ----------
Inserted Card: PXM45B UI Stratum3 PXM HardDiskDrive
Reserved Card: PXM45B UI Stratum3 PXM HardDiskDrive
State: Active Active Active
Serial Number: SBK050302AM 00000000 SBK04400089
Prim SW Rev: 3.9(7.44)A --- ---
Sec SW Rev: 3.9(7.44)A --- ---
Cur SW Rev: 3.9(7.44)A --- ---
Boot FW Rev: 3.9(6.6)A --- ---
800-level Rev: B3 01 A0
800-level Part#: 800-06147-08 800-98765-43 800-05052-04
CLEI Code: BAA670YCAA 00000000 BA7IADNAAA
Reset Reason: On Reset From Shell
Card Alarm: NONE
Failed Reason: None
Miscellaneous Information:
Type <CR> to continue, Q<CR> to stop:
p2spvc14 System Rev: 03.09 Jan. 12, 2003 17:23:58 PST
MGX8850 Node Alarm: NONE
Crossbar Slot Status: Present
Alarm Causes
------------
NO ALARMS
Backcard Mismatch Reasons
-------------------------
Upper Card
----------
NO MISMATCH
Lower Card
----------
NO MISMATCH
p2spvc14.8.PXM.a >
Display the AXSM in slot 1.
p2spvc14.8.PXM.a > dspcd 1
p2spvc14 System Rev: 03.09 Jan. 12, 2003 17:28:36 PST
MGX8850 Node Alarm: NONE
Slot Number: 1 Redundant Slot: NONE
Front Card Upper Card Lower Card
---------- ---------- ----------
Inserted Card: AXSM_16OC3_B MMF-8-OC3-MT/B MMF-8-OC3-MT/B
Reserved Card: AXSM_16OC3 MMF_8_OC3_MT MMF_8_OC3_MT
State: Active Active Active
Serial Number: SAG06152U8K SAG06031N0H SAG06122G6Z
Prim SW Rev: 3.9(7.44)A --- ---
Sec SW Rev: 3.9(7.44)A --- ---
Cur SW Rev: 3.9(7.44)A --- ---
Boot FW Rev: 3.9(7.22)A --- ---
800-level Rev: A0 A0 B0
800-level Part#: 800-07909-08 800-07120-02 800-07120-02
CLEI Code: BAA5HL5CAD BAA75SZBAA BAA75SZBAA
Reset Reason: On Power up
Card Alarm: NONE
Failed Reason: None
Miscellaneous Information:
Crossbar Slot Status: Present
Alarm Causes
------------
NO ALARMS
Backcard Mismatch Reasons
-------------------------
Upper Card
----------
NO MISMATCH
Lower Card
----------
NO MISMATCH
p2spvc14.8.PXM.a >
The following example is added to illustrate the difference between service module information as it appear on the PXM45 and the service module itself. It starts with a cc to the AXSM.
8850_LA.7.PXM.a > cc 1
(session redirected)
M8850_LA.1.AXSM.a > dspcd
Front Card Upper Card Lower Card
---------- ---------- ------------
Card Type: AXSM-4-622 SMFIR-2-622 SMFIR-2-622
State: Active Present Present
Serial Number: SAK0350007N SAK0346003F SBK043902FE
Boot FW Rev: 3.9(6.1)P1 --- ---
SW Rev: 3.9(6.1)P1 --- ---
800-level Rev: 09 13 A1
Orderable Part#: 800-05774-05 800-05383-01 800-05383-01
PCA Part#: 73-4504-2 73-4125-1 73-4125-1
CLEI Code: BAA1BADAAA 0000000000 BAI9ADTAAA
Reset Reason: Power ON Reset
Card Operating Mode: AXSM-A
SCT File Configured Version: 1
SCT File Operational Version: 1
Card SCT Id: 5
#Lines #Ports #Partitions #SPVC #SPVP #SVC
------ ------ ----------- ------- ------- -------
3 2 4 0 0 4
Port Group[1]:
#Chans supported:32512 Lines:1.1
Port Group[2]:
#Chans supported:32512 Lines:1.2
Port Group[3]:
#Chans supported:32512 Lines:2.1
Port Group[4]:
#Chans supported:32512 Lines:2.2
M8850_LA.1.AXSM.a >
The controller in this example is a PXM1E. Display first the card in slot 31 then the card in slot 32, the SRM slots. For slot 31 (the logical slot), note that the "Inserted Card" field in the Front Card columns is blank, The second display shows that an SRM exists in slot 32.
Unknown.8.PXM.a > dspcd 31
Unknown System Rev: 03.00 May. 09, 2002 22:58:51 GMT
MGX8850 Node Alarm: MAJOR
Slot Number 31 Redundant Slot: 32
Front Card Back Card
---------- ---------
Inserted Card: --- SMFIR_1_155
Reserved Card: UnReserved UnReserved
State: Empty Active
Serial Number: LKJHGFDSAPO SAG053355HF
Prim SW Rev: --- ---
Sec SW Rev: --- ---
Cur SW Rev: --- ---
Boot FW Rev: --- ---
800-level Rev: 02 02
800-level Part#: --- 800-14460-02
CLEI Code: --- ZZXXCCVVBB
Reset Reason: On Power up
Card Alarm: NONE
Failed Reason: None
Miscellaneous Information:
Unknown System Rev: 03.00 May. 09, 2002 22:58:51 GMT
MGX8850 Node Alarm: MAJOR
Crossbar Slot Status: No Crossbar
Alarm Causes
------------
NO ALARMS
Unknown.8.PXM.a > dspcd 32
Unknown System Rev: 03.00 May. 09, 2002 22:59:06 GMT
MGX8850 Node Alarm: MAJOR
Slot Number 32 Redundant Slot: 31
Front Card Back Card
---------- ---------
Inserted Card: SRME_OC3 SMFIR_1_155
Reserved Card: UnReserved UnReserved
State: Active Active
Serial Number: ABCDEFGHIJK SAG053355H1
Prim SW Rev: --- ---
Sec SW Rev: --- ---
Cur SW Rev: --- ---
Boot FW Rev: --- ---
800-level Rev: 33 02
800-level Part#: 800-23700-02 800-14460-02
CLEI Code: QWERTYYUIO AASSDDFFGG
Reset Reason: On Reset From Shell
Card Alarm: NONE
Failed Reason: None
Miscellaneous Information:
Unknown System Rev: 03.00 May. 09, 2002 22:59:06 GMT
MGX8850 Node Alarm: MAJOR
Crossbar Slot Status: No Crossbar
Alarm Cause
NO ALARMS
Display the active PXM1E then the standby card. The display shows that one lower back card is missing.
jan-4oc3.7.PXM.a > dspcd
jan-4oc3 System Rev:03.09 Sep. 11, 2002
15:07:29 PDT
MGX8850 Node Alarm:MAJOR
Slot Number 7 Redundant Slot: 8
Front Card Upper Card Lower Card
---------- ---------- ----------
Inserted Card: PXM1E-4-155 UI Stratum3 SMFIR_4_OC3
Reserved Card: PXM1E-4-155 UI Stratum3
BC_SMFLR_4_OC3
State: Active Active Active
Serial Number: SAG05385FE5 SBK043000TK SAG05435ZB8
Prim SW Rev: 3.0(1.39)P1 --- ---
Sec SW Rev: 3.0(1.39)P1 --- ---
Cur SW Rev: 3.0(1.39)P1 --- ---
Boot FW Rev: 3.0(1.9)P1 --- ---
800-level Rev: E2 A0 02
800-level Part#: 800-18588-02 800-05787-02 800-18664-01
CLEI Code: 0 BA7IBCLAAA 0
Reset Reason: On Reset From Shell
Card Alarm: MAJOR
Failed Reason: None
Miscellaneous Information:
Crossbar Slot Status: EMPTY
Alarm Causes
------------
Channel :ALARM
Backcard Mismatch Reasons
-------------------------
Upper Card
----------
NO MISMATCH
Lower Card
----------
NO MISMATCH
Display the standby PXM1E.
jan-4oc3.7.PXM.a > dspcd 8
jan-4oc3 System Rev:03.09 Sep. 11, 2002
15:07:51 PDT
MGX8850 Node Alarm:MAJOR
Slot Number 8 Redundant Slot: 7
Front Card Upper Card Lower Card
---------- ---------- ----------
Inserted Card: PXM1E-4-155 UI Stratum3 ---
Reserved Card: PXM1E-4-155 UI Stratum3
BC_SMFLR_4_OC3
State: Standby Active Empty Resvd
Serial Number: SAG05385FFH SBK043300ET ---
Prim SW Rev: 3.0(1.39)P1 --- ---
Sec SW Rev: 3.0(1.39)P1 --- ---
Cur SW Rev: 3.0(1.39)P1 --- ---
Boot FW Rev: 3.0(10.118)P2 --- ---
800-level Rev: 02 A0 ---
800-level Part#: 800-18588-02 800-05787-02 ---
CLEI Code: BA7IBCLAAA ---
Reset Reason: On Reset From Shell
Card Alarm: MAJOR
Failed Reason: None
Miscellaneous Information:
Crossbar Slot Status: EMPTY
Alarm Causes
------------
Reserved Back Card Missing :ALARM
Card State :ALARM
Backcard Mismatch Reasons
-------------------------
Upper Card
----------
NO MISMATCH
Lower Card
----------
NO MISMATCH
Display Card Alarms—PXM45, PXM1E
Use dspcdalms to display alarms that have been reported by any of the following:
•A service module (a service module also reports LMI alarms)
•Applications on the PXM that detect service module alarms (by slot)
•The PXM1E UNI.NNI back card
•A Service Resource Module (SRM)
If dspcdalms shows an alarm for one of the following parts of a card, you can cc to that card and use one of the following commands:
•Line (dsplns and dspln)
•Port (dspports and dspport)
•LMI (dsplmi, dspfdr, dspfdrs, and dspfdrstat)
•Connection (dspcons and dspcon) on a service module or PXM1E UNI/NNI back card
•Channel (dspchans or dspchan on a PXM1E only)
A service module can report alarms for all of the preceding categories. In addition to the preceding commands, you can also use dspalm and dspalms on a service module. A PXM1E UNI/NNI back card can report all preceding categories.
The shelf manager reports hardware, card state, and disk alarms. For example, the shelf manager may detect an alarm for the hardware in a service module slot, or running dspcdalms on the standby PXM may report a hard disk problem. See Example section.
Note The feeder alarms fit in the category of LMI alarms. See Example section for an illustration. If the switch has a feeder and the dspcdalms commands shows an LMI alarm, try the feeder-specific commands to check for feeder problems. If no feeder alarm is detected, use the dsplmi command.
The definition of each alarm severity comes from Bellcore TR-NWT-000474. An alarm can be:
•Critical, indicating complete, non-recoverable failure, loss of data, and do on. The failed entity must be restored. A power failure or a disconnected line is an example.
•Major, indicating service-affecting errors. This event indicates that a major service is damaged or lost, but the existing traffic is not affected.
•Minor, indicating non-service affecting errors or errors on a remote node. Corrective action is appropriate to prevent a serious fault from developing. An example is a fan failure, where no subscribers are immediately affected, but calamity could result if the situation persists. Note that an accumulation of lower-level alarms does equal a higher-level alarm.
The dspcdalms command is part of a hierarchy of troubleshooting commands. Frequently, dspcdalms follows the higher-level command dspndalms.
dspcdalms [slot]
slot identifies a particular slot.
PXM45: dspcdstatus, dspndalms, dspswalms, dspclkalms
PXM1E: dspcdstatus, dspndalms, dspswalms, dspclkalms, dspalm, dspalms
Log: no |
State: active |
Privilege: ANYUSER |
Display card-level alarms for the card in slot 5.
M8850_LA.8.PXM.a > dspcdalms 5
Card Alarm Summary
Alarm Type Critical Major Minor
---------- -------- ------- -------
Hardware Alarm 0 0 0
Card State Alarm 0 0 0
Disk Alarm 0 0 0
SRM Alarm 0 0 0
Line Alarm 1 0 0
Port Alarm 0 0 0
LMI Alarm 0 0 0
Channel Alarm 0 0 0
M8850_LA.8.PXM.a >
Display card alarms without specifying a slot.
M8850_LA.8.PXM.a > dspcdalms
Card Alarm Summary
Slot Critical Major Minor || Slot Critical Major Minor
---- -------- ------- ------- || ---- -------- ------- -------
1 0 0 0 || 17 0 0 0
2 0 0 0 || 18 0 0 0
3 0 1 0 || 19 0 0 0
4 0 0 0 || 20 0 0 0
5 1 0 0 || 21 0 0 0
6 0 0 0 || 22 0 0 0
7 0 0 0 || 23 0 0 0
8 0 0 0 || 24 0 0 0
9 0 0 0 || 25 0 0 0
10 0 0 0 || 26 0 0 0
11 0 0 0 || 27 0 0 0
12 0 0 0 || 28 0 0 0
13 0 0 0 || 29 0 0 0
14 0 0 0 || 30 0 0 0
15 0 0 0 || 31 0 0 0
16 0 0 0 || 32 0 0 0
Use dspcdalms <slot> to see more detail.
Display Card Errors—PXM45, PXM1E
Display information about card errors.
dspcderrs
clrerr
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display all card errors.
wilco.7.PXM.a > dspcderrs
dspcderrs
08/05/95-18:53:05 tRootTask 3 Task failed : scm
09/05/95-09:14:08 tRootTask 3 Task failed : scm
value = 0 = 0x0
wilco.7.PXM.a >
Display Card Health—PXM45, PXM1E
The dspcdhealth command displays a list of trouble conditions on a PXM and suggested remedies. The valid targets are PXMs. You can specify either the current PXM or the other PXM.
dspcdhealth [slot]
slot |
The slot number is one of the following: • • |
None
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
The first example shows a PXM with only one problem.
London21.7.PXM.a > dspcdhealth 7
* PXM Failed for the following reasons:
* Fail Recovery
* Reason Method
* ====== =================
* 1. BRAM Clr Valid Replace PXM Front Card
The second example shows an extensive list of trouble conditions.
London21.7.PXM.a > dspcdhealth 7
* PXM Failed for the following reasons:
* Fail Recovery
* Reason Method
* ====== =================
* 1. BRAM Clr Valid Replace PXM Front Card
* 2. BRAM Read Valid shellConn cmd: shmRecoverRbldDisk or shmRecoverClrallcnf
* 3. BRAM Ver Mismatch shellConn cmd: shmRecoverRbldDisk or shmRecoverClrallcnf
* 4. Disk Read Valid shellConn cmd: shmRecoverClrallcnf
* 5. Disk Ver Mismatch shellConn cmd: shmRecoverClrallcnf
* 6. Disk Not Synch shellConn cmd: shmRecoverClrallcnf
* 7. BRAM access failure Replace PXM Front card
* 8. FC Mismatch Program FC NVRAM or Replace FC
* 9. FC NVRAM Read Fail Program FC NVRAM or Replace FC
* 10. Image Mismatch Load right image
* 11. BRAM Non Native CLI cmd: forcecdnative
* 12. Disk Non Native CLI cmd: forcecdnative
* 13. Disk Access Fail Reseat the Disk/FC or Replace Disk
* 14. Lower BC NVRAM Read Program its NVRAM or Replace it
* 15. Upper BC NVRAM Read Program its NVRAM or Replace it
* 16. Lower BC Mismatch Program its NVRAM or Replace it
* 17. Upper BC Mismatch Insert a lower BC
* 18. Lower BC Missing Program its NVRAM or Replace it
* 19. Upper BC Missing Insert an upper BC
* 20. Software ver. mismatch Load correct version image
* 21. Memory Init Fail CLI cmd: resetcd
* 22. Timer Init Fail CLI cmd: resetcd
* 23. EPID Init Fail CLI cmd: resetcd
* 24. HW Init Fail Re-seat the card
Display Cards—PXM45, PXM1E
Displays high-level information for all the cards in the node. For more detailed information about a card, execute dspcd on the CLI of that card. The information that dspcds provides is the:
•Revision level of the boot firmware
•Revision level of the system software
•Date and time of command execution, including GMT offset
•Backplane serial number and its hardware revision level
•Type of card in the front and back slots and the (active/standby) state of each
•Alarm status for each card and the shelf itself
•Redundancy configuration for each slot
dspcds
dspcd, dspred, dspversion
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display the cards in the current MGX 8830 switch.
Unknown.1.PXM.a > dspcds
Unknown System Rev: 03.00 Mar. 01, 2002 20:19:31 GMT
Chassis Serial No: SCA053000KM Chassis Rev: A0 GMT Offset: 0
Node Alarm: CRITICAL
Card Front/Back Card Alarm Redundant Redundancy
Slot Card State Type Status Slot Type
--- ---------- -------- -------- ------- -----
01 Active/Active PXM1E-4-155 CRITICAL 02 PRIMARY SLOT
02 Standby/Active PXM1E-4-155 NONE 01 SECONDARY SLOT
03 Active/Empty RPM_PR NONE NA NO REDUNDANCY
04 Active/Active FRSM_2CT3 NONE NA NO REDUNDANCY
05 Boot/Empty FRSM_2CT3 NONE NA NO REDUNDANCY
06 Boot/Empty CESM_8T1 NONE NA NO REDUNDANCY
07 Active/Active SRM_3T3 NONE 14 PRIMARY SLOT
11 Active/Active VISM_PR_8T1 MINOR 12 PRIMARY SLOT
12 Standby/Active VISM_PR_8T1 NONE 12 SECONDARY SLOT
13 Boot/Empty AUSMB_8T1 NONE NA NO REDUNDANCY
14 Standby/Active SRM_3T3 NONE 07 SECONDARY SLOT
Unknown.1.PXM.a >
Display information for all cards in the MGX 8850 switch. Note that the card state for the RPM in
slot 9 is "Active/Active." Although the dspcds command shows the presence of the back card, the dspcd command does not have the ability to show what type the back card is (so it just shows "Unknown").
M8850_LA.8.PXM.a > dspcds
M8850_LA System Rev: 03.00 Feb. 21, 2002 20:12:33 PST
Chassis Serial No: SAA03230375 Chassis Rev: B0 GMT Offset: -8
Node Alarm: CRITICAL
Card Front/Back Card Alarm Redundant Redundancy
Slot Card State Type Status Slot Type
--- ---------- -------- -------- ------- -----
01 Active/Active AXSM_4OC12 NONE 02 PRIMARY SLOT
02 Standby/Active AXSM_4OC12 NONE 01 SECONDARY SLOT
03 Active/Active AXSM_16T3E3 MAJOR NA NO REDUNDANCY
04 Empty --- --- --- ---
05 Active/Active AXSME_2OC12 CRITICAL NA NO REDUNDANCY
06 Active-U/Active AXSM_16OC3_B NONE NA NO REDUNDANCY
07 Standby/Active PXM45 NONE 08 PRIMARY SLOT
08 Active/Active PXM45 NONE 07 SECONDARY SLOT
09 Active/Active RPM_PR NONE NA NO REDUNDANCY
10 Empty --- --- --- ---
11 Empty --- --- --- ---
12 Empty --- --- --- ---
13 Empty --- --- --- ---
14 Empty --- --- --- ---
20 Empty --- --- --- ---
26 Empty --- --- --- ---
27 Empty --- --- --- ---
28 Empty --- --- --- ---
29 Empty --- --- --- ---
30 Empty --- --- --- ---
Display information for all cards in the current MGX 8950 switch. Note that an XM60 has no back card, so the display shows "Empty" for the back card position.
M8950_DC.7.PXM.a > dspcds
M8950_DC System Rev: 02.01 Nov. 28, 2001 14:46:29 PST
Chassis Serial No: SCA0504043H Chassis Rev: A0 GMT Offset: -8
Node Alarm: MAJOR
Card Front/Back Card Alarm Redundant Redundancy
Slot Card State Type Status Slot Type
--- ---------- -------- -------- ------- -----
01 Active/Active AXSM_4OC12 NONE NA NO REDUNDANCY
02 Active/Active AXSM_4OC12 NONE NA NO REDUNDANCY
03 Empty --- --- --- ---
04 Empty --- --- --- ---
05 Active/Active AXSM_1OC48_B NONE NA NO REDUNDANCY
06 Empty --- --- --- ---
07 Active/Active PXM45B NONE 08 PRIMARY SLOT
08 Empty Resvd/Empty --- MAJOR 07 SECONDARY SLOT
09 Active/Empty XM_60 NONE NA NO REDUNDANCY
10 Active/Empty XM_60 NONE NA NO REDUNDANCY
11 Empty --- --- --- ---
12 Empty --- --- --- ---
13 Empty --- --- --- ---
14 Empty --- --- --- ---
15 Empty --- --- --- ---
16 Empty --- --- --- ---
25 Active/Empty XM_60 NONE NA NO REDUNDANCY
26 Active/Empty XM_60 NONE NA NO REDUNDANCY
Display Card Statistics Configuration—PXM1E
The dspcdstatcnf command displays the configuration of the card-level bucket statistics for the PXM1E. See the cnfcdstat description for details on this configuration. The configuration controls the generation of bucket statistics that are transferred to the Cisco WAN Manager (CWM) via FTP.
dspcdstatcnf
No Parameters |
cnfcdstat
Log: no |
State: active |
Privilege: ANYUSER |
Display the statistics configuration on the current PXM1E.
MGX8850.7.PXM1E.a > dspcdstatcnf
Bucket Interval : fifteen
Collection Interval : five
Stats Level : 2
TFTP Statistics : enable
Display Card Status—PXM45, PXM1E
The dspcdstatus command shows the most serious alarms reported by a card. The alarm information pertains to:
•Lines
•Ports
•Connections
•Crossbar planes (does not apply to PXM1E)
•Local management interface (LMI)
•Severity of each alarm
You can use this command to isolate the alarm source if, for example, you see that a Critical Alarm LED is lit or just want to check the node for alarms. You can subsequently use other alarm commands to locate the problem. Some alarm commands run on only the PXM, and other commands run on service modules. In addition to the dspcdstatus command, other commands on the PXM are as follows:
•dspndalms displays various types of alarms on the node from a high-level perspective. With the information in the dspndalms display, you can select one of the other commands to investigate the alarm further.
•dspcdalms identifies line, port, LMI, or connection alarms on a PXM1E UNNI/NNI or an AXSM.
•dspclkalms shows alarms related to network clocks.
•dspenvalms lists alarms for out-of-range conditions for temperature, voltage sources, and so on.
•dspswalms shows alarms related to the switching hardware on the PXM.
The alarm monitoring function on a PXM uses two criteria to determine which alarm to display. One criterion is alarm severity, and the other is hierarchy.
The definition of each alarm severity comes from Bellcore TR-NWT-000474. An alarm can be:
•Critical, indicating complete, non-recoverable failure, loss of data, and do on. The failed entity must be restored. A power failure or a line being disconnected is an example.
•Major, indicating service-affecting errors. This event indicates that a major service is damaged or lost, but the existing traffic is not affected.
•Minor, indicating non-service affecting errors or errors on a remote node. Corrective action is appropriate to prevent a serious fault from developing. An example is a fan failure, where no subscribers are immediately affected, but calamity could result if the situation persists. Note that an accumulation of lower-level alarms does equal a higher-level alarm.
See Figure 2-10 for the hierarchy of alarms. Note that, although the card alarms appear to apply to only service modules, this category can also apply to the PXM. Not all alarms in this figure apply to all platforms. For example:
•Crossbar alarms and LMI alarms do not apply to the PXM1E.
•LMI alarms, SRM alarms, and IMA alarms do not apply to the MGX 8950 switch.
Figure 2-10 Alarm Type Hierarchy
Note The alarm monitoring function reports the highest status alarm after it sorts the current alarms first by severity then by hierarchy. The dspcdstatus command reports the alarm of the greatest severity. (For example, if a major alarm exists on a line and a major power alarm exists, the dspcdstatus command displays the power alarm as the highest status alarm.) To see all card alarms, use the dspcdalms command.
dspcdstatus <slot_number>
This command requires a slot number.
dspndalms, dspcdalms, dspenvalms, dspclkalms, dspswalms, dspalm, dspalms
Log: no |
State: active |
Privilege: ANYUSER |
Display status of slot 11. The display shows a critical line alarm for slot 11. Next, cc to slot 11 and use the dspalms command.
Golden_U2.8.PXM.a > dspcdstatus 11
Logical Slot 11 Physical Slot 11
Card Alarm Status - Type LINE Severity CRITICAL
The display for dspalms shows that line 1 in bay 1 has LOS. (This example shows only the alarmed line. A complete display shows the status of all lines.)
Golden_U2.11.AXSM.a > dspalms
Line Number: 1.1
Alarm State
Section : LOS,LOF
Line : AIS
Path : RDI
Display card status on the active PXM1E. Investigate further with the dspalms command (whose output display is truncated in this example).
PXM1E-227.7.PXM.a > dspcdstatus 7
Logical Slot 7 Physical Slot 7
Card Alarm Status - Type IMA Severity CRITICAL
PXM1E-227.7.PXM.a > dspalms
---------------------------------------------
Line Number : 2.1
Alarm State : XmtFarEndLOF,LOF,LOS
LOCD Alarm State : LOCD
Line Number : 2.2
Alarm State : XmtFarEndLOF,LOF,LOS
LOCD Alarm State : LOCD
Line Number : 2.3
Alarm State : XmtFarEndLOF,LOF,LOS
LOCD Alarm State : LOCD
Line Number : 2.4
Alarm State : XmtFarEndLOF,LOF,LOS
LOCD Alarm State : LOCD
Line Number : 2.5
Alarm State : Clear
LOCD Alarm State : Clear
Line Number : 2.6
Alarm State : Clear
Type <CR> to continue, Q<CR> to stop:
Display CDVT Default—PXM45, PXM1E
The dspcdvtdft command displays the default CDVT for a PNNI port.
dspcdvtdft <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
dspcdvtdft, cnfcdvtdft
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the CDVT defaults for port 11:1.1:11.
Geneva.7.PXM.a > dspcdvtdft 11:1.1:11
cbr: rt-vbr: nrt-vbr: ubr: abr:
CDVT: 250000 250000 250000 250000 250000
Display Channel—PXM1E
The dspchan command displays a provisioned connection on the PXM1E UNI/NNI back card. The viewpoint of the display is that of a VSI slave. To display a connection from the VSI master side, use the dsppncon or dspcon command on the PXM1E.
The contents of the dspchan output are as follows:
•NSAP address, logical port, VPI/VCI, status, and ownership of local and remote ends of the connection. The display shows whether a particular endpoint is the master or slave.
The provisioning parameters in the display show:
•Connection type of VPC or VCC.
•Service type (for example, ABR).
•Whether the slave endpoint is persistent or non-persistent
•A number indicating the controller. For example, 2 refers to PNNI. (See the addcontroller description for information on this controller ID and why 2 refers to PNNI.)
•The administrative state is either up or down. This state results from addcon or dncon/upcon. Note that, after you down a connection with at the connection master endpoint, the dspchan command shows the connection as "down" when you execute it at the master endpoint and "failed" when you execute it at the slave endpoint. (See also dncon description).
•The operational state is either OK or failed. The operational state can apply to a connection regardless of the administrative state.
The traffic management parameters consist of:
•Local and remote UPC parameters of PCR, MBS, CTD, CDVT, and so on. A -1 in a field means that the parameter was not specified. The characters "N/A" indicate that the parameter does not apply to the service type.
These other fields also pertain to connection integrity:
•OAM continuity check enable or disable.
•Loopback test enable/disable and loopback type.
•Round trip delay in microseconds. This field is non-zero only if you previously executed tstdelay.
dspchan <ifNum> <vpi> <vci>
ifNum |
The range for interface number is 1-31. |
vpi |
The range for VPI is 0-4095. |
vci |
The range for VCI is 1-65535. |
dspchans, dsppncons, addcon
Log: no |
State: active |
Privilege: ANYUSER |
Display the channel on logical port 1 with the VPI and VCI of 20 and 200, respectively.
Janus11.7.PXM.a > dspchan 1 20 200
--------------------------------------------------------------------------
Local : NSAP Address vpi vci
(M) 4700918100000000001A531C59000001073B0100 20 200
Remote : NSAP Address vpi vci
(S) 4700918100000000001A531C59000001073B1400 20 200
--------------------------------------------------------------------------
Conn. Type : VCC Admn Status : ADMN-UP
Service Type : cbr1 Oper Status : OK
Controller : 2 Record # : 7
SlavePersist : YES
--------------------------------------------------------------------------
Local PCR : 50 Remote PCR : 50
Local SCR : N/A Remote SCR : N/A
Local CDV : -1 Remote CDV : -1
Local CTD : -1 Remote CTD : -1
Local MBS : N/A Remote MBS : N/A
Max Cost : -1 Frame discard: DISABLED
Local CDVT : 250000 OAM segment : ENABLED
Local PercentUtil: 100 Remote PercentUtil: 100
Priority : 8
--------------------------------------------------------------------------
OAM CC Config : DISABLED Statistics : DISABLED
--------------------------------------------------------------------------
Loopback Type :No Lpbk | Dir:N/A | Status:No Lpbk | RTD: 0us
--------------------------------------------------------------------------
--------------------------------------------------------------------------
Port side Tx : normal Swth side Tx : normal
Port side Rx : normal Swth side Rx : normal
--------------------------------------------------------------------------
Ing-E2E-AIS ING-SEG-AIS Ing-E2E-RDI Ing-SEG-RDI
NO NO NO NO
--------------------------------------------------------------------------
Egr-E2E-AIS Egr-SEG-AIS Egr-E2E-RDI Egr-SEG-RDI
NO NO NO NO
--------------------------------------------------------------------------
Ing-E2E-CCFAIL Ing-SEG-CCFAIL Egr-E2E-CCFail Egr-SEG-CCFail
--- --- --- ---
--------------------------------------------------------------------------
CONDITIONED IfFail Mismatch LMI-ABIT
NO NO NO NO
--------------------------------------------------------------------------
Display Channel Counters—PXM1E
The dspchancnt command displays the statistical counters for a connection (or channel). See the cnfdiag command for a description of the related diagnostics.
dspchancnt <ifNum> <vpi> <vci> -r <dsp interval> -max <max dsp time>
clrchancnt, dspcdcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
On the PXM1E, display channel counters as indicated on the command line:
OC38830.1.PXM.a > dspchancnt 1 10 100
Ingress chan stat Egress chan stat
-------------------------------------- --------------------------------------
All non-compliant cells : 0
CLP1 non-compliant : 0
CLP0 non-compliant : 0
CLP0 -> CLP1 : 0
Cells from port
(Before policing) : 0 Cells to port : 0
CLP0 from port : 0 CLP0 to port : 0
CLP1 from port : 0 CLP1 to port : 0
Cells to network : 0 Cells from network : 0
Cells discarded in qe : 0 Cells discarded in qe : 0
VC queue depth : 0 VC queue depth : 0
Display Channels—PXM1E
The dspchans command shows all provisioned connections on the PXM1E's UNI/NNI back card. Due to the potentially large number of connections, the parameters let you narrow the scope of the display.
The viewpoint of the display is that of a VSI slave. To display all provisioned connections from the VSI master side, use the dspcons command on the PXM1E.
The contents of the dspchans output are as follows:
dspchans [-conn <conn id>] [-filt <filter options>] [-if <intf no>] [-vpi <vpi filter>] [-vci <vci filter>]
dspchan, dspcons, dsppncon
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display all provisioned connections.
Unknown.8.PXM.a > dspchans
record Identifier Type SrvcType M/S Upld Admn Alarm
------ ---------- ---- -------- --- ---- ---- -----
7 01 0020 00200 VCC cbr1 M c09bb734 UP none
5 01 0055 00050 VCC cbr1 M c0180af9 UP none
2 01 0088 00040 VCC cbr1 S c017f2c8 UP none
6 20 0020 00200 VCC cbr1 S c09bb728 UP none
4 25 0055 00050 VCC cbr1 S c0180aef UP none
0 28 0088 00035 VCC cbr1 S be08afc4 UP none
1 28 0088 00036 VCC cbr1 M be08b01c UP none
3 28 0088 00040 VCC cbr1 M c017f2d0 UP none
Display Channel Tests—PXM1E
The tstdelay or tstconseg commands test the integrity of the path of a connection in the ingress and egress directions, respectively. After you successfully start a test through tstdelay or tstconseg, the returned message directs you to use dspchantests or dspcon to see the results. The same test results presented by dspchantests appears in the dspcon display, but dspchantests shows only the test results.
dspchantests <ifNum> <vpi> <vci> [-num <count>]
tstdelay, tstconseg, dspcon
Log: no |
State: active, standby |
Privilege: ANYUSER |
Run tstdelay on connection 1 10 100 then display the results.
Step 1 Execute tstdelay:
node19.7.PXM1E.a > tstdelay 1 10 100
Test started; Use dspcon/dspchantests to see test results
Step 2 Check the results:
node19.7.PXM1E.a > dspchantests 1 10 100
Connection Id Test Type Direction Result Round Trip Delay
============= ========= ========= ======= ================
01.0010.00100: OAM Lpbk ingress Success 40000
Run tstconseg for 1 10 100 then display the results.
Step 1 Run the test for 1 10 100:
node19.7.PXM1E.a > tstconseg 1 10 100
Test started; Use dspcon/dspchantests to see test results
Step 2 Check the results:
node19.7.PXM1E.a > dspchantests 1 10 100
Connection Id Test Type Direction Result Round Trip Delay
============= ========= ========= ======= ================
01.0010.00100: OAM Lpbk egress TimeOut 0
Display Chassis—PXM45, PXM1E
This command displays details about the capability of the chassis.
dspchassis
This command takes no parameters.
dspcds
Log: no |
State: active |
Privilege: ANYUSER |
Display chassis details for the current switch. The controller card is a PXM45.
M8850_LA.8.PXM.a > dspchassis
Model Name : MGX8850
Model ID : 0x2
Chassis ID : 0x3
Chassis Cap : 0xb
Supports Narrow Band Service Module Functionality - YES
Supports VSIMASTER Functionality - NO
Supports ROUTING Functionality - YES
Supports FEEDER Functionality - YES
M8850_LA.8.PXM.a >
Display the chassis for the current switch. The controller is a PXM1E.
Unknown.8.PXM.a > dspchassis
Model Name : MGX8850
Model ID : 0x2
Chassis ID : 0x3
Chassis Cap : 0xb
Supports Narrow Band Service Module Functionality - YES
Supports VSIMASTER Functionality - NO
Supports ROUTING Functionality - YES
Supports FEEDER Functionality - YES
Unknown.8.PXM.a >
Display CLI—PXM45, PXM1E
The dspcli command displays commands whose user-privilege level has been modified through the cnfcli command. The display also shows the default privilege for each modified command.
The dspcli command shows privilege changes only for commands on the card where you run dspcli. For example, using the dspcli command on a PXM shows only the affected commands that are available on the PXM. To see affected commands on an AXSM, use dspcli on that AXSM.
Refer to the cnfcli description for extensive details on this feature.
dspcli <accesslevel>
The mandatory parameter is the subcommand string, "accesslevel."
cnfcli
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display any commands whose access level has changed.
PXM1E_SJ.7.PXM.a > dspcli accesslevel
Command Name Current Default
-----------------------------------------------------------
addapsln SERVICE_GP GROUP1
addlnloop SERVICE_GP GROUP1
arpFlush SERVICE_GP SUPER_GP
arpShow SERVICE_GP ANYUSER
cnfsct SERVICE_GP GROUP1
cnfserialif SERVICE_GP SUPER_GP
cnfsig SERVICE_GP GROUP1
cnfsntprmtsvr SERVICE_GP GROUP1
cnfspvcprfx SERVICE_GP SUPER_GP
cnfsscop SERVICE_GP GROUP1
cnfsvcoverride SERVICE_GP SUPER_GP
cnftmzn SERVICE_GP SUPER_GP
Display Clock Alarms—PXM45, PXM1E
Displays alarms associated with the primary or secondary clock source.
The switch constantly monitors the state of the clocks. On the local node, the clock monitor declares an alarm if the clock becomes undetectable or goes out of specification for any reason. The definition of each alarm severity comes from Bellcore TR-NWT-000474. An alarm can be:
•Critical, indicating complete, non-recoverable failure, loss of data, and do on. The failed entity must be restored. A power failure or a line being disconnected is an example.
•Major, indicating service-affecting errors. This event indicates that a major service is damaged or lost, but the existing traffic is not affected.
•Minor, indicating non-service affecting errors or errors on a remote node. Corrective action is appropriate to prevent a serious fault from developing. An example is a fan failure, where no subscribers are immediately affected, but calamity could result if the situation persists. Note that an accumulation of lower-level alarms does equal a higher-level alarm.
The dspclkalms command is part of a hierarchy of troubleshooting commands you can execute on the PXM or a service module. Frequently, dspclkalms follows the higher-level command dspndalms. The dspndalms command shows a variety of alarms within the switch and helps isolate the problem.
The dspndalms and dspclkalms commands run on the PXM45. If the errored clock source appears to be on a service module, you can cc to the CLI of that card and execute a variety of alarm commands and other troubleshooting commands.
dspclkalms
This command takes no parameters.
dspcdstatus, dspndalms, dspalm, dspalms, dspclksrcs, cnfclksrc
Log: no |
State: active |
Privilege: ANYUSER |
Display clock alarms. Follow the dspclkalms command with dspcds and note that the standby PXM is missing. The absent standby PXM caused the alarm.
M8850_LA.8.PXM.a > dspclkalms
M8850_LA System Rev: 04.00 Mar. 22, 2003 22:29:30 GMT
MGX8850 Node Alarm: MAJOR
Clock Manager Alarm Summary
----------------------------
NETWORK CLOCK ALARM : STANDBY CLOCK NOT READY - NO CLOCK REDUNDANCY: MAJOR
Critical Major Minor
000 001 000
M8850_LA.8.PXM.a > dspcds
M8850_LA System Rev: 04.00 Mar. 22, 2003 22:28:12 GMT
Chassis Serial No: SAA03230375 Chassis Rev: B0 GMT Offset: 0
Node Alarm: MAJOR
Card Front/Back Card Alarm Redundant Redundancy
Slot Card State Type Status Slot Type
--- ---------- -------- -------- ------- -----
01 Active/Active AXSM_4OC12 NONE NA NO REDUNDANCY
02 Active/Active AXSM_4OC12 NONE NA NO REDUNDANCY
03 Active/Active AXSM_16T3E3 NONE NA NO REDUNDANCY
04 Active/Active AXSME_16T3E3 NONE NA NO REDUNDANCY
05 Active/Active AXSME_2OC12 NONE NA NO REDUNDANCY
06 Active/Active AXSM_16OC3_B MAJOR NA NO REDUNDANCY
07 Empty Resvd/Empty --- MAJOR 08 PRIMARY SLOT
08 Active/Active PXM45B NONE 07 SECONDARY SLOT
09 Active/Active RPM_PR NONE NA NO REDUNDANCY
10 Empty --- --- --- ---
11 Empty --- --- --- ---
12 Active/Active AXSM-32-T1E1-E NONE NA NO REDUNDANCY
13 Active/Active FRSM_2CT3 NONE NA NO REDUNDANCY
14 Active/Active FRSM_8T1 NONE NA NO REDUNDANCY
15 Empty --- --- --- ---
16 Empty --- --- --- ---
26 Empty --- --- --- ---
27 Empty --- --- --- ---
29 Empty --- --- --- ---
30 Empty --- --- --- ---
31 Empty --- --- --- ---
32 Empty --- --- --- ---
Display Clock Parameters—PXM45, PXM1E
The dspclkparms command displays the configuration for a BITS connector from the cnfclkparms command. See the cnfclkparms description for the application.
dspclkparms
This command takes no parameters.
cnfclkparms
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the current clock parameters.
Unknown.8.PXM.a > dspclkparms
BITS Cable Type : Twisted Pair
BITS Signal Type: Data Mode
Display Clock Sources—PXM45, PXM1E
The dspclksrcs command lets you display the clock sources if the switch is using the manually configured clock sources.
Note Even though this command applies primarily to manual clocking, it can show one status that does not appear in the NCDP displays: "holdover." Holdover is described in this command definition, below.
The dspclksrcs command displays the configuration and status of the clock sources. (For details about network synchronization, see the description of cnfclksrc.) The dspclksrcs output consists of:
•For the primary clock: the type, source, status, and reason (for status change) of the clock.
•For the secondary clock: the type, source, status, and reason (for status change) of the clock.
•The active clock—the clock that currently provides synchronization—can be primary, secondary, holdover, or the free-running oscillator.
Note that "holdover" is a situation where the UI-S3 card maintains the clock based on the primary or secondary clock parameters that the hardware has recorded. Even for a stratum 1 source, the hardware can maintain the frequency and stability of the clock for up to 24 hours if the source is not usable. If the source cannot return to use after 24 hours, the node switches to the internal oscillator.
•Whether revertive mode is enabled or disabled.
Note Changes to the configuration and status of clocks go into the database on the active PXM. If a standby PXM exists, it receives the initial clock configuration and status but receives internal status updates only when you interact with the node in a way that changes a configuration or when the standby PXM switches to the active state.
The type is either BITS or generic. Currently, generic applies to only a service module-sourced clock. If a user-specified priority of a clock is not configured, the source is null. For the current release, the null source is presumed to be the internal oscillator.
The source of the clock has the format [shelf.]slot:subslot.port:subport. More typically, the source has the two-part, short-hand form slot.line or slot.port. If the source is an AXSM, the format is slot.line.
For a BITS clock, the format is slot.port. The slot for a BITS clock is logical slot 7 in an MGX 8850 or MGX 8950 chassis or is logical slot 1 in an MGX 8830 chassis. The logical port is always 35 or 36. Port 35 refers to the upper external clock connector, and port 36 refers to the lower connector.
The status of a particular clock source in the dspclksrcs output can be one of the following:
•"ok" (good), which means the clock source is operational and stable. (If the status is "ok," then the Reason field shows "okay." If the status is "ok," the reason for the status change described in the section, "Reason for Status Change," is not important.)
•"bad" means a fault in the clock source has been detected. Use the Reason field to help isolate the problem. See the section, "Reason for Status Change."
•"unknown" is a temporary string while the clock manager is sending a message to the clock source.
•"not configured" means that this source—primary or secondary—has not been configured.
•"holdover"—see definition earlier in the command description.
The reasons that clock status can change are numerous. The dspclksrcs command displays a Reason field for both the primary and the secondary clock source. The reason can include the first-time, user-specification of the clock source. The reason strings and their meaning appear in Table 2-15. Additional information about "okay" and the locking process follows.
When you configure a new clock source or the current clock source changes due to any reason, the software goes through the process of validating the new, current clock source again. (For example, the reasons other than direct user-configuration can be: the previous clock source goes out of lock or a resync of the clock sources takes place due to a switch-over or a rebuild.) This validation process takes the current clock source through the following states:
•in locking—wideband test
•in locking—narrowband test
•locked
During these states, the node is already using the new clock source as the synchronizing source.
You might also see the states in the sequence just listed if the current source was momentarily lost because it drifted out of the lockable range for either the frequency or the phase. In this case, software again tries to confirm that the current source is lockable before it declares the source to be unlockable. If the software finds that the clock source still does not return to the lockable range, it declares the clock source as unlockable then proceeds to use the next clock in the hierarchy (of primary, secondary, internal oscillator). The exception to this final scenario occurs if the current clock source is the internal oscillator in either the free running mode or the hold-over mode: in this case, the software omits this final validation attempt because no other clocks sources within a clock hierarchy are available.
For information on revertive behavior, see the cnfclksrc description.
dspclksrcs
cnfclksrc, delclksrc, dspclkalms
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the clocks. The display shows that both the primary and secondary clocks are good. They are sourced at lines 2 and 3 of the AXSM in slot 6. Also, the primary source is providing the active clock, and the system is configured for revertive behavior. The primary and secondary clock reasons are okay.
pinnacle.7.PXM.a> dspclksrcs
Primary clock type: generic
Primary clock source: 6.2
Primary clock status: good
Primary clock reason: okay
Secondary clock type: generic
Secondary clock source: 6.3
Secondary clock status: good
Secondary clock reason: okay
Active clock: primary
source switchover mode: revertive
Display information about the clock sources. This example shows a BITS clock for the primary source with revertive mode enabled.
pop20one.7.PXM.a > dspclksrcs
Primary clock type: bits t1
Primary clock source: 7.35
Primary clock status: ok
Primary clock reason: okay
Secondary clock type: generic
Secondary clock source: 9:1.1:1
Secondary clock status: ok
Secondary clock reason: okay
Active clock: primary
source switchover mode: revertive
Display Command Abbreviation—PXM45, PXM1E
The dspcmdabbr command lets you see whether the CLI requires the entire name of a command or accepts the first unique string of characters that identifies a command. For example, "loa" is enough to identify loadrev if command abbreviation is enabled. (The string "lo" is not enough to identify a particular command because of the logout command.)
dspcmdabbr
This command takes no parameters.
cnfcmdabbr
Log: no |
State: active |
Privilege: ANYUSER |
Check the status of command abbreviation.
MGX8850.1.3.PXM.a > dspcmdabbr
MGX8850.7.PXM.a > dspcmdabbr
Command Abbreviation feature currently enabled
Display Connection—PXM45, PXM1E
The dspcon command displays the configuration of an SPVC or SPVP. (For additional, dynamic information on the connection, use the dsppncon command.). The dspcon output appears in sections to make the information easier to sort.
Most of the information in the dspcon output comes from the addcon command. See the addcon description for more information. Also, using cnfpnni-intf can affect the dspcon output.
On the PXM, dspcon shows the following connection identifiers:
•NSAP address, status, and ownership of local and remote ends of the connection. The display shows whether a particular endpoint is the master or slave.
The provisioning parameters in the display consist of the following:
•Connection type of VPC or VCC.
•Service type and compliance (for example, UBR for service type and UBR.1 for ATM Forum compliance).
•Bearer class (relates to voice traffic and is reserved for future use).
•Whether continuity checking or frame discard are enabled (see addcon description).
•Cause of the last failure. This field can also show that no errors have occurred since the connection was first added by displaying "SPVC Established." If a failure occurred, the Attempts field shows the number of times the system attempted to re-establish service. If no failures have occurred, the Attempts field contains a 0.
•L-Util and R-Util are the local and remote percent of utilization assigned to the connection. Currently, the default of 100% is the only value.
•Cost values for the connection's route: the two fields in this category are Max Cost and Routing Cost. The Max Cost is a cost-per-link configured for a service type (such as UBR) through the cnfpnni-intf command. When you add the SPVC through addcon, you can specify a maximum routing cost through the maximum cost (maxcost) parameter. The maxcost represents the maximum cost for an individual connection. The system uses the cost-per-link for the service type and the maxcost for the connection to determine whether a route costs too much. After the system creates a route, the total number of links yields the Routing Cost.
The default cost-per-link is 5040, so if a particular service type uses the default and a route consists of 4 links, the Routing Cost is 20160. If the dspspvc display shows that Max Cost is -1, no limit was specified through cnfpnni-intf, and the resulting Routing Cost is 0.
•Broadcast type: point-to-point or multicast.
•The persistence state of the slave endpoint.
•The routing priority of the connection.
•The preferred route ID if the connection has one.
The Traffic Parameters section shows the standard parameters PCR, SCR, and CDV in the receive and transmit directions.
dspcon <portid> <vpi> <vci>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
vpi |
VPI number. At the UNI, the range is 0-255. At the NNI, the range is 0-4095. |
vci |
VCI number. For a VCC, the range is 1-65535. For a VPC, the VCI is 0. |
addcon, dspcons, cnfcon
PXM1E only: dspchan, dspchans
Log: no |
State: active, standby |
Privilege: ANYUSER |
On the CLI of the PXM45, display the connection on port 3:1.1:1 with a VPI and VCI of 102 and 102.
M8850_LA.8.PXM.a > dspcon 3:1.1:1 102 102
Port Vpi Vci Owner State Persistency
----------------------------------------------------------------------------
Local 3:1.1:1 102.102 MASTER FAIL Persistent
Address: 47.00918100000100001a531c2a.000001031801.00
Node name: M8850_LA
Remote Routed 102.102 SLAVE -- Persistent
Address: 47.00918100000200036b5e30cd.000001011802.00
Node name:
-------------------- Provisioning Parameters --------------------
Connection Type: VCC Cast Type: Point-to-Point
Service Category: CBR Conformance: CBR.1
Bearer Class: BCOB-X
Last Fail Cause: unallocated (unassigned) number Attempts: 20005
Continuity Check: Disabled Frame Discard: Disabled
L-Utils: 100 R-Utils: 100 Max Cost: -1 Routing Cost: 0
OAM Segment Ep: Enabled
Priority: 8
---------- Traffic Parameters ----------
Values: Configured (Signalled)
Tx PCR: 50 (-) Rx PCR: 50 (-)
Type <CR> to continue, Q<CR> to stop:
Tx CDV: -1 (-) Rx CDV: -1 (-)
Tx CTD: -1 (-) Rx CTD: -1 (-)
-------------------- Preferred Route Parameters------------------
Preferred Route ID: -
Currently on preferred route: N/A
On the PXM1E, display the connection on port 15 with a VPI/VCI of 10/100.
spvc4.7.PXM1E.a > dspcon 15 10 100
--------------------------------------------------------------------------
Local : NSAP Address vpi vci
(M) 4700918100000000001A531C7700000101180F00 10 100
Remote : NSAP Address vpi vci
(S) 47009181000000003071F805E600000009010000 10 100
--------------------------------------------------------------------------
Conn. Type : VCC Admn Status : ADMN-UP
Service Type : abrstd Oper Status : OK
Controller : 2 Record # : 0
SlavePersist : YES Cast-type : P2P
--------------------------------------------------------------------------
Local PCR : 100 Remote PCR : 100
Local SCR : N/A Remote SCR : N/A
Local CDV : N/A Remote CDV : N/A
Local CTD : N/A Remote CTD : N/A
Local MBS : N/A Remote MBS : N/A
Max Cost : -1 Frame discard: DISABLED
Local CDVT : 250000 OAM segment : ENABLED
Local PercentUtil: 100 Remote PercentUtil: 100
Priority : 8
--------------------------------------------------------------------------
OAM CC Config : DISABLED Statistics : ENABLED
--------------------------------------------------------------------------
Loopback Type : No Lpbk | Dir: N/A | Status: No Lpbk | RTD: 0us
--------------------------------------------------------------------------
--------------------------------------------------------------------------
Port side Tx : normal Swth side Tx : normal
Port side Rx : AIS Swth side Rx : AIS
--------------------------------------------------------------------------
I-AIS/RDI E-AIS/RDI CONDITIONED CCFAIL IfFail Mismatch LMI-ABIT
YES YES NO NO NO NO NO
--------------------------------------------------------------------------
Internal VSVD config : N/A
External VSVD config : N/A
Local MCR : 50 cells/second
Remote MCR : 50 cells/second
Initial cell rate (ICR) : N/A cells/second
ACR decrease factor (ADTF) : N/A x 10 millisec
Rate decrease factor (RDF) : N/A
Rate increase factor (RIF) : N/A
Cells per forward RM (NRM) : N/A
Time between forward RM (TRM) : N/A
cutoff decrease factor (CDF) : N/A
fixed round trip delay (FRTT) : N/A microseconds
transient buffer exposure (TBE) : N/A cells
--------------------------------------------------------------------------
Display Connection Alarm Counts—PXM1E
The dspconalmcnts command lists errored connections on the logical interfaces on the card. This command lists by alarm cause. The causes are:
•Conditioning
•Ingress alarm
•Egress alarm
•Connection conditioning failure
•Mismatch
•A-bit
dspconalmcnts
This command takes no parameters.
dspconalms
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the connection alarms by alarm cause.
M8850_SF.7.PXM1E.a > dspconalmcnts
**************************************************************************
************ CONNECTIONS IN ALARM PER INTERFACE (BY ALM CAUSE)************
**************************************************************************
IF# IfState #Condn #IngAlm #EgrAlm #CCFail #ifFail #mismatch #Abit
-- ------- ------ ------- ------- ------- ------- --------- -----
01 ACTV 00000 00000 00000 00000 00000 00000 00000
02 ACTV 00000 00000 00000 00000 00000 00000 00000
03 ACTV 00000 00000 00000 00000 00000 00000 00000
******************** SUMMARY ALARM COUNT FOR THE CARD *******************
#Condn #IngAlm #EgrAlm #CCFail #ifFail #mismatch #abit
000000 000000 000000 000000 000000 000000 000000
Display Connection Alarms—PXM1E
The dspconalms command displays connection alarms. The display lists alarms by port and shows instances by the severities of critical, major, and minor alarms. The display also shows which types of failures constitute each of these severities.
dspconalms
This command takes no parameters.
dspconalmcnts
Log: no |
State: active |
Privilege: ANYUSER |
Display connection alarms. This card has three logical interfaces but no connection alarms.
M8850_SF.7.PXM1E.a > dspconalms
****************************************************************
******* CONNECTIONS IN ALARM PER INTERFACE (BY SEVERITY) *******
****************************************************************
IF# IfState #Critical #Major #Minor
-- ------- --------- ------ ------
01 ACTV 00000 00000 00000
02 ACTV 00000 00000 00000
03 ACTV 00000 00000 00000
****************************************************************
************** PRESENT ALARM SEVERITY CONFIGURATION **********
****************************************************************
CRITICAL: Mismatch
MAJOR : Condn CCFail
MINOR : IngAlm EgrAlm IfFail Abit
Display Connection Information—PXM45, PXM1E
The dspconinfo runs on the PXM45 and lists the total number SPVCs on each PNNI port on the switch. The default operation of the command is to show all SPVCs or SPVPs, With the optional parameters, you can specify one or more types of information to display.
The display shows:
•PNNI physical port number
•Number of active connections
•Number of failed connections
•Number of administratively inactive (or down) connections as a result of dncon
•Total number of connections
Note that dspconinfo checks for the down state at the master end of the connection (status at the slave endpoint is failed). See also the descriptions for dncon and dspcon.
dspconinfo
[-port portid] [-detail {true | false}] [-owner {master | slav] -sc {cbr | rtvbr | nrtvbr | abr | ubr}
-port |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
-detail |
Determines whether the display contains information for all interfaces and slots or just slots. Type "true" after the keyword for all interfaces and slots. Type "false" for just slots. Default: true |
-owner |
Lets you specify the endpoint of the connection. Type "master" or "slave." |
-sc |
Directs the command to display connections of a particular service type. Type one of the following after the keyword: cbr, nrtvbr, rtvbr, abr, or ubr. Default: no default |
None
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the SPVC summaries on the switch with the following conditions:
•No options: a total of 13 active connections exist.
•UBR connections: a total of 2 endpoints are listed.
•Connections on port 5:1.2:2.
•Connections at slot 5.
•Slave endpoints.
atlanta.7.PXM.a > dspconinfo
Local Port #Active #Failed #Down #Total
-----------------------------------------------------------
5:1.2:2 13 0 0 13
atlanta.7.PXM.a > dspconinfo -sc ubr
Local Port #Active #Failed #Down #Total
-----------------------------------------------------------
5:1.2:2 2 0 0 2
atlanta.7.PXM.a > dspconinfo -port 5:1.2:2
Local Port #Active #Failed #Down #Total
-----------------------------------------------------------
5:1.2:2 13 0 0 13
atlanta.7.PXM.a > dspconinfo -detail false
Local Slot #Active #Failed #Down #Total
-----------------------------------------------------------
5 13 0 0 13
atlanta.7.PXM.a > dspconinfo -owner slave
Local Port #Active #Failed #Down #Total
-----------------------------------------------------------
5:1.2:2 0 0 0 0
Display Connection Load—PXM1E
The dspconload command displays the number of ingress and egress cells per second on a connection (ifNum/vpi/vci). With the statistics provided by dspconload, you can determine whether the current load on the connection suggests a modification to the connection or possible troubleshooting.
dspconload <ifNum> <vpi> <vci>
ifNum |
The range for logical interface (port) numbers is 1-31. |
vpi |
The VPI range on a UNI is 0-255. The VPI range on an NNI is 0-4095. |
vci |
The VCI range for a VCC is 35-65535. For a VPC, the VCI is 0. |
dspcons, dspcon, dspload
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the load on the connection with a VPI and VCI of 10 and 100, respectively, on logical port 1.
MGX8850.7.PXM1E.a > dspconload 1 10 100
Ingress Egress
-------------------------------------- --------------------------------------
All non-compliant cells : 0
CLP1 non-compliant : 0
CLP0 non-compliant : 0
CLP0 -> CLP1 : 0
Cells from port
(Before policing) : 999 Cells to port : 999
CLP0 from port : 999 CLP0 to port : 999
CLP1 from port : 0 CLP1 to port : 0
EOF from port : 0 EOF to port : 0
EFCI1 from port : 0 EFCI1 to port : 0
RM to port : 0
Cells to network : 999 Cells from network : 999
CLP0 to network : 999 CLP0 from network : 999
CLP1 to network : 0 CLP1 from network : 0
EFCI1 to network : 0 EFCI1 from network : 0
Cells discarded in qe : 0 Cells discarded in qe : 0
CLP0 discarded in qe : 0 CLP0 discarded in qe : 0
CLP1 discarded in qe : 0 CLP1 discarded in qe : 0
EOF discarded in qe : 0
EFCI1 discarded in qe : 0
VC queue depth : 0 VC queue depth : 0
ACR (Valid for WFQ conns) : 1 ACR (Valid for WFQ conns) : 1
OAM from port : 0 OAM to port : 0
RM from port : 0
RM to network : 0 RM from network : 0
OAM to network : 0 OAM from network : 0
OAM discarded in qe : 0 OAM discarded in qe : 0
EFCI1 discarded in qe : 0
RM discarded in qe : 0 RM discarded in qe :
Display Connection Trace Buffer—PXM45, PXM1E
The dspconntracebuffer command lets you display the results of a connection trace. The trace occurs after you provide an identifier for a routed connection to the conntrace command.
The trace consists of the following information for each switch:
•The result of the trace—success or failure
•The date and time of the last update
•Node names and node IDs of all the nodes that the connection traverses
•Incoming port ID (at the UNI) in the format of logical port number and physical port ID
•Outgoing port ID (at the network egress) in the format of logical port number and physical port ID
•VPI and VCI at the incoming and outgoing ports
•Call reference number at the incoming and outgoing ports
•The name, node ID, port and call identifiers at the next node in the path
dspconntracebuffer <portid> <vpi> <vci>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
vpi |
The VPI of the connection. |
vci |
The VCI of the connection. |
dspconntracebuffers, clrconntracebuffer, clrconntracebuffers, conntrace
Log: no |
State: active |
Privilege: ANYUSER |
Do a connection trace on the connection with a VPI/VCI of 1/100 on port 5:1.1:1, then display the trace buffer for this connection.
r18pop157.7.PXM.a > conntrace 5:1.1:1 -vpi 1 -vci 100
r18pop157.7.PXM.a > dspconntracebuffer 5:1.1:1 1 100
Last update time:Jul 9 2002 23:42:46
Result:SUCCESS Reason:N/A
Incoming Port:17111041 Physical PortId:5:1.1:1
VPI :1 VCI:100 CallRef:147019
Node Name:r18pop157 NodeId:
56:160:47.00918100000000016444456a.00016444456a.01
Outgoing Port:16914433 Physical PortId:2:1.1:1
VPI :1 VCI:47161 CallRef:72760
Node Name:r18pop161 NodeId:
56:160:47.009181000000000164444b71.000164444b71.01
Outgoing Port:16848897 Physical PortId:1:1.1:1
VPI :1 VCI:55482 CallRef:93315
Node Name: NodeId:56:160:47.0091810000000004c113b985.0004c113b985.01
Outgoing Port:17045505 Physical PortId:4:1.1:1
VPI :1 VCI:47074 CallRef:36277
Node Name: NodeId:56:160:47.009181000000000164444b35.000164444b35.01
Outgoing Port:16979969 VPI :1 VCI:100 CallRef:142329 Physical
PortId:3:1.1:1
Display Connection Trace Buffers—PXM45, PXM1E
The dspconntracebuffers command displays all connection trace buffers. The maximum number of traces on a switch is 100, and each trace buffer is separated by a message indicating the beginning of the next trace record. (A connection trace occurs after you provide an identifier for a routed connection to the conntrace command.) To see an individual trace, use the dspconntracebuffer command.
dspconntracebuffers
No parameters
dspconntracebuffer, clrconntracebuffer, clrconntracebuffers, conntrace
Log: no |
State: active |
Privilege: ANYUSER |
Display all connection trace buffers recorded on the local switch. Each connection trace is separated by a message indicating the next buffer record is about to begin.
Note The node name appears only if the node exists in the peer group where you started the trace. For a hop outside the local peer group, a blank space follows the "Node Name:" label. (Immediately following this blank space, the ID of the node outside the local peer group appears.)
r18pop157.7.PXM.a > dspconntracebuffers
--------------------------------
dspconntracebuffers:next record
--------------------------------
Last update time:Jul 9 2002 23:43:31
Result:SUCCESS Reason:N/A
Incoming Port:17111041 Physical PortId:5:1.1:1
VPI :1 VCI:101 CallRef:147020
Node Name:r18pop157 NodeId:
56:160:47.00918100000000016444456a.00016444456a.01
Outgoing Port:16914433 Physical PortId:2:1.1:1
VPI :1 VCI:47162 CallRef:72761
Node Name:r18pop161 NodeId:
56:160:47.009181000000000164444b71.000164444b71.01
Outgoing Port:16848897 Physical PortId:1:1.1:1
VPI :1 VCI:55483 CallRef:93316
Node Name: NodeId:56:160:47.0091810000000004c113b985.0004c113b985.01
Outgoing Port:17045505 Physical PortId:4:1.1:1
VPI :1 VCI:47075 CallRef:36278
Type <CR> to continue, Q<CR> to stop:
Node Name: NodeId:56:160:47.009181000000000164444b35.000164444b35.01
Outgoing Port:16979969 VPI :1 VCI:101 CallRef:142330 Physical
PortId:3:1.1:1
--------------------------------
dspconntracebuffers:next record
--------------------------------
Last update time:Jul 9 2002 23:42:46
Result:SUCCESS Reason:N/A
Incoming Port:17111041 Physical PortId:5:1.1:1
VPI :1 VCI:100 CallRef:147019
Node Name:r18pop157 NodeId:
56:160:47.00918100000000016444456a.00016444456a.01
Outgoing Port:16914433 Physical PortId:2:1.1:1
VPI :1 VCI:47161 CallRef:72760
Node Name:r18pop161 NodeId:
56:160:47.009181000000000164444b71.000164444b71.01
Outgoing Port:16848897 Physical PortId:1:1.1:1
VPI :1 VCI:55482 CallRef:93315
Node Name: NodeId:56:160:47.0091810000000004c113b985.0004c113b985.01
Type <CR> to continue, Q<CR> to stop:
Outgoing Port:17045505 Physical PortId:4:1.1:1
VPI :1 VCI:47074 CallRef:36277
Node Name: NodeId:56:160:47.009181000000000164444b35.000164444b35.01
Outgoing Port:16979969 VPI :1 VCI:100 CallRef:142329 Physical
PortId:3:1.1:1
Display Connections—PXM45, PXM1E
The default entry of the dspcons command requires no parameters and displays general information for all connections. Because of the very large number of possible connections, optional filters are available to let you narrow the scope of the output. See Syntax Description for each card type.
The dspcons command runs on a PXM or any model of broadband or narrowband service module. The optional parameters and the output are different on these card types. See Syntax Description for card-specific parameters.
Note The dspcons command on the PXM1E shows provisioned connections on the narrowband service modules and the UNI/NNI back card—from the VSI master viewpoint. To display connections on a narrowband VSI slave, cc to the card and use the dspcon or dspcons command. To see connections on the UNI/NNI card as a VSI slave, two commands are available especially for this purpose: dspchan and dspchans. Refer to their descriptions.
When you run dspcons on the CLI of a PXM45 or PXM1E, the output shows:
dspcons [-port portid] [-vpi starting-vpi] [-vci starting vci] [-state {fail | ais | abit | ok | down}]
[-owner {master | slave}] [-sc {cbr | rtvbr | nrtvbr | abr | ubr}] [-persflag {nonpersistent | persistent}] [-rteid Pref Route Id] [-type {p2p | p2mp}]
-port |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
-vpi |
The VPI of the connection that you would like to serve as the starting connection in the display. |
-vci |
The VCI of the connection that you would like to serve as the starting connection in the display. |
-state |
A specific connection state. The display shows only the connections with the state you specify. Note that on the PXM45, you must spell out the entire state keyword. The keywords for specifying a state are failed—only failed connections ais—connections with alarm indication signal (AIS) set abit—connections on which an A-bit error has occurred ok—connections with no problems down—connections that are administratively down (from dncon command) |
-owner |
Specifies connections where the local endpoint is either master or slave. |
-sc |
The -sc option lets you display connections of a particular service class. The choices are cbr, rtvbr, nrtvbr, abr, and ubr. |
-persflag |
The -persflag option lets direct the display to show only persistent or non-persistent endpoints. Type persistent or nonpersistent. |
-rteid |
The -rteidb option lets you specify connections with a particular preferred route ID. |
-type |
The connection type is either point-to-point (p2p) or point-to-multipoint (p2mp). Type either "p2p" or "p2mp." |
dspcon, addcon, cnfcon, delcon, dncon, upcon, dsppncon, dsppncons
PXM1E only: dspchan, dspchans
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display all connections.
M8850_LA.8.PXM.a > dspcons
Local Port Vpi.Vci Remote Port Vpi.Vci State Owner Pri Persisteny
----------------------+------------------------+---------+-------+---+----------
3:1.1:1 102 102 Routed 102 102 FAIL MASTER 8 Persistent
Local Addr: 47.00918100000100001a531c2a.000001031801.00
Remote Addr: 47.00918100000200036b5e30cd.000001011802.00
Preferred Route ID:-
Display all connections. The only connection is a daxcon that terminates at slots 19 and 20.
Unknown.8.PXM.a > dspcons
Local Port Vpi.Vci Remote Port Vpi.Vci State Owner Pri Persisteny
----------------------+------------------------+---------+-------+---+----------
19.1 19 119 20.1 20 119 OK SLAVE - Persistent
Local Addr: 47.0091810000000007856e1204.000001079b01.00
Remote Addr: 47.0091810000000007856e1204.00000107a301.00
Preferred Route ID:-
20.1 20 119 19.1 19 119 OK MASTER 8 Persistent
Local Addr: 47.0091810000000007856e1204.00000107a301.00
Remote Addr: 47.0091810000000007856e1204.000001079b01.00
Preferred Route ID:-
Display Connections-Debug—PXM45, PXM1E
The dspcons-dbg command shows whether the SPVC log is enabled. The dbgcon command lets you enable or disable this log.
dspcons-dbg
This command takes no parameters.
dbgcon
Log: no |
State: active, standby |
Privilege: ANYUSER |
Determine whether SPVC logging is enabled. The output shows that the log is disabled.
MGX8850.8.PXM.a > dspcons-dbg
Global SPVC Event Log Status: Disable
Display Connection Segment Endpoint—PXM45, PXM1E
Displays OAM segment endpoint for a connection endpoint. When both vpi and vci are present, the segment endpoint is a F5 flow endpoint (for VCCs). When the optional vci is not present, the segment endpoint is a F4 flow endpoint (for VPCs). This command applies to established calls only.
dspconsegep <portid> <vpi> [vci]
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
vpi |
The VPI of the connection. |
vci |
The VCI of the connection. |
cnfoamsegep, dspoamsegep, cnfconsegep, delconsegep
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Display Controllers—PXM45, PXM1E
The dspcontrollers command displays all controllers that have been added through the addcontroller command. See the addcontroller description for more information on network control protocols.
dspcontrollers
This command takes no parameters.
addcontroller, delcontroller
Log: no |
State: active |
Privilege: ANYUSER |
The dspcontrollers display produced by the command shows the following items:
•Node-level alarms, if any.
•Total number of instances that a controller has been specified. LSC can be shown multiple times because each instance on an RPM is counted.
•Controller name: this is an optional entry in the addcontroller command.
•Controller ID: 2 is reserved for PNNI, and 3 is reserved for LSC.
•The location is internal or external. If internal, the controller is running on the local PXM or RPM.
•The controller type is either PNNI or LSC.
•The controller logical slot is where the controller is running, as follows:
–For PNNI in an MGX 8850 or MGX 8950 chassis, this number is always 7. In an MGX 8830 chassis, PNNI always runs in logical slot 1.
–LSC runs in the slot where an RPM resides.
•The bay number, line number, VPI, and VCI together refer to an external controller. The current release does not support external controllers, so these numbers always appear as 0.
•Controller-specific alarms are listed if any exists.
Display the controllers on the current switch. PNNI is running in logical slot 7, and one instance of LSC is running. (The controller names "PNNI" and "LSC1" are optional strings specified through the addcontroller command to help keep track of the controllers.) A node-level, critical alarm exists, but it does not pertain to either controller. Note that the bay number, line number, VPI, and VCI are 0 because these fields pertain to external controllers and PNNI and LSC1 are internal controllers.
M8850_LA.8.PXM.a > dspcontrollers
M8850_LA System Rev: 04.00 May. 11, 2003 23:32:58 GMT
MGX8850 Node Alarm: CRITICAL
Number of Controllers: 2
Controller Name: PNNI
Controller Id: 2
Controller Location: Internal
Controller Type: PNNI
Controller Logical Slot: 7
Controller Bay Number: 0
Controller Line Number: 0
Controller VPI: 0
Controller VCI: 0
Controller In Alarm: NO
Controller Error:
Controller Name: LSC1
Controller Id: 5
Controller Location: Internal
Controller Type: LSC
Controller Logical Slot: 9
Controller Bay Number: 0
Controller Line Number: 0
Controller VPI: 0
Controller VCI: 0
Controller In Alarm: NO
Controller Error:
M8850_LA.8.PXM.a >
Display Closed User Group—PXM45, PXM1E
The dspcug command displays the following information about a closed user group (CUG—see the addcug description for details on this feature):
•The interlock code
•The type of call that is barred, if any
To acquire the preceding information, you must provide the following:
•The ATM address of the CUG
•The length of the ATM address
•The address plan of the ATM address
•The CUG index number
dspcug <atm-address> <length> <plan> <cug-index>
cnfcug, clrcugdefaddr, cnfaddrcug, cnfnodecug, delcug, dspaddrcug, addcug, dspcugdefaddr, dspnodecug, setcugdefaddr, dspaddr
log: yes |
State: active, standby |
Privilege: SUPER_GP |
Display the CUG that has the following characteristics:
•ATM address is 47.0091.8100.0000.0001.5555.
•Length is 88.
•Plan is NSAP.
•CUG index is 12.
p2spvc14.7.PXM.a > dspcug 47.0091.8100.0000.0001.5555 88 nsap 12
atm address: 47.0091.8100.0000.0001.5555 length: 88 plan: nsap_icd cug index: 12 cug interlock code: 47009181000000000142265B390000010118040011223344 calls barred: outgoing
Display CUG Default Address—PXM45, PXM1E
The dspcugdefaddr command displays the ATM address prefix that has been specified as the default address for CUG validation. If no default address has been specified, the CLI displays nothing.
dspcugdefaddr <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
log: no |
State: active, standby |
Privilege: ANYUSER |
Display the preferential CUG on port 3:1.7:7.
pswpop3-1.7.PXM.a > dspcugdefaddr 3:1.7:7
47.1111.1111.1111.1111.1111.1111.1111.1111.1111.11
length: 160 type: internal proto: local
scope: 0 plan: nsap_icd redistribute: false
transit network id:
Display Current Clock—PXM45, PXM1E
The dspcurclk command displays the current status of the network synchronization clock. For information on the fields in this display, see the following commands: cnfclksrc, cnfncdp, dspclksrcs, and dspncdpclksrc.
dspcurclk
This command takes no parameters.
cnfclksrc, cnfncdp, dspclksrcs, dspncdp, dspncdpclksrcs
log: no |
State: active, standby |
Privilege: ANYUSER |
Display the current clock.
PXM1E_SJ.8.PXM.a > dspcurclk
Current Clock Status.
Active :internal clock
Clock type :null
Clock lock state :reset
Clock Status :invalid
Clock local :no
Source switchover mode :non-revertive
Use dspclksrcs, dspncdp, dspncdpclksrcs for more information.
Display Date—PXM45, PXM1E
Display the date, time, and time zone configured on the current switch.
dspdate
This command takes no parameters.
cnfdate
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the date.
Unknown.8.PXM.a > dspdate
May 10 2002 00:04:34 GMT
Display Device Alarms—PXM45
The dspdevalms command shows whether an alarm for a crossbar or other device is minor, major, or critical. The display shows status on both the active and standby PXM45 or all the XM60s.
For fault isolation after you execute dspdevalms, you can survey the possible errors (illustrated in the example). The following is a top-down sequence of error-isolation commands:
1. dspndalms
2. dspswalms
3. dspdevalms
4. dspdeverr
5. dspdeverrhist
Note that the dspdeverr and dspdeverrhist commands are useful for viewing the numbers of errors and the reason for the alarms. The first three commands show alarms, and the last two show the counters that caused the alarms to go up.
The following varieties of syntax are for XBARCORE only.
dspdevalms <device name> [-pslot <slot no>]
dspdevalms <device name> [-xslot <xbar slot>] [-pl <plane No>]
In the current release, the only (case-sensitive) entry for device name is XBARCORE. For error information on other devices, such as particular ASICs or the disk drive, or for slot bandwidth alarms, use the dspdeverr command.
dspswalms, dspdeverr, dspdeverrhist, dspxbarerrthresh, clrxbaralms
Log: no |
State: active |
Privilege: ANYUSER |
Display device alarms for all physical slots. A critical alarm means that the source of the problem must be replaced with a good card.
M8850_LA.8.PXM.a > dspdevalms XBARCORE -pslot *
M8850_LA System Rev: 03.09 Feb. 17, 2003 19:38:09 GMT
MGX8850 Node Alarm: CRITICAL
XBAR CORE ALARM SEVERITY INFO SUMMARY
Fabric Slot / Plane
Slot 7/0 7/1 7/2 8/0 8/1 8/2
---- ---- ---- ---- ---- ---- ----
01 -- -- -- -- -- --
02 -- -- -- -- -- --
03 -- -- -- -- -- Crit
04 -- -- -- -- -- --
05 -- -- -- -- -- --
06 -- -- -- -- -- --
07 -- -- -- -- -- --
08 -- -- -- -- -- --
09 -- -- -- -- -- --
10 -- -- -- -- -- --
11 -- -- -- -- -- --
12 -- -- -- -- -- --
13 -- -- -- -- -- --
14 -- -- -- -- -- --
Display device alarms for physical slot 7.
M8850_NY.7.PXM.a > dspdevalms XBARCORE -pslot 7
M8850_NY System Rev: 02.01 Dec. 09, 2001 23:31:46 PST
MGX8850 Node Alarm: CRITICAL
XBAR CORE ERROR ALARM INFO FOR SLOT: 7
Fabric
Slot/ Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Plane Sync Cv Disp Par CRC CRC Remap Recur Par
----- ---- ---- ---- ---- ---- ---- ---- ---- ---
7/0 -- -- -- -- -- -- -- -- --
7/1 -- -- -- -- -- -- -- -- --
7/2 -- -- -- -- -- -- -- -- --
8/0 -- -- -- -- -- -- -- -- --
8/1 -- -- -- -- -- -- -- -- --
8/2 -- -- -- -- -- -- -- -- --
XBAR CORE ERROR ALARM INFO FOR SLOT: 7
Fabric
Slot/ SFrame SFrame ACP Sev
Plane Tick Lock Addr Summ.
----- ---- ---- --- ----
7/0 -- -- -- --
7/1 -- -- -- --
7/2 -- -- -- --
8/0 -- -- -- --
8/1 -- -- -- --
8/2 -- -- -- --
M8850_NY.7.PXM.a > dspdevalms XBARCORE -xslot 7 -pl 0
M8850_NY System Rev: 02.01 Dec. 10, 2001 15:23:29 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE ERROR ALARM INFO:
Fabric Slot No: 7 Xbar Plane No: 0
Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Slot Sync Cv Disp Par CRC CRC Remap Recur Par
----- ---- ---- ---- ---- ---- ---- ---- ---- ---
1 -- -- -- -- -- -- -- -- --
2 -- -- -- -- -- -- -- -- --
3 -- -- -- -- -- -- -- -- --
4 -- -- -- -- -- -- -- -- --
5 -- -- -- -- -- -- -- -- --
6 -- -- -- -- -- -- -- -- --
7 -- -- -- -- -- -- -- -- --
8 -- -- -- -- -- -- -- -- --
9 -- -- -- -- -- -- -- -- --
10 -- -- -- -- -- -- -- -- --
11 -- -- -- -- -- -- -- -- --
12 -- -- -- -- -- -- -- -- --
13 -- -- -- -- -- -- -- -- --
14 -- -- -- -- -- -- -- -- --
Type <CR> to continue, Q<CR> to stop:
M8850_NY System Rev: 02.01 Dec. 10, 2001 15:23:29 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE ERROR ALARM INFO:
Fabric Slot No: 7 Xbar Plane No: 0
SFrame SFrame ACP Sev
Slot Tick Lock Addr Summ.
----- ---- ---- ---- ----
1 -- -- -- --
2 -- -- -- --
3 -- -- -- --
4 -- -- -- --
5 -- -- -- --
6 -- -- -- --
7 -- -- -- --
8 -- -- -- --
9 -- -- -- --
10 -- -- -- --
11 -- -- -- --
12 -- -- -- --
13 -- -- -- --
14 -- -- -- --
The following sequence of displays shows first the alarms (dspdevalms) then the errors (dspdeverr) originating in the path between slot 1 and the XM60 in slot 26, switch ASIC number 3. Portions of the display are truncated to make the series more readable.
M8950_DC.7.PXM.a > dspdevalms XBARCORE -pslot 1
M8950_DC System Rev: 02.01 Dec. 15, 2001 18:39:30 PST
MGX8950 (JBP-2) Node Alarm: CRITICAL
XBAR CORE ERROR ALARM INFO FOR SLOT: 1
Fabric
Slot/ Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Plane Sync Cv Disp Par CRC CRC Remap Recur Par
----- ---- ---- ---- ---- ---- ---- ---- ---- ---
25/0 -- -- -- -- -- -- -- -- --
25/1 -- -- -- -- -- -- -- -- --
25/2 -- -- -- -- -- -- -- -- --
25/3 -- -- -- -- -- -- -- -- --
26/0 -- -- -- -- -- -- -- -- --
26/1 -- -- -- -- -- -- -- -- --
26/2 -- -- -- -- -- -- -- -- --
26/3 Maj Crit Crit -- Crit Crit -- -- --
Now that the display for errors detected by slot 1 has been shown, enter the following command to show the alarms detected by switch ASIC 3 in slot 26.
M8950_DC.7.PXM.a > dspdevalms XBARCORE -xslot 26 -pl 3
M8950_DC System Rev: 02.01 Dec. 15, 2001 18:43:51 PST
MGX8950 (JBP-2) Node Alarm: CRITICAL
XBAR CORE ERROR ALARM INFO:
Fabric Slot No: 26 Xbar Plane No: 3
Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Slot Sync Cv Disp Par CRC CRC Remap Recur Par
----- ---- ---- ---- ---- ---- ---- ---- ---- ---
1 Maj Crit Crit -- Crit Crit -- -- --
2 -- -- -- -- -- -- -- -- --
3 -- -- -- -- -- -- -- -- --
4 -- -- -- -- -- -- -- -- --
5 -- -- -- -- -- -- -- -- --
6 -- -- -- -- -- -- -- -- --
7 -- -- -- -- -- -- -- -- --
8 -- -- -- -- -- -- -- -- --
11 -- -- -- -- -- -- -- -- --
12 -- -- -- -- -- -- -- -- --
13 -- -- -- -- -- -- -- -- --
14 -- -- -- -- -- -- -- -- --
15 -- -- -- -- -- -- -- -- --
16 -- -- -- -- -- -- -- -- --
M8950_DC System Rev: 02.01 Dec. 15, 2001 18:43:51 PST
MGX8950 (JBP-2) Node Alarm: CRITICAL
XBAR CORE ERROR ALARM INFO:
Fabric Slot No: 26 Xbar Plane No: 3
SFrame SFrame ACP Sev
Slot Tick Lock Addr Summ.
----- ---- ---- ---- ----
1 -- -- -- Crit
2 -- -- -- --
3 -- -- -- --
4 -- -- -- --
5 -- -- -- --
6 -- -- -- --
7 -- -- -- --
8 -- -- -- --
11 -- -- -- --
12 -- -- -- --
13 -- -- -- --
14 -- -- -- --
15 -- -- -- --
16 -- -- -- --
Display the XBARCORE device errors detected by physical slot 1. (Afterwards, show the device errors detected by the Switch ASIC.)
M8950_DC.7.PXM.a > dspdeverr XBARCORE -pslot 1
M8950_DC System Rev: 02.01 Dec. 15, 2001 18:38:56 PST
MGX8950 (JBP-2) Node Alarm: CRITICAL
XBAR CORE CURRENT ERROR COUNT FOR SLOT: 1
Fabric
Slot/ Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Plane Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
25/0 0 0 0 0 0 0 0 0 0
25/1 0 0 0 0 0 0 0 0 0
25/2 0 0 0 0 0 0 0 0 0
25/3 0 0 0 0 0 0 0 0 0
26/0 0 0 0 0 0 0 0 0 0
26/1 0 0 0 0 0 0 0 0 0
26/2 0 0 0 0 0 0 0 0 0
26/3 220 3300 3300 0 3300 3300 0 0 0
M8950_DC System Rev: 02.01 Dec. 15, 2001 18:38:56 PST
MGX8950 (JBP-2) Node Alarm: CRITICAL
XBAR CORE CURRENT ERROR COUNT FOR SLOT: 1
Fabric
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
25/0 0 0 0
25/1 0 0 0
25/2 0 0 0
25/3 0 0 0
26/0 0 0 0
26/1 0 0 0
26/2 0 0 0
26/3 0 0 0
List the device errors for slot 26, switch ASIC 3.
M8950_DC.7.PXM.a > dspdeverr XBARCORE -xslot 26 -pl 3
M8950_DC System Rev: 02.01 Dec. 15, 2001 18:45:43 PST
MGX8950 (JBP-2) Node Alarm: CRITICAL
XBAR CORE CURRENT ERROR COUNT :
Fabric Slot No: 26 Xbar Plane No: 3
Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Slot Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
1 220 3300 3300 0 3300 3300 0 0 0
2 -- -- -- -- -- -- -- -- --
3 -- -- -- -- -- -- -- -- --
4 -- -- -- -- -- -- -- -- --
5 0 0 0 0 0 0 0 0 0
6 -- -- -- -- -- -- -- -- --
7 0 0 0 0 0 0 0 0 0
8 -- -- -- -- -- -- -- -- --
11 -- -- -- -- -- -- -- -- --
12 -- -- -- -- -- -- -- -- --
13 -- -- -- -- -- -- -- -- --
14 -- -- -- -- -- -- -- -- --
15 -- -- -- -- -- -- -- -- --
16 -- -- -- -- -- -- -- -- --
XBAR CORE CURRENT ERROR COUNT :
Fabric Slot No: 26 Xbar Plane No: 3
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
1 0 0 0
2 -- -- --
3 -- -- --
4 -- -- --
5 0 0 0
6 -- -- --
7 0 0 0
8 -- -- --
11 -- -- --
12 -- -- --
13 -- -- --
14 -- -- --
15 -- -- --
16 -- -- --
M8950_DC.7.PXM.a >
Note No command sequence definitively isolates a problem like this. However, in the example just concluded, if the AXSM were part of a redundant pair, you could switch over to the backup card by using the switchredcd command. If the errors as shown above ceased, you could conclude that the problem did not originate on the switch ASIC but instead originated on either the service module or even the backplane. The next step would be to swap the original primary AXSM for a known good card.
Display Device Errors—PXM45
The dspdeverr command on the PXM45 shows current error counters for the switch planes or other devices that communicate by way of the serial bus (therefore, the RPM, VISM, and other Cell Bus cards are excluded from the display). The alarms are cleared when the error count falls below the error thresholds. Use the cnfxbarerrthresh or dspxbarerrthresh command to configure or display error thresholds as needed. Use the dspdeverrhist command to view the history of the errors.
Note For the dspdeverr command on the PXM1E, see the next dspdeverr description.
Errors can be isolated to a specific link or the entire switch plane. (A link is the hardware path between the switch plane and the recipient card's bus transceiver.) Most errors result in the shutdown of only a link. Two of the three plane-based errors shut down the entire switch plane.
dspdeverr <device name> [-pslot <slot no>]
dspdeverr <device name> [-xslot <xbar slot>] [-pl <plane No>]
dspdevalms, dspdeverrhist, cnfxbarerrthresh, dspxbarerrthresh
Log: no |
State: active |
Privilege: ANYUSER |
The dashes in the display mean that either no card exists in the slot or that the card is a Cell Bus card.
Do the following sequence of tasks:
1. Display XBARCORE errors for all physical slots.
2. Display XBARCORE errors for the physical slot that shows errors (slot 3).
3. Display XBARCORE errors for the switching card that shows errors (slot 8).
Note The SFrame Tick and SFrame lock errors on a switch plane are critical.
M8850_NY.7.PXM.a > dspdeverr XBARCORE -pslot *
M8850_NY System Rev: 02.01 Dec. 25, 2001 21:17:06 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE CURRENT ERROR COUNTERS SUMMARY
Fabric Slot / Plane
Slot 7/0 7/1 7/2 8/0 8/1 8/2
----- ------ ------ ------ ------ ------ ------
01 0 0 0 0 0 0
02 0 0 0 0 0 0
03 0 0 0 76 68 76
04 -- -- -- -- -- --
05 0 0 0 0 0 0
06 0 0 0 0 0 0
07 0 0 0 0 0 0
08 0 0 0 0 0 0
09 -- -- -- -- -- --
10 -- -- -- -- -- --
11 -- -- -- -- -- --
12 -- -- -- -- -- --
13 -- -- -- -- -- --
14 -- -- -- -- -- --
M8850_NY.7.PXM.a > dspdeverr XBARCORE -pslot 3
M8850_NY System Rev: 02.01 Dec. 24, 2001 22:49:24 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE CURRENT ERROR COUNT FOR SLOT: 3
Fabric
Slot/ Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Plane Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
7/0 0 0 0 0 0 0 0 0 0
7/1 0 0 0 0 0 0 0 0 0
7/2 0 0 0 0 0 0 0 0 0
8/0 1 15 15 0 15 15 0 0 15
8/1 1 15 15 0 15 15 0 0 7
8/2 1 15 15 0 15 15 0 0 15
Type <CR> to continue, Q<CR> to stop:
M8850_NY System Rev: 02.01 Dec. 24, 2001 22:49:24 PST
MGX8850 Node Alarm: MAJO
XBAR CORE CURRENT ERROR COUNT FOR SLOT: 3
Fabric
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
7/0 0 0 0
7/1 0 0 0
7/2 0 0 0
8/0 0 0 0
8/1 0 0 0
8/2 0 0 0
M8850_NY.7.PXM.a > dspdeverr XBARCORE -xslot 8 -pl 2
M8850_NY System Rev: 02.01 Dec. 25, 2001 21:40:39 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE CURRENT ERROR COUNT :
Fabric Slot No: 8 Xbar Plane No: 2
Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Slot Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 1 15 15 0 15 15 0 0 15
4 -- -- -- -- -- -- -- -- --
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 -- -- -- -- -- -- -- -- --
10 -- -- -- -- -- -- -- -- --
11 -- -- -- -- -- -- -- -- --
12 -- -- -- -- -- -- -- -- --
13 -- -- -- -- -- -- -- -- --
14 -- -- -- -- -- -- -- -- --
XBAR CORE CURRENT ERROR COUNT :
Fabric Slot No: 8 Xbar Plane No: 2
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
1 0 0 0
2 0 0 0
3 0 0 0
4 -- -- --
5 0 0 0
6 0 0 0
7 0 0 0
8 0 0 0
9 -- -- --
10 -- -- --
11 -- -- --
12 -- -- --
13 -- -- --
14 -- -- --
M8850_NY.7.PXM.a > dspdeverr XBARCORE -xslot 8
M8850_NY System Rev: 02.01 Dec. 24, 2001 22:14:02 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE CURRENT ERROR COUNT :
Fabric Slot No: 8 Xbar Plane No: 0
Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Slot Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 1 15 15 0 15 15 0 0 15
4 -- -- -- -- -- -- -- -- --
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 -- -- -- -- -- -- -- -- --
10 -- -- -- -- -- -- -- -- --
11 -- -- -- -- -- -- -- -- --
12 -- -- -- -- -- -- -- -- --
13 -- -- -- -- -- -- -- -- --
14 -- -- -- -- -- -- -- -- --
XBAR CORE CURRENT ERROR COUNT :
Fabric Slot No: 8 Xbar Plane No: 0
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
1 0 0 0
2 0 0 0
3 0 0 0
4 -- -- --
5 0 0 0
6 0 0 0
7 0 0 0
8 0 0 0
9 -- -- --
10 -- -- --
11 -- -- --
12 -- -- --
13 -- -- --
14 -- -- --
Display Device Errors—PXM1E
The dspdeverr command on the PXM1E displays errors for a variety of devices on the PXM1E. See the Syntax Description for a list of these devices. The associated alarms are cleared when the error count falls below the error thresholds. Note that the troubleshooting recourse for persistent errors is to swap out the suspect card.
Use the dspdeverrhist command to view the history of errors that have occurred since the last reset.
Note For the dspdeverr command on the PXM45, see the preceding dspdeverr description.
dspdeverr <device name>
device name |
The following are the valid, case-sensitive device names you can enter: • • • • • |
dspdeverrhist
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the CBC errors.
PXM1E_SJ.7.PXM.a > dspdeverr CBC
PXM1E_SJ System Rev: 03.09 Dec. 24, 1999 01:59:52 GMT
MGX8850 Node Alarm: MAJOR
CURRENT ERROR COUNT FOR DEVICE CBC (Alarm : None )
------- ----- ----- --- ------ ---
Error Type Total Errors
---------- ----- ------
ECIC Err 0
ECP Error 0
ECP Discard 0
MCE Err 0
ICP Err 0
LcnRamParity 0
Egr NoAck 0
CB Master0 0
CB Master1 0
CB Master2 0
CB Master3 0
CB Slave 0
DTE Pro Err 0
ECIC Err 0
ECP Error 0
ECP Discard 0
MCE Err 0
ICP Err 0
LcnRamParity 0
Egr NoAck 0
CB Master0 0
CB Master1 0
CB Master2 0
CB Master3 0
CB Slave 0
DTE Pro Err 0
CBC INGR PAR 0
Display the Nile 4 errors.
PXM1E_SJ.8.PXM.a > dspdeverr NILE4
PXM1E_SJ System Rev: 04.00 Mar. 16, 2003 23:59:13 GMT
MGX8850 Node Alarm: MAJOR
CURRENT ERROR COUNT FOR DEVICE NILE4 (Alarm: None )
------- ----- ----- --- ------ -----
Error Type Total Errors
---------- ----- ------
ECC 1 BitErr 0
ECC M BitErr 0
Nile4CPCEErr 0
Display the errors for the QE1210.
PXM1E_SJ.8.PXM.a > dspdeverr QE1210
PXM1E_SJ System Rev: 04.00 Mar. 16, 2003 23:58:24 GMT
MGX8850 Node Alarm: MAJOR
CURRENT ERROR COUNT FOR DEVICE QE1210 (Alarm: None )
------- ----- ----- --- ------ --------------
Error Type Total Errors
---------- ----- ------
Rx HW Err 0
DTE ProcErr 0
RAM ERR 0
CURRENT ERROR COUNT FOR DEVICE QE1210 (Alarm : None )
------- ----- ----- --- ------ --------------
Error Type Total Errors
---------- ----- ------
Rx HW Err 0
DTE ProcErr 0
RAM ERR 0
Display Atlas errors.
PXM1E_SJ.8.PXM.a > dspdeverr ATLAS
PXM1E_SJ System Rev: 04.00 Mar. 16, 2003 23:59:25 GMT
MGX8850 Node Alarm: MAJOR
CURRENT ERROR COUNT FOR DEVICE ATLAS (Alarm : None )
------- ----- ----- --- ------ -------
Error Type Total Errors
---------- ----- ------
Search Err 0
CellData Par 0
VC Tbl Par 0
Misc Error 0
CURRENT ERROR COUNT FOR DEVICE ATLAS (Alarm : None )
------- ----- ----- --- ------ -------
Error Type Total Errors
---------- ----- ------
Search Err 0
CellData Par 0
VC Tbl Par 0
Misc Error 0
Display Device Error History—PXM45
The dspdeverrhist command shows the historical count for various types of errors for a variety of devices that communicate by way of the serial bus (therefore, the RPM, VISM, and other Cell Bus cards are not displayed). The dspdeverrhist command in this description runs on the PXM45. To see a description for the dspdeverrhist command on a PXM1E, see the next dspdeverrhist description.
Note On a switch plane, the SFrame Tick and SFrame lock errors on a switch plane are critical.
A top-down sequence of troubleshooting commands for isolating faults in the switching fabric are:
1. dspndalms
2. dspswalms
3. dspdevalms
4. dspxbarplanealms (for switch ASICS only—device name "XBARCORE")
5. dspdeverrhist
The following syntax applies to XBARCORE, DISK, CBC, HUMVEE, and QE1210 (the 34:
dspdeverrhist <device name> [-pslot <slot no>]
The following syntax applies to XBARCORE only:
dspdeverrhist <device name> [-xslot <xbar slot>] [-pl <plane no>]
dspxbar, dspdevalms, dspxbarerrthresh, cnfxbarerrthresh, dspndalms, dspswalms
Log: yes |
State: active, standby |
Privilege: ANYUSER |
The dashes in the display mean that either no card resides in the slot or that the card is a Cell Bus card.
Two screens are necessary to display all error types. Note that the screen display can accommodate only a finite number of errors without being distorted. Therefore, a K for 1000 or an M for 1000000 multiplier may be necessary—not the case in the first example.
Display the physical slot error history for slot 1. The command parameters are XBARCORE -pslot 1. The view of this display is from the card in slot 1 to all the switch planes. The display shows a small number of errors on the switch planes on the backup PXM45. The errors are not the plane-based errors that would shut down the planes entirely (Sframe tick and SFrame lock). That the same variety of errors appear for all three switch planes suggests that the problem is not in the ASICs themselves.
M8850_NY.7.PXM.a > dspdeverrhist XBARCORE -pslot 1
M8850_NY System Rev: 02.01 Dec. 21, 2001 23:07:37 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE HISTORY ERROR COUNT FOR SLOT: 1
Fabric
Slot/ Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Plane Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
7/0 0 0 0 0 0 0 0 0 0
7/1 0 0 0 0 0 0 0 0 0
7/2 0 0 0 0 0 0 0 0 0
8/0 2 30 30 0 30 30 0 0 21
8/1 2 30 30 0 30 30 0 0 21
8/2 2 30 30 0 30 30 0 0 19
XBAR CORE HISTORY ERROR COUNT FOR SLOT: 1
Fabric
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
7/0 0 0 0
7/1 0 0 0
7/2 0 0 0
8/0 0 0 0
8/1 0 0 0
8/2 0 0 0
Display errors for each card slot addressed by the switch planes in slot 8.
M8850_NY.7.PXM.a > dspdeverrhist XBARCORE -xslot 8
M8850_NY System Rev: 02.01 Dec. 21, 2001 23:11:39 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE HISTORY ERROR COUNT :
Fabric Slot No: 8 Xbar Plane No: 0
Loss Rx Rx Xmit Hdr Pload Slot Slot BP
Slot Sync Cv Disp Par CRC CRC Remap Recur Par
------ ------ ------ ------ ------ ------ ------ ------ ------ ------
1 2 30 30 0 30 30 0 0 21
2 3 45 45 0 45 45 0 0 30
3 1 15 15 0 15 15 0 0 15
4 -- -- -- -- -- -- -- -- --
5 1 15 15 0 15 15 0 0 15
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 -- -- -- -- -- -- -- -- --
10 -- -- -- -- -- -- -- -- --
11 -- -- -- -- -- -- -- -- --
12 -- -- -- -- -- -- -- -- --
13 -- -- -- -- -- -- -- -- --
14 -- -- -- -- -- -- -- -- --
Type <CR> to continue, Q<CR> to stop:
M8850_NY System Rev: 02.01 Dec. 21, 2001 23:11:39 PST
MGX8850 Node Alarm: MAJOR
XBAR CORE HISTORY ERROR COUNT :
Fabric Slot No: 8 Xbar Plane No: 0
Slot/ SFrame SFrame ACP
Plane Tick Lock Addr
----- ------ ------ ----
1 0 0 0
2 0 0 0
3 0 0 0
4 -- -- --
5 0 0 0
6 0 0 0
7 0 0 0
8 0 0 0
9 -- -- --
10 -- -- --
11 -- -- --
12 -- -- --
13 -- -- --
14 -- -- --
M8850_NY.7.PXM.a >
Display Device Error History—PXM1E
The dspdeverrhist command shows the history of various errors for a specified device. This command shows the history of errors that have occurred since the last PXM reset.
To see the current errors, use the dspdeverr command.
Note For the dspdeverrhist command on the PXM45, see the previous dspdeverrhist description.
dspdeverrhist <device name>
device name |
The following are the valid, case-sensitive device names you can enter: • • • • • |
dspdeverr
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Display the device error history for the ATLAS. Run the dspdeverr command to display current errors.
IMA-NODE-225.7.PXM.a > dspdeverrhist ATLAS
IMA-NODE-225 System Rev: 04.00 Dec. 11, 2000 02:36:58 GMT
MGX8850 Node Alarm: CRITICAL
HISTORY ERROR COUNT FOR DEVICE ATLAS
------- ----- ----- --- ------ -------
Error Type Total Errors
---------- ----- ------
Search Err 0
CellData Par 0
VC Tbl Par 0
Misc Error 0
HISTORY ERROR COUNT FOR DEVICE ATLAS
------- ----- ----- --- ------ -------
Error Type Total Errors
---------- ----- ------
Search Err 3440743
CellData Par 0
VC Tbl Par 0
Misc Error 9487087
IMA-NODE-225.7.PXM.a > dspdeverr ATLAS
IMA-NODE-225 System Rev: 04.00 Dec. 11, 2000 02:37:24 GMT
MGX8850 Node Alarm: CRITICAL
CURRENT ERROR COUNT FOR DEVICE ATLAS (Alarm: None )
------- ----- ----- --- ------ -------
Error Type Total Errors
---------- ----- ------
Search Err 0
CellData Par 0
VC Tbl Par 0
Misc Error 0
CURRENT ERROR COUNT FOR DEVICE ATLAS (Alarm : None )
------- ----- ----- --- ------ -------
Error Type Total Errors
---------- ----- ------
Search Err 1
CellData Par 0
VC Tbl Par 0
Misc Error 1
IMA-NODE-225.7.PXM.a >
Display Diagnostics Configuration—PXM45, PXM1E
Displays the current diagnostics configuration, such as whether online or offline is enabled, the coverage time, starting time, and the days of the week (SMTWTFS) that the offline diagnostics runs.
Coverage indicates the length of time that the diagnostics will run as follows:
•light = 5 minutes or less
•medium = 30 minutes or less
•full = any number of minutes-no limit
Note See the cnfdiag command for a detailed description of MGX 8850 diagnostics.
dspdiagcnf
This command takes no parameters.
cnfdiag, cnfdiagall
Log: no |
State: active, standby |
Privilege: SERVICE_GP |
Unknown.8.PXM.a > dspdiagcnf
Online -------------- Offline -------------
Slot Enable Enable Coverage StartTime SMTWTFS
---- ------ ------ -------- --------- -------
1 disable disable light 00:00 SMTWTFSÄã²
2 disable disable light 00:00 SMTWTFSÄã²
3 disable disable light 00:00 SMTWTFSÄã²
4 disable disable light 00:00 SMTWTFSÄã²
5 disable disable light 00:00 SMTWTFSÄã²
6 disable disable light 00:00 SMTWTFSÄã²
7 disable disable light 00:00 SMTWTFSÄã²
8 disable enable light 18:35 -M-----Äã²
9 disable disable light 00:00 SMTWTFSÄã²
10 disable disable light 00:00 SMTWTFSÄã²
11 disable disable light 00:00 SMTWTFSÄã²
12 disable disable light 00:00 SMTWTFSÄã²
13 disable disable light 00:00 SMTWTFSÄã²
14 disable disable light 00:00 SMTWTFSÄã²
15 disable disable light 00:00 SMTWTFSÄã²
16 disable disable light 00:00 SMTWTFSÄã²
17 disable disable light 00:00 SMTWTFSÄã²
18 disable disable light 00:00 SMTWTFSÄã²
19 disable disable light 00:00 SMTWTFSÄã²
20 disable disable light 00:00 SMTWTFSÄã²
21 disable disable light 00:00 SMTWTFSÄã²
22 disable disable light 00:00 SMTWTFSÄã²
23 disable disable light 00:00 SMTWTFSÄã²
24 disable disable light 00:00 SMTWTFSÄã²
25 disable disable light 00:00 SMTWTFSÄã²
26 disable disable light 00:00 SMTWTFSÄã²
27 disable disable light 00:00 SMTWTFSÄã²
28 disable disable light 00:00 SMTWTFSÄã²
29 disable disable light 00:00 SMTWTFSÄã²
30 disable disable light 00:00 SMTWTFSÄã²
31 disable disable light 00:00 SMTWTFSÄã²
32 disable disable light 12:48 ----T--Äã²
Unknown.8.PXM.a >
Display Diagnostic Statistics—PXM45, PXM1E
The dspdiagerr command displays the current offline or online diagnostics errors. To help you interpret any messages, use the dsplog facility.
dspdiagerr <online | offline>
online | offline |
Specify whether the display shows the online or offline diagnostic errors. |
clrdiagerr
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display errors for online diagnostics. In this example, no errors have been reported.
Note For an interpretation of errors displayed by this command, use the dsplog facility, as shown in this screen capture. If that approach is not sufficient, call the TAC.
Goa.1.PXM.a > dspdiagerr online
Slot Date Time Message
---- ---- ---- -------
1 06-May 21:01 Failed (use dsplog -mod PXMD for details)
2 06-May 21:01 Failed (use dsplog -mod PXMD for details)
3 -- --
4 -- --
5 -- --
6 -- --
7 -- --
8 -- --
9 -- --
10 -- --
11 -- --
12 -- --
13 -- --
14 -- --
Goa.1.PXM.a >
Display Diagnostics Status—PXM45, PXM1E
The dspdiagstat command displays the number of times that the diagnostics has run. The output shows the number of attempts and the number of failures for both offline and online diagnostics.
Note See the cnfdiag command for a description of diagnostic parameters.
dspdiagstat <slot>
slot |
The slot of the card for which to display the diagnostics statistics. |
clrdiagstat
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display diagnostic statistics for slot 7 and 21.
M8850_LA.8.PXM.a > dspdiagstat 7
Slot 7 diagnostics statistics:
online diag attempted = 0x00000000
online diag passed = 0x00000000
online diag failed = 0x00000000
offline diag attempted = 0x00000000
offline diag passed = 0x00000000
offline diag failed = 0x00000000
M8850_LA.8.PXM.a >
Unknown.8.PXM.a > dspdiagstat 21
Slot 21 diagnostics statistics:
online diag attempted = 0x00000000
online diag passed = 0x00000000
online diag failed = 0x00000000
offline diag attempted = 0x00000000
offline diag passed = 0x00000000
offline diag failed = 0x00000000
Display Diagnostic Status—PXM45, PXM1E
The dspdiagstatus command displays the diagnostics status for each card on the switch. The information consists of the following:
•Idle
•Ready
•Offline
•Online
Note See the cnfdiag command for a description of the diagnostics parameters.
dspdiagstatus
This command takes no parameters.
cnfdiag, cnfdiagall
Log: no |
State: active, standby |
Privilege: ANYUSER |
Unknown.8.PXM.a > dspdiagstatus
Slot State Role
---- ----- ----
1 Idle UNKNOWN CARD ROLE
2 Idle UNKNOWN CARD ROLE
3 Idle UNKNOWN CARD ROLE
4 Idle UNKNOWN CARD ROLE
5 Idle UNKNOWN CARD ROLE
6 Idle UNKNOWN CARD ROLE
7 Idle UNKNOWN CARD ROLE
8 Ready ACTIVE CARD ROLE
9 Idle UNKNOWN CARD ROLE
10 Idle UNKNOWN CARD ROLE
11 Idle UNKNOWN CARD ROLE
12 Idle UNKNOWN CARD ROLE
13 Idle UNKNOWN CARD ROLE
14 Idle UNKNOWN CARD ROLE
15 Idle UNKNOWN CARD ROLE
16 Ready ACTIVE CARD ROLE
17 Idle UNKNOWN CARD ROLE
18 Idle UNKNOWN CARD ROLE
19 Idle UNKNOWN CARD ROLE
20 Idle UNKNOWN CARD ROLE
21 Idle UNKNOWN CARD ROLE
22 Idle UNKNOWN CARD ROLE
23 Idle UNKNOWN CARD ROLE
24 Idle UNKNOWN CARD ROLE
25 Idle UNKNOWN CARD ROLE
26 Idle UNKNOWN CARD ROLE
27 Idle UNKNOWN CARD ROLE
28 Idle UNKNOWN CARD ROLE
29 Idle UNKNOWN CARD ROLE
30 Idle UNKNOWN CARD ROLE
31 Idle UNKNOWN CARD ROLE
32 Ready ACTIVE CARD ROLE
Unknown.8.PXM.a >
Display Disk—PXM45, PXM1E
Display utilization for all partitions on the hard disk. The display shows the allocated space and the free space. A likely application of dspdisk is a routine check of disk utilization by running a script that includes this command.
Note The capacity of the disk is very large relative to typical usage and therefore does not present potential restrictions. The output shows the allocated space rather than the physical capacity of the drive.
dspdisk
This command takes no parameters.
cd
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the utilization for the default partition C.
orpswp3.7.PXM1E.a > dspdisk
==========================================================
Partition C: Allocated Size: 800 MB Free Space: 574 MB
Partition D: Allocated Size: 600 MB Free Space: 564 MB
Partition E: Allocated Size: 100 MB Free Space: 99 MB
Partition F: Allocated Size: 800 MB Free Space: 799 MB
==========================================================
Display Egress Bucket Counters—PXM1E
The dspegrbucketcnt command displays selected statistical counters for the user-specified 15-minute interval (intvl) for all lines and virtual interfaces on the card.
dspegrbucketcnt <intvl>
dspingbucketcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
MGX8850.7.PXM1E.a > dspegrbucketcnt 0
Line Total Cells
Received
------- ---------------
1.1 0
1.2 0
1.3 0
1.4 0
1.5 0
1.6 0
1.7 0
1.8 0
IfNum Total Cells Total Cells
Received Discarded
----- --------------- ---------------
1 0 0
2 0 0
Display Enhanced IISP—PXM45, PXM1E
Displays the enhanced IISP setting for one port or all ports.
dspenhiisp [<portid>]
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
cnfenhiisp
Log: no |
State: active, standby |
Privilege: ANYUSER |
Geneva.7.PXM.a > dspenhiisp
Enhanced IISP Features Setting
Port Id Enabled
<portid1> yes
<portid2> no
...
Geneva.7.PXM.a >
Display Environment Alarms—PXM45, PXM1E
The dspenvalms command displays alarms related to the environment of the node. The categories are:
•Temperature inside the enclosure
•AC power supplies if applicable
•DC supply power
•DC system power
•Bottom fan tray operation
•Top fan tray operation
The definition of each alarm severity comes from Bellcore TR-NWT-000474. An alarm can be:
•Critical, indicating complete, non-recoverable failure, loss of data, and do on. The failed entity must be restored. A power failure or a line being disconnected is an example.
•Major, indicating service-affecting errors. This event indicates that a major service is damaged or lost, but the existing traffic is not affected.
•Minor, indicating non-service affecting errors or errors on a remote node. Corrective action is appropriate to prevent a serious fault from developing. An example is a fan failure, where no subscribers are immediately affected, but calamity could result if the situation persists. Note that an accumulation of lower-level alarms does equal a higher-level alarm.
The dspenvalms command is part of a hierarchy of troubleshooting commands you can run on a PXM. Frequently, dspenvalms follows the higher-level command dspndalms. The dspndalms command shows a variety of alarm types within the switch and helps isolate the problem.
dspenvalms [temp] [psu] [fan] [vmon]
dspndalms, dspcdstatus
Log: no |
State: active |
Privilege: ANYUSER |
Check the temperature.
MGX8850.7.PXM.a > dspenvalms temp
MGX8850 System Rev: 02.00 Aug. 06, 2000 18:28:33 GMT
MGX8850 Node Alarm: CRITICAL
ENVIRONMENTAL ALARM STATE INFO ^Notification Disabled
Alarm Type Unit Threshold DataType Value State
---------------- ---- -------------- -------- ---------- -------------
Temperature <= 50 Celsius 33 Normal
Display the state of the fans.
Jupiter_Lower.7.PXM.a > dspenvalms fan
JUPITER Node Alarm: NONE
ENVIRONMENTAL ALARM STATE INFO ^Notification Disabled
Alarm Type Unit Threshold DataType Value State
---------------- ---- -------------- -------- ---------- -------------
Top Fan Tray 1 >= 2000 RPM 3432 Normal
Top Fan Tray 2 >= 2000 RPM 3516 Normal
Top Fan Tray 3 >= 2000 RPM 3552 Normal
Top Fan Tray 4 >= 2000 RPM 3402 Normal
Top Fan Tray 5 >= 2000 RPM 3558 Normal
Top Fan Tray 6 >= 2000 RPM 3564 Normal
Top Fan Tray 7 >= 2000 RPM 3618 Normal
Top Fan Tray 8 >= 2000 RPM 3522 Normal
Top Fan Tray 9 >= 2000 RPM 3516 Normal
Bottom Fan Tray 1 >= 2000 RPM 3576 Normal
Bottom Fan Tray 2 >= 2000 RPM 3558 Normal
Bottom Fan Tray 3 >= 2000 RPM 3594 Normal
Bottom Fan Tray 4 >= 2000 RPM 3570 Normal
Bottom Fan Tray 5 >= 2000 RPM 3492 Normal
Bottom Fan Tray 6 >= 2000 RPM 3600 Normal
Bottom Fan Tray 7 >= 2000 RPM 3504 Normal
Show the power supplies. This screen is from a DC system, which has only one DC source. Note that the "Normal" status of A1 and B1 AC sources is actually okay for the DC display.
MGX8850.7.PXM.a > dspenvalms psu
ENVIRONMENTAL ALARM STATE INFO ^Notification Disabled
Alarm Type Unit Threshold DataType Value State
---------------- ---- -------------- -------- ---------- -------------
Temperature <= 50 Celsius 33 Normal
Power Supply A1 none None none Normal
Power Supply A2 none None none Missing
Power Supply A3 none None none Missing
DC Voltage A 42 to 54 VoltsDC 49 Normal
Power Supply B1 none None none Normal
Power Supply B2 none None none Missing
Power Supply B3 none None none Missing
DC Voltage B 42 to 54 VoltsDC 0 Normal
Display all environment alarms for the enclosure by entering dspenvalms with no optional parameters.
M8850_LA.8.PXM.a > dspenvalms
M8850_LA System Rev: 04.00 May. 12, 2003 16:18:22 GMT
MGX8850 Node Alarm: CRITICAL
ENVIRONMENTAL ALARM STATE INFO ^Notification Disabled
Alarm Type Unit Threshold DataType Value State
---------------- ---- -------------- -------- ---------- -------------
Temperature <= 50 Celsius 29 Normal
Power Supply A1 none None none Normal
Power Supply A2 none None none Missing
Power Supply A3 none None none Missing
DC Voltage A 42 to 58 VoltsDC 49 Normal
Power Supply B1 none None none Missing
Power Supply B2 none None none Missing
Power Supply B3 none None none Missing
DC Voltage B 42 to 58 VoltsDC 0 Normal
Top Fan Tray 1 >= 2000 RPM 3594 Normal
Top Fan Tray 2 >= 2000 RPM 3546 Normal
Top Fan Tray 3 >= 2000 RPM 3582 Normal
Top Fan Tray 4 >= 2000 RPM 3474 Normal
Top Fan Tray 5 >= 2000 RPM 3402 Normal
Top Fan Tray 6 >= 2000 RPM 3546 Normal
Top Fan Tray 7 >= 2000 RPM 3492 Normal
Top Fan Tray 8 >= 2000 RPM 3450 Normal
Top Fan Tray 9 >= 2000 RPM 3462 Normal
Bottom Fan Tray 1 >= 2000 RPM 0 Missing
Bottom Fan Tray 2 >= 2000 RPM 0 Missing
Bottom Fan Tray 3 >= 2000 RPM 0 Missing
Bottom Fan Tray 4 >= 2000 RPM 0 Missing
Bottom Fan Tray 5 >= 2000 RPM 0 Missing
Bottom Fan Tray 6 >= 2000 RPM 0 Missing
Bottom Fan Tray 7 >= 2000 RPM 0 Missing
Bottom Fan Tray 8 >= 2000 RPM 0 Missing
Bottom Fan Tray 9 >= 2000 RPM 0 Missing
+5V Input 4.850^ to 5.150^ VoltsDC 5.036 Informational
+3.3V Input 3.200^ to 3.400^ VoltsDC 3.298 Informational
+2.5V Input 2.425^ to 2.575^ VoltsDC 2.528 Informational
Calibration VDC 0x7e^ to 0x82^ Other 0x80 Informational
M8850_LA.8.PXM.a >
Display Error—PXM45, PXM1E
Display error message files. The dsperr command is primarily a debug command. Because it displays tasks and system calls, the information is more suitable to developers or others who can use information that is internal to the runtime software image rather than the network. The information may also be useful to Cisco support personnel.
Regardless of the severity of the error—even a warning—goes into an error log. The variety of errors is large, but include such events as task traces, stack traces, memory dumps, exception frames, and so on.
dsperr <-s1 slot> [-en <Error#>] [-tr {P | L | N}]
clrerr, dsplog, dsplogs
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display errors for slot 7. Two Err Nums appear—7763 and 7762.
Unknown.7.PXM.a > dsperr -sl 7
Error Log for Slot 07:Error Num 7763
Firmware version:003.000.200.108-A_swtool Product Id:8850
Timestamp:04/17/2002-17:40:16 Node name:p2spvc21
Section Number 0:
Event Logged:
07I00135 04/17/2002-17:40:15 NCDT-4-GENERAL_INFO
E:07763 pnCcb ncdp_goActive
ncdp_goActive ncdpBestClk Id and
ncdpSecBestClkId are being populated
Section Number 1:
Stack Trace:
0x80998a74 ccb_proot_msg_hdlr +114:ncdp_goActive+0()
0x80b7d090 ncdp_goActive +1ec:ssiEventDispFunc+0()
0x8019ba60 ssiEventDispFunc +220:ssiEventMsgReport+0()
0x8019bd30 ssiEventMsgReport +290:ssiStackTrace+0()
0
--------------
Error Log for Slot 07:Error Num 7762
Firmware version:003.000.200.108-A_swtool Product Id:8850
Timestamp:04/17/2002-17:38:57 Node name:p2spvc21
Section Number 0:
Event Logged:
07I00068 04/17/2002-17:38:57 MIB-7-NOENTPHYSINDEX
E:07762 tmon entityPhysicalIndexGet
entityPhysicalIndexGet:entPhysicalIndex not found for Subclass 11 Container 2 Unit number 1
Section Number 1:
Stack Trace:
0x802b24b8 monMain +11c:asmMonitor+0()
0x802c4248 asmMonitor +508:asmCheckDCLevel+0()
0x802c5b00 asmCheckDCLevel +810:asmUnitAlarmTrap+0()
0x802c8dc0 asmUnitAlarmTrap +1dc:entityPhysicalIndexGet+0()
0x804a36d0 entityPhysicalIndexGet +054:ssiEventDispFunc+0()
0x8019ba60 ssiEventDispFunc +220:ssiEventMsgReport+0()
0x8019bd30 ssiEventMsgReport +290:ssiStackTrace+0()
--------------
Display Error History—PXM45, PXM1E
The display consists of the following for each record in the history file:
•A number for the entry in the error history file
•An event number in hexadecimal format
•An event name—a few words that describe the error (such as the severity or affected area)
•A time stamp
The maximum number of entries in the history for a slot is 10. When the 11th error is logged, the switch deletes the oldest entry. Alternatively, you can clear the error history by executing clrerrhist.
If no entries exist in the history, the system returns the message, Nothing is logged.
dsperrhist [slot]
slot |
Number of the slot—any slot in the switch. If you do not enter a slot number, the system displays the error history on the active PXM. |
clrerrhist
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display the error history for the current PXM45. This PXM45 resides in slot 8.
jdlenoir.8.PXM.a > dsperrhist
Log of Errors and Failures (Slot 8):
Entry#--Event#---EventName-------------------------------TimeStamp-----------
General:
01 0x5006 CBC(Slave) Non-Fatal Minor 11/21/2000-17:55:49
02 0x5006 CBC(Slave) Non-Fatal Minor 11/21/2000-17:57:36
03 0x5006 CBC(Slave) Non-Fatal Minor 11/21/2000-18:22:47
-----------------------------------------------------------------------------
Display the error history for the AXSM in slot 6.
scott.8.PXM.a > dsperrhist 6
Log of Errors and Failures (Slot 6):
Entry#--Event#---EventName-------------------------------TimeStamp-----------
General:
01 0x0005 SHM_CDF_DISCOVER_TMR_POP 11/21/2000-13:49:47
-----------------------------------------------------------------------------
Display the error history for the AXSM in slot 1.
pop20two.7.PXM.a > dsperrhist 1
Log of Errors and Failures (Slot 1):
Entry#--Event#---EventName-------------------------------TimeStamp-----------
General:
01 0x0005 SHM_CDF_DISCOVER_TMR_POP 11/29/2000-16:45:18
02 0x0001 SHM_CDF_INVALID_SW_ID 11/29/2000-16:45:48
03 0x0002 SHM_CDF_SW_DNLD_FAILED 11/29/2000-16:51:17
04 0x0005 SHM_CDF_DISCOVER_TMR_POP 12/26/2000-16:23:19
Hardware Alarm:
01 0x5000 Humvee Non-Fatal Minor 12/18/2000-16:48:36
02 0x5000 Humvee Non-Fatal Minor 12/18/2000-16:49:11
03 0x5000 Humvee Non-Fatal Minor 12/18/2000-16:49:38
04 0x5000 Humvee Non-Fatal Minor 12/18/2000-16:54:31
05 0x5000 Humvee Non-Fatal Minor 12/26/2000-16:16:34
-----------------------------------------------------------------------------
Display Ethernet Interface—PXM45, PXM1E (init state only)
The dspetherif command displays the Ethernet interface configuration that was created by the cnfetherif command. Both of these commands are available only when the PXM is in the init state.
dspetherif
This command has no parameters.
cnfetherif
Log: no |
State: init |
Privilege: ANYUSER |
Display the current init-state Ethernet interface.
scott.8.PXM.i > dspetherif
scott System Rev:03.00 Sep. 20, 2002 12:49:26 PST
MGX8850 Node Alarm:MINOR
ETHERNET IP INTERFACE CONFIGURATION
--------------------------------------------------------------------
lnPci (unit number 0):
Flags:(0x63) UP BROADCAST ARP RUNNING
Type:ETHERNET_CSMACD
Internet address:177.29.19.66
Broadcast address:177.29.19.255
Netmask 0xffff0000 Subnetmask 0xffffff00
Ethernet address is 00:30:94:09:f3:ab
Metric is 0
Maximum Transfer Unit size is 1500
342500 packets received; 281994 packets sent
60401 multicast packets received
282 multicast packets sent
0 input errors; 0 output errors
0 collisions; 0 dropped
DISK IP address:177.29.19.66
scott.8.PXM.i >
Display File—PXM45, PXM1E
The dspfile command lets you display the contents of a file on the hard drive in either ASCII (plain text) or hexadecimal format.
dspfile <filename> <-a>
filename |
The name of the file to display. |
-a |
Specify the ASCII (plain test) display of the file. Not all files can display in ASCII. |
None
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display the "version" file first in ASCII then in hexadecimal format. This file is very small.
Unknown.8.PXM.a > dspfile version -a
BOOTFILE=pxm1e_003.000.000.000-D_mgx.fw
Unknown.8.PXM.a >
Unknown.8.PXM.a > dspfile version
42 4f 4f 54 46 49 4c 45 3d 70 78 6d 31 65 5f 30
30 33 2e 30 30 30 2e 30 30 30 2e 30 30 30 2d 44
5f 6d 67 78 2e 66 77
Unknown.8.PXM.a >
Display Filter Set—PXM45, PXM1E
Displays a specific ATM filter set or a summary of ATM filter sets.
dspfltset [-name <...>]
-name |
If you do not type a filter set name, a summary of ATM filter sets is displayed. |
addfltset, cnffltset, delfltset
Log: yes |
State: active, standby |
Privilege: ANYUSER |
Geneva.7.PXM.a > dspfltset SanJose
FilterName: SanJose
Index: 1
Address: 1234567890123456789012345678901234567890
AddrLen: 160 bits
AddrPlan: Nsap
AccessMode: Permit
AddrList: Calling
---------------------------------------
FilterName: SanJose
Index: 2
Address: 1234567890123456789012345678901234567891
AddrLen: 160 bits
AddrPlan: Nsap
AccessMode: Deny
AddrList: Called
---------------------------------------
Output example for the command
dspfltset
Filter Number: 1
FilterName: SanJose
ScreeningDigits: 40
CgPtyAbsentAction: Permit
CdPtyAbsentAction: Deny
---------------------------------------
Filter Number: 2
FilterName: Sunnyvale
ScreeningDigits: 20
CgPtyAbsentAction: Deny
CdPtyAbsentAction: Deny
Geneva.7.PXM.a >
Display Hot Standby—PXM1E
The dsphotstandby command shows the hot standby capability of FRSM-VHS card pairs in the switch. If no 1:1 redundant FRSM-VHS cards sets reside in the switch or if they are not capable of hot standby, the dsphotstandby shows nothing.
Note Even if the dspcd or dspcds command shows that a pair of FRSM-VHS cards have hot standby capability, Cisco Systems recommends that you not count on this capability (and switch over the cards) unless the dsphotstandby display shows hot standby capability.
dsphotstandby
This command takes no parameters.
dspcds, dspcd
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the presence of hot standby capability on the switch. In this case, none exists.
M8830_SF.2.PXM.a > dsphotstandby
M8830_SF.2.PXM.a >
Repeat on another switch.
M8850_SF.7.PXM.a > dsphotstandby
Slot 9 :Primary Active SM.
Slot 10 :Secondary SM in HOT STANDBY state.
Display ILMI—PXM1E
Display the configuration for the integrated local management interface (ILMI) on a specific port. The information in the dspilmi output was configured through the cnfilmi command.
dspilmi <ifNum> <partId>
ifNum |
The range for logical interface is 1-31. |
partId |
The range for partition identifier is 1-20. |
cnfilmi, dspilmis, dspilmicnt, clrilmicnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display ILMI information for logical interface 1, resource partition 1.
pinnacle3.7.PXM1E.a > dspilmi 1 1
Sig. rsrc Ilmi Sig Sig Ilmi S:Keepalive T:conPoll K:conPoll
Port Part State Vpi Vci Trap Interval Interval InactiveFactor
---- ---- ---- ---- ---- --- ------------ ---------- ----------
1 1 Off 0 16 On 1 5 4
Display ILMI Address—PXM45, PXM1E
The dspilmiaddr command lets you display the ATM addresses registered by the peer via the ILMI address registration mechanism.
dspilmiaddr <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
cnfilmienable, cnfilmiproto, dsppnilmi, pntraceilmi
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the ILMI address on port 3:2.2:4.
8850_NY.7.PXM.a > dspilmiaddr 3:2.2:4
INFO: No ilmi address registered
Display ILMI Counters—PXM1E
Displays the ILMI counters for a particular resource partition on a particular logical port.
dspilmicnt <ifNum> <partId>
ifNum |
The range for logical interface is 1-31. |
partId |
The range for partition identifier is 1-20. |
cnfilmi, dspilmi, dspilmis, clrilmicnt, dnilmi, upilmi
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the ILMI counters for logical port 29 on partition 1.
PXM1E_SJ.7.PXM.a > dspilmicnt 29 1
If Number : 29
Partition Id : 1
SNMP Pdu Received : 1337785
GetRequest Received : 790625
GetNext Request Received : 0
SetRequest Received : 0
Cold Start Trap Received : 0
GetResponse Received : 547160
GetResponse Transmitted : 790625
GetRequest Transmitted : 547160
Cold Start Trap Transmitted : 1
VPC Trap Transmitted : 0
VCC Trap Transmitted : 0
Unknown Type Received : 0
ASN1 Pdu Parse Error : 0
No Such Name Error : 0
Pdu Too Big Error : 0
PXM1E_SJ.7.PXM.a >
Display ILMI Configurations—PXM1E
The dspilmis command lets you display the configuration of all integrated local management interfaces (ILMIs) on the service module.
dspilmis
cnfilmi, dspilmi, dspilmicnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display all ILMIs on the current service module.
pop20two.7.PXM1E.a >
dspilmis
Sig. rsrc Ilmi Sig Sig Ilmi S:Keepalive T:conPoll K:conPoll
Port Part State Vpi Vci Trap Interval Interval InactiveFactor
---- ---- ---- ---- ---- --- ------------ ---------- ----------
1 2 On 0 16 On 1 5 4
2 2 Off 0 16 On 1 5 4
3 2 Off 0 16 On 1 5 4
pop20two.7.PXM1E.a >
Display IMA Group—PXM1E
Displays the following configuration and operational information for an IMA group.
dspimagrp <group>
group |
The group identifier consists of a bay number as well as a group number in the format bay.group, as follows: • • |
addimagrp, delimagrp, dspimagrpcnt, dspimagrps, cnfimagrp, rstimagrp, dspimalnk, addimalnk, delimalnk
Log: no |
State: active |
Privilege: ANYUSER |
Display all groups: all are still starting up. Display the configuration and other details for IMA group 1.
MGX-PXM1E.8.PXM.a > dspimagrps
Ima Min Tx Rx Tx Diff NE-IMA FE-IMA IMA
Grp Lnks Frm Frm Clk Delay state state Ver
Len Len Mode (ms)
--------------------------------------------------------------------------------
2.1 1 128 32 CTC 275 StartUp StartUp 1.0
2.2 1 128 32 CTC 275 StartUp StartUp 1.0
MGX-PXM1E.8.PXM.a > dspimagrp 2.1
Group Number : 2.1
NE IMA Version : Version 1.0
Group Symmetry : Symm Operation
Tx Min Num Links : 1
Rx Min Num Links : 1
NE TX Clk Mode : CTC
FE TX Clk Mode : CTC
Tx Frame Len : 128
Rx Frame Len : 32
Group GTSM : Down
NE Group State : StartUp
FE Group State : StartUp
Group Failure Status : StartUp Ne
Tx Ima Id : 1
Rx Ima Id : 0
Max Cell Rate (c/s) : 14367
Avail Cell Rate (c/s) : 0
Diff Delay Max (msecs) : 275
Diff Delay Max Observed (msecs) : 0
Accumulated Delay (msec) : 0
GTSM Up Integ time(msec) : 10000
GTSM Dn Integ time(msec) : 2500
Num Tx Cfg Links : 4
Num Rx Cfg Links : 4
Num Act Tx Links : 0
Num Act Rx Links : 0
Least Delay Link : Unknown
Tx Timing Ref Link : 2.12
Rx Timing Ref Link : Unknown
Group Running Secs : 0
Alpha Val : 2
Beta Val : 2
Gamma Val : 1
Tx OAM Label : 1
Rx OAM Label : 0
Test Pattern Procedure Status : Disabled
Test Link : Unknown
Test Pattern : 255
Display all IMA groups, then display details about group 1. These groups are operational.
PXM1E-226.7.PXM.a > dspimagrps
Ima Min Tx Rx Tx Diff NE-IMA FE-IMA IMA
Grp Lnks Frm Frm Clk Delay state state Ver
Len Len Mode (ms)
--------------------------------------------------------------------------------
2.1 2 128 128 CTC 275 Operational Operational 1.1
2.2 2 128 128 CTC 275 Operational Operational 1.0
2.3 2 128 128 CTC 275 Operational Operational 1.1
PXM1E-226.7.PXM.a > dspimagrp 2.1
Group Number : 2.1
NE IMA Version : Version 1.1
Group Symmetry : Symm Operation
Tx Min Num Links : 2
Rx Min Num Links : 2
NE TX Clk Mode : CTC
FE TX Clk Mode : CTC
Tx Frame Len : 128
Rx Frame Len : 128
Group GTSM : Up
NE Group State : Operational
FE Group State : Operational
Group Failure Status : No Failure
Tx Ima Id : 100
Rx Ima Id : 21
Max Cell Rate (c/s) : 7183
Avail Cell Rate (c/s) : 7183
Diff Delay Max (msecs) : 275
Diff Delay Max Observed (msecs) : 0
Accumulated Delay (msec) : 0
GTSM Up Integ time(msec) : 10000
GTSM Dn Integ time(msec) : 2500
Num Tx Cfg Links : 2
Num Rx Cfg Links : 2
Num Act Tx Links : 2
Num Act Rx Links : 2
Least Delay Link : 2.2
Tx Timing Ref Link : 2.1
Rx Timing Ref Link : 2.1
Group Running Secs : 60721
Alpha Val : 2
Beta Val : 2
Gamma Val : 1
Tx OAM Label : 3
Rx OAM Label : 3
Test Pattern Procedure Status : Disabled
Test Link : Unknown
Test Pattern : 255
PXM1E-IMA-226.7.PXM.a >
Display IMA Group Alarm—PXM1E
Displays alarm information for an IMA group.
dspimagrpalm <group>
group |
The group identifier consists of a bay number as well as a group number in the format bay.group, as follows: • • |
dspimagrpalms
Log: no |
State: active |
Privilege: ANYUSER |
Display the alarms for IMA group 1.
MGX-PXM1E.8.PXM.a > dspimagrpalm 2.1
Group Number : 2.1
Alarm State : StartUp Ne
Display IMA Group Alarms—PXM1E
This command displays the alarm states for all IMA groups.
dspimagrpalms
This command takes no parameters.
dspimagrpalm
Log: no |
State: active |
Privilege: ANYUSER |
Display alarms for all IMA groups:
MGX-PXM1E.8.PXM.a > dspimagrpalms
Group Number : 2.1
Alarm State : StartUp Ne
Group Number : 2.2
Alarm State : StartUp Ne
MGX-PXM1E.8.PXM.a >
Display IMA Group Bucket Count—PXM1E
Displays the cell count in the policing bucket for the specified IMA group at a specified interval.
dspimagrpbucketcnt <group> <intvl>
clrimagrpalmcnt, clrimagrpalmcnts, clrimagrpcnts, clrimalnkcnts, dspimagrpalmcnt, dspimalnkbucketcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display IMA group 1 with an interval of 1.
MGX-PXM1E.8.PXM.a > dspimagrpbucketcnt 2.1 1
Group Number : 2.1
Interval Number : 1
Unavailable Seconds : 900
Near End Failures : 0
Far End Failures : 0
MGX-PXM1E.8.PXM.a >
Display IMA Group Counters—PXM1E
This command displays the performance and statistics counter information for an IMA group: See the output examples in the Example section.
dspimagrpcnt <group> <intvl>
clrimagrpcnts
Log: no |
State: active |
Privilege: ANYUSER |
For IMA group 1, display the counters for the most recent 15-minute interval then the 15-minute interval 1 day ago.
MGX-PXM1E.8.PXM.a.a > dspimagrpcnt 2.1 1
Ima Group : 2.1
Interval : 1
Ingress Egress
CLP0 Cells : 0 0
CLP1 Cells : 0 0
Valid OAM Cells : 0 0
Err OAM Cells : 0 0
Rcv Valid RM Cells : 0 0
Invalid VPI/VCI/PTI Cells : 0
Rcv Idle Cells : 0
Non-zero GFC Cells : 0
Last Unknown VPI : 506
Last Unknown VCI : 47833
Discard HecErr Cells : 0
Corrected HecErr Cells : 0
MGX-PXM1E.8.PXM.a > dspimagrpcnt 2.1 96
Ima Group : 2.1
Interval : 96
Ingress Egress
CLP0 Cells : 0 900
CLP1 Cells : 0 0
Valid OAM Cells : 0 900
Err OAM Cells : 0 0
Rcv Valid RM Cells : 0 0
Invalid VPI/VCI/PTI Cells : 0
Rcv Idle Cells : 0
Non-zero GFC Cells : 0
Last Unknown VPI : 0
Last Unknown VCI : 0
Discard HecErr Cells : 0
Corrected HecErr Cells : 0
MGX-PXM1E.8.PXM.a >
Display IMA Groups—PXM1E
This command displays general information for all IMA groups. The information is a subset of the information displayed by the dspimagrp command.
dspimagrps
This command takes no parameters.
dspimagrp
Log: no |
State: active |
Privilege: ANYUSER |
Display all IMA groups. These groups are operational.
PXM1E-226.7.PXM.a > dspimagrps
Ima Min Tx Rx Tx Diff NE-IMA FE-IMA IMA
Grp Lnks Frm Frm Clk Delay state state Ver
Len Len Mode (ms)
--------------------------------------------------------------------------------
2.1 2 128 128 CTC 275 Operational Operational 1.1
2.2 2 128 128 CTC 275 Operational Operational 1.0
2.3 2 128 128 CTC 275 Operational Operational 1.1
Display IMA Link—PXM1E
This command displays the following configuration information for an IMA link:
dspimalnk <link>
link |
The link identifier consists of a bay number as well as a link number in the format bay.link, as follows: • • |
addimalnk, delimalnk
Log: no |
State: active |
Privilege: ANYUSER |
Display the configuration information for IMA link number 1.
MGX8850.7.PXM1E.a > dspimalnk 2.1
IMA Link Number : 2.1
IMA Link Group Number : 2.1
LinkRelDelay (msec) : 0
LinkNeTxState : Unusable
LinkNeRxState : Unusable
LinkFeTxState : Unusable
LinkFeRxState : Unusable
LinkNeRxFailureStatus : Lif Fail
LinkFeRxFailureStatus : Link Fail
ImaLink TxLid : 0
ImaLink RxLid : 0
LinkRxTestPattern : 255
LinkTestProcStatus : Disabled
Display all links (different switch), then display link 1.
PXM1E-226.7.PXM.a > dspimalnks
Link Grp Rel Ne Ne NeRx Tx Rx
Num Num Dly Tx Rx Fail Lid Lid
(ms) State State Status
------------------------------------------------------------------------------
2.1 2.1 0 Active Active No Failure 0 0
2.2 2.1 0 Active Active No Failure 1 1
2.3 2.3 0 Active Active No Failure 2 2
2.4 2.3 0 Active Active No Failure 3 3
2.5 2.2 0 Active Active No Failure 4 0
2.6 2.2 0 Active Active No Failure 5 1
2.7 2.2 0 Active Active No Failure 6 2
PXM1E-226.7.PXM.a > dspimalnk 2.1
IMA Link Number : 2.1
IMA Link Group Number : 2.1
LinkRelDelay (msec) : 0
LinkNeTxState : Active
LinkNeRxState : Active
LinkFeTxState : Active
LinkFeRxState : Active
LinkNeRxFailureStatus : No Failure
LinkFeRxFailureStatus : No Failure
ImaLink TxLid : 0
ImaLink RxLid : 0
LinkRxTestPattern : 255
LinkTestProcStatus : Disabled
PXM1E-226.7.PXM.a >
Display IMA Link Alarm—PXM1E
This command displays the alarm state of an IMA link.
|
|
---|---|
Link Number |
IMA link number |
Alarm State |
IMA link alarm information |
dspimalnkalm <link>
link |
The link identifier consists of a bay number as well as a link number in the format bay.link, as follows: • • |
dspimalnkalms
Log: no |
State: active |
Privilege: ANYUSER |
Display alarms for link 1.
MGX8850.7.PXM1E.a > dspimalnkalm 2.1
Link Number : 2.1
Alarm State : Lif Fail
Display IMA Link Alarms—PXM1E
Displays the alarms states of all IMA links.
|
|
---|---|
Link Number |
IMA link number |
Alarm State |
IMA link alarm information |
dspimalnkalms
This command takes no parameters.
dspimalnkalm
Log: no |
State: active |
Privilege: ANYUSER |
Display all IMA link alarms:
MGX8850.7.PXM1E.a > dspimalnkalms
Link Number : 2.1
Alarm State : Lif Fail
Link Number : 2.2
Alarm State : Lif Fail
Link Number : 2.3
Alarm State : Lif Fail
Link Number : 2.4
Alarm State : Lif Fail
Display IMA Link Bucket Count—PXM1E
Displays the cell count in the policing bucket for the specified IMA link at a specified interval.
dspimalnkbucketcnt <link> <intvl>
clrimagrpalmcnt, clrimagrpalmcnts, clrimagrpcnts, clrimalnkcnts, dspimagrpalmcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
MGX8850.7.PXM1E.a > dspimalnkbucketcnt 2.1 1
Link Number : 2.1
Interval Number : 1
Near End Far End
SESs : 0 0
Unavailable Seconds : 900 900
Tx Unusable Seconds : 900 900
Rx Unusable Seconds : 900 900
Tx Stuffs : 1592
Rx Stuffs : 0
IMA Violations : 0
OIF Anomalies : 0
Display IMA Link Counters—PXM1E
This command displays the following performance and statistics counter information for an IMA link:
dspimalnkcnt <link>
link |
The link identifier consists of a bay number as well as a link number in the format bay.link, as follows: • • |
dspimalnk
Log: no |
State: active |
Privilege: ANYUSER |
MGX8850.7.PXM1E.a > dspimalnkcnt 2.2
IMA Link Number : 2.2
IMA Group Number : 2.2
IMA Link Violations : 0
IMA Link OIF Anomalies : 0
IMA Link NE SES : 0
IMA Link FE SES : 0
IMA Link NE UnavSec : 0
IMA Link FE UnavSec : 0
IMA Link NE Tx UnusSec : 0
IMA Link NE Rx UnusSec : 0
IMA Link FE Tx UnusSec : 0
IMA Link FE Rx UnusSec : 0
IMA Link NE Tx Num Fail : 0
IMA Link NE Rx Num Fail : 0
IMA Link FE Tx Num Fail : 0
IMA Link FE Rx Num Fail : 0
IMA Link Tx Stuffs : 2059
IMA Link Rx Stuffs : 2059
IMA Link Rx Error Free ICP cells : 0
Display IMA Links—PXM1E
Displays the following configuration information for IMA links.
dspimalnks
This command takes no parameters.
dspimalnk
Log: no |
State: active |
Privilege: ANYUSER |
Display all IMA links on the current PXM1E. They are in a failed state.
MGX-PXM1E.8.PXM.a > dspimalnks
Link Grp Rel Ne Ne NeRx Tx Rx
Num Num Dly Tx Rx Fail Lid Lid
(ms) State State Status
------------------------------------------------------------------------------
2.9 2.1 0 Unusable-Failed Not In Grp Lif Fail 8 255
2.10 2.1 0 Unusable-Failed Not In Grp Lif Fail 9 255
2.11 2.1 0 Unusable-Failed Not In Grp Lif Fail 10 255
2.12 2.1 0 Unusable-Failed Not In Grp Lif Fail 11 255
2.13 2.2 0 Unusable-Failed Not In Grp Lif Fail 12 255
2.14 2.2 0 Unusable-Failed Not In Grp Lif Fail 13 255
2.15 2.2 0 Unusable-Failed Not In Grp Lif Fail 14 255
2.16 2.2 0 Unusable-Failed Not In Grp Lif Fail 15 255
Display all IMA links on the current PXM1E (different switch). All links are active and have no failures. Display link 2.1.
PXM1E-226.7.PXM.a > dspimalnks
Link Grp Rel Ne Ne NeRx Tx Rx
Num Num Dly Tx Rx Fail Lid Lid
(ms) State State Status
------------------------------------------------------------------------------
2.1 2.1 0 Active Active No Failure 0 0
2.2 2.1 0 Active Active No Failure 1 1
2.3 2.3 0 Active Active No Failure 2 2
2.4 2.3 0 Active Active No Failure 3 3
2.5 2.2 0 Active Active No Failure 4 0
2.6 2.2 0 Active Active No Failure 5 1
2.7 2.2 0 Active Active No Failure 6 2
PXM1E-226.7.PXM.a > dspimalnk 2.1
IMA Link Number : 2.1
IMA Link Group Number : 2.1
LinkRelDelay (msec) : 0
LinkNeTxState : Active
LinkNeRxState : Active
LinkFeTxState : Active
LinkFeRxState : Active
LinkNeRxFailureStatus : No Failure
LinkFeRxFailureStatus : No Failure
ImaLink TxLid : 0
ImaLink RxLid : 0
LinkRxTestPattern : 255
LinkTestProcStatus : Disabled
PXM1E-226.7.PXM.a >
Display Ingress Bucket Counters—PXM1E
The dspingbucketcnt command displays selected statistical counters for the specified 15 minute interval (intvl) for all the lines on card.
dspingbucketcnt <intvl>
dspegrbucketcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
MGX8850.7.PXM1E.a > dspingbucketcnt
Line Total Cells Total Cells
Received Discarded
------- --------------- ---------------
1.1 0 0
1.2 0 0
1.3 0 0
1.4 0 0
1.5 0 0
1.6 0 0
1.7 0 0
1.8 0 0
2.1 0 0
2.2 0 0
2.3 0 0
2.4 0 0
Display Interface Congestion Counters—PXM45, PXM1E
The dspintfcongcntr command displays the congestion thresholds for a port. This command cannot be used if the interface is in PROVISIONING state or if the interface ("IF" in the display) is down.
dspintfcongcntr <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
dspintfcongth, cnfintfcongth
Log: no |
State: active, standby |
Privilege: SUPER_GP |
Geneva.7.PXM.a > dspintfcongcntr 11:2.2:22
Parameter Value thresh1 thresh2
============================================================
setupRx 0 140 180
unackstatenq 0 40 100
Parameter Value Mild Medium Severe
============================================================
vsiqdepth 0 5 10 20
Geneva.7.PXM.a >
Note: vsiqdepth is the depth of the VSI queue for the slave that serves the interface identified by portid, and this is displayed as the percentage of VSI communication window size.
Display Interface Congestion Flags—PXM45, PXM1E
The dspintfcongflags command displays various congestion detection and action flags for a PNNI.
dspintfcongflags <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
dspnodalcongflag
Log: no |
State: active, standby |
Privilege: SUPER_GP |
Geneva.7.PXM.a > dspintfcongflags 4:1.1:1
Parameter Value
===================================
vsimildcongflg FALSE
vsimedcongflg FALSE
vsiseverecongflg FALSE
setupflg FALSE
unackstatenqcongflg FALSE
Congestion Action Flags for Interface:1.4
Parameter Value
===================================
dropsetupflg FALSE
dropestabflg FALSE
queuerel FALSE
markcallsforrelflag FALSE
pacevsiresyncflg FALSE
pacestatenqflg FALSE
speedjournalflg FALSE
pacepnniroutecalflg FALSE
lowersetupthflg FALSE
SAPI Action Severe TRUE
SAPI Action Medium TRUE
Display Interface Congestion Thresholds—PXM45, PXM1E
The dspintfcongth command display the congestion thresholds for a port.
dspintfcongth <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
cnfintfcongth
Log: no |
State: active, standby |
Privilege: ANYUSER |
svcpop1.1.PXM.a > dspintfcongth 10:1.1:1
Congestion Thresholds for port : 10:1.1:1
Parameter Value unit
--------- ----- ----
setuphi 90 cps
unackedStatEnqLo 40 messages
unackedStatEnqHi 100 messages
Geneva.7.PXM.a >
Display IP Connectivity Task—PXM45, PXM1E
Display the current state of the IP connectivity task. As a part of a troubleshooting regimen, the dspipconntask command can help you isolate a problem related to IP connectivity.
dspipconntask
ipifconfig, dspipif, dspipifcache, setipconndebug
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display the task information IP connection on the PXM45. Note that the Task Debug Level can be modified through the setipconndebug command.
MGX8850.7.PXM.a > dspipconntask
IP CONNECTIVITY TASK INFORMATION
----------------------------------------------------------
Task State: ACTIVE
Card State: READY
Task Id: 0x10010
Subtask Id: 0x1005c
Disk API State: OK
SyncRam API State: OK
Task SyncRam State: UPDATE
Task Disk Update Bitmap:
Device Table: 0 0 0
Task SyncRam Update Bitmap:
Disk: 0 0 0
IO Links: 0 0 0
Interface Cache: 0 0 0
BootChange Sync: 0 0 0
Task Debug Level: 0x1
Task Logging To: Event Log
M8850_LA.7.PXM.a >
Display IP Interface Configuration—PXM45, PXM1E
Display configuration and other information for either one or all IP interfaces on the current PXM45. If you request all interfaces by entering dspipif with no parameters, the display shows information for all interface types. The displayed information comes from the current state of the interface and the configuration specified through ipifconfig. The information consists of the:
•Configuration (see ipifconfig for descriptions).
•Operational state.
•Statistics (including transmitted and received packets and errors).
dspipif [interface]
ipifconfig, dspipifcache
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display information for all IP interfaces. The output shows that no configuration exists for the ATM interface but do for Ethernet and SLIP. Note that for each interface in the current release, the "unit number" has no meaning. The Flags field for Ethernet shows that the interface is UP, a broadcast address has been configured, ARP is enabled, and that the interface is running. (See the ipifconfig description for the meaning of these parameters. The output also shows the number of packets that have crossed the Ethernet interface. Although a configuration exists for SLIP, the display shows that no packets have crossed this interface.
pinnacle.7.PXM.a > dspipif
Unknown System Rev: 00.00 Jan. 04, 2000 12:16:22 GMT
MGX8850 Shelf Alarm: NONE
IP INTERFACE CONFIGURATION
--------------------------------------------------------------------
atm (unit number 0):
Not Configured
lnPci (unit number 0):
Flags: (0x63) UP BROADCAST ARP RUNNING
Internet address: 172.29.52.88
Broadcast address: 172.29.255.255
Netmask 0xffff0000 Subnetmask 0xffff0000
Ethernet address is 00:00:1a:53:c8:2c
Metric is 0
Maximum Transfer Unit size is 1500
265475 packets received; 18864 packets sent
0 input errors; 0 output errors
0 collisions
Disk IP address: Not Configured Additional Flags: (0x0)
sl (unit number 0):
Flags: (0x71) UP POINT-TO-POINT ARP RUNNING
Internet address: 0.0.0.0
Destination Internet address: 0.0.0.0
Netmask 0xff000000 Subnetmask 0xff000000
Metric is 0
Maximum Transfer Unit size is 576
0 packets received; 0 packets sent
0 input errors; 0 output errors
0 collisions
Disk IP address: 0.0.0.0
Display IP Interface Cache—PXM45, PXM1E
The dspipifcache command shows the mapping of SVCs that connect the PXM45s to workstations.
dspipifcache [interface]
dspipif, ipifconfig
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
Display the contents of the IP interface cache. The display shows that the cache currently is empty.
Unknown.8.PXM.a > dspipifcache
Unknown System Rev: 03.00 May. 10, 2002 00:47:28 GMT
MGX8850 Node Alarm: MAJOR
IP CONNECTIVITY INTERFACE CACHE
Interface IpAddress VcId Age(Flush@120000) Flags
--------------------------------------------------------------------------
No Entries
Unknown.8.PXM.a >
Display Links on a Line—PXM45, PXM1E
The dsplink command displays information about all links that are associated with a line on an SRM-3T3 or an SRME. The displayed information is as follows:
•The line number on the SRM back card
•The number of each virtual tributary
•The row status
•The slot number of the targeted service module for each tributary
•The line number on the targeted service module
To see all tributaries associated with a particular slot, use the dspslotlink command.
dsplink <slot.line>
addlink, cnflink, dellink, dspslotlink
Log: no |
State: active |
Privilege: ANYUSER |
Display the links configured on line 1 of the SRM in logical slot 31.
Unknown.8.PXM.a > dsplink 31.1
Line Num VtNum RowStatus TargetSlot TargetSlotLine FramingType
======== ====== ========== ========== ============== ===========
1 1 Add 21 1 Not Appl
Display Link Alarm—PXM45, PXM1E
For an SRME only, the dsplinkalm command display virtual tributary (VT) level alarms for the transmit and receive directions.
dsplinkalm <LogicalSRMEslot.Line.Link>
addlink, cnflink, dellink, dsplink, dspslotlink
Log: no |
State: active |
Privilege: ANYUSER |
Display alarms for link 1.
Unknown.7.PXM.a > dsplinkalm 15.1.1
Link Number : 15.1.1
VT AlarmState : Rcv LOP,Rcv SizeErr
Unknown.7.PXM.a >
Display Line—PXM45, PXM1E
The dspln command on a PXM can show the following:
•Details about a line on the PXM1E UNI/NNI back card
•Details about the SRM lines under control of either the PXM1E or PXM45
dspln -<lineType> <X.line>
dspln <-ds3 |- sonet> <slot.line>
dsplns, upln, dnln
Log: no |
State: active |
Privilege: ANYUSER |
Display E3 line 1 on the PXM1E. (Using dsplns would show that the lines are E3.)
Unknown.8.PXM.a > dspln -e3 2.1
Line Number : 2.1
Admin Status : Up Alarm Status : Clear
Line Type : e3g832adm Number of ports : 1
Line Coding : e3HDB3 Number of partitions: 1
Line Length(meters) : 0 Number of SPVC : 0
Loopback : NoLoop Number of SPVP : 0
Xmt. Clock source : localTiming Number of SVC : 48456
Unknown.8.PXM.a >
Display the SONET line on the SRME in slot 15.
Unknown.7.PXM.a > dspln -sonet 15.1
Line Number : 15.1
Admin Status : Up
Loopback : NoLoop APS enabled : Disable
Frame Scrambling : Enable RDI-V Type : one bit
Xmt Clock source : loopTiming RDI-P Type : one bit
Line Type : sonetStm1 VT Type : Vt2/Vc12
Medium Type(SONET/SDH) : SDH VT Mapping Type : asynchronous
Medium Time Elapsed : 48 VT Framing Type : N/A
Medium Valid Intervals : 0 VT Signalling Mode : N/A
Medium Line Type : ShortSMF VT Grouping Type : Au3
Unknown.7.PXM.a >
Display the line on the SRME in logical slot 31.
Unknown.8.PXM.a > dspln -sonet 31.1
Line Number : 31.1
Admin Status : Down
Loopback : NoLoop APS enabled : Disable
Frame Scrambling : Enable RDI-V Type : one bit
Xmt Clock source : loopTiming RDI-P Type : one bit
Line Type : sonetSts3 VT Type : vt15/vc11
Medium Type(SONET/SDH) : SONET VT Mapping Type : asynchronous
Medium Time Elapsed : 0 VT Framing Type : N/A
Medium Valid Intervals : 96 VT Signalling Mode : N/A
Medium Line Type : ShortSMF VT Grouping Type : N/A
Unknown.8.PXM.a >
Display Line Counters—PXM1E
The dsplncnt command displays the values of the bucket cell counters for the given bucket interval (intvl) on the given line (bay.line).
Bucket cell counters are collected for various types of cells during a bucket interval (15 minutes) and are stored in a statistics file that is generated at the end of each bucket interval. The statistics file is then passed to the Cisco WAN Manager (CWM) and the bucket cell counters are cleared.
The bucket counts for the following types of cells are displayed:
Note Unless ingress is specified, the bucket cell counters apply to both the ingress and egress direction.
•Received CLP0 cells*
•Received CLP1 cells*
•Valid OAM cells
•Invalid OAM cells
•Invalid VPI/VCI/PTI cells *
•Ingress Non-zero Generic Flow Control (GFC) cells*
•Ingress Last unknown Vpi*
•Ingress Last unknown Vci*
•Discarded HEC errors
•Corrected HEC errors
•Discarded Usage Parameter Control (UPC) cells with CLP0*
•Total discarded UPC cells*
•Total non-compliant UPC cells*
An asterisk (*) indicates that the displayed field does not apply to the AXSM-1-2488.
dsplncnt <bay.line>
clrlncnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
M8830_SF.2.PXM.a > dsplncnt 2.1 15
Line : 2.1
Interval : 15
Ingress Egress
CLP0 Cells : 2440 2351
CLP1 Cells : 0 0
Valid OAM Cells : 0 0
Err OAM Cells : 0 0
Rcv Valid RM Cells : 0 0
Invalid VPI/VCI/PTI Cells : 0
Rcv Idle Cells : 317914741
Non-zero GFC Cells : 0
Last Unknown VPI : 0
Last Unknown VCI : 21
Discard HecErr Cells : 0
Corrected HecErr Cells : 0
M8830_SF.2.PXM.a >
Display Line Load—PXM1E
The dsplnload command can help you determine the current percent of utilization and cell count on a line. Using the parameters provided by dspln, you can determine whether the current load on the line needs modification or troubleshooting.
dsplnload <bay.line>
bay.line |
The bay and line numbers separated by a period. On the PXM1E, the bay is always 2. |
dsplns, dspln
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the load on line 2.1. The display shows that no cells other than idle cells are traversing this line.
MGX8850.7.PXM1E.a > dsplnload 2.1
Getting the stats. Please wait ...
Ingress Egress
Cell rate (cps) : 6 10
Utilization (percentage) : 0.00 0.00
MGX8850.7.PXM1E.a >
Display Line Performance Bucket Counters—PXM1E
Displays the line specific performance monitoring interval counters.
dsplnpmbucketcnt <bay.line> <intvl>
dspalmcnt
Log: no |
State: active, standby |
Privilege: ANYUSER |
M8830_SF.2.PXM.a > dsplnpmbucketcnt 2.1 15
Line Number : 2.1
Interval Number : 15
Section PM:
-----------
ESs : 0
SESs : 0
SEFSs : 0
CVs : 0
Line PM:
--------
Near End Far End
ESs : 0 0
SESs : 0 0
CVs : 0 0
UASs : 0 0
Path PM:
--------
Near End Far End
ESs : 0 0
SESs : 0 0
tCVs : 0 0
UASs : 0 0
M8830_SF.2.PXM.a >
Display Lines—PXM45, PXM1E
The dsplns command displays the configuration for all lines on a card. (For information on an individual line, use dspln.) The variations that can exist in display contents depends on the card, as follows:
•The display for the PXM1E back card (in bay 2) have categories for the UNI/NNI back card.
•The displays for SRMs under control of a PXM are unique to bulk mode distribution.
On the UNI/NNI back card, the output consists of the following:
•Bay and line number
•Line state—up (active) or down (inactive)
•The line type
•Whether any loopback currently exists on the line
•Line coding
•Frame scrambling status (enabled or disabled)
•Configured line length in meters (applies to only T3 or E3)
•Criteria for Out of Frame (OOF) error (applies to only T3 or E3)
•Whether C-bit (AIS) checking is enabled (applies to only T3 or E3)
•The medium line type—long reach, single-mode fiber, for example
•The alarm status—clear, critical, and so on
On a PXM1E, the dsplns output can refer to the SRM lines if you provide a slot number or the uplinks if you provide no slot number (see Syntax Description PXM1E). On a PXM45, the dsplns display pertains to SRM lines only (and only if a back card is present). For lines on an SRM back cards, the information categories are as follows:
•Line type (OC3/STM1 or T3)
•Line state
•Loopback status
•Line medium, such as short-reach, single-mode fiber for OC3
•Enable status for frame scrambling at the
•Virtual tributary (VT) type and VT mapping
•Automatic protection switching enable status (for OC3/STM1 on an SRME)
dsplns <slot>
slot |
The slot parameter refers to the logical slot of an SRM. Possible values are 15 or 31 in an MGX 8850 chassis or 7 in an MGX 8830 chassis. |
dsplns [slot]
cnfln, delln, dspcds, dspln, dnln, upln
Log: no |
State: active, standby |
Privilege: ANYUSER |
Log: no |
State: active |
Privilege: ANYUSER |
Display the lines on the PXM1E back card. The lines have been configured as E3.
Unknown.8.PXM.a > dsplns
Line Line Line Line Length OOF AIS Valid Alarm
Num State Type Lpbk (meters) Criteria cBitsCheck Intvls State
----- ----- ----------- ---------- ------- -------- ---------- ------ -------
2.1 Up e3g832adm NoLoop 0 N/A N/A 4 Clear
2.2 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
2.3 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
2.4 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
2.5 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
2.6 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
2.7 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
2.8 Down e3g832adm NoLoop 0 N/A N/A 0 Clear
Display the (SONET) lines on the PXM1E UNI/NNI back card. 2.3 is the primary working slot.
janus2.1.PXM.a > dsplns
Medium Medium
Sonet Line Line Line Frame Line Line Valid Alarm APS
Line State Type Lpbk Scramble Coding Type Intvls State Enabled
------------- ----- ------------ ------ -------- ------ -------- ------ ------- -------
2.1 Up sonetSts3c NoLoop Enable NRZ ShortSMF 96 Clear Disable
2.2 Up sonetSts3c Local Enable NRZ ShortSMF 96 Clear Disable
2.3 Up sonetSts3c NoLoop Enable NRZ ShortSMF 96 Critical Enable
2.4 Up sonetSts3c NoLoop Enable NRZ ShortSMF 96 Critical Disable
2.3 Adj APS Up sonetSts3c NoLoop Enable NRZ ShortSMF 96 Major Enable
Display the lines on the combination back card of a PXM1E. The screen has an area for each line type.
hattyEmre.2.PXM.a > dsplns
Line Line Line Line Length OOF AIS Valid Alarm
Num State Type Lpbk (meters) Criteria cBitsCheck Intvls State
---- ----- ----------- ----------- -------- --------- ---------- ------ ------
2.1 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
2.2 Up ds3cbitplcp NoLoop 0 3Of16Bits Check 96 Clear
2.3 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
2.4 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
2.5 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
2.6 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
2.7 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
2.8 Down ds3cbitadm NoLoop 0 3Of16Bits Check 0 Clear
Medium Medium
Sonet Line Line Line Frame Line Line Valid Alarm APS
Line State Type Lpbk Scramble Coding Type Intvls State Enabled
------------- ----- ------------ ------ -------- ------ -------- ------ ------- -------
2.9 Down sonetSts3c NoLoop Enable NRZ LongSMF 0 Clear Disable
2.10 Down sonetSts3c NoLoop Enable NRZ LongSMF 0 Clear Disable
2.11 Down sonetSts3c NoLoop Enable NRZ Other 0 Clear Disable
2.12 Down sonetSts3c NoLoop Enable NRZ Other 0 Clear Disable
PhattyEmre.2.PXM.a > dspcds
Display lines for the logical SRM slot. The dspcds screen shows the active SRM is in slot 14.
PhattyEmre System Rev: 03.00 Aug. 21, 2002 03:36:13 GMT
Chassis Serial No: SCA053000KM Chassis Rev: A0 GMT Offset: 0
Node Alarm: MAJOR
Card Front/Back Card Alarm Redundant Redundancy
Slot Card State Type Status Slot Type
--- ---------- -------- -------- ------- -----
01 Standby/Active PXM1E-T3E3-155 NONE 02 PRIMARY SLOT
02 Active/Active PXM1E-T3E3-155 MAJOR 01 SECONDARY SLOT
03 Active/Empty RPM_PR NONE NA NO REDUNDANCY
04 Active/Active AUSMB_8T1 NONE NA NO REDUNDANCY
05 Active/Active AUSMB_8T1 MAJOR NA NO REDUNDANCY
06 Active/Active FRSM_HS2/B MAJOR NA NO REDUNDANCY
07 Standby/Active SRM_3T3 NONE 14 PRIMARY SLOT
11 Active/Active AUSMB_8T1 MINOR NA NO REDUNDANCY
12 Active/Active FRSM_HS2/B MAJOR NA NO REDUNDANCY
13 Active/Active AUSMB_8T1 MAJOR NA NO REDUNDANCY
14 Active/Active SRM_3T3 NONE 07 SECONDARY SLOT
PhattyEmre.2.PXM.a > dsplns 7
Line Line Line Line Length OOF AIS
Num State Type Lpbk (meters) Criteria cBitsCheck
---- ----- ----------- ----------- -------- --------- ----------
7.1 Up dsx3CbitPar NoLoop 00000001 3Of8Bits Check
7.2 Up dsx3CbitPar NoLoop 00000001 3Of8Bits Check
7.3 Down dsx3CbitPar NoLoop 00000001 3Of8Bits Check
The following example shows the 16-line version of the UNI/NNI back card.
PXM1E-IMA-NODE-230.7.PXM.a > dsplns
Line Line Line Line Length Valid Alarm
Num State Type Lpbk (meters) Intvls State
---- ----- --------- ----------- -------- ---------- -------
2.1 Up dsx1ESF NoLoop 40 3 Clear
2.2 Down dsx1ESF NoLoop 40 0 Clear
2.3 Down dsx1ESF NoLoop 40 0 Clear
2.4 Down dsx1ESF NoLoop 40 0 Clear
2.5 Down dsx1ESF NoLoop 40 0 Clear
2.6 Down dsx1ESF NoLoop 40 0 Clear
2.7 Down dsx1ESF NoLoop 40 0 Clear
2.8 Down dsx1ESF NoLoop 40 0 Clear
2.9 Up dsx1ESF NoLoop 40 67 Clear
2.10 Down dsx1ESF NoLoop 40 0 Clear
2.11 Down dsx1ESF NoLoop 40 0 Clear
2.12 Down dsx1ESF NoLoop 40 0 Clear
2.13 Down dsx1ESF NoLoop 40 0 Clear
2.14 Down dsx1ESF NoLoop 40 0 Clear
2.15 Down dsx1ESF NoLoop 40 0 Clear
2.16 Down dsx1ESF NoLoop 40 0 Clear
PXM1E-IMA-NODE-230.7.PXM.a >
Display Load—PXM1E
Display the current level of usage of various parameters on a partition. To convey a picture of what is available on a resource partition, the display shows the configured bandwidth and connection numbers as well as what the controller actually has utilized.
dspload <ifNum> <partId>
ifNum |
The range for logical interface (port) numbers is follows 1-31. |
partId |
The range for partition identifiers is 1-20. If necessary, use the dspparts command to see existing partition numbers. |
dsprscprtn, addcon, dspcons, dspcon, cnfcon
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the load on partition number 1 on logical port 1.
M8850_NY.7.PXM1E.a > dspload 1 1
+--------------------------------------------+
| I N T E R F A C E L O A D I N F O |
+--------------------------------------------+
| Maximum Channels : 0002000 |
| Guaranteed Channels : 0001000 |
| Igr Maximum Bandwidth : 1412830 |
| Igr Guaranteed Bandwidth : 0706415 |
| Egr Maximum Bandwidth : 1412830 |
| Egr Guaranteed Bandwidth : 0706415 |
| Available Igr Channels : 0001998 |
| Available Egr Channels : 0001998 |
| Available Igr Bandwidth : 1410377 |
| Available Egr Bandwidth : 1410377 |
+--------------------------------------------+
| E X C E P T -- V A L U E S |
+--------------------------------------------+
| SERV-CATEG | VAR-TYPE | INGRESS | EGRESS |
| VSI-SIG | Avl Chnl | 0001998 | 0001998 |
| CBR | Avl Chnl | 0001990 | 0001990 |
| VBR-RT | Avl Chnl | 0001990 | 0001990 |
| VBR-nRT | Avl Chnl | 0001990 | 0001990 |
| UBR | Avl Chnl | 0001990 | 0001990 |
| ABR | Avl Chnl | 0001990 | 0001990 |
+--------------------------------------------+
| VSI-SIG | Avl Bw | 1410377 | 1410377 |
| CBR | Avl Bw | 1410377 | 1410377 |
| VBR-RT | Avl Bw | 1410377 | 1410377 |
| VBR-nRT | Avl Bw | 1410377 | 1410377 |
| UBR | Avl Bw | 1410377 | 1410377 |
| ABR | Avl Bw | 1410377 | 1410377 |
+--------------------------------------------+
Display Log—PXM45, PXM1E
Display log file contents. The dsplog command is a debugging command and requires in-depth knowledge of the internal workings of the system. For example, the display may show points where switch software begins and ends a function or tracks tasks that it spawns.
The PXM supports multiple log files: if the space allocation for one file becomes exhausted, the system starts filling a new, sequentially numbered file. The log files contain a substantial variety of information. With no parameters, the output contains all the contents of all the log files, so dsplog has optional parameters for filtering the output. The most commonly selected filters are slot number, task, or timestamp. For example, you could specify only severe errors and only for a particular slot. The Syntax Description describes each parameter. Briefly, their functions are to:
•Specify an individual log file.
•Target a specific task.
•Specify an area of system functionality (called a module in the syntax).
•Display messages of a particular severity.
•Specify relative time periods in which errors may have occurred.
Note If the output shows an error-event, you can display details about the error by using the dsperr command. An error-event has an associated file number and is preceded by "e:" in the display.
dsplog [-log <filename>] [-sl <slot #>] [-task <task name>] [-mod <module name>] [-sev <severity>]
[-tle <time same or earlier than>] [-tge <time same or greater than>]
You can use more than one filter at the same time.
clrlog, dsplogs, dsperr
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
The first example shows the portion of a dsplog out with an error number ("E:00112"). To see details regarding this error, you would enter the following: dsperr -sl 7 -en 00112.
The portion of the log for error number 00112 is as follows:
07B00001 04/04/2002-16:44:28 SSI-6-RESETDUMPTRACE
E:00112 tRootTask ssiSaveResetTrace
A function trace dump is available from the last reset.
Display the logs.
Unknown.7.PXM.a > dsplog
07A00136 04/17/2002-17:07:26 CLI-7-CMDLOG
tDbgInTask logUserCmdFunc
cliCmdLog:cisco@console:(cc 7).
07A00135 04/17/2002-17:07:26 CLI-7-CMDLOG
tDbgInTask logUserCmdFunc
cliCmdLog:cisco@console:(login).
07A00134 04/17/2002-16:40:58 CLI-7-CMDLOG
tDbgInTask logUserCmdFunc
cliCmdLog:cisco@console:(logout).
07A00133 04/17/2002-16:30:50 CLI-7-CMDLOG
tDbgInTask logUserCmdFunc
cliCmdLog:cisco@console:(cc 7).
07A00132 04/17/2002-16:30:50 CLI-7-CMDLOG
tDbgInTask logUserCmdFunc
cliCmdLog:cisco@console:(login).
07A00131 04/16/2002-21:08:43 CLI-7-CLITNLOG
tTnInTsk01 cliTnLogConnection
cliTelnetd:client@171.71.26.43:telnet.1:disconnected
07A00130 04/16/2002-21:08:43 CLI-7-CMDLOG
tTnInTsk01 logUserCmdFunc
cliCmdLog:cisco@telnet.01:(logout).
07A00129 04/16/2002-21:08:28 CLI-7-CMDLOG
Display Login Message—PXM45, PXM1E
The dsploginmsg command displays the login message if one exists. Use the cnfloginmsg command to create a message that appears when any user logs in. See the cnfloginmsg description for details.
dsploginmsg
This command takes no parameters.
cnfloginmsg, clrloginmsg
Log: yes |
State: active, standby, init |
Privilege: ANYUSER |
Display the login message.
M8950_DC.7.PXM.a > dsploginmsg
Call system administrator before using this switch
Display Logs—PXM45, PXM1E
The dsplogs shows the existing log files (but not the file contents). The dsplogs command lets you see which files exist and determine specific items to view by using the dsplog or dsperr command
dsplogs
This command takes no parameters.
dsplog
Log: no |
State: active, standby, init |
Privilege: ANYUSER |
The output shows that many log files exist. To view the contents of log file 41, for example, you would enter dsplog -log error041.log. See also the description of the dsplog command.
M8850_SF.7.PXM.a > dsplogs
Current Event log number: 47
Event log 47: C:/LOG/event47.log
starting timestamp: 11/19/2001-18:24:39
Event log 46: C:/LOG/event46.log
starting timestamp: 11/17/2001-02:26:33
Event log 45: C:/LOG/event45.log
starting timestamp: 11/15/2001-02:25:48
Event log 44: C:/LOG/event44.log
starting timestamp: 11/12/2001-18:35:01
Event log 43: C:/LOG/event43.log
starting timestamp: 11/10/2001-02:30:37
Event log 42: C:/LOG/event42.log
starting timestamp: 11/07/2001-16:44:35
Event log 41: C:/LOG/event41.log
starting timestamp: 11/06/2001-20:05:54
Event log 40: C:/LOG/event40.log
starting timestamp: 11/05/2001-13:05:23
Event log 39: C:/LOG/event39.log
starting timestamp: 11/04/2001-03:37:16
Event log 38: C:/LOG/event38.log
starting timestamp: 11/02/2001-16:47:52
Event log 37: C:/LOG/event37.log
Display MBS Default—PXM45, PXM1E
Displays the default MBS configured for the port.
dspmbsdft <portid>
portid |
The format of the PNNI physical port identifier can vary, as follows: • • – – • For more details, see the section, "PNNI Format," in "Introduction." |
cnfmbsdft
Log: no |
State: active, standby |
Privilege: ANYUSER |
Display the MBS default for port 11:1.1:11.
Geneva.7.PXM.a > dspmbsdft 11:1.1:11
rt-vbr: nrt-vbr:
MBS: 1024 1024
Display NCDP—PXM45, PXM1E
The dspncdp command displays the configuration of the Network Clock Distribution Protocol (NCDP) on the current node. It also identifies the clock source that the current node is using to generate the clocks used by the node. The source can be an external device on the master clock node only, an NNI port, or the free-running, internal oscillator.
Note If network administrators did not record the source of the root clock at the time of NCDP configuration, the network nodes must be searched one-by-one to find the root source.
Note To see the user-configuration of clock sources that have occurred on the local switch, use the dspncdpclksrcs command. For example, the dspncdpclksrcs output shows a BITS device. Note that dspncdpclksrcs does not show the port ID of the root clock source if the root source is an NNI port.
To see the health and other details about a particular clock source, use the dspncdpclksrc command.
The contents of the dspncdp display are as follows:
•The distribution mode shows whether the node is using manual clock distribution or NCDP.
•The node stratum level is always 3 because that is what the internal oscillator and clock circuitry produce. You cannot change this value with any command.
•The maximum network diameter is the largest number of hops between any two nodes in the clocking domain. This value results from the cnfncdp command.
•Hello time interval (see cnfncdp description)
•Holddown time interval (see cnfncdp description)
•Topology change time interval (see cnfncdp description)
•The root clock source in this case is the source of the best clock known to the current node. If the root has not been determined, this port ID is 255.255. (See the cnfncdpclksrc description for an explanation). If this node is the source of the best clock in the network, this field identifies it. If the root clock source is coming from another node, this field contains the NNI port ID from which the the clock is derived. (The system clock is derived because the local PXM clock circuitry uses the source to generate the clocks to the backplane.)
•The root clock source status can be ok, bad, locking wide, locking narrow, or lockable.
Note Until convergence is reached and NCDP determines the root clock, the "Root" has a status of "unknown" in the dspncdp output.
–"ok" means the clock source is both stable and operational.
–"bad" means a clock is bad and previously was a root clock source.
–"lockable" means that the clock source is good but not currently used by the switch. This could be the status of a source that serves as the secondary root clock source.
–"locking wide" means the clock manager is determining whether the clock remains locked within a relatively wide band of variation. This test occurs before narrowband locking.
–"locking narrow" means the clock manager is determining whether the clock remains locked within a relatively narrow band of variation.
•The root stratum level is the stratum level of the clock source (specified by cnfncdpclksrc).
•The root priority is specified in the cnfncdpclksrc command and has a range of 1-255. If the root priority is "0," NCDP has not yet converged and determined the priority of the root clock source.