Table Of Contents

dspport

dspportcnt

dspportconstats

dspportload

dspports

dspportsct

dsppref

dspprefs

dspprf

dspprfhist

dspprfx

dsppri-routing

dsppswdreset

dsppvcif

dspqosdefault

dspred

dsprevs

dsprrtparm

dsprscprtn

dsprscprtns

dsprteoptcnf

dsprteoptstat

dspsct

dspscts

dspsesn

dspserialif

dspsig

dspsigdiag

dspsigstats

dspslotlink

dspsnmp

dspsntp

dspsntp-dbg

dspsntprmtsvr

dspsntpstats

dspspvcaddr

dspspvcres

dspspvcprfx

dspsrmclksrc

dspsrmcnf

dspsscop

dspsscopstats

dspstatsmgr

dspsvcif

dspsvcparm

dspstbyclksrcs

dspsvcoverride

dspswalms

dsptech

dsptopofdrlist

dsptopogw

dsptopogwndlist

dsptopondlist

dsptrapip

dsptrapmgr

dsptrftolerance

dspuplinkbert

dspuplinkbertstats

dspusers

dspversion

dspxbar

dspxbarerrcnt

dspxbarerrthresh

dspxbarmgmt

dspxbarplanealms

dspxbarslotbwalms

dspxbarstatus

dumpconfigs

dumptrace

dumpversions

dspport

Display Port—PXM1E

The dspport command displays the configuration of a logical port. The displayed information is shown in the example. For a description of each item, see addport.

The total number of connections in the display includes control VCs. The types of control VCs are SSCOP, PNNI-RCC, and ILMI (if ILMI is enabled). To see the connection counts that do not include control VCs, use dsppnport.

When a PXM1E card rebuilds, it provisions the UNI/NNI back card from the stored database on the PXM disk. If the SCT file associated with a specific port is missing or corrupted, the default SCT file is applied to that port. This is indicated in the dspport output by the string:

"!Default SCT used!"

---

Note The SCT ID that dspport shows pertains to the port. For the card-level SCT ID, use dspcd.

---

Syntax

dspport <ifNum>

Syntax Description

ifNum

A logical port (interface) number. Only one logical port is allowed if the line operates as a UNI or NNI. For the virtual interfaces (such as VNNI), multiple ports can exist on a line. The range for ifNum is 1-31.

Related Commands

addport, dnport, dspports

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the port configuration for logical port 10.

pxm1enode.7.PXM.a > dspport 10

  Interface Number               : 10

  Line Number                    : 2.2       IMA Group Number      : N/A

  Admin State                    : Up        Operational State     : LowerLayerDown

  Guaranteed bandwidth(cells/sec): 20000     Number of partitions  : 1

  Maximum bandwidth(cells/sec)   : 20000     Number of SPVC        : 0

  ifType                         : UNI       Number of SPVP        : 0

  VPI number (VNNI, VUNI)        : 0         Number of SVC         : 0

  MIN VPI (EVNNI, EVUNI)         : 0         MAX VPI (EVNNI, EVUNI): 0

  SCT Id (Conf./InUse)           : 0/0=Def

  F4 to F5 Conversion            : Disabled 

pxm1enode.7.PXM.a >

dspportcnt

Display Port Counters—PXM1E

Displays ATM cell counters for a logical port. Refer to the example for contents.

PXM1E Syntax

dspportcnt <ifNum> <intvl>

Syntax Description

ifNum	The range for interface number is 1-31.
intvl	The time interval to display (0-96). 0 is the current 15-minute interval. 1 is the most recent 15-minute interval. 2 is the next most recent 15-minute interval, and so on. 96 being the oldest 15-minute interval.

Related Commands

dspports, dspport, cnfport, dspcds

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display port counters on logical port (ifNum) 1.

Unknown.7.PXM.a > dspportcnt 1 50

Interface Num              : 1

Interval  Num              : 50

Egr Rcv Clp0 Cells         : 0

Egr Rcv Clp1 Cells         : 0

Egr Clp0 Disc Cells        : 0

Egr Clp1 Disc  Cells       : 0

Egr Xmt Clp0  Cells        : 0

Egr Xmt Clp1  Cells        : 0

Egr Rcv OAM  Cells         : 0

Egr Rcv RM Cells           : 0

Egr Xmt EFCI Cells         : 0

Egr Rcv EFCI Cells         : 0

Egr Xmt OAM Cells          : 0

Unknown.7.PXM.a > 

dspportconstats

Display Port Connection Statistics—PXM45, PXM1E

The dspportconstats command shows a count of successful and failed routing attempts through either a single PNNI port or all ports on the switch. The display has following categories:

•Successful connections at the originating node

•Successful connections at a border node

•Failed connections at the originating node

•Failed connections at a border node

•Crankbacks received at the originating node

•Crankbacks received at a border node

•Crankbacks initiated by the current point

Syntax

dspportconstats [portid]

Syntax Description

portid

The format of the optional PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

clrportconstats, dspnodalconstats, clrnodalconstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display SPVC/SPVP routing statistics for port 3:1.1:1.

spvc4.7.PXM.a > dspportconstats 3:1.1:1

SPVC connection stats for port 3:1.1:1

-----------------------------------------

Con success at orig node  :     7674  Con success at border node  :        0

Con failed  at orig node  :     3453  Con failed at border node   :        0

Rcv Crankback at orig node:     1480  Rcv Crankback at border node:        0

Initiate Crankback        :     2291

spvc4.7.PXM.a > 

Display the SPVC and SPVP connection stats for all PNNI ports on the switch. Note that the displays for the BITS ports 7.35 and 7.36 are meaningless. Also, the example has been truncated due to its length.

spvc4.7.PXM.a > dspportconstats

SPVC connection stats for port 7.35

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :        0

SPVC connection stats for port 7.36

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :        0

SPVC connection stats for port 7.37

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Type <CR> to continue, Q<CR> to stop: 

Initiate Crankback        :        0

SPVC connection stats for port 7.38

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :        0

SPVC connection stats for port 1:1.1:1

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :       16

SPVC connection stats for port 1:1.2:2

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Type <CR> to continue, Q<CR> to stop: 

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :        8

SPVC connection stats for port 1:1.3:3

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :       14

SPVC connection stats for port 1:1.4:4

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :       13

SPVC connection stats for port 1:1.5:5

Type <CR> to continue, Q<CR> to stop:

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :       20

SPVC connection stats for port 1:1.6:6

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :        8

SPVC connection stats for port 1:1.7:7

-----------------------------------------

Con success at orig node  :        0  Con success at border node  :        0

Con failed  at orig node  :        0  Con failed at border node   :        0

Rcv Crankback at orig node:        0  Rcv Crankback at border node:        0

Initiate Crankback        :        2

Type <CR> to continue, Q<CR> to stop:

dspportload

Display Port Load—PXM1E

The dspportload command displays the current number of ingress and egress cells per second on a logical port (ifNum). This command can help you determine the current state of a port. Using the parameters displayed by dspcon, you can see if the current load on the port needs modification or troubleshooting.

Syntax

dspportload <ifNum>

Syntax Description

ifNum

The range for interface number is 1-31.

Related Commands

dspports, dspport, cnfport

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the load on logical port 1.

M8850_LA.7.PXM1E.a > dspportload 1

Getting the stats. Please wait ... 

                           Ingress        Egress

Cell rate (cps)          : 0               0

dspports

Display Ports—PXM1E

The dspports command displays the following general information about all logical ports on the card:

•Logical port number (ifNum).

•Physical line number in the format bay.port.

•Operation status—whether the port is up or down.

•The minimum guaranteed rate in cells per second.

•The maximum allowed rate for the port in cells per second.

•The ID of the port-level SCT (see addport).

•The type of interface.

•A VPI number (applies to only VNNIs or VUNIS).

•Minimum and maximum VPIs (applies to only EVNNIs or EVUNIs, which are not supported on the PXM1E in this release).

•An IMA group number if one exists.

Syntax

dspports

Related Commands

addport, cnfport, delport, dspport

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the logical ports.

pxm1enode.7.PXM.a > dspports

ifNum Line Admin Operational    Guaranteed Maximum    sctID     ifType  VPI   MINVPI  MAXVPI  IMA

           State State          Rate       Rate    Conf./InUse         (VNNI, (EVUNI, (EVUNI, GRP

                                                                        VUNI)  EVNNI)  EVNNI)

----- ---- ----- -------------- ---------- ------- ------------ ------ ------ ------- ------- ---

   10  2.2    Up LowerLayerDown      20000   20000   0/  0 =Def    UNI      0       0       0 N/A

MGX-PXM1E.8.PXM.a > dspports

ifNum Line Admin Operational    Guaranteed Maximum    sctID     ifType  VPI   MINVPI  MAXVPI  IMA

           State State          Rate       Rate    Conf./InUse         (VNNI, (EVUNI, (EVUNI, GRP

                                                                        VUNI)  EVNNI)  EVNNI)

----- ---- ----- -------------- ---------- ------- ------------ ------ ------ ------- ------- ---

    1  N/A    Up LowerLayerDown       7000    7000   0/  0 =Def    UNI      0       0       0 2.1

    2  N/A    Up LowerLayerDown       7000    7000   0/  0 =Def    UNI      0       0       0 2.2

   31  2.1    Up LowerLayerDown       3000    3000   0/  0 =Def    UNI      0       0       0 N/A

MGX-PXM1E.8.PXM.a > 

dspportsct

Display Port SCT—PXM1E

Displays the contents of the service class template (SCT) on a port. See the description of the addport command for information on SCTs.

---

Note Currently, the system does not support certain parameters in the service class templates (SCTs), so you can specify them through addcon, cnfcon, or Cisco WAN Manager. These parameters are (when applicable) PCR, SCR, and ICR.

---

Syntax

dspportsct <abr | bw | gen | cosb | vcThr | cosThr> <ifnum>

Syntax Description

abr gen cosb vcThr cosThr	A specific part of the SCT, as follows: •abr: available bit rate •gen: general VC •cosb: class of service buffer •vcThr: VC thresholds •cosThr: COSB thresholds
ifnum	The range for interface number is 1-31.

Related Commands

addport, cnfport, delport, dspport

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples SCT 2

This section displays all parameters for port SCT 2.

MGX8850.1.AXSM.a > dspportsct bw 2

+-----------------------------------------------------------------------------+

Service Class Template [2] : Bw and Policing Parameters

+-----------------------------------------------------------------------------+

| SERV-TYPE |   PCR    |   SCR    |   MCR    |   MBS    |   CDVT   |   ICR    |

+-----------------------------------------------------------------------------+

| VSI-SIG   | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| CBR.1     | 00001000 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| VBR-RT.1  | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-RT.2  | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-RT.3  | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-nRT.1 | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-nRT.2 | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-nRT.3 | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| UBR.1     | 00000010 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| UBR.2     | 00000010 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| ABR       | 00000010 | 00000000 | 01000000 | 00000001 | 00250000 | 00000000 |

| CBR.2     | 00001000 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| CBR.3     | 00001000 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

+-----------------------------------------------------------------------------+

Display the policing and CAC parameters (parameter "gen") for SCT 2. To confirm that the current card-level SCT is SCT 2, use the dspcd command.

MGX8850.1.AXSM.a > dspportsct gen 2

+-------------------------------------------------------------------------------------------------+

Service Class Template [2] : General Parameters

+-------------------------------------------------------------------------------------------------+

| SERV-TYPE | COSB_NUM | CAC_TYPE | UPC_ENB  | CLP-SELEC |    GCRA-1    |    GCRA-2    | CI-CNTRL |

+-------------------------------------------------------------------------------------------------+

| VSI-SIG   | 00000016 |    B-CAC |GCRA 1 & 2| 000000002 |      DISCARD |      DISCARD | DISABLED |

| CBR.1     | 00000003 |    B-CAC |GCRA1-ENB | 000000003 |      DISCARD |      DISCARD | DISABLED |

| VBR-RT.1  | 00000004 |    B-CAC |GCRA 1 & 2| 000000002 |      DISCARD |      DISCARD | DISABLED |

| VBR-RT.2  | 00000004 |    B-CAC |GCRA 1 & 2| 000000001 |      DISCARD |      DISCARD | DISABLED |

| VBR-RT.3  | 00000004 |    B-CAC |GCRA 1 & 2| 000000001 |      DISCARD |      SET-CLP | DISABLED |

| VBR-nRT.1 | 00000005 |    B-CAC |GCRA 1 & 2| 000000002 |      DISCARD |      DISCARD | DISABLED |

| VBR-nRT.2 | 00000005 |    B-CAC |GCRA 1 & 2| 000000001 |      DISCARD |      DISCARD | DISABLED |

| VBR-nRT.3 | 00000005 |    B-CAC |GCRA 1 & 2| 000000001 |      DISCARD |      SET-CLP | DISABLED |

| UBR.1     | 00000006 |  LCN_CAC |GCRA1-ENB | 000000003 |      DISCARD |      DISCARD | DISABLED |

| UBR.2     | 00000006 |  LCN_CAC |GCRA1-ENB | 000000003 | DSCD/SET-CLP |      DISCARD | DISABLED |

| ABR       | 00000001 |    B-CAC |GCRA1-ENB | 000000003 |      DISCARD |      DISCARD | ENABLED  |

| CBR.2     | 00000003 |    B-CAC |GCRA 1 & 2| 000000001 |      DISCARD |      DISCARD | DISABLED |

| CBR.3     | 00000003 |    B-CAC |GCRA 1 & 2| 000000001 |      DISCARD |      SET-CLP | DISABLED |

+-------------------------------------------------------------------------------------------------+

Display the Class of Service Buffer parameters for SCT 2 Note the following:

•Min-Rate and Max-Rate do not apply in the current product.

•Excess-Priority is a scheme for distributing excess bandwidth. The lowest number is the highest priority for a connection to receive excess bandwidth. If two or more connections have equal priority, the excess bandwidth is equally distributed between them.

•Explicit Rate Stamping (ERS) applies to only ABR connections.

Cell loss ratio (CLR) is currently hard-coded, so do not attempt tot modify it through the Cisco WAN Manager application or the CLI commands.

MGX8850.1.AXSM.a > dspportsct cosb 2

+-----------------------------------------------------------------------------------+

|Service Class Template [02] : COSB Parameters

+-----------------------------------------------------------------------------------+

| COSB | MIN-RATE | MAX-RATE | MIN-PRIORITY | EXCESS-PRIORITY | ERS ENABLE |  CLR   |

+-----------------------------------------------------------------------------------+

| 0001 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0002 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0003 | 00000000 | 00000100 |          000 |             000 |    DISABLE | 10^-10 |

| 0004 | 00000000 | 00000100 |          000 |             001 |    DISABLE | 10^-08 |

| 0005 | 00000000 | 00000100 |          000 |             001 |    DISABLE | 10^-06 |

| 0006 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0007 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0008 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0009 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0010 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0011 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0012 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0013 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0014 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0015 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0016 | 00000000 | 00000100 |          000 |             000 |    DISABLE | 10^-06 |

+-----------------------------------------------------------------------------------+

Display VC thresholds for SCT 2. Note the following:

The Scaling COSB value applies to congestion in a Class of Service Buffer: if a particular buffer becomes congested, this scaling factor determines the how quickly the rate at which cells enter the buffer is throttled back (until the buffer is no longer congested, at which time normal rates resume).

The Scaling Log-If is a scaling factor that applies to congestion on an entire port: when the whole port is congested, this factor determines the rate at which traffic is throttled back (until the port is no longer congested, at which time normal rates resume).

MGX8850.1.AXSM.a > dspportsct vcThr 2

+---------------------------------------------------------------------------------------------------------+

Service Class Template [2] : VC Threshold Parameters

+---------------------------------------------------------------------------------------------------------+

| SERV-TYPE | VC THRESH | PACKET |  MAX_CELL  |  EFCI   | CLP_HI  |  EPD0   | CLP_LO  | SCALING | SCALING |

|           | TBL IDX   |  MODE  |   THRESH   |         |         |         |  EPD1   |  COSB   |  Log-If |

+---------------------------------------------------------------------------------------------------------+

| VSI-SIG   |     002   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| CBR.1     |     003   |   DSB  | 0000002500 | 1000000 | 0800000 | 0600000 | 0800000 | 0000001 | 0000001 |

| VBR-RT.1  |     004   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-RT.2  |     005   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-RT.3  |     006   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-nRT.1 |     007   |   DSB  | 0000025000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-nRT.2 |     008   |   DSB  | 0000025000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-nRT.3 |     009   |   DSB  | 0000025000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| UBR.1     |     010   |   DSB  | 0000050000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000004 | 0000004 |

| UBR.2     |     011   |   DSB  | 0000050000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000004 | 0000004 |

| ABR       |     012   |   DSB  | 0000050000 | 0200000 | 0800000 | 0600000 | 0800000 | 0000003 | 0000003 |

| CBR.2     |     013   |   DSB  | 0000002500 | 1000000 | 0800000 | 0600000 | 0800000 | 0000001 | 0000001 |

| CBR.3     |     014   |   DSB  | 0000002500 | 1000000 | 0800000 | 0600000 | 0800000 | 0000001 | 0000001 
+---------------------------------------------------------------------------------------------------------+ 

Display the Class of Service Thresholds for SCT 2.

---

Note The two random early discard parameters (RED Factor and RED Prob) have no application in the current release of the product

---

MGX8850.1.AXSM.a > dspportsct cosThr 2

+---------------------------------------------------------------------------------------------+

Service Class Template [00002] : COSB Threshold Parameters

+---------------------------------------------------------------------------------------------+

| COSB |COSB THRESH|  MAX_CELL  |  EFCI   | CLP_HI  |  EPD0   | CLP_LO  |   RED | RED PROB  |

|      | TBL IDX   |   THRESH   |         |         |         |  EPD1   | |  FACTOR   |

+---------------------------------------------------------------------------------------------+

| 0001 |  0000002  |  1000000   | 0200000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0002 |  0000003  |  1000000   | 0200000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0003 |  0000004  |     5000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0004 |  0000005  |    10000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0005 |  0000006  |    50000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0006 |  0000007  |   100000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0007 |  0000008  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0008 |  0000009  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0009 |  0000010  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0010 |  0000011  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0011 |  0000012  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0012 |  0000013  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0013 |  0000014  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0014 |  0000015  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0015 |  0000016  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0016 |  0000017  |    10000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

+---------------------------------------------------------------------------------------------+

Example SCT 3

This example shows all parameters for SCT 3. Each display consists of one member of the SCT parameter group.

Display the bandwidth parameters for SCT 3.

MGX8850.9.AXSM.a > dspportsct bw 3

+-----------------------------------------------------------------------------+

Service Class Template [3] : Bw and Policing Parameters

+-----------------------------------------------------------------------------+

| SERV-TYPE |   PCR    |   SCR    |   MCR    |   MBS    |   CDVT   |   ICR    |

+-----------------------------------------------------------------------------+

| VSI-SIG   | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| CBR.1     | 00001000 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| VBR-RT.1  | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-RT.2  | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-RT.3  | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-nRT.1 | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-nRT.2 | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| VBR-nRT.3 | 00001000 | 01000000 | 00000000 | 00000050 | 00250000 | 00000000 |

| UBR.1     | 00000010 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| UBR.2     | 00000010 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| ABR       | 00000010 | 00000000 | 01000000 | 00000001 | 00250000 | 00000000 |

| CBR.2     | 00001000 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

| CBR.3     | 00001000 | 00000000 | 00000000 | 00000001 | 00250000 | 00000000 |

+-----------------------------------------------------------------------------+

Display the general parameters for SCT 3.

MGX8850.9.AXSM.a > dspportsct gen 3

+-------------------------------------------------------------------------------------------------+

Service Class Template [3] : General Parameters

+-------------------------------------------------------------------------------------------------+

| SERV-TYPE | COSB_NUM | CAC_TYPE | UPC_ENB  | CLP-SELEC |    GCRA-1    |    GCRA-2    | CI-CNTRL |

+-------------------------------------------------------------------------------------------------+

| VSI-SIG   | 00000016 |    B-CAC |DISABLED  | 000000002 |      DISCARD |      DISCARD | DISABLED |

| CBR.1     | 00000003 |    B-CAC |DISABLED  | 000000003 |      DISCARD |      DISCARD | DISABLED |

| VBR-RT.1  | 00000004 |    B-CAC |DISABLED  | 000000002 |      DISCARD |      DISCARD | DISABLED |

| VBR-RT.2  | 00000004 |    B-CAC |DISABLED  | 000000001 |      DISCARD |      DISCARD | DISABLED |

| VBR-RT.3  | 00000004 |    B-CAC |DISABLED  | 000000001 |      DISCARD |      SET-CLP | DISABLED |

| VBR-nRT.1 | 00000005 |    B-CAC |DISABLED  | 000000002 |      DISCARD |      DISCARD | DISABLED |

| VBR-nRT.2 | 00000005 |    B-CAC |DISABLED  | 000000001 |      DISCARD |      DISCARD | DISABLED |

| VBR-nRT.3 | 00000005 |    B-CAC |DISABLED  | 000000001 |      DISCARD |      SET-CLP | DISABLED |

| UBR.1     | 00000006 |  LCN_CAC |DISABLED  | 000000003 |      DISCARD |      DISCARD | DISABLED |

| UBR.2     | 00000006 |  LCN_CAC |DISABLED  | 000000003 | DSCD/SET-CLP |      DISCARD | DISABLED |

| ABR       | 00000001 |    B-CAC |DISABLED  | 000000003 |      DISCARD |      DISCARD | ENABLED  |

| CBR.2     | 00000003 |    B-CAC |DISABLED  | 000000001 |      DISCARD |      DISCARD | DISABLED |

| CBR.3     | 00000003 |    B-CAC |DISABLED  | 000000001 |      DISCARD |      SET-CLP | DISABLED |

+-------------------------------------------------------------------------------------------------+ 

Display the Class of Service Buffer parameters for SCT 3 Note the following:

•Min-Rate and Max-Rate do not apply in the current product.

•Excess-Priority is a scheme for distributing excess bandwidth. The lowest number is the highest priority for a connection to receive excess bandwidth. If two or more connections have equal priority, the excess bandwidth is equally distributed between them.

•Explicit Rate Stamping (ERS) applies to only ABR connections.

•Cell loss ratio (CLR) is currently hard-coded, so do not attempt tot modify it through the Cisco WAN Manager application or the CLI commands.

MGX8850.9.AXSM.a > dspportsct cosb 3

+-----------------------------------------------------------------------------------+

|Service Class Template [03] : COSB Parameters

+-----------------------------------------------------------------------------------+

| COSB | MIN-RATE | MAX-RATE | MIN-PRIORITY | EXCESS-PRIORITY | ERS ENABLE |  CLR   |

+-----------------------------------------------------------------------------------+

| 0001 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0002 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0003 | 00000000 | 00000100 |          000 |             000 |    DISABLE | 10^-10 |

| 0004 | 00000000 | 00000100 |          000 |             001 |    DISABLE | 10^-08 |

| 0005 | 00000000 | 00000100 |          000 |             001 |    DISABLE | 10^-06 |

| 0006 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0007 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0008 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0009 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0010 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0011 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0012 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0013 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0014 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0015 | 00000000 | 00000100 |          000 |             002 |    DISABLE | 10^-06 |

| 0016 | 00000000 | 00000100 |          000 |             000 |    DISABLE | 10^-06 |

+-----------------------------------------------------------------------------------+ 

Display VC thresholds for SCT 3. Note the following:

The Scaling COSB value applies to congestion in a Class of Service Buffer: if a particular buffer becomes congested, this scaling factor determines the how quickly the rate at which cells enter the buffer is throttled back (until the buffer is no longer congested, at which time normal rates resume).

The Scaling Log-If is a scaling factor that applies to congestion on an entire port: when the whole port is congested, this factor determines the rate at which traffic is throttled back (until the port is no longer congested, at which time normal rates resume).

MGX8850.9.AXSM.a > dspportsct vcThr 3

+---------------------------------------------------------------------------------------------------------+

Service Class Template [3] : VC Threshold Parameters

+---------------------------------------------------------------------------------------------------------+

| SERV-TYPE | VC THRESH | PACKET |  MAX_CELL  |  EFCI   | CLP_HI  |  EPD0   | CLP_LO  | SCALING | SCALING |

|           | TBL IDX   |  MODE  |   THRESH   |         |         |         |  EPD1   |  COSB   |  Log-If |

+---------------------------------------------------------------------------------------------------------+

| VSI-SIG   |     034   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| CBR.1     |     035   |   DSB  | 0000002500 | 1000000 | 0800000 | 0600000 | 0800000 | 0000001 | 0000001 |

| VBR-RT.1  |     036   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-RT.2  |     037   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-RT.3  |     038   |   DSB  | 0000005000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-nRT.1 |     039   |   DSB  | 0000025000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-nRT.2 |     040   |   DSB  | 0000025000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| VBR-nRT.3 |     041   |   DSB  | 0000025000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000002 | 0000002 |

| UBR.1     |     042   |   DSB  | 0000050000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000004 | 0000004 |

| UBR.2     |     043   |   DSB  | 0000050000 | 1000000 | 0800000 | 0600000 | 0800000 | 0000004 | 0000004 |

| ABR       |     044   |   DSB  | 0000050000 | 0200000 | 0800000 | 0600000 | 0800000 | 0000003 | 0000003 |

| CBR.2     |     045   |   DSB  | 0000002500 | 1000000 | 0800000 | 0600000 | 0800000 | 0000001 | 0000001 |

| CBR.3     |     046   |   DSB  | 0000002500 | 1000000 | 0800000 | 0600000 | 0800000 | 0000001 | 0000001 |

+---------------------------------------------------------------------------------------------------------+

Display the Class of Service thresholds for SCT 3.

---

Note The two random early discard parameters (RED Factor and RED Prob) have no application in the current release of the product.

---

MGX8850.9.AXSM.a > dspportsct cosThr 3

+---------------------------------------------------------------------------------------------+

Service Class Template [00003] : COSB Threshold Parameters

+---------------------------------------------------------------------------------------------+

| COSB |COSB THRESH|  MAX_CELL  |  EFCI   | CLP_HI  |  EPD0   | CLP_LO  |   RED | RED PROB  |

|      | TBL IDX   |   THRESH   |         |         |         |  EPD1   | FACTOR |

+---------------------------------------------------------------------------------------------+

| 0001 |  0000018  |  1000000   | 0200000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0002 |  0000019  |  1000000   | 0200000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0003 |  0000020  |     5000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0004 |  0000021  |    10000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0005 |  0000022  |    50000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0006 |  0000023  |   100000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0007 |  0000024  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0008 |  0000025  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0009 |  0000026  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0010 |  0000027  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0011 |  0000028  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0012 |  0000029  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0013 |  0000030  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0014 |  0000031  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0015 |  0000032  |  1000000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

| 0016 |  0000033  |    10000   | 1000000 | 0800000 | 0600000 | 0800000 | 1000000 | 000000015 |

+---------------------------------------------------------------------------------------------+

MGX8850.6.AXSME.a > dspportsct cosb 1

+-------------------------------------------------------------+

|Service Class Template [03] : COSB Parameters                |

+-------------------------------------------------------------+

|COSB| MIN-RATE| MAX-RATE| EXCESS | CELL DISC |    ERS    |CLR|

|NUM |         |         |PRIORITY| ALARM     |           |   |

+-------------------------------------------------------------+

|  1 |       0 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

|  2 |       6 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

|  3 |       6 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

|  4 |       6 |     100 |     1  | DISABLED  | DISABLED  |  6|

|  5 |       0 |  100000 |     0  | DISABLED  | DISABLED  |  6|

|  6 |       0 |  100000 |     1  | DISABLED  | DISABLED  |  6|

|  7 |       6 |  100000 |     1  | DISABLED  | DISABLED  |  6|

|  8 |       0 |  100000 |     0  | DISABLED  | DISABLED  |  6|

|  9 |       6 |     100 |     1  | DISABLED  | DISABLED  |  6|

| 10 |       0 | 1000000 |     0  | DISABLED  | DISABLED  |  6|

| 11 |       1 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

| 12 |       0 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

| 13 |       0 |  100000 |     2  | DISABLED  | DISABLED  |  6|

| 14 |       0 |  100000 |     2  | DISABLED  | DISABLED  |  6|

| 15 |       6 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

| 16 |       6 | 1000000 |     1  | DISABLED  | DISABLED  |  6|

+------------------------------------------------------------+

dsppref

Display Preferred Route—PXM45, PXM1E

The dsppref command lets you displays details about a particular preferred route. For detailed information on the preferred routes feature, see the addpref description.

To see a list of all preferred routes, use the dspprefs command. Only nodes in the persistent topology database can support preferred routes. If you do not know the nodes in the persistent topology database, use the dsptopondlist command.

Syntax

dsppref <rte_index> [-name {yes | no}]

Syntax Description

rte_index	The route is an integer that identifies a route. The system generates a route index when you create a preferred route through the addpref command. To see a list of all preferred routes or routes associated with a particular switch, use the dspprefs command. Range: 1-5000 (unless you include -name yes with command entry) Default: none
-name	The typical way to show the hops in a preferred route is by a pairing of the persistent topology node index with the PNNI physical port ID. However, you can specify the user-defined node name for the display by typing the optional parameter -name yes. To see node names in output for the -node and -dst parameters, you must type a node name and type -name yes to see names in the output. Default: no

Related Commands

addpref, cnfpref, delpref, dspprefs, cnfconpref

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

dspprefs

Display Preferred Routes—PXM45, PXM1E

The dspprefs command lets you list one of the following:

•All routes in the preferred routes database

•The database entries that show the specified node as the destination node (last location in the route)

•All preferred routes that contain a particular node index (or, optionally, a particular node name)

The dspprefs command has an option to display nodes by name rather than node index. If you want names and additionally use an option that requires you to specify a node, you must input the node name to see node names in the resulting display. See Syntax description of the -name option for details.

If you do not know the nodes in the persistent topology database, use the dsptopondlist command. For detailed information about the preferred routes feature, see the addpref description.

For detailed information on the preferred routes feature, see the addpref description.

Syntax

dspprefs [-node persNodeInfo] [-dst persNodeInfo] [-name {yes | no}]

Syntax Description

-node	This option lets you display all preferred routes that include a particular switch. To identify the node (persNodeInfo), use the node index in the persistent topology node database (see dsptopondlist command). Alternatively, you can type the node name to see a display that shows routes with node names. (See -name option.) Range: 1-5000 (unless you include -name yes with command entry) Default: none
-dst	This option lets you display all routes where the node indicated by persNodeInfo is the destination node. To identify the node (persNodeInfo), use the node index in the persistent topology node database (see dsptopondlist command). Alternatively, you can type the node name to see a display that shows destinations by name. (See -name option.) Range: 1-5000 (unless you include -name yes in the command entry) Default: none
-name	The typical way to show the hops in a preferred route is by a pairing of the persistent topology node index with the PNNI physical port ID. However, you can specify the user-defined node name for the display by typing the optional parameter -name yes. To see node names in output for the -node and -dst parameters, you must type a node name and type -name yes to see names in the output. Default: no

Related Commands

addpref, cnfpref, delpref, dsppref, cnfconpref, dsptopondlist

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display all preferred routes and show node names instead of the persistent node topology index. Only one preferred route exists.

p2spvc14.7.PXM.a > dspprefs -name yes

Preferred Routes:-

------------------

Route Index: 1

h1:p2spvc14/1.1 h2:pswpop9/#

Display preferred routes that include the node named p2spvc14.

p2spvc14.7.PXM.a > dspprefs -name yes -node p2spvc14

Preferred Routes:-

------------------

Route Index: 1

h1:p2spvc14/1.1 h2:pswpop9/# 

dspprf

Display Profiler—PXM45. PXM1E

The dspprf command launches a facility called the profiler. It collects and displays statistics from resource usage. The resources include:

•Message queue

•Memory usage

•Memory chunks

Additionally, the dspprfhist command displays CPU usage.

---

Caution The profiler is a facility intended for developers at Cisco Systems. Because of the possibly large CPU overhead involved with the profiler, using dspprf on an overloaded switch can have unpredictable and unacceptable consequences. For example, it could overwhelm a marginally functioning switch. For this reason, you should contact the TAC before using dspprf and never run it for exploratory or experimental reasons.

---

Syntax

dspprf <t | i> <m | n | q | r>

Syntax Description

t | i

This parameter determines the display option. For total display, type a "t." For an interval display, type an "i." Note In the current release, only the "t" option is supported.

m | n | q |

This parameter determines which resource to display. Note In the current release, only option m is supported. •m: Type an "m" for task-based memory usage. "Task" is also known as "process" in some other contexts, but they are interchangeable in this environment because the OS is not multi-threaded. •n: Memory chunk. In the current release, this option is not supported. •q: Message queue profiler information. In the current release, this option is not supported. •r: System services interface SSI memory information. In the current release, this option is not supported.

Related Commands

dspprfhist

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display task-based memory usage. The display is truncated.

The display for task-based memory usage has the following headings:

•Block ("Blk"): The block column shows the number of successfully allocated memory blocks. This number includes all the system services interface (SSI) memory partitions, such as static partition, dynamic partition, SNMP partition, and statistics partition (if available). It excludes the memory blocks directly allocated from the OS memory partition.

•Size: Sum of allocated memory.

•Maximum block ("MaxBlk"): This number is the high water mark of allocated memory blocks. It indicates the highest level of the memory blocks' utilization up to the current moment.

•Maximum size ("MaxSz"): This number is the high water mark of allocated memory. It indicates the maximum allocated memory up to the current moment.

M8830_SF.2.PXM.a > dspprf t m

                       Blk       Size     MaxBlk      MaxSz

UNKOWN                   0          0          0          0

tRootTask               39   22114112        167   22129472

tLOGD                    0          0          0          0

tSAR                     0          0          0          0

tSCM                    99      13440        100      13776

tRPC                     1         96          1         96

tSarDisp                 0          0          0          0

tQe0Task                 0          0          0          0

tQe1Task                 0          0          0          0

tChunkMon                0          0          0          0

ctc                      3       9040          3       9040

tExcTask                 0          0          0          0

tLogTask                 0          0          0          0

tRlogind                 0          0          0          0

tWdbTask                 0          0          0          0

tNetTask                 0          0          0          0

FtpdTask                 0          0          0          0

tPortmapd                0          0          0          0

ShelfMgr               142      87536        142      90496

IPC Ctl                  0          0          0          0

tSyncRamDb               1      13024          1      13024

IPC_NameSvr             58      60448         58      60448

basicCli                 0          0          0          0

basicIn                  4       4112          7       5760

tmon                     0          0          1        208

shmDiskHdlr              0          0          1       3984

tShmPing                 0          0          0          0

dbClnt                 511     103808        530     115056

dbSvr                   90     556080         90     556080

FileAccSrv               0          0          1       8256

HwMonitor               10       2112         13       2400

dbSvrVal                 0          0          0          0

dbSvrIO                  0          0          0          0

dbSvrSync              352    1138064        364    1164512

dbSvrVerf                0          0          0          0

tSyserrd                 2        192          3        288

tCliIOtimer              1         96          2        192

Autocard                 4        560          5        656

NwClockMgr               0          0          0          0

SysDiag                  0          0          0          0

tRed                     1         96          1         96

lsmProxy                 0          0          0          0

tsctfmgr                 0          0          1      15072

tLMServer                2        384          3       8224

tLMSubTask               0          0          0          0

rmonTask                 0          0          0          0

FTM                     67       5904         67       5904

StatUpldMgr            601      67328        602      67504

StatFileMgr             84       7040         84       7040

emRoot                  12    2788864         13    2789104

PnProot                  4     161936          8     162416

snmpRat                  1        208          1        208

ilmiRat                  1        176          2        256

cliRat                   1        208          2        288

lmiRootTask              1    1024064          2    1026064

ipconn                   0          0          0          0

TrapRat                  1        176          2        256

cmRat                    1        256          2        336

Pxm1eOnline              0          0          0          0

ProxyRat                 1        128          1        128

CutRat                   1        240          2        320

FMRoot                   0          0          0          0

namTask                  1         96          3        352

SERAT                    1        128          1        128

tRMM                  2244     316048       2246     755856

tRVT                     6       1376          7      49440

tSrbm                    0          0          0          0

tSrme                    0          0          0          0

tSrmct                   0          0          1        224

SrmTopBayOn              0          0          0          0

tBertd                   0          0          0          0

tCrdmp                   0          0          0          0

CCMA_Task                0          0          0          0

snmpDataSvr              0          0          0          0

tIpcZoneMgr              0          0          0          0

tIpcTimer                0          0          0          0

tIpcDeferre              0          0          0          0

tIpcServer              12       4448         13       4544

tIpcTimer64              0          0          0          0

tRvtSnmp                 0          0          0          0

tRpmRsncMsg              0          0          0          0

hw_timer_Ta              0          0          0          0

hw_10msTime              0          0          0          0

tDispatch                0          0          0          0

tSrmeAPSPro              0          0          0          0

pnPnni                  92    3405280         95    3405824

dcTask0                  0          0          0          0

sfpMonTask0              0          0          0          0

csmiTask                 1         96          2        192

OnlineSubTa              0          0          0          0

smgr                     0          0          0          0

Type <CR> to continue, Q<CR> to stop: 

....

dspprfhist

Display Profiler History—PXM45, PXM1E

The dspprfhist command displays CPU usage. The information consists of a percent of CPU time used by individual tasks. The information appears in "buckets" (see Example). You can specify the maximum number of "CPU utilization information" buckets that are displayed. Each bucket reflects the overall CPU utilization of the tasks in a five-second polling interval.

---

Note This command applies primarily to internal Cisco developers.

---

Syntax

dspprfhist [buckets]

Syntax Description

buckets

Optional number of buckets to display. If you do not specify the number of buckets, the command displays a maximum of 10 buckets. Note Although the on-line help for this command refers to this option as "intervals," the option is "buckets." •Range: 1-120 •Default: 10

Related Commands

dspprf

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the CPU usage history. The display is truncated after to screen iterations because the switch is idle, so the screen contents are redundant.

---

Note The total percent of CPU usage does not necessarily equal 100 because only the three busiest tasks are displayed.

---

Unknown.7.PXM.a > dspprfhist

CURRENT TIME         08:48:54

Sample #     0

08:48:15(From)-08:48:35(To)

TASK                 TaskId           %

---------------------------------------

INTERRUPT            -           0.0000

KERNEL               -           0.0000

IDLE                 -          99.0000

UNKOWN               -           0.0000

tChunkMon            16          0.0000

tNetTask             21          0.0000

Sample #    -1

08:47:55(From)-08:48:15(To)

TASK                 TaskId           %

---------------------------------------

INTERRUPT            -           0.0000

KERNEL               -           0.0000

IDLE                 -          99.0000

UNKOWN               -           0.0000

tChunkMon            16          0.0000

Sample #    -2

.

.

dspprfx

Display Prefix—PXM45, PXM1E

Display the ILMI address prefixes for a port.

Syntax

dspprfx <portid>

Syntax Description

portid

The format of the PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

addprfx, delprfx

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display all ILMI address prefixes for port 4:1.1:11.

SanJose.7.PXM.a > dspprfx 4:1.1:11

ILMI Configured Port Prefix(es):

47.0091.8100.0000.0000.0ca7.9e01

  88.8888.8888.0000.0000.0000.0000

SanJose.7.PXM.a >

dsppri-routing

Display Priority Routing—PXM45, PXM1E

The dsppri-routing command displays the node-level configuration for the bandwidth and timer values that apply to the Priority Routing Feature. (The actual priority of an SPVC or SPVP is assigned through the addcon or cnfcon command.) For detailed information on the Priority Routing feature, see the description of the cnfpri-routing command.

Syntax

dsppri-routing

Syntax Description

No parameters

Related Commands

cnfpri-routing, dspcon, dspcons, dsppncon, dsppncons, addcon, cnfcon, cnfpnportsig, dsppnportsig, cnfpnportcac, dsppnportcac, dsppnport

Attributes

Log: yes

State: active

Privilege: ANYUSER

Example

Display the node-level configuration for the Priority Routing feature. It appears that no configuration has occurred because the values are the defaults.

M8850_LA.8.PXM.a > dsppri-routing

Priority Routing Configuration

--------------------------------

Number of bandwidth groups: 20

Size of first bandwidth group (in cps): 5000

Increment between bandwidth groups (in cps): 1000

Routing event buffer size (in 0.1-seconds): 0  

Node startup routing delay (in 0.1-seconds): 0   

M8850_LA.8.PXM.a > 

dsppswdreset

Display Password Reset—PXM45, PXM1E

The dsppswdreset command lets you see whether the series of keys is enabled that resets the node to the Cisco default password. See the cnfpswdreset description.

Syntax

dsppswdreset

Syntax Description

This command takes no parameters.

Related Commands

cnfpswdreset

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Check the status of the sequence of keys that resets the node password to the Cisco default.

pop20one.7.PXM.a > dsppswdreset

Password Reset feature currently enabled

dsppvcif

Display PVC Interface—PXM45, PXM1E

Display details about the PVC interface for IP connectivity. The output shows the:

•Interface type on which the PVC connections exists. Possible types are:

–ATM (atm0 in the output)

–Ethernet (lnPcio0 in the output)

–SLIP interface (sl0 in the output)

•Alarms, if any

•The operational state

•Flags specified for the PVC support (through the pvcifconfig command)

•The number of logical connection numbers (LCNs) in the receive and transmit direction)

•Numbers in input and output frames

Syntax

dsppvcif

Syntax Description

This command takes no parameters.

Related Commands

dspipif, pvcifconfig, ipifconfig, dspipifcache

Attributes

Log: no

State: active, standby, init

Privilege: ANYUSER

Example

Display the current ATM interface state.

orioses5.1.PXM.a > dsppvcif

orioses5                         System Rev: 01.00   Aug. 10, 2000 18:36:01 GMT

SES-CNTL                                             Node Alarm: NONE

IP CONNECTIVITY PVC CACHE

--------------------------------------------------------------------

atm (unit number 0):

    Feeder VPI.VCI: 3.8

        Flags:           (0x38) VCMUX,PVC,FEEDER

        State:           (0x1) UP

        RxLCN:           722           TxLCN:            32776

        LCNindex:        0             Feeder Name:      svcbpx16

        Input Frames:    10            Output Frames:    10

        Input Errors:    0             Output Errors:    0 

dspqosdefault

Display Quality of Service Defaults—PXM45, PXM1E

The dspqosdefault command shows whether defaults exist for individual quality of service (QoS) parameters and the values for any existing defaults.

Syntax

dspqosdefault

Syntax Description

This command takes no parameters.

Related Commands

clrqosdefault, cnfqosdefault

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Example

Display the enables and settings for default QoS values on the switch.

Unknown.8.PXM.a > dspqosdefault

Service Category = cbr                        Qos Default Enable = no

MaxCTD =           Not Provisioned            ppCDV  =             Not Provisioned

MaxClrClp0 =       Not Provisioned            MaxClrClp01 =        Not Provisioned

Service Category = rt-vbr                     Qos Default Enable = no

MaxCTD =           Not Provisioned            ppCDV  =             Not Provisioned

MaxClrClp0 =       Not Provisioned            MaxClrClp01 =        Not Provisioned

Service Category = nrt-vbr                    Qos Default Enable = no

MaxCTD =           Not Provisioned            ppCDV  =             Not Provisioned

MaxClrClp0 =       Not Provisioned            MaxClrClp01 =        Not Provisioned

Unknown.8.PXM.a >

dspred

Display Redundancy—PXM1E

The dspred command displays the configuration for card-level redundancy in the slots where this redundancy exists.

---

Note 1:N redundancy requires a Service Resource Module (SRME or SRM-3T3) in the switch. Currently, only the PXM1E supports the SRME and SRM-3T3.

---

Syntax

dspred

Related Commands

addred, delred, switchredcd

Attributes

Log: no

State: active

Privilege: ANYUSER

Example (PXM45)

Display redundancy on the switch. This example comes from a MGX 8850 node with a PXM45.

M8850_LA.8.PXM.a > dspred

M8850_LA                         System Rev: 03.00   Apr. 25, 2002 17:11:39 PST

MGX8850                                              Node Alarm: CRITICAL

Logical   Primary          Secondary            Card     Redundancy 

Slot   Slot     Card     Slot       Red         Type        Type      

                State              State                                    

-----  ----- ----------- ----  ------------ ------------ ----------   

  1     1    Active       2     Standby      AXSM             NO REDUN 

  7     7    Standby      8     Active       PXM45            NO REDUN 

M8850_LA.8.PXM.a > 

Example (PXM1E)

Display redundancy on the switch. This example comes from an MGX 8850 node with a PXM1E.

Unknown.7.PXM.a > dspred

Unknown                          System Rev: 03.00   Apr. 25, 2002 16:41:16 GMT

MGX8850                                              Node Alarm: MAJOR

Logical   Primary          Secondary            Card     Redundancy  

Slot   Slot     Card     Slot       Red         Type        Type      

                State              State                                    

-----  ----- ----------- ----  ------------ ------------ ----------   

  7     7    Active       8     Empty Resvd  PXM1E            1:1      

  15    15   Empty        16    Empty        SRM              1:1      

  31    31   Active       32    Empty        SRME-1OC3        1:1      

Unknown.7.PXM.a > 

dsprevs

Display Revisions—PXM45, PXM1E

The dsprevs command shows the current versions of firmware for all slots.

The optional parameter for this command lets you see the status of a revision change. Slight variations exist in the display with and without the optional parameter:

•Without the parameter, dsprevs shows the versions of boot firmware as well as primary and secondary runtime firmware.

•With the optional -status parameter (or just -s), dsprevs shows the current runtime firmware version, the primary and secondary runtime firmware versions, and the status of the revision change—but not the boot firmware version.

The dsprevs command helps you observe the progress of an upgrade. When a revision change is in progress, the Rev Change Status column shows the command for the active process—loadrev for example—for the affected slot and whether the process is an upgrade ("U") or a downgrade ("D"). Usually, a revision change is an upgrade rather than a downgrade. The Rev Change Status column also shows when the revision command is in progress and subsequently when it is done.

The dspcds command shows the status of each card and its slot configuration in the switch. During an upgrade, the card eventually is reset. In a graceful upgrade, the runrev command resets the command. In the case of a forced revision change, the setrev command resets the card.

For information on graceful firmware upgrades, see loadrev, runrev, commitrev, and dspversion.

---

Note The portion of the display that shows slots 17-32 is reserved for future use.

---

Syntax

dsprevs [-status]

Syntax Description

-status

Cause the display to show the status of a firmware revision change.

Related Commands

runrev, loadrev, dspversion, dspcd, dspcds

---

Note The dspcd and dspcds commands show a firmware revision change in progress with a U (for upgrade) or D (for downgrade).

---

Attributes

Log: no

State: active

Privilege: ANYUSER

Examples

Display firmware versions and include status of any firmware upgrades. Note that the display shows the logical slot number 7 for physical slot 8. The display shows that no firmware upgrades are in progress. If an upgrade were in progress on slots 7 and 8 and the present command were loadrev, the Rev Change Status column would show "Loadrev in prog-U."

M8850_NY.7.PXM.a > dsprevs -s

M8850_NY                         System Rev: 02.01   Oct. 21, 2001 19:04:09 PST

MGX8850                                              Node Alarm: CRITICAL

Phy. Log. Cur Sw           Prim Sw          Sec Sw           Rev Chg           

Slot Slot Revision         Revision         Revision         Status            

---- ---- --------         --------         --------         -------           

01   01   2.1(70.58)P2     2.1(70.58)P2     2.1(70.58)P2     ---               

02   02   ---              ---              ---              ---               

03   03   2.1(70.58)P2     2.1(70.58)P2     2.1(70.58)P2     ---               

04   04   ---              ---              ---              ---               

05   05   2.1(70.58)P2     2.1(70.58)P2     2.1(70.58)P2     ---               

06   06   2.1(70.58)P2     2.1(70.58)P2     2.1(70.58)P2     ---               

07   07   2.1(70.58)A      2.1(70.58)A      2.1(70.58)A      ---               

08   07   2.1(70.58)A      2.1(70.58)A      2.1(70.58)A      ---               

09   09   ---              ---              ---              ---               

10   10   ---              ---              ---              ---               

11   11   ---              ---              ---              ---               

12   12   ---              ---              ---              ---               

13   13   ---              ---              ---              ---               

14   14   ---              ---              ---              ---               

M8850_NY.7.PXM.a > 

Display revisions.

M8850_NY                         System Rev: 02.01   Oct. 21, 2001 19:05:23 PST

MGX8850                                              Node Alarm: CRITICAL

Physical  Logical   Inserted       Cur Sw              Boot FW             

Slot      Slot      Card           Revision            Revision            

--------  -------   --------       --------            --------            

01        01        AXSM_4OC12     2.1(70.58)P2        2.1(70.58)A         

02        02        ---            ---                 ---                 

03        03        AXSM_4OC12     2.1(70.58)P2        2.1(70.58)A         

04        04        ---            ---                 ---                 

05        05        AXSME_2OC12    2.1(70.58)P2        2.1(70.58)A         

06        06        AXSM_16OC3_B   2.1(70.58)P2        2.1(70.58)A         

07        07        PXM45          2.1(70.58)A         2.1(70.58)A         

08        07        PXM45          2.1(70.58)A         2.1(70.58)A         

09        09        RPM_PR         ---                 ---                 

10        10        ---            ---                 ---                 

11        11        ---            ---                 ---                 

12        12        ---            ---                 ---                 

13        13        ---            ---                 ---                 

14        14        ---            ---                 ---                 

M8850_NY.7.PXM.a > 

The next examples show an RPM-XF. For the first example, display revisions without the parameter.

Unknown.8.PXM.a > dsprevs

Unknown              System Rev:03.00   Jan. 29, 2002 16:49:49 GMT

MGX8850                                     Node Alarm:MAJOR

Phy. Log. Inserted       Cur Sw              Boot FW

Slot Slot Card           Revision            Revision

---- ---- --------       --------            --------

01   01   ---            ---                 ---

02   02   ---            ---                 ---

03   03   ---            ---                 ---

04   04   ---            ---                 ---

05   06   ---            ---                 ---

06   06   RPM_XF         IOSver              IOSver

          Cur SW Rev: 12.2(20020125:024232)

          Boot FW Rev:12.2(20020125:024232)

07   07   PXM45B         3.0(0.0)D           3.0(0.100)A

08   07   PXM45B         3.0(0.0)D           3.0(0.100)A

09   09   ---            ---                 ---

10   10   AXSM_16OC3     3.0(0.160)A         3.0(0.160)A

11   11   ---            ---                 ---

12   12   RPM_PR         12.2(8)YP           12.2(8)YP

13   13   RPM_XF         12.2(8)YP           12.2(8)YP

14   14   ---            ---                 ---

15   15   ---            ---                 ---

16   16   ---            ---                 ---

17   17   ---            ---                 ---

18   18   ---            ---                 ---

19   19   ---            ---                 ---

20   20   ---            ---                 ---

21   21   ---            ---                 ---

22   22   ---            ---                 ---

23   23   ---            ---                 ---

24   24   ---            ---                 ---

25   25   ---            ---                 ---

26   26   ---            ---                 ---

27   27   ---            ---                 ---

28   28   ---            ---                 ---

29   29   ---            ---                 ---

30   30   ---            ---                 ---

31   31   ---            ---                 ---

32   32   ---            ---                 ---

Unknown.8.PXM.a > dsprevs -s

Unknown            System Rev:03.00   Jan. 29, 200217:12:41 GMT

MGX8850                                    Node Alarm:MAJOR

Phy. Log. Cur Sw           Prim Sw          Sec Sw           Rev Chg

Slot Slot Revision         Revision         Revision         Status

---- ---- --------         --------         --------         -------

01   01   ---              ---              ---              ---

02   02   ---              ---              ---              ---

03   03   ---              ---              ---              ---

04   04   ---              ---              ---              ---

05   06   ---              ---              ---              ---

06   06   IOSver           IOSver           IOSver           ---

          Cur SW Rev: 12.2(20020125:024232)

          Prim SW Rev:---

          Sec SW Rev: ---

07   07   3.0(0.0)D        3.0(0.0)D        3.0(0.0)D        ---

08   07   3.0(0.0)D        3.0(0.0)D        3.0(0.0)D        ---

09   09   ---              ---              ---              ---

10   10   3.0(0.160)A      3.0(0.160)A      3.0(0.160)A      ---

11   11   ---              ---              ---              ---

12   12   12.2(8)YP        ---              ---              ---

13   13   12.2(8)YP        ---              ---              ---

14   14   ---              ---              ---              ---

15   15   ---              ---              ---              ---

16   16   ---              ---              ---              ---

17   17   ---              ---              ---              ---

18   18   ---              ---              ---              ---

19   19   ---              ---              ---              ---

20   20   ---              ---              ---              ---

21   21   ---              ---              ---              ---

22   22   ---              ---              ---              ---

23   23   ---              ---              ---              ---

24   24   ---              ---              ---              ---

25   25   ---              ---              ---              ---

26   26   ---              ---              ---              ---

27   27   ---              ---              ---              ---

28   28   ---              ---              ---              ---

29   29   ---              ---              ---              ---

30   30   ---              ---              ---              ---

31   31   ---              ---              ---              ---

32   32   ---              ---              ---              ---

dsprrtparm

Display Reroute Parameters—PXM45, PXM1E

The dsprrtparm command shows the current slow interval time and fast timer base. See the description of cnfrrtparm for the function of these intervals.

Syntax

dsprrtparm

Syntax Description

This command takes no parameters.

Related Commands

cnfrrtparm

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current, global reroute parameters for SPVCs. The parameters are the defaults.

8850_NY.7.PXM.a > dsprrtparm

Global SPVC Retry Parameters: 

--------------------------------

Slow Retry Interval: 60 sec

Fast Retry Interval Base: 50 (in 100 msec)

dsprscprtn

Display Resource Partition—PXM1E

Displays information about a resource partition. The displayed information is shown in the example.

---

Note The dsppart and dsprscprtn commands are identical. The name `dsprscprtn' is consistent with the corresponding command in Release 1 of the MGX 8850 switch. You can use either command.

---

The total number of connections in the display includes control VCs. The types of control VCs are SSCOP, PNNI-RCC, and ILMI (if ILMI is enabled). To see the connection counts that do not include control VCs, use dsppnport.

Syntax

dsprscprtn <ifNum> <partId>

Syntax Description

ifNum	The range for logical interface is 1-31.
partId	The range for partition identifier is 1-20.

Related Commands

addrscprtn, cnfrscprtn, delrscprtn, dsprscprtns

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display configuration for partition 1 on logical port 1.

MGX8850.7.PXM1E.a > dsprscprtn 1 1

  Interface Number               : 1

  Partition Id                   : 1        Number of SPVC: 0

  Controller Id                  : 2        Number of SPVP: 0

  egr Guaranteed bw(.0001percent): 1000000  Number of SVC : 2

  egr Maximum bw(.0001percent)   : 1000000

  ing Guaranteed bw(.0001percent): 1000000

  ing Maximum bw(.0001percent)   : 1000000

  min vpi                        : 0

  max vpi                        : 4095

  min vci                        : 33

  max vci                        : 65535

  guaranteed connections         : 1000

  maximum connections            : 32000 maximum connections            : 4000

dsprscprtns

Display Resource Partitions—PXM1E

Display information for all the resource partitions on the current card. The displayed information appears the example.

For information on specific elements of a resource partition, see the description of addrscprtn.

---

Note The dspparts and dsprscprtns commands are identical. The name `dsprscprtn' is consistent with the corresponding command in Release 1 of the MGX 8850 switch. You can use either command.

---

Syntax

dsprscprtns

Related Commands

addrscprtn, delrscprtn, cnfrscprtn, dsprscprtn

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display all resource partitions.

PhattyEmre.2.PXM.a > dspparts

if  part Ctlr egr     egr     ingr    ingr    min max   min   max  min   max

Num ID   ID   GuarBw  MaxBw   GuarBw  MaxBw   vpi vpi   vci   vci  conn  conn

             (.0001%)(.0001%)(.0001%)(.0001%)  

-----------------------------------------------------------------------------

 1   1    2 1000000 1000000 1000000 1000000    0  255     1 65535    100    200

PhattyEmre.2.PXM.a > 

dsprteoptcnf

Display Route Optimization Configuration—PXM45, PXM1E

Display the current configuration for route optimization. The configuration itself originates with the cnfrteopt command. The dsprteoptcnf display shows the following:

•The node-level threshold for route optimization is a percent of reduction for the routing cost.

•Identity of the optimization target by port and VPI/VCI range.

•Enable status of optimization.

•Interval between times that optimization begins.

•Start and stop times for route optimization.

Syntax

dsprteoptcnf

Syntax Description

This command takes no parameters.

Related Commands

cnfrteopt, opte, dsprteoptstat, cnfrteoptthld

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current route optimization configuration for the switch. The display shows the default optimization of 30% for the switch and further details configured for one port: 1:2.1:9.

pop20two.7.PXM.a > dsprteoptcnf

Configuration of Route Optimization:

Percentage Reduction Threshold: 30

Port           Enable   VPI/VCI Range    Interval   Time Range  

7.35           no       

7.36           no       

7.37           no       

7.38           no       

1:2.1:9        yes      all              10         anytime     

1:2.2:31       no       

1:2.2:32       no       

6:1.1:1        no       

10:1.1:1       no       

10:1.2:2       no       

10:1.8:8       no 

dsprteoptstat

Display Route Optimization Status—PXM45, PXM1E

Display the current percent of route cost reduction. This percent is a threshold that the PXM45 requires to determine that one route costs sufficiently less to warrant re-routing. The percent applies to all connections on the node. The system default is 30%, but you can configure a percent through the cnfrteoptthld command. For more details on route optimization, see the cnfrteopt description.

Syntax

dsprteoptstat

Syntax Description

This command takes no parameters.

Related Commands

cnfrteopt, cnfrteoptthld, optrte, dsprteoptstat

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current route optimization for the switch. No optimization has been configured on any ports.

pop20two.7.PXM.a > dsprteoptstat

Configuration of Route Optimization:

Percentage Reduction Threshold: 30

Port           Enable   VPI/VCI Range    Interval   Time Range

1:2.1:2        no

1:2.2:3        no

dspsct

Display SCT—PXM1E

Display the contents of a port-level or service class template (SCT). For more information on SCTs, see the addport description. Also, see the description of SCTs in the switch software configuration guide.

With the dspsct command, you can display:

•Port SCTs

•A particular SCT template

•A section within the SCT (see Syntax Description for an explanation)

---

Note Currently, the system does not support certain parameters in the service class templates (SCTs), so you can specify them through addcon, cnfcon, or Cisco WAN Manager.
These parameters are (when applicable) PCR, SCR, and ICR.

---

Syntax

dspsct <abr | gen | cosb | vcThr | cosThr> <sctID> <port | card>
[oc12 | oc3 | t3plpc | t3adm | e3 | t1 | e1]

Syntax Description

abr gen cosb vcThr cosThr	A specific part of the SCT, as follows: •abr: available bit rate •gen: general VC •cosb: class of service buffer •vcThr: VC thresholds •cosThr: COSB thresholds
sctID	SCT identifier in the range 1-255.
port | card	Specifies the part of the card where the template applies. Enter port or card. Note The PXM1E supports only the port choice.
oc3 t3plpc t3adm e3 t1 e1	Line types for egress SCT: •oc3: 353207 cells/sec •t3plpc: 96000 cells/sec •t3adm: 104268 cells/sec •e3: 80000 cells/sec •t1: 3622 cells/sec •e1: 4528 cells/sec

Related Commands

cnfcdsct, dspcdsct

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Examples

Display each section in card SCT file number 4. You can display one section of the SCT at a time.

MGX8850.1.AXSM.a > dspsct bw 4 card

Service Class Template [0] : Bw and Policing Parameters

+------------------------------------------------------------------------------+

| SERV-TYPE |   PCR    |   SCR    |   MCR    |   MBS    |   CDVT    |   ICR    |

+------------------------------------------------------------------------------+

| 000000256 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000257 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000258 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000259 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000260 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000261 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000262 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000263 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000264 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000265 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000266 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

| 000000267 | 00002000 | 00001000 | 00000500 | 00001024 | 00250000 | 00000010 |

MGX8850.6.AXSM.a > dspsct gen 4 card

Service Class Template [0] : General Parameters

+--------------------------------------------------------+

| SERV-TYPE | COSB_NUM | BOOK_FACT | CAC_TYPE | UPC_ENB  |

+--------------------------------------------------------+

| 000000256 | 00000003 | 000000100 |   ECAC-A | GCRA1-ENB  |

| 000000257 | 00000004 | 000000100 |   ECAC-A | GCRA 1 & 2 |

| 000000258 | 00000004 | 000000100 |    B-CAC | GCRA 1 & 2 |

| 000000259 | 00000004 | 000000100 |    B-CAC | GCRA 1 & 2 |

| 000000260 | 00000005 | 000000100 |   ECAC-A | GCRA 1 & 2 |

| 000000261 | 00000005 | 000000100 |    B-CAC | GCRA 1 & 2 |

| 000000262 | 00000005 | 000000100 |    B-CAC | GCRA 1 & 2 |

| 000000263 | 00000006 | 000000100 |  LCN_CAC | GCRA1-ENB  |

| 000000264 | 00000006 | 000000100 |  LCN_CAC | GCRA1-ENB  |

| 000000265 | 00000001 | 000000100 |    B-CAC | GCRA1-ENB  |

| 000000266 | 00000003 | 000000100 |    B-CAC | GCRA 1 & 2 |

| 000000267 | 00000003 | 000000100 |    B-CAC | GCRA 1 & 2 |

+-----------------------------------------------------------------------+ 

MGX8850.6.AXSM.a > dspsct cosb 4 card

+--------------------------------------------------------------------------+

|Service Class Template [00] : COSB Parameters                             |

+--------------------------------------------------------------------------+

| COSB | MIN-RATE | MAX-RATE | MIN-PRIORITY | EXCESS-PRIORITY | ERS ENABLE |

+--------------------------------------------------------------------------+

| 0001 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0002 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0003 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0004 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0005 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0006 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0007 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0008 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0009 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0010 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0011 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0012 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0013 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0014 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0015 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

| 0016 | 00000000 | 00000100 |          001 |             001 |     ENABLE |

+--------------------------------------------------------------------------+

MGX8850.6.AXSM.a > dspsct vcThr 4 card

Service Class Template [0] : VC Threshold Parameters

+-----------------------------------------------------------------

|SERV|VC THRESH| SELECT |MAX_CELL|EFCI|CLP_LO| CLP_HI| EPD0  |SCALING|SCALING|

|TYPE|TBL IDX  | THRESH | THRESH | Pct|EPDPct|    Pct|   Pct |COSB   | Log-If|

+-----------------------------------------------------------------

| 256 |    225  |   DSB|00000160|100%|035%|080%  |100%  |0000001 |0000001|

| 257 |    226  |   DSB|00001280|100%|035%|080%  |100%  |0000001 |0000001|

| 258 |    227  |   DSB|00001280|100%|035%|080%  |100%  |0000001 |0000001|

| 259 |    228  |   DSB|00001280|100%|035%|080%  |100%  |0000001 |0000001|

| 260 |    229  |   DSB|00001280|100%|080%|080%  |060%  |0000001 |0000001|

| 261 |    230  |   DSB|00001280|100%|080%|080%  |060%  |0000001 |0000001|

| 262 |    231  |   DSB|00001280|100%|080%|080%  |060%  |0000001 |0000001|

| 263 |    232  |   DSB|00008000|100%|080%|080%  |060%  |0000001 |0000001|

| 264 |    233  |   DSB|00008000|100%|080%|080%  |060%  |0000001 |0000001|

| 265 |    234  |   DSB|00008000|020%|080%|080%  |060%  |0000001 |0000001|

| 266 |    235  |   DSB|00000160|100%|035%|080%  |100%  |0000001 |0000001|

| 267 |    236  |   DSB|00000160|100%|035%|080%  |100%  |0000001 |0000001|

+------------------------------------------------------------------------

MGX8850.6.AXSM.a > dspsct cosThr 4 card

+------------------------------------------------------------------------+

|Service Class Template [00] : COSB Threshold Parameters|

+------------------------------------------------------------------------+

| COSB |COSBTHRES| MAX_CELL |EFCI|CLP_LO|CLP_HI| EPD0 |RED  | RED PROB |

|      |TBL IDX  |  THRESH  | Pct|EPDPct|   Pct|  Pct | PCT|  FACTOR  |

+------------------------------------------------------------------------+

| 0001 |  00114  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |\

| 0002 |  00115  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |

| 0003 |  00116  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |

| 0004 |  00117  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |

| 0005 |  00118  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |

| 0006 |  00119  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 | 

| 0007 |  00120  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |

| 0008 |  00121  | 00001424 |100%|080%  |060%  |100% |025% | 00000005 |

| 0009 |  00122  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0010 |  00123  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0011 |  00124  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0012 |  00125  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0013 |  00126  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0014 |  00127  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0015 |  00128  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

| 0016 |  00129  | 01015808 |100%|100%  |100%  |100% |025% | 00000005 |

+----------------------------------------------------------------------

dspscts

Display Service Class Templates—PXM45, PXM1E

The dspscts command lists all SCTs on the disk by default. The option for the command is the card type. The range of IDs for Cisco-provided SCTs is 1-100/ The range for user-created SCT IDs is 101-255.

Syntax

dspscts [-cardtype < 1 | 2 | 3 | 4 >]

Syntax Description

-cardtype

You can specify SCTs for a particular card type. Possible entries are as follows: 1: AXSM (all varieties) 2: AXSM-E (all varieties) 3: PXM1E 4: FRSM12

Related Commands

addsct, delsct, cnfsct, setsctver, addport, cnfport, cnfcdsct, dspportsct, dspcdsct, dspsct

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display all available SCTs on the hard drive. Note that one custom SCT is present SCTs

D5.8.PXM.a > dspscts

-----------------------------------------------------------------------------

 Card  Type   ID   Major Minor Checksum   Status   Description

-----------------------------------------------------------------------------

 PXM1E PORT  00002 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.PORT.2 (upg)

 PXM1E PORT  00003 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.PORT.3 (upg)

 PXM1E PORT  00004 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.PORT.4 (upg)

 PXM1E PORT  00005 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.PORT.5 (upg)

 PXM1E PORT  00006 00001 00000 0xec9e2a3a  valid   cisco :PXM1E_SCT.PORT.6 (upg)

 PXM1E PORT  00332 00001 00000 0x7a16d575  valid   custom:PXM1E_SCT.PORT.232 (u)

 PXM1E CARD  00002 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.CARD.2 (upg)

 PXM1E CARD  00003 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.CARD.3 (upg)

 PXM1E CARD  00004 00001 00000 0xe89d2837  valid   cisco :PXM1E_SCT.CARD.4 (upg)

Unknown.7.PXM.a > 

dspsesn

Display Session—PXM45, PXM1E

The dspsesn command displays information about all current user-sessions.

Syntax

dspsesn [-s <session number>] [-h <command history>] [-t <information type>]

Syntax Description

-s	This option lets you specify a particular session to display. (To see how long a user-session has been idle, run the users command.) You can use this option with other options. For example, you can specify a particular session and display the command history (-h option). Default: all
-h	The command history shows the commands entered by the user. If you do not specify a particular session, all command histories scroll up the screen. Default: no
-t	You can specify one of three information types. Actually, for the ascending type numbers, each display simply has more information. The Example section shows the display for each type. The default usually is sufficient. Possible entries: 1, 2, or 3 Default: 1

Related Commands

delsesn, who, users

Attributes

Log: yes

State: active, standby, init

Privilege: SERVICE_GP

Examples

Display current user-sessions. Two sessions are active. The asterisk next to the "Session" field shows which session originated the dspsesn command.

M8850_NY.7.PXM.a > dspsesn

-----------------------------------------

 > Session 0 (console): 

Waiting for login...

-----------------------------------------

*> Session 1 (telnet): 

Executing command: dspsesn

user name:         david

access level:      SERVICE_GP

slot:              7

slotFallback:      1

From:              10.19.238.35

-----------------------------------------

 > Session 2 (telnet): 

Waiting for user input...

user name:         david9

access level:      GROUP1

slot:              7

slotFallback:      7

From:              10.19.238.35

Display user sessions and include the history of commands.

M8850_LA.8.PXM.a > dspsesn -h yes

-----------------------------------------

 > Session 0 (console): 

Waiting for login...

-----------------------------------------

*> Session 1 (telnet): 

Executing command: dspsesn -h yes

user name:         cisco

access level:      CISCO_GP

slot:              8

slotFallback:      8

From:              171.71.29.105

History for session 1:

  1 dspcd

  2 dspver

  3 d

  4 dspver

  5 dspsesn ?

  6 dspsesn

  7 dspsesn -s 1

  8 dspsesn -s 2

  9 dspsesn -s 4

 10 dspsesn -h yes

M8850_LA.8.PXM.a >

For session number 1, display information types 1, 2, and then 3.

M8850_LA.8.PXM.a > dspsesn -s 1 -t 1

-----------------------------------------

*> Session 1 (telnet): 

Executing command: dspsesn -s 1 -t 1

user name:         cisco

access level:      CISCO_GP

slot:              8

slotFallback:      8

From:              171.71.29.105

M8850_LA.8.PXM.a >

M8850_LA.8.PXM.a > dspsesn -s 1 -t 2

-----------------------------------------

*> Session 1 (telnet): 

Executing command: dspsesn -s 1 -t 2

user name:         cisco

access level:      CISCO_GP

slot:              8

slotFallback:      8

From:              171.71.29.105

pty name:          /pty/cli01.

cliPty fdPtyM:     47

cliPty fdPtyS:     50

usrCmdlnTimeout:   0x2EE0

flags: ECHO WATCHDOG SHOWSYSERR 

M8850_LA.8.PXM.a > dspsesn -s 1 -t 3

-----------------------------------------

*> Session 1 (telnet): 

Executing command: dspsesn -s 1 -t 3

user name:         cisco

access level:      CISCO_GP

slot:              8

slotFallback:      8

From:              171.71.29.105

pty name:          /pty/cli01.

cliPty fdPtyM:     47

cliPty fdPtyS:     50

usrCmdlnTimeout:   0x2EE0

flags: ECHO WATCHDOG SHOWSYSERR 

status bits:       0xE000000D

cliInQ:            0x0006015F

usrIOfd:           0x0000004C

usrIOinflux:       0x00000001

psrOptions:        0x00000003

inTask id:         0x0018009B

outTask id:        0x001800A0

cmdTask id:        0x0018009E

Times for this session:

 - timer for fd 76, tid 0x00010020, idle 4997, timeout 0

 - timer for fd 76, tid 0x0018009B, idle 0, timeout 0

 - timer for fd 76, tid 0x001800A0, idle 6, timeout 0

dspserialif

Display Serial Interface—PXM45, PXM1E

The dspserialif command displays the data rate on one of the serial interfaces on the PXM45-UI-S3 back card. See cnfserialif for an explanation. (See the switch software configuration guide for an explanation of the application of these physical ports.)

Syntax

dspserialif <port#>

port#

Specifies the physical port: •1=maintenance port •2=console port.

Syntax Description

Related Commands

addserialif, delserialif, cnfserialif

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display the console port speed.

Jupiter_Lower.7.PXM.a > dspserialif 2

  SerialPortNum   : 2

  SerialPortType  : console

  SerialPortSpeed : 19200

dspsig

Display Signaling—PXM45, PXM1E

Displays the configuration of the signaling timers for the port.

Syntax

dspsig <portid>

Syntax Description

portid

The format of the PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

cnfsig

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the signaling timers and crankback maximum for port 4:1.1:11.

SanJose.7.PXM.a > dspsig 4:1.1:11

Signaling Timers for port: 4:1.1:11

Timer           Value(secs)

-----           -----------

t301            180

t303            4

t308            30

t310            10

t316            90

t317            60

t322            4

t397            180

t398            4

t399            14

Max Crankback: 3

dspsigdiag

Display Signaling Diagnostic—PXM45, PXM1E

Displays the configured filter entries and the collection call records for the ATM signaling diagnostics.

Syntax

dspsigdiag {filter | rec | status} [index]

Syntax Description

filter	Display the information in the filter table.
rec	Display the call failure records.
status	Display global diagnostics status.
index	This field can be used with the option filter or rec. If used with filter, the configuration of the specified indexed filter entry display. If you don't specify an index, configuration of all filter entries display. If this field is used with rec, then all of the records filtered for the specified indexed filter entry display.

Related Commands

cnfsigdiag, delsigdiag, dspsigstats, clrsigstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display the filter sets.

SanJose.7.PXM.a > dspsigdiag filter

F I L T E R   I N D E X    1

--------------------------------

Scope: internal, Cast Type: p2mp

Connection Kind: soft-vc

Service Category: CBR (Constant Bit Rate) UBR (Unspecified Bit Rate)

Clear Cause: 0, Initial TimerValue: 600

Max Records: 20,   NumMatches: 0,   Timer expiry: 600

Incoming Port: ATM0/0/1, Outgoing Port: ATM0/1/1

Calling Nsap Address:47.111122223333444455556666.777788889999.00

Calling Address Mask:FF.FFFFFF000000000000000000.000000000000.00

Called Nsap Address:47.111122223333444455556666.777788889999.01

Called Address Mask:FF.FFFFFF000000000000000000.000000000000.00

Status: active

F I L T E R   I N D E X    2

--------------------------------

Display the records associated with index 1.

SanJose.7.PXM.a > dspsigdiag rec 1

D I S P L A Y 		I N D E X    1

--------------------------------

Scope: internal, Cast Type: p2p, Conn Indicator: Setup Failure

Connection Kind:   switched-vc

Service Category: UBR (Unspecified Bit Rate)

Clear Cause: 0x29, Diagnostics: NULL

Incoming Port: ATM1/0/3, Outgoing Port:ATM0/1/3

Calling-Address: 47.009181000000006011000000.470803040506.00

Calling-SubAddr: NULL

Called-Address : 47.009181000000006083C42C01.750203040506.00

Called-SubAddr : NULL

Crankback Type : No Crankback

DTL's:

NodeId:56:160:47.009181000000006011000000.006083AB9001.00 Port: 0/1/3:2

NodeId:56:160:47.00918100000000603E7B4101.00603E7B4101.00 Port: 0/0/0:2

NodeId:56:160:47.009181000000006083C42C01.006083C42C01.00 Port: 0

D I S P L A Y 		I N D E X    2

--------------------------------

SanJose.7.PXM.a > 

dspsigstats

Display Signaling Statistics—PXM45, PXM1E

Displays signaling statistics for a port. See the Example section for a list of the types of statistics.

Syntax

dspsigstats <portid>

Syntax Description

portid

The format of the PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

cnfsigdiag, delsigdiag, dspsigdiag, clrsigstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display signaling statistics for port 1:2.1:1.

8850_NY.8.PXM.a > dspsigstats 1:2.1:1

 Signaling Statistics for 1:2.1:1

 Message                          Rcv           Xmt

 -------                          ---           ---

 Call Proceeding                    0             0

 Connect                            0             0

 Connect Ack                        0             0

 Setup                              0             0

 Release                            0             0

 Release Complete                   0             0

 Add Party                          0             0

 Add Party Ack                      0             0

 Add Party Rej                      0             0

 Drop Party                         0             0

 Restart                            0             0

 Restart Ack                        0             0

 Status                             0             0

 Status Enquiry                     0             0

 Alerting                           0             0

 Notify                             0             0

 Progress                           0             0

Last Cause/Diag/Crankback

 --------------------------

 Cause                              0

 Diagnostic                         0       0       0       0

 Src Crankback port count           0

dspslotlink

Display Slot Links on a Line—PXM45, PXM1E

The dspslotlink command displays information about all links associated with a service module slot.

To see all tributaries associated with a particular line on an SRM, use the dsplink command.

Syntax

dsplink <slot>

Syntax Description

slot	The slot parameter identifies the slot number of the service module. The possible values depend on the chassis, as follow: •MGX 8850: 1-6, 9-14, 17-22, 25-30 •MGX 8830: 3-6, 10-13

Related Commands

addlink, cnflink, dellink, dsplink

Attributes

Log: no

State: active

Privilege: ANYUSER

dspsnmp

Display SNMP Strings—PXM45, PXM1E

The dspsnmp command displays the SNMP strings.

Syntax

dspsnmp

Syntax Description

This command takes no parameters.

Related Commands

cnfsnmp

Attributes

Log: no

State: active

Privilege: SUPER_GP

Example

Display the current SNMP strings. This example shows user-modified strings for read-write community, location, and contact strings.

M8850_NY.7.PXM.a > dspsnmp

M8850_NY                         System Rev: 02.01   Nov. 29, 2001 12:49:03 PST

MGX8850                                              Node Alarm: none

Community (rw):          toplevel                        

Community (ro):          public                          

System Location:         Bldg J, room 619                        

System Contact:          davids@be.com 

dspsntp

Display SNTP Configuration—PXM45, PXM1E

The dspsntp command displays the configuration of the Simple Network Time Protocol (SNTP) on the current switch and the "sync" status—whether the current client is synchronized for TOD updates with the server. The configuration is the result of the cnfsntp command. Refer to the cnfsntp description for details. If the client is not synchronized with a server, the cause may be that no servers are unreachable.

Syntax

dspsntp

Syntax Description

No parameters

Related Commands

dbgsntp, cnfsntp, cnfsntprmtsvr, dspsntp-dbg, dspsntprmtsvr, addsntprmtsvr, dspsntpstats

Attributes

Log: no

State: active

Privilege: SUPER_GP

Example

Display the SNTP configuration on the current switch.

M8850_LA.8.PXM.a > dspsntp

client: yes

server: no

polling: 100

waiting: 6

rollback: 100

stratum(default): 0

stratum(current): 0

sync: no

dspsntp-dbg

Display SNTP Debug Configuration—PXM45, PXM1E

The dspsntp-dbg command lets you display the SNTP debugging options. These options were configured through the dbgsntp command.

Syntax

dspsntp-dbg

Syntax Description

No parameters

Related Commands

dbgsntp, cnfsntp, cnfsntprmtsvr, dspsntp, dspsntprmtsvr, addsntprmtsvr, dspsntpstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current SNTP debugging configuration on this switch.

M8850_LA.8.PXM.a > dspsntp-dbg

IP              level flag

----------------------------

0.0.0.0         info  disable

dspsntprmtsvr

Display SNTP Remote Server—PXM45, PXM1E

The dspsntprmtsvr command displays the configuration of a remote switch as a server. See the addsntprmtsvr and cnfsntp descriptions for details.

Syntax

dspsntprmtsvr {server IP addr} | all

Syntax Description

server IP addr all

Enter either the IP address of a single remote server or all to display the configuration of all remote SNTP servers. Default: all

Related Commands

dbgsntp, cnfsntp, cnfsntprmtsvr, dspsntp, addsntprmtsvr, dspsntpstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display all remote SNTP servers. In this case, the secondary server is the current server.

M8850_LA.8.PXM.a > dspsntprmtsvr

SNTP server     Stratum  Version  Primary  Current

----------------------------------------------------------

172.29.52.88    0        4        yes      no       

172.29.52.89    0        4        no       yes

dspsntpstats

Display SNTP Statistics—PXM45, PXM1E

The dspsntpstats command displays statistics for the Simple Network Time Protocol (SNTP) service. See the Example section of this description for a list of the statistics. To clear the statistics, use the clrsntpstats command. See the cnfsntp, addsntprmtsvr, and dspsntprmtsvr descriptions for details about the application of SNTP in the current release.

Syntax

dspsntpstats

Syntax Description

No parameters

Related Commands

clrsntpstats, cnfsntp, addsntprmtsvr, dspsntprmtsvr

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display current SNTP statistics for the current node.

M8850_LA.8.PXM.a > dspsntpstats

Statistic Counters For SNTP

-----------------------------

Receive server mode packets from servers in list: 0

Receive server mode packets from servers not in list: 0

Receive server mode packets which fail sanity check: 0

Receive server mode packets which pass sanity check: 0

Receive client mode packets: 82324

Receive other  mode packets: 0

Send server mode packets: 0

Send client mode packets: 94084

Polling Timer Expire Counter: 94084

Polling Wait Timer Expire Counter: 94084

Rollback Timer Expire Counter: 47040

Rollback Wait Timer Expire Counter: 0

Switch From Primary To Secondary Counter: 11762

Switch From Secondary To Primary Counter: 11760

Switch From Secondary To Secondary Counter: 0

dspspvcaddr

Display SPVC Address—PXM45, PXM1E

The dspspvcaddr command displays the ATM end station addresses ((AESAs) associated with the PNNI physical port address for SPVCs.

Syntax

dspspvcaddr [port_id]

Syntax Description

portid

The format of the PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

dspspvcprfx

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display all SPVC addresses. As a follow-up, display the SPVC prefix to see how it compares to the full SPVC address.

M8850_NY.7.PXM.a > dspspvcaddr

Interface Id      Soft VC Address(es)

------------      -------------------

     1:1.2:2     47.0091.8100.0002.0003.6b5e.30cd.0000.0101.1802.00

     1:1.1:3     47.0091.8100.0002.0003.6b5e.30cd.0000.0101.1803.00

     1:2.1:1     47.0091.8100.0002.0003.6b5e.30cd.0000.0101.1801.00

     1:2.2:4     47.0091.8100.0002.0003.6b5e.30cd.0000.0101.1804.00

     6:1.1:1     47.0091.8100.0002.0003.6b5e.30cd.0000.0106.1801.00

     6:1.2:2     47.0091.8100.0002.0003.6b5e.30cd.0000.0106.1802.00

     7.34:34     47.0091.8100.0002.0003.6b5e.30cd.0000.0107.3b22.00

     5:1.1:1     47.0091.8100.0002.0003.6b5e.30cd.0000.0105.1801.00

M8850_NY.7.PXM.a > dspspvcprfx

SPVC Node Prefix: 47.00918100000200036b5e30cd

M8850_NY.7.PXM.a >

Display the SPVC address first on port 1:1.1:1 then on port 1:1.4:4.

p2spvc5.7.PXM.a > dspspvcaddr 1:1.1:1 

Interface Id      Soft VC Address(es)

------------      -------------------

     1:1.1:1     47.0091.8100.0000.0010.7be9.2f6d.0000.0101.1801.00

p2spvc5.7.PXM.a > dspspvcaddr 1:1.4:4

Interface Id      Soft VC Address(es)

------------      -------------------

     1:1.4:4     47.0091.8100.0000.0010.7be9.2f6d.0000.0101.1804.00

dspspvcres

Display SPVC Reserve—PXM45, PXM1E

The dspspvcres command displays the number of logical connection numbers on the switch that are reserved for SPVCs or SPVPs. The cnfspvcres command lets you reserve the number of connections. The maximum number of reserved connections cannot exceed the maximum number of logical connections on the switch. The remainder of logical connection numbers goes to SVCs or SVPs.

Syntax

dspspvcres

Syntax Description

This command takes no parameters.

Related Commands

cnfspvcres

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Example

Display the current number of connections reserved for SPVCs. The reserved amount is the default number of 0.

PhattyEmre.2.PXM.a > dspspvcres

reserved terminating spvc number is 0 

PhattyEmre.2.PXM.a >

dspspvcprfx

Display SPVC Prefix—PXM45, PXM1E

The dspspvcprfx command displays the prefix for the switch-level SPVC address. The switch comes with a default SPVC prefix, and you can modify the prefix by executing cnfspvcprfx. See description of cnfspvcprfx for more details.

Syntax

dspspvcprfx

Syntax Description

This command takes no parameters.

Related Commands

cnfspvcprfx, dspspvcaddr

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

MGX8850.7.PXM.a > dspspvcprfx

SPVC Node Prefix: 47.00918100000100001a531c2a

dspsrmclksrc

Display SRM Clock Source—PXM45, PXM1E

The dspsrmclksrc command shows the clock source for a particular line on a Service Resource Module (SRME or SRM-3T3).

---

Note In the current release, the PXM45 does not support this command.

---

Syntax

dspsrmclksrc <-lineType> <logicalslot>.<line>

Syntax Description

-lineType	The line type depends on the type of SRM: •For SRM-3T3, type -ds3. •For SRME, type -sonet.
logicalslot	The logical slot applies to either physical slot: for example, if the only SRM resides in slot 16, you type its logical equivalent: 15. Also, the logical slot depends on the chassis: •In an MGX 8850 chassis, the logical slot is either 15 or 31. •In an MGX 8830 chassis, the logical slot is 7.
line	The line depends on the type of SRM, as follows: •On an SRME line is 1. •On an SRM-3T3, line has a range of 1-3.

Related Commands

cnfsrmclksrc

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display the clock source for the SRME in slot 31. In this case, the clock comes from the backplane.

Unknown.7.PXM.a > dspsrmclksrc -sonet 31.1

  LineNum:               31.1

   LineXmtClockSource:    localTiming

dspsrmcnf

Display SRM Configuration—PXM45, PXM1E

The dspsrmcnf command shows which types of Service Resource Modules (SRM-3T3/Cs or SRMEs) reside in the switch. The display also shows the previous SRM configuration for the slot. This information pertains to the capability of the clrsrmcnf command to clear the SRM configuration for a particular slot.

---

Note In the current release, the PXM45 does not support this command.

---

Syntax

dspsrmcnf

Syntax Description

This command takes no parameters.

Related Commands

dspcds, dspcd

Attributes

Log: yes

State: active

Privilege: ANYUSER

Example

Display the current and previous configuration of the SRM slots. No SRMs have resided in the upper bay since the last time the switch configuration was cleared.

Unknown.7.PXM.a > dspsrmcnf

Slot-No     CardType        Prev-CardType

-----------------------------------------

   15       NO-CARD            NO-CARD   

   16       NO-CARD            NO-CARD   

   31       SRME-OC3           SRME-OC3  

   32       SRME-OC3           SRME-OC3

dspsscop

Display SSCOP—PXM45, PXM1E

The dspsscop command displays information about the state of the link on the port, status inquiry and response timers, and statistics.

Syntax

dspsscop <portid>

Syntax Description

portid

The format of the PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

cnfsscop, disablesscop, dspsscopstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

SanJose.7.PXM.a > dspsscop 4:1.1:11

SSCOP details for interface: 4:1.1:11

   Current State = enabled, Current Link State = Established State,

SSCOP version = 3.1

   Send Sequence Number: Current = 153,  Maximum = 183

   Send Sequence Number Acked = 153

   Rcv Sequence Number: Lower Edge = 155, Upper Edge = 155, Max = 185

   Poll Sequence Number = 427, Poll Ack Sequence Number = 427

   Vt(Pd) = 0   Vt(Sq) = 1

   Timer_IDLE = 10 - Active

   Timer_CC = 1 - Inactive

   Timer_POLL = 1 - Inactive

   Timer_KEEPALIVE = 5 - Inactive

   Timer_NO-RESPONSE = 30 - Inactive

   Timer_T309 = 10 - Inactive

   Max CC = 10

   Send Window = 30

   Recv Window = 30

   Current Retry Count = 33932, Maximum Retry Count = 10

   AckQ count = 0, RcvQ count = 0, TxQ count = 0

   AckQ HWM = 1,  RcvQ HWM = 0, TxQ HWM = 1

      Statistics -

      Pdu's Sent = 1011, Pdu's Received = 1004, Pdu's Ignored = 0

      Begin = 1/4, Begin Ack = 0/1, Begin Reject = 0/0

      End = 0/0, End Ack = 0/0

      Resync = 0/0, Resync Ack = 0/0

      Sequenced Data = 155/153, Sequenced Poll Data = 0/0

      Poll = 426/427, Stat = 422/426, Unsolicited Stat = 0/0

      Unassured Data = 0/0, Mgmt Data = 0/0, Unknown Pdu's = 0

      Lack of credit = 0

SanJose.7.PXM.a >

dspsscopstats

Display SSCOP Statistics—PXM45, PXM1E

Displays SSCOP statistics for the port.

Syntax

dspsscopstats <portid>

Syntax Description

portid

The format of the PNNI physical port identifier can vary, as follows: •On a PXM45: slot:subslot.port:subport •On a PXM1E for UNI/NNI back card: slot:subslot.port:subport. On the UNI/NNI back card, the subslot is always 2, but the slot depends on the chassis, as follows: –In an MGX 8850 chassis, slot is always the logical slot 7. –In an MGX 8830 chassis, slot is always the logical slot 1. •On a PXM1E for a narrowband service module (NBSM): slot.port. For more details, see the section, "PNNI Format," in "Introduction."

Related Commands

cnfsscop, disablesscop, dspsscop

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

SanJose.7.PXM.a > dspsscopstats 4:1.1:11

SSCOP Statistics for interface: 4:1.1:11

      Pdu's Sent = 1045, Pdu's Received = 1037, Pdu's Ignored = 0

      Begin = 1/4, Begin Ack = 0/1, Begin Reject = 0/0

      End = 0/0, End Ack = 0/0

      Resync = 0/0, Resync Ack = 0/0

      Sequenced Data = 160/158, Sequenced Poll Data = 0/0

      Poll = 440/442, Stat = 436/440, Unsolicited Stat = 0/0

      Unassured Data = 0/0, Mgmt Data = 0/0, Unknown Pdu's =

 0

      Lack of credit = 0

SanJose.7.PXM.a > 

dspstatsmgr

Display Statistics Manager—PXM45, PXM1E

The dspstatsmgr command displays the IP address of each statistics manager. The configuration consists of the IP address of the workstation and an index that indicates the place of statistics managers in the hierarchy of managers. See the cnfstatsmgr description for details regarding this configuration.

Syntax

dspstatsmgr

Syntax Description

This command takes no parameters.

Related Commands

cnfstatsmgr

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display the current configuration of statistics managers.

pswpop3-2.7.PXM.a > dspstatsmgr

 Statistics Manager     IP Address

 ------------------     ----------

 Primary                0.0.0.0 

 Secondary              0.0.0.0 

 Tertiary               0.0.0.0 

 Statistics Master      0.0.0.0

dspsvcif

Display SVC Interface—PXM45. PXM1E

The dspsvcif command displays the SVC interface configuration done with the svcifconfig command. See the description of the svcifconfig command for applicable information.

The default is all SVC interfaces. You can also identify a particular interface.

Syntax

dspsvcif [interface]

Syntax Description

interface

The option lets you specify a particular interface. Enter each character in the case sensitive list: •lnPci0 for Ethernet (the default on power-up) •atm0 for the ATM. •sl0 for SLIP

Related Commands

svcifconfig, dspipif

Attributes

Log: no

State: active, standby, init

Privilege: ANYUSER

dspsvcparm

Display SVC Parameters—PXM45, PXM1E

The dspsvcparm command displays the global SVC configuration for the conversion E164 address justification. You can change the default justification by using the cnfe164justify command.

Syntax

dspsvcparm

Syntax Description

This command takes no parameters.

Related Commands

cnfe164justify

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Configure right-hand justification for the E.164 AESAs then check the result.

Geneva.7.PXM.a > cnfe164justify right 

Geneva.7.PXM.a > dspsvcparm

Global SVC parameters

============================

E164 Address Conversion Justification : right

Geneva.7.PXM.a >

dspstbyclksrcs

Display Standby Clock Sources—PXM45, PXM1E

The dspstbyclksrcs command lets you display the clock sources on the standby PXM. It displays the manually configured clock sources but not the NCDP sources. This command is visible on a standby PXM only. For a description of the fields in the display, refer to the dspclksrcs description.

Syntax

dspstbyclksrcs

Syntax Description

This command takes no parameters.

Related Commands

cnfclksrc, dspclksrcs

Attributes

Log: no log

State: standby

Privilege: ANYUSER

Example

After making sure you have logged into the standby PXM45, display the standby card's clock sources.

M8850_NY.8.PXM.s > dspstbyclksrcs

Primary clock type:         external clock bits0

Primary clock configured:   yes

Primary clock status:       no clock signal

Secondary clock type:       generic clock

Secondary clock configured: yes

Secondary clock status:     locked

Active clock:               secondary clock

source switchover mode:     revertive

M8850_NY.8.PXM.s >

dspsvcoverride

Display SVC Override—PXM45, PXM1E

The dspsvcoverride command displays the node-level SVC override configuration. See the cnfsvcoverride description for details on SVC override.

Syntax

dspsvcoverride

Syntax Description

No parameters

Related Commands

cnfsvcoverride

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current configuration for SVC override.

PXM1E_SJ.7.PXM.a > dspsvcoverride

spvcoverridesvc: Enabled

spvcoverridesvp: Disabled

spvpoverridesvp: Disabled

dspswalms

Display Switching Alarms—PXM45

The dspswalms command helps you isolate the cause of switch fabric alarms. The display shows whether the alarm severity is critical, major, or minor. It also lists information by slot and by alarm type. (See Example section.)

The three alarm types are:

•XBAR CORE indicates whether the errors on the links on the fabric crossed the alarm thresholds.

•XBAR PORT indicates whether the errors on the crossbar ports (Humvee or any equivalent) on a service module crossed the alarm thresholds.

•XBAR SLOT BANDWIDTH alarm is raised based on the number of crossbar links that are up for a service module.

---

Note Currently, XBAR PORT and XBAR SLOT BANDWIDTH are not implemented.

---

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 so 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 a sufficient accumulation of lower-level alarms results in a higher-severity alarm.

Usage Guidelines for dspswalms

After determining the error type and the related slot, you can use the crossbar troubleshooting commands to isolate the problem further.

The following is a top-down sequence of alarm-related commands that lead to isolating possible faults in the switch fabric:

1. dspndalms indicates the general region of the problem and can indicate the switching fabric.

2. dspswalms shows the error type, alarm severity, and related slot.

3. dspdevalms shows a recent crossbar error list by physical slot or by switching slot.

4. dspdeverrhist shows total crossbar error history since the last power-up or card reset by physical slot or by switching slot.

An alarm can originate in any of the following:

•The backplane or any other part of signal path that connects a service module with a switch ASIC

•Crossbar ASIC on the PXM45 or XM60

•Buffer circuitry on the module serviced by the switch planes

The dspswalms display shows how many errors have occurred and generally where the errors have occurred. For purposes of troubleshooting the switch, you can decide which card to replace by using the dspdeverr, dspdevalms, dspxbarplanealms, and dspxbarslotbwalms commands. These commands can help you isolate the problem to a particular switch ASIC, the receiving card, or the link between them. (The hardware path between the switch card and the recipient card's bus transceiver is called a link.) The crossbar troubleshooting commands can be either plane-centric or slot-centric. Plane-centric is from the switch ASICs outwards. Slot-centric is from a slot toward a switch ASIC. The reference point in relation to card slots is important for fault isolation.

Syntax

dspswalms

Syntax Description

This command takes no parameters.

Related Commands

dspndalms, dspdeverr, dspdeverrhist, dspdevalms

Attributes

Log: no

State: active

Privilege: ANYUSER

Examples

Display switching alarms. Where no card resides, the display shows dashes. No errors have occurred.

M8850_NY.7.PXM.a > dspswalms

             XBAR SWITCHING FABRIC ALARMS SUMMARY

            Xbar Core Alarm         Xbar Port Alarm     Xbar Slot B/W alarm

Slot No.  Critical Major Minor   Critical Major Minor  Critical Major Minor

-------   -------- ----- -----   -------- ----- -----  -------- ----- -----

  01           0      0     0        0      0     0        0      0     0

  02           0      0     0        0      0     0        0      0     0

  03           0      0     0        0      0     0        0      0     0

  04          --     --    --       --     --    --       --     --    --

  05           0      0     0        0      0     0        0      0     0

  06           0      0     0        0      0     0        0      0     0

  07           0      0     0        0      0     0        0      0     0

  08           0      0     0        0      0     0        0      0     0

  09          --     --    --       --     --    --       --     --    --

  10          --     --    --       --     --    --       --     --    --

  11          --     --    --       --     --    --       --     --    --

  12          --     --    --       --     --    --       --     --    --

  13          --     --    --       --     --    --       --     --    --

  14          --     --    --       --     --    --       --     --    --

M8850_NY.7.PXM.a >

dsptech

Display Key Data—PXM45, PXM1E

The dsptech command displays a snapshot of key nodal and controller-card information for you to use in low-level troubleshooting. The purpose of this command is to enhance the existing fault detection and isolation mechanisms. These enhancements are aimed at improving the Reliability, Availability, and Serviceability (RAS) of the Cisco MGX 8850 (Release 3), MGX 8950, and MGX 8830 switches.

Definitions for individual fields in the dsptech output appear in Table 2-14. In general, the displayed information consists of the following categories:

•The current runtime firmware version for all the slots

•Network configuration summary

•PNNI port, connection, and trunk counts

•Node alarm summary

•Clock alarm summary

•Switching alarm summary

•Environmental alarm summary

•Resource information that includes, CPU, memory and inter-process communication (IPC) buffer utilization for the active controller card

•PNNI routing and protocol counts

Related Commands

dspcds, dsprevs, dspcdalms, dspndalms, dspprfhist, dspmem, dsppnports, dspconinfo, dsppnni-link, dspcons

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Field Descriptions

The definition for each field in the dsptech output appears in Table 2-14. Note that the field names marked with an asterisk (*) mean the information comes from the active PXM.

---

Note A significant number of fields have multiple data portions. In the screen output and in a Table 2-14, these items are separated by a slash.

---

Table 2-14 Description of Fields in the dsptech Output 

Field Name	Description
SYSNAME	32-character node name followed by the date and time.
NWCFG*	Network configuration summary.
PNDS*	Total number of PNNI nodes available / number of PNNI levels.
ND CFG	Node configuration summary.
MPG*	Multi-Peer Group. The standards-based protocol supports up to 160 levels / names, but the current product supports a maximum of 10 levels.
CON	Number of master connections / number of slave connections.
CONTOT	Total number of connections provisioned / total number of connections supported.
PORT	Number of ports.
PNLINK*	The first PNLINK field (near top) shows the number of PNNI links (trunks). This count includes only the lowest level, physical links. It does not include logical links.
Front card and revision	Front card name and current runtime firmware revision appears for all slots. Note that for single-height cards, only the upper-bay slot number and card type appear. The slot numbers are reduced for a Cisco MGX 8950 or MGX8830 chassis.
NDALM	Node alarm summary.
ND	Highest alarm on the node: critical, major, minor, none.
CON	Number of failed connections.
PNLINK*	The second PNLINK field has two parts—"fl" and "2wo." The "fl" portion is the number of PNNI links that are failed, which includes the following states: down, "attempt," 1-way inside, or 1-way outside for the Hello state machine. The "2wo" portion is the number of PNNI links that are in one of the following states: 2-way outside; or Hellos have been received from the neighbor, but a common peer group containing the neighbor and this node has not been found; and common outside and 2-way inside are operational states of the hello protocol and hence are not a node alarm for a PNNI link.
PORT	Number of ports in "interface (IF) down status (failed).
CARD	The CARD field consists of the following data: number of cards in critical alarm / number of cards in major alarm / number of cards in minor alarm / number of cards with unknown alarm status / number of slots without front cards.
CLK	Number of critical clock alarms / number of major clock alarms / number of minor clock alarms
SWT	Number of critical switching alarms / number of major switching alarms / number of minor switching alarms
ENV	Number of critical environment alarms / number of major environment alarms / number of minor environment alarms
ND PRF	Node performance summary based on the previous 1 bucket (20 seconds / bucket) of CPU utilization data.
IDLE	% of processor throughput that processor was idle
INT	% of processor throughput used processing interrupts
KRL	% of processor throughput used by the RTOS kernel
UKN	% of processor throughput used by unknown source
TNAME1	% of processor throughput used by highest utilization task
TNAME2	% of processor throughput used by second highest utilization task
STATIC	Number of bytes available in STATIC memory partition / number of failed allocations, failed allocations cap at 9999.
DYN	Number of bytes available in DYNAMIC memory partition / number of failed allocations, failed allocations cap at 9999.
STATS	Number of bytes available in STATISTICS memory partition/ number of failed allocations, failed allocations cap at 9999.
SNMP	Number of bytes available in SNMP memory partition / number of failed allocations, failed allocations cap at 9999.
MBLK	Total number of IPC-Mblks / number of IPC-Mblks available/ number of failed allocations, failed allocations cap at 9999.
B360	Total number of IPC 360-byte data buffers / number of IPC 360-byte data buffers available / number of failed allocations, failed allocations cap at 9999.
B1K	Total number of IPC 1128-byte data buffers / number of IPC 1128-byte data buffers available/ number of failed allocations, failed allocations cap at 9999.
B4K	Total number of IPC 4200-byte data buffers / number of IPC 4200-byte data buffers available/ number of failed allocations, failed allocations cap at 9999.
B8K	Total number of IPC 8552-byte data buffers / number of IPC 8552-byte data buffers available / number of failed allocations, failed allocations cap at 9999.
DCO*	pnniDtlCountOriginator: The total number of DTL stacks that this switching system has originated as the DTL Originator and placed into signaling messages. This number includes the initial DTL stacks computed by this system as well as any alternate route (second or third choice, and so on) DTL stacks computed by this switching system in response to crankbacks.
DCB*	pnniDtlCountBorder: The number of partial DTL stacks that this switching system has added into signalling messages as an entry border node. This includes the initial partial DTL stacks computed by this system as well as any alternate route (second, third choice etc.) partial DTL stacks computed by this switching system in response to crankbacks.
CCO*	pnniCrankbackCountOriginator: This field shows the total number of connection setup messages (including DTL stacks originated by this switching system) that have cranked back to this switching system at all levels of the hierarchy.
CCB*	pnniCrankbackCountBorder: This field shows the total number of connection setup messages (including DTLs added by this switching system) as an entry border node that have cranked back to this switching system at all levels of the hierarchy. This count does not include Crankbacks for which this switching system was not the crankback destination. Instead, only those crankbacks that were directed to this switching system are counted.
ARCO*	pnniAltRouteCountOriginator: This field shows the total number of alternate DTL stacks that this switching system has computed and placed into signalling messages as the DTL Originator.
ARCB*	pnniAltRouteCountBorder: This field shows the total number of alternate partial DTL stacks that this switching system has computed and placed into signalling messages as an entry border node.
RFCO*	pnniRouteFailCountOriginator: This field shows the total number of times where the switching system failed to compute a viable DTL stack as the DTL Originator for some call. It indicates the number of times a call was cleared from this switching system due to originator routing failure.
RFCB*	pnniRouteFailCountBorder: This field shows the total number of times where the switching system failed to compute a viable partial DTL stack as an entry border node for some call. It indicates the number of times a call was either cleared or cranked back from this switching system due to border routing failure.
RFUO*	pnniRouteFailUnreachableOriginator: This field shows the total number of times where the switching system failed to compute a viable DTL stack as the DTL Originator because the destination was unreachable, i.e., those calls that are cleared with cause #2 `specified transit network unreachable' or cause #3 `destination unreachable' in the cause IE.
RFUB*	pnniRouteFailUnreachableBorder: This field shows the total number of times the switching system has failed to compute a viable, partial DTL stack as an entry border node because the target of the path calculation was unreachable. These calls were cleared or cranked back and show cause #2, "specified transit network unreachable," or cause #3, "destination unreachable" in the cause IE.

Example

Display the key information for the current switch.

Wolverine.8.PXM.a > dsptech 

SYSNAME: Wolverine                                 Sep. 20, 2002 14:40:54 GMT 

NW CFG: PNDS(tot/lvls): 00000001/00000002 

ND CFG: CON(mas/slv)  : 00000007/00000003 

    CONTOT: 00000010/00050000 PORT: 00000004 PNLINK: 00000002 

MPG   : 

    056/Wolverine                           032/Wolverine-02 

01/17 ---                ---                 ---                --- 

02/18 ---                ---                 ---                --- 

03/19 ---                ---                 ---                --- 

04/20 ---                ---                 ---                --- 

05/21 ---                ---                 ---                --- 

06    AXSM_16OC3         3.0(10.176)A 

07    PXM45              3.0(11.0)D 

08    PXM45              3.0(11.0)D 

09    AXSM_1OC48         3.0(10.176)A 

10/26 ---                ---                 ---                --- 

11/27 ---                ---                 ---                --- 

12/28 ---                ---                 ---                --- 

13/29 ---                ---                 ---                --- 

14/30 ---                ---                 ---                --- 

15/31 SRM_3T3            ---                 ---                --- 

16/32 ---                ---                 ---                --- 

ND ALM: ND: CRITICAL CON(fl): 00000006 PNLINK(fl/2wo): 000002/000000 

    PORT(ifdwn): 00000000  CARD(ct/mj/mn/ms): 00/01/00/23 

    CLK(ct/mj/mn): 000000/000000/000000  SWT(ct/mj/mn): 000002/000001/000000 

    ENV(ct/mj/mn): 000000/000002/000000 

ND PRF: IDLE: 98 INT: 00 KRL: 00 UKN: 00 

    TNAME1: 01/tChunkMon        TNAME2: 00/

    DYN : 06822880/0000 STATIC: 15080080/0000 STATS: 00000000/0000 

    SNMP: 03975664/0000 

    MBLK: 00009225/00009224/0000 B360: 00006000/00006000/0000 

    B1K : 00002000/00002000/0000 B4K : 00000600/00000600/0000 

    B8K : 00000125/00000124/0000 

    DCO : 0000000001 DCB : 0000000000 CCO : 0000000000 CCB : 0000000000 

    ARCO: 0000000000 ARCB: 0000000000 RFCO: 0000007362 RFCB: 0000000000 

    RFUO: 0000001757 RFUB: 0000000000 

Wolverine.8.PXM.a >

dsptopofdrlist

Display Topology Feeder List—PXM45, PXM1E

The dsptopofdrlist command displays the topology database for feeder.

Syntax

dsptopofdrlist [-topoIndex topoIndex | -fdrIndex fdrIndex]

Syntax Description

If you enter the dsptopofdrlist command with no arguments, all the feeder entries are displayed.

-topoIndex	You can specify a single node index in the topology table to display the feeders associated with that index.
-fdrIndex	You can specify a single feeder index to display that particular feeder entry.

Related Commands

cnftopogw, deltopond, dsptopogw, dsptopogwndlist, dsptopondlist

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display all existing topology feeder database indexes.

p2spvc4.8.PXM.a > dsptopofdrlist

Index  feeder name   type       model #  lmi type  shelf  slot  port

------ ------------  --------   ------   -------   ----   ----  ----

  1     pswpop9      fdrPAR     8850     feeder    1       14   7

Node Topo Index:1

Node Name:p2spvc4

Node ID:56:160:47.00918100000000001a531c77.00001a531c77.01

Local IfIndex:17700872

Local IfName:atmVirtual.14.1.8.08

Index  feeder name   type       model #  lmi type  shelf  slot  port

------ ------------  --------   ------   -------   ----   ----  ----

  2     pswpop10     fdrPAR     8850     feeder    1       14   10 

Node Topo Index:2

Node Name:p2spvc3

Node ID:56:160:47.00918100000000001a531c75.00001a531c75.01

Local IfIndex:17700873

Local IfName:atmVirtual.14.1.4.04

Display the feeder topology database for node index 1.

p2spvc4.8.PXM.a > dsptopofdrlist -topoIndex 1

Index  feeder name   type       model #  lmi type  shelf  slot  port

------ ------------  --------   ------   -------   ----   ----  ----

  1     pswpop9      fdrPAR     8850     feeder    1       14   7

Node Topo Index:1

Node Name:p2spvc4

Node ID:56:160:47.00918100000000001a531c77.00001a531c77.01

Local IfIndex:17700872

Local IfName:atmVirtual.14.1.8.08

Display the topology database for feeder index 2.

p2spvc4.8.PXM.a > dsptopofdrlist -fdrIndex 2

Index  feeder name   type       model #  lmi type  shelf  slot  port

------ ------------  --------   ------   -------   ----   ----  ----

  1     pswpop9      fdrPAR     8850     feeder    1       14   7

Node Topo Index:2

Node Name:p2spvc3

Node ID:56:160:47.00918100000000001a531c75.00001a531c75.01

Local IfIndex:17700873

Local IfName:atmVirtual.14.1.8.08

dsptopogw

Display Topology Gateway—PXM45, PXM1E

The dsptopogw command lets you see the current administrative and operational states of the node as a gateway for the persistent topology database feature. If the current switch has not been configured as a gateway for this feature, the status is Disabled/Disabled. See the description of the cnftopogw command for details on the operations you can perform for the persistent topology feature.

The valid administrative and operational states appear in Table 2-15. For two combinations of gateway states, you should not attempt changes to the database through either the CLI or CWM. These two combinations are Enabled/Enabling and Disabled/Disabling. For these combinations, the word "no" appears in the CWM Access column.

Table 2-15 Valid Gateway States for Persistent Topology Database

Administrative State	Operational State	CWM Access
Enabled	Enabled	All
Enabled	Enabling	No
Enabled	Full	All
Disabled	Disabling	No
Disabled	Disabled	can Enable

Syntax

dsptopogw

Syntax Description

No parameters

Related Commands

cnftopogw, deltopond, dsptopond, dsptopgwndlist

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the administrative and operational status of the current switch as a gateway node. The output shows that a user either ran the cnftopogw command to enable this switch or enabled it through CWM.

M8850_LA.8.PXM.a > dsptopogw

Admin State :    ENABLED Operational State    ENABLED

M8850_LA.8.PXM.a >

dsptopogwndlist

Display Topology Gateway Node List—PXM45, PXM1E

The dsptopogwndlist command displays the nodes that function as gateway nodes for the persistent topology database feature. For details of the CLI support of the persistent topology feature, see the description of the cnftopogw command.

Syntax

dsptopogwndlist

Syntax Description

No parameters.

Related Commands

cnftopogw, deltopond, dsptopogwndlist, dsptopogw

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the list of nodes that are gateways for the persistent topology database.

M8850_LA.8.PXM.a > dsptopogwndlist

table index:   1  node name: M8850_LA

node id:56:160:47.00918100000100001a531c2a.00001a531c2a.01

M8850_LA.8.PXM.a > 

dsptopondlist

Display Persistent Topology Node List—PXM45, PXM1E

The dsptopondlist command displays the nodes in the persistent topology database.

Syntax

dsptopondlist [topoIndex]

Syntax Description

topoIndex

You can specify a single topology node index.

Related Commands

cnftopogw, deltopond, dsptopogw, dsptopogwndlist

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display information for topology index 1. The output shows that a total of 11 entries exits in the table but displays information for only the requested entry.

p2spvc14.7.PXM.a > dsptopondlist 1

Number of Entries = 11

Table Index: 1  Node Name: p2spvc14

Node ID: 56:160:47.02918100000000001a531c05.00001a531c05.01

Primary IP: 10.1.1.5

Primary IP Type: atm0

Secondary IP: 172.29.6.120

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.228

Gateway Mode DISABLED

PTSE in DB: YES

p2spvc14.7.PXM.a > 

Display all entries in the persistent topology node list. The list of 11 is truncated.

p2spvc14.7.PXM.a > dsptopondlist

Number of Entries = 11

Table Index: 1  Node Name: p2spvc14

Node ID: 56:160:47.02918100000000001a531c05.00001a531c05.01

Primary IP: 10.1.1.5

Primary IP Type: atm0

Secondary IP: 172.29.6.120

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.228

Gateway Mode DISABLED

PTSE in DB: YES

Table Index: 2  Node Name: pswpop9

Node ID: 56:160:47.00918100000000c043002ddf.00c043002ddf.01

Primary IP: 192.0.0.0

Primary IP Type: atm0

Secondary IP: 172.29.54.41

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.242

Gateway Mode DISABLED

PTSE in DB: NO

Table Index: 3  Node Name: p2spvc7

Node ID: 56:160:47.0091810000000004c113ba39.0004c113ba39.01

Primary IP: 0.0.0.0

Primary IP Type: None

Secondary IP: 172.29.6.75

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.228

Gateway Mode DISABLED

PTSE in DB: NO

Table Index: 4  Node Name: pnnises3

Node ID: 56:160:47.009181000000003071f81b63.003071f81b63.01

Primary IP: 192.0.0.0

Primary IP Type: atm0

Secondary IP: 172.29.29.72

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.242

Gateway Mode DISABLED

PTSE in DB: NO

Table Index: 5  Node Name: svcswp15

Node ID: 56:160:47.00918100000000c043002dcc.00c043002dcc.01

Primary IP: 192.0.0.0

Primary IP Type: atm0

Secondary IP: 172.29.27.90

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.242

Gateway Mode DISABLED

PTSE in DB: NO

Table Index: 6  Node Name: pnnises4

Node ID: 56:160:47.009181000000003071f80090.003071f80090.01

Primary IP: 192.0.0.0

Primary IP Type: atm0

Secondary IP: 172.29.29.73

Secondary IP Type: lnPci0

SysObjId: 1.3.6.1.4.1.9.1.242

Gateway Mode DISABLED

PTSE in DB: NO

Table Index: 7  Node Name: svcswp13

Node ID: 56:160:47.00918100000000d058ac28e9.00d058ac28e9.01

Primary IP: 192.0.0.0

Primary IP Type: atm0

Secondary IP: 0.0.0.0

Secondary IP Type: None

SysObjId: 1.3.6.1.4.1.9.1.242

Gateway Mode DISABLED

PTSE in DB: NO

Table Index: 8  Node Name: pswpop2-1

Node ID: 56:160:47.00918100000000001a531c43.00001a531c43.01

Primary IP: 0.0.0.0

Primary IP Type: None

Secondary IP: 0.0.0.0

Secondary IP Type: None

SysObjId: 1.3.6.1.4.1.9.1.228

Gateway Mode DISABLED

PTSE in DB: NO

0

dsptrapip

Display Trap IP—PXM45, PXM1E

The dsptrapip command displays the switch trap IP address. The switch must have a trap IP assigned by the cnftrapip command.

Syntax

dsptrapip

Syntax Description

This command takes no parameters.

Related Commands

cnftrapip, dsptrapmgr, addtrapmgr, deltrapmgr

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Assign and confirm a trap IP address.

SanJose.7.PXM > cnftrapip 172.27.27.184

SanJose.7.PXM > dsptrapip

Trap IP Address :172.27.27.184

SanJose.7.PXM > 

dsptrapmgr

Display Trap Manager—PXM45, PXM1E

Display details about all existing trap managers. The dsptrapmgr output shows:

•IP address of each trap manager

•Port number on the connected work station

•Row status

•Read trap flag stats

•Next trap sequence number

Of these elements, the IP address and port number result from addtrapmgr.

Syntax

dsptrapmgr

Syntax Description

This command takes no parameters.

Related Commands

addtrapmgr, deltrapmgr

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display trap managers.

node19.8.PXM.a > dsptrapmgr

     ipAddress     PortNum  RowStatus   ReadTrapFlag  NextTrapSeqNum

  ---------------  -------  ----------  ------------  --------------

  171.71.55.21      2500       Add           Off       0

  172.29.65.87      2500       Add           Off       348

  172.71.59.21      2500       Add           Off       0

  LastTrapSeqNum:     385

  NumOfValidEntries:  3

dsptrftolerance

Display Traffic Conformance Tolerance—PXM45, PXM1E

The dsptrftolerance command displays the configuration for the traffic conformance tolerance configured through the cnftrftolerance command. The tolerance is a percent in the range 0-5%. This tolerance applies to compliance with bandwidth requirements for SPVCs and SPVPs. See also the cnftrftolerance description.

Syntax

dsptrftolerance

Syntax Description

This command takes no parameters.

Related Commands

cnftrftolerance

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current TRF tolerance. The tolerance is the default 5%.

Corvette.1.PXM.a > dsptrftolerance

Trf Tolerance for SPVCs: 5

dspuplinkbert

Display Uplink Bit Error Rate Test—PXM1E

The dspuplinkbert command displays the configuration and current status for BERT on a line on the PXM1E UNI/NNI back card.

Syntax

dspuplinkbert <bay.line>

Syntax Description

bay.line

The required parameter identifies the bay and line that is under test. The possible values are as follows: •bay: always 2 on the PXM1E •line: 1-16 maximum but depends on the number of lines supported by the back card

Related Commands

cnfuplinkbert, dspuplinkbertstats, startuplinkbert, stopuplinkbert

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the state of the BERT on 2.1.

PXM1E-IMA-227.7.PXM.a > dspuplinkbert 2.1

Line                : 2.1

BERT Admin Status   : Down

Operational Status  : OutOfSync

BERT Pattern        : TwoE3MinusOne

Error Insertion Rate: NoError

Tx Pattern Invert   : NotInverted

Rx Pattern Invert   : NotInverted

Start Date          : 

dspuplinkbertstats

Display Uplink BERT Statistics—PXM1E

The dspuplinkbertstats command shows BERT statistics for a line on the PXM1E UNI/NNI back card.

Syntax

dspuplinkbertstats <bay.line>

Syntax Description

bay.line

The required parameter identifies the bay and line that is under test. The possible values are as follows: •bay: always 2 on the PXM1E •line: 1-16 maximum but depends on the number of lines supported by the back card

Related Commands

cnfuplinkbert, dspuplinkbert, startuplinkbert, stopuplinkbert

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the statistics for BERT on 2.1.

PXM1E-IMA-227.7.PXM.a > dspuplinkbertstats 2.1

    Bert   Bits        Bit Errors   Single Bit 

    Line   Received    Received     Errors Injected

    ----   ----------  ----------   ---------------

     2.1            0           0                 0 

PXM1E-IMA-227.7.PXM.a > 

dspusers

Display Users—PXM45, PXM1E

Displays all current users and their access levels if the keyword -u is not given. If the key word -u is specified, it displays the user ID and access level of that user only.

Syntax

dspusers [-u <userID>]

Syntax Description

-u	Keyword that specifies the user (userId) to display.

Related Commands

adduser, deluser, cnfuser

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Show all configured users.

raviraj.7.PXM.a > dspusers

UserId        AccessLevel

-------------------------

cisco         CISCO_GP

service       SERVICE_GP

superuser     SUPER_GP

Show access level for a specified user. The user ID is "raoul."

raviraj.7.PXM.a > dspusers -u raoul

UserId        AccessLevel

-------------------------

raoul	 SUPER_GP

dspversion

Display Version—PXM45, PXM1E

Show details for the versions of boot and runtime firmware residing on a card. Typically, you would use dspversion in conjunction with the commands for changing a card's firmware version. (See Related Commands section.) For example, you can use dspversion to see if a particular firmware version is currently running.

Version Numbering Conventions

This section describes how to interpret the version number of a firmware image. Commands such as loadrev and setrev require a version number rather than a filename. Similarly, dspversion shows the firmware version number rather than the firmware filename. Although the version number derives from the firmware filename, they are distinctly different.

Firmware Filenames

The FW directory on the hard drive contains firmware files of possibly many revisions. (Each firmware file has the fw file extension.) The format of a firmware filename is:

cardtype_version-element[_platform].fw

Note that platform is an optional field because it applies to only the PXM45. For example, a firmware file may have the name "axsm_002.000.001.001.fw." Within this filename, the version-portion is 002.000.001.001. (Note the absence of "mgx.") This version-portion has the following format:

major-release.minor-release.maintenance.patch

Using the example of axsm_002.001.001.001.fw, the version is 2.1(1.1). Similarly, if no patch were present, the version number would be 2.1(1).

The range for each release, maintenance, and patch is 0-255. Note that, as you read left-to-right, each element is a superset of the element on the right, and the number on the right resets to 0 or 1 when the element on its left is incremented. For example, if the minor-release number 010 rolls to 011, the maintenance on its right is reset to 1, so the new version in the example is 002.011.001.000. (Note the anomaly here is that the maintenance number resets to 1 rather than 0 because of the IOS convention of starting maintenance numbers at 1.)

Version Numbers

To derive the firmware version number, the firmware filename is altered by removing insignificant zeroes and being reformatted to include parentheses. The format of a version number is:

major-release.minor-release(maintenance.patch)phase

For example, the significance of 2.1(60.8)P1 is shown below:

major-release	minor-release	(maintenance.patch)	phase
2.	1.	(6.0)	P1

Pre-release, developmental versions have one or two alphanumeric characters at the end of the version number, and these versions may appear in various contexts. For example, the help display for setrev gives examples of revision, but only the first two in the following list could be in released product. These two bullets show major release 2, minor release 1, and the minimal maintenance number of 1 (per the IOS precedent). The last three bullets show developmental revision numbers:

•2.1(1) (note the absence of a patch number)

•2.1(1.248) (note the patch number is 248)

•2.1(0.1)A1 (note the phase number is A1)

•2.1(0.10)D2 (note the phase number is D2)

•2.1(0.248)P1, 2.1(0.1)P2, 2.1(0.113)P3, 2.1(0.10)P4

Syntax

dspversion

Syntax Description

This command takes no parameters.

Related Commands

abortrev, commitrev, loadrev, runrev, setrev, dspcd

Attributes

Log: no

State: active, standby, init

Privilege: ANYUSER

Example

Display the firmware version for the current PXM1E.

Corvette.1.PXM.a > dspversion

  Image Type   Shelf Type    Card Type         Version   Built On 

  ----------   ----------   ----------    ------------   ------------ 

     Runtime          MGX        PXM1E      3.0(10.0)D   Jun 21 2002, 14:34:16 

        Boot          MGX        PXM1E      3.0(0.83)D   - 

dspxbar

Display Crossbar—PXM45

The dspxbar command displays general information about the configuration of a switch plane (or switching fabric or crossbar, also synonymous with switch ASIC).

The crossbar-related commands are special debug commands with infrequent use. The configuration normally has fixed, default values and is not configurable.

The low-level dspxbar command normally applies to software or hardware development and therefore is not useful for troubleshooting at the network or node level. To isolate a switching problem to determine whether to replace a card, use the crossbar troubleshooting commands: dspswalms, dspdeverr, dspdevalms, dspdeverr, dspdeverrhist, dspxbarerrthresh.

An engineer that needs to alter certain error thresholds for hardware or software development can use the cnfxbarerrthresh command.

Connectivity Between the Switching Fabric and Card Slots

Before attempting to interpret the contents of the dspxbar output, some perspective on the crossbar information is appropriate. The switch fabric consists of all the switch ASICs in total. This total includes the switch planes in use The connectivity between the cards and the switch fabric forms a mesh: each switch ASIC communicates with each card, and each card can use any ASIC.

If one switch ASIC becomes inoperative, the switching fabric continues to support new or existing connections within the switch, but the throughput falls far short of the maximum. Of less drastic effect would be a condition where one link can no longer carry data between an individual ASIC pin and a particular card slot.

The Contents of the dspxbar Output

Refer to the examples to see the location of each of the following fields. The general information that dspxbar displays is as follows:

•Selected ASIC number (default 0 is unspecified).

•Number of the slot where the crossbar ASIC resides (7 or 8 for an MGX 8850 node or 9, 10, 25, or 26 for an MGX 8950 node).

•Number of the ASIC (0-2 in an MGX 8850 node or 0-3 in an MGX 8950 node).

•Revision number of the ASIC.

•Status of the ASIC.The status is either failed or OK. If the status is failed, the other ASICs must carry the switching load, and the throughput of the switch falls below the maximum. In this case, Cisco Systems recommends you replace the card.

•The cell grant mode is always Multicast Preferred.

•The Resync Sframe Tic is the rising edge of the clock. Sframe refers to a switch frame. (A switch frame is a 60-byte cell that carries a 53-byte ATM cell plus a special header for internal fabric use between the switching fabric and the service module.

The crossbar configuration consists of four categories of information for each slot:

•The type of backpressure is always Inband (meaning ingress direction). A crossbar does not have buffers (as the AXSMs do) and therefore must send backpressure signals to the queuing chips on each AXSM if congestion begins to occur in the switching plane.

•The Disable Request field automatically indicates any requests to turn off a source or destination for the link between the ASIC and the service module. The hardware alone generates the disable request, so you cannot make a disable request as part of troubleshooting.

•The Disable Data field indicates whether data transfer has been turned off for source or destination. In the current product, the field for source and destination always is No.

•The Redundancy Configuration field shows the mode of redundancy used by the ASIC and whether redundancy configuration exists for a slot. The redundancy mode is always Remap. Remap means that the switching fabric automatically maps cell transfers to the correct slot if a switchover occurs in a redundant pair. Note that, if a switchover occurs, the logical slot number in the endpoint ID stays the same.

The Slot column for Redundancy Configuration shows whether card redundancy exists, as follows: if the slot number under Redundancy Configuration differs from the number in the Slot Number column (far left in the example screen), a card redundancy configuration exists for that slot pair.

---

Note From the number of fixed values in the preceding fields, you can see that very little can change in the crossbar configuration itself.

---

Syntax

dspxbar <plane>

dspxbar <xbarSlot> <plane> for XM60

Syntax Description

xbarSlot	The slot number of the XM60. Valid slot numbers are 9, 10, 25, and 26.
plane	The number of the switching plane. If you do not specify a plane, the system displays information for plane 0 as a default. In an MGX 8850 node, the range is 0-2. In an MGX 8950 node, the range is 0-3.

Related Commands

dspswalms, dspdevalms, dspdeverr, dspdeverrhist, dspxbarerrthresh, clrxbaralm, clrxbarerrcnt

Attributes

Log: no

State: active, standby, init

Privilege: ANYUSER

Example

Display switch ASIC (or switch plane or crossbar) 0.

M8850_NY.7.PXM.a > dspxbar 0

M8850_NY                         System Rev: 02.01   Dec. 17, 2001 23:00:48 PST

MGX8850                                              Node Alarm: MAJOR

                    PXM45 CROSSBAR CONFIGURATION

Crossbar Slot No:  7         Switch Asic No:  0    Status: OK

Cell Grant Mode: Multicast Pref         Resync Sframe Tic: Rising-Edge Detect

Asic Revision: 1

Slot  BACK PRESSURE    DISABLE REQUEST  DISABLE DATA   REDUNDANCY CONFIG

 No   Grant   Mode       Dest    Src      Dest   Src    Mode         Slot

----  -------------    ---------------  ------------   ------------------

  1   Valid   InBand      No    No        No    No     Remap           1

  2   Valid   InBand      No    No        No    No     Remap           2

  3   Valid   InBand      No    No        No    No     Remap           3

  4   Valid   InBand      No    No        No    No     Remap           4

  5   Valid   InBand      No    No        No    No     Remap           5

  6   Valid   InBand      No    No        No    No     Remap           6

  7   Valid   InBand      No    No        No    No     Remap           7

  8   Valid   InBand      No    No        No    No     Remap           8

  9   Valid   InBand      No    No        No    No     Remap           9

 10   Valid   InBand      No    No        No    No     Remap          10

 11   Valid   InBand      No    No        No    No     Remap          11

 12   Valid   InBand      No    No        No    No     Remap          12

 13   Valid   InBand      No    No        No    No     Remap          13

 14   Valid   InBand      No    No        No    No     Remap          14

Display switch ASIC 1 in slot 25. Note that the Redundancy Column reflects the PXM45 redundancy (with slot 7 mapping to slot 8 and slot 8 mapping to slot 7).

JBP2_Lower.8.PXM.a > dspxbar 25 1

JBP2_Lower                       System Rev: 02.01   Nov. 28, 2000 21:35:39 GMT

MGX8950 (JBP-2)                                      Node Alarm: MAJOR

                    PXM45 CROSSBAR CONFIGURATION

Crossbar Slot No: 25         Switch Asic No:  1    Status: OK

Cell Grant Mode: Multicast Pref         Resync Sframe Tic: Rising-Edge Detect

Asic Revision: 1

Slot  BACK PRESSURE    DISABLE REQUEST  DISABLE DATA   REDUNDANCY CONFIG

 No   Grant   Mode       Dest    Src      Dest   Src    Mode         Slot

----  -------------    ---------------  ------------   ------------------

  1   Valid   InBand      No    No        No    No     Remap           1

  2   Valid   InBand      No    No        No    No     Remap           2

  3   Valid   InBand      No    No        No    No     Remap           3

  4   Valid   InBand      No    No        No    No     Remap           4

  5   Valid   InBand      No    No        No    No     Remap           5

  6   Valid   InBand      No    No        No    No     Remap           6

  7   Valid   InBand      Yes   Yes       No    No     Remap           8

  8   Valid   InBand      Yes   Yes       No    No     Remap           7

 11   Valid   InBand      No    No        No    No     Remap          11

 12   Valid   InBand      No    No        No    No     Remap          12

 13   Valid   InBand      No    No        No    No     Remap          13

 14   Valid   InBand      No    No        No    No     Remap          14

 15   Valid   InBand      No    No        No    No     Remap          15

 16   Valid   InBand      No    No        No    No     Remap          16 

The following screen illustrates remapping (and/or a switchover between redundant cards). Note that slots 12 and 14 are remapped. You could also follow up by displaying the cards. The dspcds output would show that the secondary card 14 is active and the primary card 12 is standby.

sanity-PXM45B                    System Rev:03.00   Apr. 27, 2003

18:30:12 GMT

MGX8850                                              Node Alarm:MAJOR

                    PXM45 CROSSBAR CONFIGURATION

Crossbar Slot No: 7         Switch Asic No: 0    Status:OK

Cell Grant Mode:Unicast Pref         Resync Sframe Tic:Rising-Edge

Detect

Asic Revision:1

Slot  BACK PRESSURE    DISABLE REQUEST  DISABLE DATA   REDUNDANCY CONFIG

 No   Grant   Mode       Dest    Src      Dest   Src    Mode

Slot

----  -------------    ---------------  ------------------------------

  1   Valid   InBand      No    No        No    No     Remap           1

  2   Valid   InBand      No    No        No    No     Remap           2

  3   Valid   InBand      No    No        No    No     Remap           3

  4   Valid   InBand      No    No        No    No     Remap           4

  5   Valid   InBand      No    No        No    No     Remap           5

  6   Valid   InBand      No    No        No    No     Remap           6

  7   Valid   InBand      No    No        No    No     Remap           7

  8   Valid   InBand      Yes   Yes       No    No     Remap           8

  9   Valid   InBand      No    No        No    No     Remap           9

 10   Valid   InBand      No    No        No    No     Remap          10

 11   Valid   InBand      No    No        No    No     Remap          11

 12   Valid   InBand      No    No        No    No     Remap          14

<<===

 13   Valid   InBand      No    No        No    No     Remap          13

 14   Valid   InBand      No    No        No    No     Remap          12

<<===

dspxbarerrcnt

Display Crossbar Error Counters—PXM45

The dspxbarerrcnt command shows numbers of various types of errors on each slot-link. Note that the error can occur anywhere along the path of the ASIC and the hardware on the service module. The types of errors apply to the 60-byte switch frames.

---

Note This low-level command applies to software or hardware development and is not useful for troubleshooting the network or node. For troubleshooting the node, use dspndalms and dspswalms.

---

You can see the thresholds of the alarms that the errors trigger by using dspxbarerrthresh.

The following types and instances of errors appear by slot number (see example screen):

•Loss of synchronization between the ASIC and the queuing circuitry on the service module. The synchronization in this case applies to the timing of the internal switching frames (Sframes). Loss of synchronization is a very serious error.

•Receiver code violations (Rx Cv column in the display).

•Receiver disparity errors (Rx Disp column in the display). A disparity error is a summary of five ASIC-specific alarms.

•Transmitter parity errors.

•CRC failures for the header or the payload of the 60-byte Sframe.

•Failures to remap between slots as needed or excessive remapping between slots (Slot Remap and Slot Recur columns in the display).

•Parity errors in back-pressure messages.

A top-down sequence of troubleshooting commands for isolating faults in the switching fabric are:

1. dspndalms

2. dspswalms

3. dspxbaralm

4. dspxbarerrcnt

Syntax

dspxbarerrcnt <slot> <plane>

Syntax Description

slot	The slot of the switching fabric. On the MGX 8850 node, the slot is 7 or 8. On the MGX 8950 node, the slot is 9, 10, 25, or 26.
plane	The plane is the number of the switch ASIC. On the MGX 8850 node, the range for either slot is 0-2. On the MGX 8950 node, the range of plane numbers in either slot is 0-3.

Related Commands

dspxbar, dspxbaralm, dspxbarerrthresh, cnfxbarerrthresh, dspndalms, dspswalms

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Example

Display the crossbar error counters for switch ASIC 2 in slot 7. The Node Alarm field of the display shows the errors have resulted in a critical alarm. A large number of errors have occurred in the slot 12 link. Many of the errors are parity or CRC related, but the one error that is most serious is loss of sync. With a loss if sync between the service module and the switching fabric, many other, comparatively less significant errors are possible.

Note at the bottom of the display a message about multipliers for large numbers of errors. Because the display can accommodate a finite number of errors without being distorted, a K (for 1000) and M (for 1000000) multiplier may be necessary, as this example shows.

MGX8850.7.PXM.a > dspxbarerrcnt 7 2

MGX8850                          System Rev: 02.00   Aug. 06, 2000 17:47:53 GMT

MGX8850                                              Node Alarm: CRITICAL

                PXM45 CROSSBAR CURRENT ERROR COUNTERS

Crossbar Slot No: 7             Switch ASIC 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      0       0       0       0       0       0       0       0       0

     4      0       0       0       0       0       0       0       0       0

     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      0       0       0       0       0       0       0       0       0

    10      0       0       0       0       0       0       0       0       0

    11      0       0       0       0       0       0       0       0       0

    12   2772K  41594K  41594K      0   41594K  41594K      0       0   41594K

    13      0       0       0       0       0       0       0       0       0 

MGX8850                          System Rev: 02.00   Aug. 06, 2000 17:47:53 GMT

MGX8850                                              Node Alarm: CRITICAL

    14      0       0       0       0       0       0       0       0       0

Frame Tick Error: 0

Frame Lock Error: 0

ACP Illegal Address Error: 0

Note: for big error counter, suffix K(x1000) or M(x1000000) is used. 

dspxbarerrthresh

Display Crossbar Error Threshold—display the thresholds for alarms of different severities—PXM45

A crossbar can have nine types of errors, and each error has a threshold. The errors are loss of synchronization, a variety of parity and CRC errors, and so on (see Definitions of Crossbar Errors).

The items that make up a threshold are the:

•Duration of the errored state

•Number of errors during that time period

•Upper and lower error counts within a particular alarm severity (minor, major, and critical)

---

Note The default settings for crossbar error thresholds are optimal for nearly all applications. The dspxbarerrthresh command shows the existing thresholds. If necessary, you can change thresholds through the cnfxbarerrthresh command.

---

The two types of alarm counts for each of these severities. (Refer to the example.) The higher count is the Alarm Count and is the highest number of errors that triggers an alarm of a particular severity. The lower count is the Release Count: when the number of errors drops below the Release Count, the alarm severity drops to the next lower severity. For example (using the defaults shown in the example display), if the number of transceiver errors drops below 40 (a major alarm), the alarm turns into a minor alarm. The higher count for a minor, major, and critical alarm is the number of errors that trigger that alarm. The lower count is number of errors that causes the severity to drop to the next lower severity.

The types of errors whose thresholds are displayed are:

1. Loss of synchronization (LossOfSync)

2. Transceiver error (TranscieverErr)

3. DisparityErr—an accumulation of five ASIC-level errors

4. ParityErr—a parity error in the switch frame as a whole

5. HeaderCRCErr—a CRC error for the switch frame header

6. PayloadCRCErr—a CRC error for the switch frame payload

7. RemapTwiceErr—in a redundant configuration, if multiple slots for redundancy purposes remap to the same slot, a remap twice error occurs. For example, For example, if Slot 2 is remapped to slot 3 and slot 4 is also remapped to slot 3, slot 3 reports that it is remapped twice. This error is service affecting should be immediately corrected.

8. RemapRecurrErr

9. Backpressure parity error (B.P.ParityErr)—a parity error in the signaling for backpressure

Syntax

dspxbarerrthresh

Syntax Description

This command takes no parameters.

Related Commands

dspxbar, dspdevalms, dspdeverrhist

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display the current crossbar error thresholds.

M8850_NY.7.PXM.a > dspxbarerrthresh

M8850_NY                         System Rev: 02.01   Nov. 15, 2001 14:24:30 PST

MGX8850                                              Node Alarm: CRITICAL

                            CROSSBAR ERROR CONFIGURATION

                     Thresh  -- MINOR --     -- MAJOR --     -- CRITICAL --  

Device Error         Time    Clear Alarm     Clear Alarm      Clear Alarm    

Type                 (msec)  Count Count     Count Count      Count Count    

-------------------- ------  ----- -----     ----- -----      ----- -----    

LossOfSync            20000      0     3         4    15        300   301

TranscieverErr        20000      0    31        40   150        300   301

DisparityErr          20000      0    31        40   150        300   301

ParityErr             20000    300   301       300   301        300   301

HeaderCRCErr          20000      0    31        40   150        300   301

PayloadCRCErr         20000      0    31        40   150        300   301

RemapTwiceErr         20000      0     1         0     1        300   301

RemapRecurrErr        20000    300   301       300   301        300   301

B.P.ParityErr         20000      0    31        40   150        300   301

M8850_NY.7.PXM.a >

On an MGX 8950, the display appears as follows:

JBP2_Lower.8.PXM.a > dspxbarerrthresh

JBP2_Lower                       System Rev: 02.01   Nov. 28, 2000 21:39:29 GMT

MGX8950 (JBP-2)                                      Node Alarm: MAJOR

                            CROSSBAR ERROR CONFIGURATION

                     Thresh  -- MINOR --     -- MAJOR --     -- CRITICAL --

Device Error         Time    Clear Alarm     Clear Alarm      Clear Alarm

Type                 (msec)  Count Count     Count Count      Count Count

-------------------- ------  ----- -----     ----- -----      ----- -----

LossOfSync            20000      0     3         4    15        300   301

TranscieverErr        20000      0    31        40   150        300   301

DisparityErr          20000      0    31        40   150        300   301

ParityErr             20000    300   301       300   301        300   301

HeaderCRCErr          20000      0    31        40   150        300   301

PayloadCRCErr         20000      0    31        40   150        300   301

RemapTwiceErr         20000      0     1         0     1        300   301

RemapRecurrErr        20000    300   301       300   301        300   301

B.P.ParityErr         20000      0    31        40   150        300   301 

dspxbarmgmt

Display Crossbar Management—PXM45

The dspxbarmgmt command shows details about the load sharing configuration for the node. See the cnfxbarmgmt description for an explanation.

---

Note The plane alarm threshold is not used in the current release.

---

Syntax

dspxbarmgmt

Syntax Description

This command takes no parameters.

Related Commands

cnfxbarmgmt

Attributes

Log: no

State: active, standby, init

Privilege: ANYUSER

Example

Display the crossbar management state for the current node. The settings are the defaults.

pop20two.7.PXM.a > dspxbarmgmt

pop20two                         System Rev: 02.01   Dec. 05, 2000 20:43:43 GMT

MGX8850                                              Node Alarm: MAJOR

Load Sharing: Enable

Auto Shutdown: Disable

Plane Alarm Threshold: 3 

dspxbarplanealms

Display Crossbar Plane Alarms—PXM45

The dspxbarplanealms command displays the alarm status for each switch plane.

Syntax

dspxbarplanealms

Syntax Description

This command takes no parameters.

Related Commands

dspxbarplanealms

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

M8850_NY.7.PXM.a > dspxbarplanealms

M8850_NY                         System Rev: 02.01   Dec. 10, 2001 16:35:21 PST

MGX8850                                              Node Alarm: MAJOR

      XBAR PLANE ALARM INFO

XbarSlot  Xbar Core    Xbar Plane 

/plane    Alarm        Based Alarm

------    -----        -----------

 7/0      --           --      

 7/1      --           --      

 7/2      --           --      

 8/0      --           --      

 8/1      --           --      

 8/2      --           --      

M8850_NY.7.PXM.a > dspxbarslotbwalms

M8850_NY                         System Rev: 02.01   Dec. 10, 2001 16:36:09 PST

MGX8850                                              Node Alarm: MAJOR

                XBAR SLOT BANDWIDTH ALARM INFO SUMMARY

LoadSharing < Enabled >                  AutoShutDown < Enabled > 

Slot   Xbar Slot    Required no.   Available no.    Operational no. 

No.    Bw Alarm     of Planes      of Planes        of Planes       

----   ---------    -----------    ------------     --------------  

 01      None            3              6                 6

 02      None            3              6                 6

 03      None            3              6                 6

 04        --           --             --                -- 

 05      None            2              6                 6

 06      None            3              6                 6

 07      None            1              6                 6

 08      None            1              6                 6

 10        --           --             --                -- 

 11        --           --             --                -- 

 12        --           --             --                -- 

 13        --           --             --                -- 

 14        --           --             --                -- 

M8850_NY.7.PXM.a >

M8950_DC.7.PXM.a > dspxbarplanealms

M8950_DC                         System Rev: 02.01   Dec. 15, 2001 17:21:50 PST

MGX8950 (JBP-2)                                      Node Alarm: CRITICAL

      XBAR PLANE ALARM INFO

XbarSlot  Xbar Core    Xbar Plane 

/plane    Alarm        Based Alarm

------    -----        -----------

 9/0      --           --      

 9/1      --           --      

 9/2      --           --      

 9/3      --           --      

10/0      --           --      

10/1      --           --      

10/2      --           --      

10/3      --           --      

25/0      --           --      

25/1      --           --      

25/2      --           --      

25/3      --           --      

26/0      --           --      

26/1      --           --      

26/2      --           --      

26/3      Critical     --      

M8950_DC.7.PXM.a > dspxbarslotbwalms

M8950_DC                         System Rev: 02.01   Dec. 15, 2001 17:22:52 PST

MGX8950 (JBP-2)                                      Node Alarm: CRITICAL

                XBAR SLOT BANDWIDTH ALARM INFO SUMMARY

LoadSharing < Enabled >                  AutoShutDown < Enabled > 

Slot   Xbar Slot    Required no.   Available no.    Operational no. 

No.    Bw Alarm     of Planes      of Planes        of Planes       

----   ---------    -----------    ------------     --------------  

 01      Major           3              8                 7

 02        --           --             --                -- 

 03        --           --             --                -- 

 04        --           --             --                -- 

 05      None            3              8                 8

 06        --           --             --                -- 

 07      None            1              4                 4

 08        --           --             --                -- 

 12        --           --             --                -- 

 13        --           --             --                -- 

 14        --           --             --                -- 

 15        --           --             --                -- 

 16        --           --             --                -- 

M8950_DC.7.PXM.a > 

dspxbarslotbwalms

Display Crossbar Slot Bandwidth Alarms—PXM45

The dspxbarslotbwalms command displays crossbar alarms as viewed from the card slot. For each card slot, the display shows the configured and actual number of available switch planes. Each slot receives cells from all operational switch planes. If a switch plane fails, the bandwidth to all slots significantly decreases. The display shows:

•The slot number

•The alarm severity if one exists, or "none" if no alarm exists

•The number of switch planes that each card requires

•The number of available switch planes (if load sharing is enabled on an MGX 8850 switch, the display includes the back-up switch ASICs on the standby PXM45)

•The operational number of switch planes

Syntax

dspxbarslotbwalms

Syntax Description

This command takes no parameters.

Related Commands

dspxbarplanealms

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display crossbar alarms flagged by the cards. The display shows:

•Loadsharing and autoshutdown are enabled. If loadsharing were not enabled, the maximum number of available and operational planes would be three rather than six.

•No alarms exist.

•No cards reside in slots 10-14.

M8850_NY.7.PXM.a > dspxbarslotbwalms

M8850_NY                         System Rev: 02.01   Dec. 10, 2001 16:36:09 PST

MGX8850                                              Node Alarm: MAJOR

                XBAR SLOT BANDWIDTH ALARM INFO SUMMARY

LoadSharing < Enabled >                  AutoShutDown < Enabled > 

Slot   Xbar Slot    Required no.   Available no.    Operational no. 

No.    Bw Alarm     of Planes      of Planes        of Planes       

----   ---------    -----------    ------------     --------------  

 01      None            3              6                 6

 02      None            3              6                 6

 03      None            3              6                 6

 04        --           --             --                -- 

 05      None            2              6                 6

 06      None            3              6                 6

 07      None            1              6                 6

 08      None            1              6                 6

 10        --           --             --                -- 

 11        --           --             --                -- 

 12        --           --             --                -- 

 13        --           --             --                -- 

 14        --           --             --                -- 

M8850_NY.7.PXM.a >

M8850_NY.7.PXM.a > dspxbarplanealms

M8850_NY                         System Rev: 02.01   Dec. 10, 2001 16:35:21 PST

MGX8850                                              Node Alarm: MAJOR

      XBAR PLANE ALARM INFO

XbarSlot  Xbar Core    Xbar Plane 

/plane    Alarm        Based Alarm

------    -----        -----------

 7/0      --           --      

 7/1      --           --      

 7/2      --           --      

 8/0      --           --      

 8/1      --           --      

 8/2      --           -- 

M8950_DC.7.PXM.a >