Table of Contents

Conventions

Command Syntax
Port Identifier
Access Level

Command Summaries

SVC Command Suite
SPVC Command Suite
PNNI Command Suite

addaddr
addcon
addfltset
addpnni-node
addpnni-summary-addr
addpnport
addprfx
clrpncon
clrpnconstats
clrsigstats
clrsscopstats
cnfabrtparmdft
cnfaddrreg
cnfautocnf
cnfcdvtdft
cnfcon
cnfconsegep
cnfe164 justify
cnfenhiisp
cnffdonaal5
cnffltset
cnfilmiproto
cnfintfcongth
cnfmbsdft
cnfnodalcongth
cnfoamsegep
cnfpnni-election
cnfpnni-intf
cnfpnni-link-selection
cnfpnni-mtu
cnfpnni-node
cnfpnni-pkttrace
cnfpnni-routing-policy
cnfpnni-scope-map
cnfpnni-svcc-rcc-timer
cnfpnni-timer
cnfpnportacc
cnfpnportcac
cnfpnportcc
cnfpnportrange
cnfpnportsig
cnfrrtparm
cnfrteopt
cnfrteoptthld
cnfsig
cnfsscop
cnfsvcthld
conntrace
deladdr
delcon
delconsegep
delfltset
delpnni-node
delpnni-summary-addr
delpnport
delpnportacc
delprfx
disablesscop
dncon
dnpnport
dspabrtparmdft
dspaddr
dspatmaddr
dspcdvtdft
dspcon
dspconinfo
dspcons
dspconsegep
dspenhiisp
dspfltset
dspilmiaddr
dspintfcongcntr
dspintfcongflags
dspintfcongth
dspmbsdft
dspnodalcongflags
dspnodalcongth
dspoamsegep
dsppncon
dsppncons
dsppnconstats
dsppnctlvc
dsppnilmi
dsppnni-bn-path
dsppnni-bypass
dsppnni-election
dsppnni-idb
dsppnni-inducing-uplink
dsppnni-intf
dsppnni-link
dsppnni-link-selection
dsppnni-mtu
dsppnni-neighbor
dsppnni-node
dsppnni-node-list
dsppnni-path
dsppnni-pkttrace
dsppnni-ptse
dsppnni-reachable-addr
dsppnni-routing-policy
dsppnni-scope-map
dsppnni-spoke
dsppnni-summary-addr
dsppnni-svcc-rcc
dsppnni-svcc-rcc-timer
dsppnni-timer
dsppnport
dsppnportcac
dsppnportcc
dsppnportrange
dsppnports
dsppnportsig
dsppnportrsrc
dsppnsysaddr
dspprfx
dspnodalcongcntr
dsprrtparm
dsprteoptcnf
dspsig
dspsigparm
dspsigstats
dspsscop
dspsscopstats
dspsvcparm
optrte
pathtraceie
pathtracenode
pathtraceport
<_(SMALL_><_SMALL)_>tstconseg
tstdelay
tstpndelay
upcon
uppnport

SVC, SPVC, and PNNI Commands

This appendix describes the SES PNNI controller commands that are specific to ATM SVCs, SPVCs, and PNNI routing and signaling, in the following sections

• Conventions

• Command Summaries

• SVC Commands

• SPVC Commands

• PNNI Commands

Conventions

The following conventions are used to describe commands in this appendix:

• Vertical bars (|) separate alternative, mutually exclusive elements.

• Square brackets ([]) indicate optional elements.

• Braces ({}) indicate a required choice.

• Braces within square brackets ([{}] indicate a required choice within an optional element.

• Boldface indicates commands and keywords that are entered literally as shown.

• Italics indicate arguments for which you supply values.

Command Syntax

The SES PNNI controller command syntax complies with the syntax defined by MGX 8800. The syntax supported is as follows:

Command :== CMD_STRARG | CMD_VWARG | CMD_CALLXSTURCT | CMD_CALLXPSTRUCT
CMD_STRARG :== command-name <value1> <value2> ... <valueN>
CMD_VWARG :== command-name <value1> <value2> ... <valueN>
CMD_CALLXSTRUCT :== command-name <value1> <value2> ... [<valueN>]
CMD_CALLXPSTRUCT :== command-name <value1> <value2> ... [<valueM>]
				-key1 <value1> [-key2 <value2>] ... [-keyN <valueN>]
 
Description:
1) CMD_STRARG is the command in which all arguments are passed as char
	strings.
2) CMD_VWARG is for calling VxWorks style routine.
3) In CMD_CALLXSTRUCT, the sequence of parameters are fixed, i.e.
	position dependent.
4) In CMD_CALLXPSTRUCT, it contains a list of fixed parameters that are
	position dependent and a list of keyword parameters that are
	position independent.

Port Identifier

The following format is used in the CLI to identify ports:

[shelf.]slot[:subslot].port[:subport] 
 

This is a generic port identifier, which is independent of specific platform. The interpretation of the identifier depends on the platform. For instance, the optional subslot field is used to identify the back card for AXSM, and the same field is not used for BXM cards. The optional subport is used to identify a VP tunneling interface in both of the cards aforementioned.

In the rest of this Appendix, <portid> stands for the string "[shelf.]slot[:subslot].port[:subport]."

Any reference to PNNI port or <portid> refers to the PNNI partition on the switch and not the Physical port itself. Any operation on <portid> affects only the PNNI partition associated with it on the switch.\

Access Level

Access levels consist of the following, in descending order:

CISCO_GP (engineering debug)
SERVICE_GP (strategic partner)
SUPER_GP (network manager)
GROUP1 (highest technician level)
GROUP2
GROUP3
GROUP4 

GROUP5 (lowest technician level)
ANYUSER (anyuser)
NOUSER_GP

Command Summaries

This appendix contains configuration and display commands for the following categories:

• SVC Command Suite

• SPVC Command Suite

• PNNI Command Suite

SVC Command Suite

The SVC commands consist of the suite shown in Table B-1.

Table B-1: SVC Commands Summary

Command	Usage	Access Level	Standby	Rebuild	SNMP Support
Port Management Commands
addpnport	Add a UNI or NNI port	group2	no	no	yes
cnfcdvtdft	Change the default CDVT for a port	super	no	no	yes
cnfconsegep	Configure a connection as a segment endpoint	super	no	no	no
cnfmbsdft	Change the default MBS for a port	super	no	no	yes
cnfoamsegep	Configure a port as a segment endpoint	super	no	no	no
cnfpnportcac	Configure CAC policy parameters for a port	super	no	no	yes
cnfpnportcc	Configure call control parameters for a port	super	no	no	yes
cnfpnportrange	Configure ATM VPI/VCI range for a port	super	no	no	yes
cnfpnportsig	Configure ATM signaling parameters for a port	group2	no	no	yes
delconsegep	Remove a segment endpoint on a connection	super	no	no	no
delpnport	Delete a port	group2	no	no	yes
dnpnport	Take a port out of service	group2	no	no	yes
dspcdvtdft	Show the default CDVT set for a port	anyuser	yes	yes	yes
dspmbsdft	Show the default MBS set for a port	anyuser	yes	yes	yes
dspoamsegep	Show segment endpoint for F4 and F5 OAM flow on a port	anyuser	yes	yes	no
dsppnport	Show ATM information for a port	anyuser	yes	yes	yes
dsppnportcac	Show CAC policy parameters for a port	anyuser	yes	yes	yes
dsppnportcc	Show call control parameters for a port	anyuser	yes	yes	yes
dsppnportrange	Show ATM VPI/VCI range for a port	anyuser	yes	yes	yes
dsppnports	Show status information for all ports	anyuser	yes	yes	yes
dsppnportrsrc	Show available bandwidth and channels on a port	anyuser	yes	yes	yes
dsppnportsig	Show ATM signaling parameters for a port	anyuser	yes	yes	yes
tstpndelay	Initiate a loopback test for round trip delay on a connection	super	no	no	no
uppnport	Bring a port in service	group2	no	no	yes
ILMI Commands
addfltset	Add an ATM address filter set	group2	no	no	no
addprfx	Add an ILMI address prefix for a port	group2	no	no	yes
cnfaddrreg	Configure ILMI address registration options for a port	super	no	no	yes
cnfautocnf	Enable/disable ILMI auto configuration for a port	super	no	no	yes
cnfilmiproto	Configures the ILMI protocol.	super	no	no	no
delprfx	Delete an ILMI address prefix for a port	group2	no	no	yes
dspilmiaddr	Show address prefixes for a port	anyuser	yes	yes	no
dsppnilmi	Show ILMI information for a port	anyuser	yes	yes	yes
dspprfx	Show all ILMI address prefix configured for a port.	anyuser	yes	yes	yes
Call Control Commands
addaddr	Add an ATM address for a port	group2	no	no	yes
clrpncon	Release a specified call	super	no	no	no
clrpnconstats	Clear call statistics	group5	no	no	yes
cnfe164justify	Configure E.164 address conversion justification	super	no	no	no
cnffltset	Modify an ATM address filter set	group2	no	no	no
cnfpnportacc	Configure an address access filter group for a port	group2	no	no	no
conntrace	Trace an active connection	super	no	no	no
deladdr	Delete an ATM address for a port	group2	no	no	yes
delfltset	Delete an ATM address filter set	group2	no	no	no
delpnportacc	Delete an address access filter group for a port	group2	no	no	no
dspaddr	Show ATM addresses for a port	anyuser	yes	yes	yes
dspatmaddr	Show all ATM addresses (both configured and registered) for a port	anyuser	yes	yes	no
dspfltset	Show ATM address filter set(s)	anyuser	yes	yes	no
dsppnctlvc	Displays configuration of the control VC parameters.	anyuser	yes	no
dsppncon	Show information for a specific call	anyuser	yes	yes	yes
dsppncons	Show active calls information	anyuser	yes	yes	yes
dsppnconstats	Show call statistics for a port	anyuser	yes	yes	yes
dspsvcparm	Show SVC nodal parameters	anyuser	yes	yes	partial
pathtraceie	Set options in pathtrace. For example, removeIE/insertIE for the port.	super	no	no	no
pathtracenode	Enable/disable pathtrace on node	super	no	no	no
pathtraceport	Enable/disable pathtrace on port	super	no	no	no
Signalling Commands
clrsscopstats	Clear SSCOP statistics	group5	no	no	no
cnfenhiisp	Enable/disable enhanced IISP features on a port	super	no	no	yes
cnffdonaal5	Install frame discard on the presence of AAL5 IE or not	super	no	no	no
cnfsig	Configure signaling timers for a port	super	no	no	no
cnfsscop	Configure SSCOP parameters for a port	super	no	no	no
disablesscop	Enable/disable SSCOP on a port	super	no	no	no
dspenhiisp	Show enhanced IISP setting	anyuser	yes	yes	yes
dspsig	Show signaling timers configured for a port	anyuser	yes	yes	no
dspsigparm	Show signaling nodal parameters	anyuser	yes	yes	no
dspsigstats	Show signaling statistics for a port	anyuser	yes	yes	yes
dspsscop	Show SSCOP details for a port	anyuser	yes	yes	no
dspsscopstats	Show SSCOP statistics for a port	anyuser	yes	yes	no
Congestion Commands
cnfintfcongth	Configure interface level congestion Thresholds	super	no	no	no
cnfnodalcongth	Configure Nodal Congestion Thresholds	super	no	no	no
dspintfcongcntr	Show interface level congestion counters	anyuser	yes	yes	no
dspintfcongflags	Show congestion manager flags at the interface level	anyuser	yes	yes	no
dspintfcongth	Show interface congestion Thresholds	anyuser	yes	yes	no
dspnodalcongcntr	Show nodal level congestion counters	anyuser	yes	yes	no
dspnodalcongflags	Show congestion manager flags at nodal level	anyuser	yes	yes	no
dspnodalcongth	Show nodal Congestion Thresholds	anyuser	yes	yes	no

SPVC Command Suite

SPVC commands consist of the suite shown in Table B-2
Table B-2: SPVC Command Summary

Command	Usage	Access Level	Standby	Rebuild	SNMP Support
Connection Provisioning Commands
addcon	Adds a new SPVC connection endpoint.	group1	No	No	Yes
cnfabrtparmdft	Configure default ABR traffic parameters used by a port to set up ABR SPVCs.	group1	no	no	no
cnfcon	Allows the modification of the connection bandwidth, policing and routing parameters.	anyuser	No	No	Yes
cnfrrtparm	Configure global reroute retry parameters for SPVC.	super	no	no	no
delcon	Deletes a configured connection.	anyuser	No	No	Yes
dncon	Downs an up connection. This command will deroute a routed connection	group1	No	No	Yes
upcon	Ups a down connection. This command will reroute the connection	group1	No	No	Yes
Connection Diagnostics Commands
dspabrtparmdft	Displays default ABR traffic parameters configured for a port used for setting up ABR SPVCs.	anyuser	yes	no	no
Connection Debug Commands
dspcon	Display a summary of soft pvc connections on a specific port or all ports. This command only applies to endpoint nodes.	anyuser	yes	no	yes
dspconinfo	Display the total number SPVCs on each PNNI port on the node.	anyuser	yes	no
dspcons	Display a summary of soft pvc connections on a specific port or all ports. This command only applies to endpoint nodes.	anyuser	yes	no	yes
dsprrtparm	Display global reroute retry parameters configured for SPVC.	anyuser	yes	no	no
tstconseg	Tests continuity by using OAM segment loopback cells generated toward the user device at the local end of the connection.	group1	No	No	Yes
tstdelay	Verifies the continuity of a connection using inband OAM loopback cells.	group1	No	No	Yes
Route Optimization Commands
cnfrteopt	Enable/disable route optimization on a port.	group1	no	yes	no
cnfrteoptthld	Specifies the percentage reduction in the administrative weight of the existing path required to trigger route optimization.	group1	no	yes	no
dsprteoptcnf	Display the route optimization configuration for a specific port or all ports.	anyuser	yes	no	no
dsprteoptstat	Display the optimization status for a specific port or all ports.	anyuser	no	no	no
optrte	Kickoff route optimization immediately on an SPVC, a range of SPVCs or all SPVCs on a port.	group1	no	no	no

PNNI Command Suite

PNNI commands consist of the suite shown in Table B-3.
Table B-3: PNNI Commands Summary

Command	Usage	Access Level	Standby	SNMP Support
Node Commands
addpnni-node	Adds a PNNI node.
addpnni-summary-addr	Configure summary address prefix	super	no	yes
cnfpnni-election	Configure PGL election parameters	super	no	yes
cnfpnni-intf	Configure PNNI interface	super	no	yes
cnfpnni-link-selection	Configure PNNI link selection	super	no	no
cnfpnni-mtu	Configure maximum PNNI packet size	super	no	no
cnfpnni-node	Configure PNNI node	super	no	yes
cnfpnni-pkttrace	Traces the PNNI Packet on a per level per link basis.	super	no	yes
cnfpnni-routing-policy	Configure routing policies	super	no	no
cnfpnni-scope-map	Configure PNNI scope mapping	super	no	no
cnfpnni-svcc-rcc-timer	Configure PNNI SVCC-based RCC variables	super	no	yes
cnfpnni-timer	Configure PNNI timers	super	no	yes
delpnni-node	Delete PNNI node	super	no	yes
delpnni-summary-addr	Configure summary address prefix	super	no	yes
dsppnni-election	Show PNNI PGL election table	anyuser	yes	no
dsppnni-intf	Show PNNI interface table	anyuser	yes	yes
dsppnni-link	Show PNNI link table	anyuser	yes	yes
dsppnni-node-list	Display PNNI logical nodes network attached to this switch with the associated information.	anyuser	yes	no
dsppnni-pkttrace	Display the packet trace option for each link. This command is executed on the PXM card.	anyuser	yes	no
dsppnni-summary-addr	Show PNNI summary address prefix	anyuser	yes	yes
dsppnni-svcc-rcc	Show PNNI SVCC-based RCC table	anyuser	yes	no
dsppnni-svcc-rcc-timer	Show PNNI SVCC-based RCC timer values	anyuser	yes	yes
dsppnni-timer	Show PNNI timer values	anyuser	yes	yes
PNNI Show Commands
dsppnni-bn-path	Show PNNI border node paths calculated by a PGL node in a given peer group	cisco	yes	no
dsppnni-bypass	Show PNNI bypass table for a LGN using complex node representation in a given peer group	cisco	yes	no
dsppnni-idb	Show PNNI internal topology database for a specific logical node	cisco	yes	no
dsppnni-inducing-uplink	Show PNNI inducing uplink database for a logical node	cisco	yes	no
dsppnni-link-selection	Show link selection on a link	anyuser	yes	no
dsppnni-mtu	Show maximum PNNI packet size in number of bytes	anyuser	yes	no
dsppnni-neighbor	Show PNNI neighbor	anyuser	yes	no
dsppnni-node	Show PNNI nodal table	anyuser	yes	yes
dsppnni-path	Show PNNI paths	anyuser	yes	no
dsppnni-ptse	Show PNNI PTSE table	anyuser	yes	no
dsppnni-reachable-addr	Show PNNI reachable address	anyuser	yes	no
dsppnni-routing-policy	Show PNNI routing policies	anyuser	yes	no
dsppnni-scope-map	Show the scope map table	anyuser	yes	yes
dsppnni-spoke	Show PNNI default spoke for a LGN using complex node representation in a given peer group	cisco	yes	no
dsppnsysaddr	Show addresses in the System Address Table	anyuser	yes	no

addaddr

Use the addaddr command to add or delete an ATM address for a UNI or IISP. This command is also used to configure static routes to reachable addresses.

An ATM address can only be provisioned on a UNI if ILMI address registration is disabled.

• On UNI ports, type must be internal and proto must be local.

• On IISP ports, type must be exterior and proto must be static.

Syntax Description

addcon

Use the addcon command to add a new connection endpoint.

Syntax Description

addcon <portid> <vpi> <vci> <serviceType> <master_ship> <slave_nsap.vpi.vci>

addcon 2 11 100 8 1 
slave endpoint added successfully
slave endpoint id : 4700918100000000107BE92F7B00000103180200.11.100
 

addcon 2 11 100 8 2 4700918100000000107BE92F7B00000103180200.11.100
master endpoint added successfully
master endpoint id : 4700918100000000107BE92F5100000103180200.11.100
 

addfltset

Use the addfltset command to add an ATM address filter set.

Syntax Description

Usage Guidelines

• Use addfltset to add a new address filter set.

• After a filter is created for a specific port, associate the filter to that port by using the cnfpnportacc command.

addpnni-node

Use the addpnni-node command to add a PNNI node. When adding a new PNNI logical node, the hierarchical level of the new node must be higher than the level of the node which is currently at the highest hierarchy.

Syntax Description

addpnni-summary-addr

Use the addpnni-summary-addr comamand to configure an ATM summary address prefix for a PNNI logical node operating on a local switching system.

Syntax Description

addpnni-summary-addr <node-index address-prefix prefix-length> [-type {internal | exterior}] [-suppress {true | false}]

node-index	Node index assigned to a PNNI logical node operating on a switching systems.
address-prefix	ATM address prefix assigned to the local switching system.
prefix-length	Length of the addres-prefix, in number of bits, equal to or less than 152 bits. Note   Zero-length summary address is not currently supported.
type	Type of summary address, as either internal or external. Default = internal
suppress	Indicates whether to advertise (false) or not advertise (true) the summary address.

addpnport

Use the addpnport command to add a UNI or NNI port. After the port is added, its administrative state is down by default. This command is used to pre-configure a port on the controller. It is allowed only if the port does not yet exist on the switch.

Syntax Description

addpnport <portid>

portid

Interface number, in the form of [shelf.]slot[:subslot].port[:subport].

addprfx

Use the addprfx command to add an ILMI address prefix for UNI. When adding a prefix, this prefix must be stored on both the controller and the platform. Therefore a successful return status from the command line does not guarantee this prefix is added onto the platform prefix table. You should check the event log to make sure this prefix is successfully added in the prefix table on the platform. User can add up 16 prefix per port.

Syntax Description

clrpncon

Use the clrpncon command to release a specified call.

clrpnconstats

Use the clrpnconstats command to clear existing call statistics for a specific port or all ports.

Syntax Description

clrsigstats

Use the clrsigstats command to clear existing signaling statistics for a specific port or all ports.

Syntax Description

Examples

spirit11.1.1.PXM.a > clrsigstats 0.1.1
 
Clearing Signaling Statistics for 1.1dspconinfo
 
spirit11.1.1.PXM.a >

clrsscopstats

Use the clrsscopstats command to clear existing SSCOP statistics for a specific port or all ports.

Syntax Description

cnfabrtparmdft

Use the cnfabrtparmdft to configure default ABR traffic paramters used by a port to set up ABR SPVCs. These traffic parameters will be used in the SETUP message at the source when setting up an SPVC for ABR service category.

Syntax Description

cnfabrtparmdft <portid> [-rif RIF-value] [-rdf RDF-value] [-tbe TBE-value] [-nrm NRM-value] [-trm TRM-value] [-adtf ADTF-value] [-cdf CDF-value][-fsd FSD-value]

portid	Identifies the port to be configured, in the form of: [shelf.]slot[:subslot].port[:subport].
rif	Specifies the Rate Increase Factor. This controls the amount by which the cell transmission rate may increase upon receipt of an RM-cell. RIF is a power of two, ranging from 1/32768 to 1. Acceptable choices for this parameter are as follows: 1 = 1/32768 2 = 1/16384 3 = 1/8192 4 = 1/4096 5 = 1/2048 6 = 1/1024 7 = 1/512 8 = 1/256 9 = 1/128 10 = 1/64 11 = 1/32 12 = 1/16 13 = 1/8 14 = 1/4 15 = 1/2 16 = 1
rdf	Specifies the Rate Decrease Factor. This controls the Decrease in the cell transmission rate. RDF is a power of two, ranging from 1/32768 to 1. Acceptable choices are the same as RIF. The default choice is 4 (= 1/4096).
tbe	Transient buffer exposure, default = 1048320
nrm	Specifies the maximum number of cells a source may send for each forward RM-cell. NRM is a power of two, ranging from 2 to 256. Acceptable choices for this parameter are as follows: 1 = 2 2 = 4 3 = 8 4 = 16 5 = 32 6 = 64 7 = 128 8 = 256 The default choice is 55 (= 32 cells).
trm	Specifies the upper bound on the time between forward RM-cells for an active source. TRM is 100 * a power of two milliseconds, ranging from 100*(2^-7) to 100*(2^0). Acceptable choices for this parameter are as follows: 1 = 0.78125 2 = 1.5625 3 = 3.125 4 = 6.25 5 = 12.5 6 = 25 7 = 50 8 = 100 The default choice is 8 (= 100 msec).
adtf	Specifies the ACR (Allowed Cell Rate) Decrease Time Factor. This is the time permitted between sending RM-cells before the rate is decreased to ICR. ADTF is in unit of 10 milliseconds, ranging from 1 to 1023 units (for example, .01 to 10.23 seconds). The default is 50 (= 0.5 sec).
cdf	Specifies the Cutoff Decrease Factor. This controls the decrease in ACR associated with missing RM-cell count (CRM). CDF is zero, or a power of two ranging from 1/64 to 1. Acceptable choices for this parameter are as follows: 1 = 0 2 = 1/64 3 = 1/32 4 = 1/16 5 = 1/8 6 = 1/4 7 = 1/2 8 = 1 The default choice is 7 (= 1/2).
fsd	Specifies the Fixed Source Delay for the source. The Fixed Round-Trip Time (FRTT) is then accumulated during the call setup and is the sum of the fixed and propagation delays from the source to the furthest destination and back. FRTT is in unit of 10 microseconds, ranging from 0 to 16777215 units (for example, 0 to 167.77215 seconds). The default is 0.

Examples

orses18.1.PXM.a > cnfabrtparmdft 1.1 -rif 8

cnfaddrreg

Use the cnfaddrreg command to set ILMI address registration options for a specified port. At least one keyword must be specified. This command can only be used when the port is added and administratively down. Currently the address registration can be also enabled/disabled from the BPX cnfport command for backward compatibility reason. Furthermore in order for the address registration to work, the peer must support address registration table and procedure. Therefore the user must make sure that address registration have been enabled on all these three places to have address registration work.

Syntax Description

cnfautocnf

Use the cnfautocnf command to enable or disable ILMI auto configuration for a specified port.

Syntax Description

Tips This command can only be used when the port is added and administratively down.

cnfcdvtdft

Use the cnfcdvtdft command to modify the default CDVT to request UPC for cells received on a port. The new configuration will apply to new incoming calls while existing calls remain intact. This command can be used regardless of the state of the port.

Syntax Description

cnfcon

Use the cnfcon command modify connection bandwidth, policing, and routing.

Syntax Description

cnfcon <port id> <vpi> <vci>

[-lpcr <local PCR>] [-lmcr <local MCR>] [-lscr <local SCR>] [-icr  <local ICR>] [-lmbs 
<local MBS>] [-cdvt <local CDVT>] [-lcdv <local CDV>] [-lctd <local CTD>] [-rpcr <remote 
PCR>] [-rmcr <remote MCR>] [-rscr <remote SCR>] [-rmbs <remote MBS>] [-rcdv <remote CDV>] 
[-rctd <remote CTD>] [-stats <enable/disable>] [-frame <enable/disable>] [-mc  <Max 
Cost>] [-int_vsvd <internal segment>] [-ext_vsvd <external segment> 

port id	Interface Number. In the form of [shelf.]slot[:subslot].port[:subport]
vpi	Specify the starting VPI to view active calls starting from the specified VPI of the specified port. This parameters can only be used if port is specified. vpi range 0..255
vci	Specify the starting VCI to view active calls starting from the specified VPI/VCI of the specified port. This parameters can only be used if vpi is specified. vpi range 32..65535.
lpcr	Local PCR range.
lmcr	Local MCR range.
lscr	Local SCR range.
icr	Local ICR range.
lmbs	Local MBS range.
cdvt	CDVT range.
lcdv	Local CDV range.
lctd	Local CTD range.
rpcr	Remote PCR range.
rctd	Remote CTD range.
stats	Enables/disables statistics: 1 = enable 2 = disable
frame	Enables/disables frame: 1 = enable 2 = disable
mc	Maximum cost.
int_vsvd	Internal Segment VSVD: 1= off 2= on 3= unspecified
ext_vsvd	External Segment VSVD:1(off)/2(on)/3(unspec)

Examples

Example:

cnfcon 5 14 100 -lpcr 50 -lscr 50
Configuration successful

cnfconsegep

Use the cnfconsegep command to set a connection as a segment endpoint. When both vpi and vci are present, the segment endpoint is a F5 flow endpoint (for VCCs). When the optional vci is not present, the segment endpoint is a F4 flow endpoint (for VPCs). This command is used only for established calls.

---

Note   Before executing this command, continuity check is to be de-activated, if activated. Otherwise, continuity check failure will occur for the connection. This command can be used with conntrace for fault isolation.

---

Syntax Description

cnfconsegep <portid> <vpi> [vci]

portid	Interface ID in the form of [shelf.]slot[:subslot].port[:subport].
vpi	VPI of the connection
vci	VCI of the connection, default vci = 0 for vp connection

cnfe164 justify

Use the cnfe164justify command to configure whether the E.164 AESAs with the E.164 AFI are converted to the left or right-justified encoding format. The default is left-justified.

Syntax Description

Usage Guidelines

To ensure that PNNI searches the address correctly, all nodes in the PNNI network must be set for the same justification.

cnfenhiisp

Use the cnfenhiisp command to enable/disable the enhanced IISP features on a port. This command can only be used on an IISP port, regardless of the state of the port. The new configuration will apply to new incoming calls while existing calls remain intact.

Currently only the support of VBR-rt service category is controlled by this command. If the support is enabled on the port, the VBR-rt service category which uses an illegal combination of traffic parameters in the Broadband Bearer Capability (BBC) IE will be transported across the IISP port without any modification.

Syntax Description

cnffdonaal5

Use the cnffdonaal5 command to install or not install frame discard if the AAL5 IE is present. This changes information used by the switch when determining whether or not to install frame discard on SVCs. UNI 4.0 signaling allows explicit signaling of frame discard. Prior to UNI 4.0, the presence of the AAL5 IE was used to determine whether or not to install frame discard. If the AAL5 IE is present, frame discard is installed. However, UNI 4.0 signaling element controlling frame discard overrides the configuration specifying to use AAL5 IE.

Default = installing frame discard on the presence of the AAL5 IE in the SETUP message

Syntax Description

cnffltset

Use cnffltset to configure/modify an existing filter set. The configuration could be in the form of adding more addresses to the filter set, changing the access mode or address field of a filter set entry.

Usage Guidelines

cnfilmiproto

Use the cnfilmiproto command to configure the ilmi protocol.

Syntax Description

cnfdilmiproto <portid>[securelink][attachmentpoint][modlocattrstd]

portid	Port id in the form of [shelf.]slot[:subslot].port[:subport].
securelink	Enables/disables ILMI secure link protocol.
attachment point	Enables detection of loss of attachment point procedures.
modlocattrstd	Enables ILMI standard procedures on modification of local ATM parameters.

Examples

cnfintfcongth

Use the cnfintfcongth command to set interface congestion thresholds parameters.

cnfmbsdft

Use the cnfmbsdft command to modify the default MBS for cells received on a specified port. The new configuration will apply to new incoming calls while existing calls remain intact. This command can be used regardless of the state of the port.

Syntax Description =

cnfnodalcongth

Use the cnfnodalcongth command to set nodal congestion threshold parameters.

Syntax Description

cnfnodalcongth [-setuphi value] [-statenqlo value}] [-statenqhi value] [-connpendlo value] [-connpendhi value] [-incompjour value} [-vsiqmild value] [-vsiqmedium value] [-vsiqsevere value]

setuphi	The number of connection setup message per second, above which setup messages will be dropped within a second, in the range 1-105 cps. Default = 90
statenqlo	The number of status enquiry message per second, below which the status enquiry congestion condition abates, in the range 1 - 500cps. Default = 100cps
statenqhi	The number of connection setup messages per second, above which the status enquiry congestion condition sets in, in the range 1 - 500cps. Default = 200cps
connpendinglo	The aggregate number of connections in establishment phase below which the establishment congestion abates, in the range 1 - 1000 connections. Default = 400 connections
connpendinghi	The aggregate number of connections in establishment phase above which the establishment congestion sets in, in the range 1 - 1000 connections. Default = 500 connections
incompjour	The number of incomplete journaling cycles above which the journaling speed will be increased, in the range 1 - 10 cycles. Default = 5 cycles
vsiqmild	The Q depth above which VSI master is mildly congested; This is represeneted as a percentage of VSI master-slave communication window size; This threshold is applicable to all the interfaces in the node, in the range 1 - 175. Default = 5
vsiqmedium	The Q depth above which VSI master is congested at a medium level; This is represeneted as a percentage of VSI master-slave communication window size.This threshold is applicable to all the interfaces in the node, in the range 1 - 175. Default = 10
vsiqsevere	The Q depth above which VSI master is severely congested; This is represeneted as a percentage of VSI master-slave communication window size.This threshold is applicable to all the interfaces in the node, in the range 1 - 175. Default = 20

cnfoamsegep

Use the cnfoamsegep command to define a specified port as a segment endpoint for F4 and F5 OAM flow. This command does not take effective for existing connections, and only does for newly established calls. This command can be used regardless of the state of the port.

Syntax Description

cnfpnni-election

Use the cnfpnni-election command to configure PNNI PGL election parameters for a PNNI node.

Syntax Description

cnfpnni-intf

Use the cnfpnni-intf command to configure service category based administrative weight and aggregation token on a PNNI interface.

Syntax Description

cnfpnni-link-selection

Use the cnfpnni-link-selection command to configure the routing policies used in background routing tables generation.

Note Link selection only applies to CBR and VBR connections. Preference is in the order of minaw, maxavcr, txspeedmax, and load-balance in case the configuration options on links disagree. In case of equal value, link is selected randomly.

For ABR and UBR connections, link is selected depend on (AvCR for ABR + AvCR for UBR)/(# of ABR connections + # of UBR connections)

Syntax Description

cnfpnni-mtu

Use the cnfpnni-mtu command to configure the maximum PNNI packet size in number of bytes.

Syntax Description

cnfpnni-node

Use th ecnfpnni-node command to configure a PNNI node.

The node must be put into administratively disable status, before changing its ATM address, Node ID, peer group ID, or hierarchical level.

Note   When administratively disabling a PNNI logical node, all nodes at higher hierarchies must be administratively disabled first.

Syntax Description

cnfpnni-pkttrace

Use this command to trace the PNNI Packet on a per level per link basis.

Syntax Description

cnfpnni-pkttrace <-tx { on | off }><-rx { on | off }> [ node-index] [ -portId port-id] 
[-svcIndex svc-index]

-rx or tx	The direction of packet flow, i.e. are packets received or transmitted.
node-index	The node index assigned to a PNNI logical node.
-portId	The logical Port Identifier of the port on which the packet trace has to be turned on or off. .
-svcIndex	The SVC Index of the SVC based RCC on which the packet trace has to be turned on or off.

Examples

cnfpnni-pkttrace tx on 1 -portId 197120 
cnfpnni-pkttrace tx on 2 -svcIndex 14 
cnfpnni-pkttrace rx on 2 

cnfpnni-routing-policy

Use the cnfpnni-routing-policy command to configure the routing policies used in background routing tables generation, loadbalancing, and on demand routing.

Syntax Description

cnfpnni-scope-map

Use the cnfpnni-scope-map command to configure the scope map table.

Syntax Description

cnfpnni-svcc-rcc-timer

Use the cnfpnni-svcc-rcc-timer command to define the initial PNNI SVCC-based variables for a specified PNNI logical node in this switching system.

Syntax Description

cnfpnni-timer

Use the cnfpnni-timer command to define the initial PNNI timer values and significant change thresholds of a PNNI logical node in this switching system.

cnfpnportacc

Use the cnfpnportacc command to configure/modify an address access filter group for a port.

Syntax Description

Usage Guidelines

Use the dsppnport command to view the access filter group configuration for a port.

cnfpnportcac

Use the cnfpnportcac command to set CAC policy parameters for a specified port. The new configuration will apply to new incoming calls while existing calls remain intact. This command can be used regardless of the state of the port. At least one keyword must be specified. The bookfactor is interpreted as percentage utilization, and applied in CAC. The booking factor is not applied to AvCR advertised by the switch to the controller. When the default of maxbw and minbw is used for all service categories, the common AvCR is to be advertised for all the service categories. The booking factor is applied to AvCR advertised by the PNNI to its neighbour nodes.

Syntax Description

cnfpnportcc

Use the cnfpnportcc command to set call control parameters for a specified port. At least one keyword must be specified. This command can be used regardless of the state of the port. The new configuration will apply to new incoming calls while existing calls remain intact.

Syntax Description

cnfpnportrange

Use the cnfpnportrange command to set VPI values for SVCC and SVPC on a specified port. This command can only be used when a port is administratively down (by dnpnport). At least one keyword must be specified. The maxsvccvpi is defaulted to 4095 to allow a maximum negotiation advantage during ILMI auto-configuration. Moreover this value is limited by the high vpi value given by the switch irrespective of the port type (uni/nni).

Syntax Description

Examples

cnfpnportsig

Use the cnfpnportsig command to set ATM signaling parameters on a specified port. This command can only be used when a port is administratively down (by dnpnport). At least one keyword must be specified. The parameters univer and nniver are mutually exclusive and determine the port type either as uni or nni respectively. For UNI port on the controller, the port on BPX switch must be configured as a UNI port. For IISP port on the controller, the port on the switch must be configured as UNI port. For PNNI port on the controller, the port on the switch must be configured either as NNI port or trunk.

Syntax Description

cnfpnportsig <portid> [-univer <uni30 | uni31 | uni40|none>] [-nniver <iisp30 | iisp31 | pnni10 | enni>][-unitype <public | private>][-addrplan <both | aesa | e164>] [-side <user|network.>][-vpi <vpi>][-sigvci <signaling-vci>] [-rccvci <routing-vci>]

portid	Interface ID in the form of [shelf.]slot[:subslot].port[:subport].
univer	UNI protocol version, either uni30, uni31 uni40, or none. Default = uni31
nniver	NNI protocol version, either iisp30, iisp31, pnni10 or enni (enhanced nni, for future use). Default = pnni10
unitype	The type of the ATM device, either private or public. Default = private.
addrplan	The address plan supported in this interface.Applies only to a public interface. Default = both (for public), aesa (for private)
side	The role—either user or network—of the port. This parameter is only applicable if it is an IISP port. Default = network
vpi	The signaling and RCC VPI for the port, in the range 0-4095. Default = 0.
sigvci	The signaling VCI for the port, in the range 32-65535. Default = 5.
rccvci	The VCI used for PNNI RCC, in the range 32-65535. Default = 18.
-cntlvc	The LVC used for the port.

cnfrrtparm

Use the cnfrrtparm command to configure global reroute retry parameters for SPVC.

Syntax Description

cnfrrtparm [-slowtmr <slow-retry-interval>] [-fasttmrbase <fast-retry-interval-base>]

slowtmr	Specifies the slow call retry frequency in seconds. The range is 1 to 65535. The default is 60 seconds.
fasttmrbase	Specifies the fast call retry base in seconds. The range is 1 to 3600. The default is 5 seconds.

Examples

orses18.1.PXM.a > cnfrrtparm -slowtmr 70

cnfrteopt

Use the cnfrteopt command to enable/disable route optimization on a port.

Syntax Description

cnfrteopt <portid> {enable | disable} [-range <starting-vpi/vci..ending-vpi/vci>] [-interval <interval>] [-tod <start-time..end-time>]

portid	Specifies the port id of a port for which route optimization is configure, in the form of [shelf.]slot[:subslot].port[:subport]..
enable	Enable route optimization for the specified port.
disable	Disable route optimization for the specified port. This is the default.
range	Specifies a range of SPVCs to receive route optimization. starting-vpi/vci and ending-vpi/vci are in VPI/VCI format. The ending vpi/vci must be greater than or equal to the starting vpi/vci. If no range is specified, then all active SPVCs on the port will be considered, or use the option all to specify all SPVCs on the port should be considered.
interval	Specifies the frequency of route optimization in minutes. The range is 10 to 10000. The default is 60 minutes.
tod	Specifies the time range during which route optimization can occur. anytime represents a 24-hour time range. The default time range is anytime.

Note   Only one SPVC range is supported. The newly entered range will replace the old range. Same is true for the time range.

Examples

Example 1: To enable route optimization for all SPVCs on port 1.4 with default parameters
svcpop4.1.PXM.a > cnfrteopt 1.4 enable
 Example 2: To enable route optimization for specific SPVCs with parameters other than 
default.
svcpop4.1.PXM.a > cnfrteopt 1.4 enable -range 1/40..10/1000 -interval 45 -tod 
23:00..23:30
 

cnfrteoptthld

Use the cnfrteoptthld command to specify the percentage reduction in the administrative weight of the existing path required to trigger route optimization.

Syntax Description

cnfrteoptthld <percent>

percent

Specifies the route-optimization threshold in percent from 5 to 100. Default is 30.

Examples

svcpop4.1.PXM.a > cnfrteoptthld 50

cnfsig

Use the cnfsig command to configure signaling timers for a port. At least one keyword must be specified. This command can be used regardless of the state of the port. The new configuration will apply to new incoming calls while existing calls remain intact.

Syntax Description

cnfsscop

Use the cnfsscop command to set SSCOP parameters for a specified port. At least one keyword must be specified. This command can be used regardless of the state of the port.

Syntax Description

cnfsvcthld

Use the cnfsvcthld command to set global SVC thresholds for the node. At least one keyword must be specified.

Two levels of congestion management are provided—at port level and at node level.

• Port level congestion control is required to prevent overwhelming a particular port with large number of requests. This would depend on the current load a particular card on which the port resides.

• Node level congestion prevents the system from getting overstressed. There is no one to one relation between port level and node level congestion parameters, but roughly speaking the range varies from 3:1 to 5:1 if, for example, a port is tuned to accept a high of 30 call per second, the node level high would be from 90 to 150 calls per second.

Use cnfpnportcc command to configure port level congestion thresholds.

Use the cnfnodalcongth commands to configure node level congestion thresholds.

Syntax Description

conntrace

Use the conntrace command to trace an established connection which includes a soft pvc connection. The result will be displayed on the screen.

Syntax Description

conntrace <portid> [-callRef ] [-endptRef] [-vpi][-vci]

portid	Specifies the port id for the soft pvc in the form of [shelf.]slot[:subslot].port[:subport]..
callRef	Specifies the call reference for the soft pvc.
endptRef	Endpoint reference for a point-to-multipoint call. If no endpoint reference is specified, this is a point-to-point call.
vpi	Vpi value of connection endpoint
vci	Vci value of connection endpoint

Examples

Result:Succ/Fail Reason: "Desc"

InterfaceId: "--" EndptRef: "--"

Originating Interface VPI: "--"

Originating Interface VCI: "--"

Originating Interface CallRef: "--"

NodeId Egress Port Vpi Vci CallRef PhysPortid

XXXX ZZZZ aaa bbb cccc eeee

XXXX ZZZZ aaa bbb cccc eeee

Terminating Interface VPI: "--"

Terminating Interface VCI: "--"

Terminating Interface CallRef: "--"

deladdr

Use deladdr to delete an ATM address on a port.

Syntax Description

delcon

Use the delcon command to delete a configured endpoint.

Syntax Description

delcon <portid> <vpi> <vci>

portid	Interface number.
<vpi>	VPI assigned to the endpoint. For a UNI interface this can take a value between 1 and 255. For a NNI interface this can take a value between 1 and 4095
<vci>	VCI assigned to the endpoint. In case of a VCC connection this takes a value between 32 and 65535. For a VPC connection this is specified as 0.

Examples

delcon 1 1 100
 

delconsegep

Use the delconsegep command to remove a segment endpoint on a connection. When both vpi and vci are present, the segment endpoint is a F5 flow endpoint (for VCCs). When the optional vci is not present, the segment endpoint is a F4 flow endpoint (for VPCs).

Syntax Description

delfltset

Syntax Description

Use the delfltset command to delete an ATM address filter set. If the index is specified, the address entry in the filter set corresponding to the index is removed. If no index is specified, the filter set and all the address entries contained in it are removed.

delpnni-node

Use the delpnni-node command to delete a PNNI node. When deleting a PNNI logical node, all nodes at higher hierarchies must be deleted first.

Syntax Description

delpnni-summary-addr

Use the delpnni-summary-addr command to remove a PNNI summary address.

Syntax Description

delpnni-summary-addr <node-index address-prefix prefix-length>

node-index	Node index assigned to a PNNI logical node operating on a switching systems.
address-prefix	ATM address prefix assigned to the local switching system.
prefix-length	Length of the addres-prefix, in number of bits, equal to or less than 152 bits. Note   Zero-length summary address is not currently supported.
type	Type of summary address, as either internal or external. Default = internal
suppress	Indicates whether to advertise (false) or not advertise (true) the summary address.

delpnport

Use the delpnport command to remove a specified UNI or NNI port. This command is used to remove a port from the controller. It is allowed only if the PNNI port does not exist on the switch i.e, the PNNI partition associated with the port is removed. In Plug and Play Scenario, if no provisioning activity is done on the port from the controller, then removing the PNNI Partition on the switch will automatically remove the PNNI port on the controller.

Syntax Description

delpnport <portid>

delpnportacc

Use the delpnportacc command to delete an address access filter group for a port.

Syntax Description

delprfx

Use the delprfx command to remove an ILMI address prefix associated with a UNI.

Syntax Description

disablesscop

Use the disablesscop command to enable/disable SSCOP on a port. This command can only be used when a port is administratively down (by dnpnport).

Syntax Description

dncon

Use the dncon command to down a connection. If the connection is routed, it will be derouted.

Syntax Description

dncon <portid> <vpi> <vci>

portid	Interface Number. Can be in the range of 1...60.
vpi	Specify the starting VPI to view active calls starting from the specified VPI of the specified port. This parameters can only be used if port is specified.
vci	Specify the starting VCI to view active calls starting from the specified VPI/VCI of the specified port. This parameters can only be used if vpi is specified.

Examples

dncon 1 1 100
Admin state of connection is DOWN
 

dnpnport

Use the dnpnport command to take a specified UNI or NNI port out of service on the controller (administratively `down' on the controller). This command is used to bring a port out of service for provisioning and maintenance activity. For example, the port needs to be down to change some of the port configuration parameters which are service affecting.

Syntax Description

dnpnport <portid>

portid

Identifies the port to be downed.

Examples

pswpop5.2.PXM.a > dnpnport 11.5

dspabrtparmdft

Use the dspabrtparmdft to display default ABR traffic parameters used by a port to set up ABR SPVCs.

Syntax Description

dspabrtparmdft <portid>

portid

Specifies the port to be configured.

Examples

popeye20.1.7.PXM.a > dspabrtparmdft 3.1

Default ABR Traffic Parameters For: 3.1

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

RIF : 7 (= 1/512)

RDF : 4 (= 1/4096)

TBE : 1048320 (Cells)

NRM : 5 (= 32 Cells)

TRM : 8 (= 100 msec)

ADTF: 50 (= 0.50 Sec)

CDF : 7 (= 1/2)

FSD : 0 (microSec)

dspaddr

Use the dspaddr command to view ATM addresses and associated information, such as address plan and scope, for a UNI or IISP.

Syntax Description

Examples : Output

dspaddr 1.1
 
14085252222
length: 11     type: internal      proto: local
scope: 0       plan: e164          redistribute: false
 
47.0091.8111.11
length: 48     type: internal      proto: local
scope: 0       plan: nsap_icd      redistribute: false
47.0091.8100.0000.1122.3344.5566.6655.4433.2211.00
length: 160    type: internal      proto: local
scope: 0       plan: nsap_icd      redistribute: false

dspatmaddr

Use thedspatmaddr command to view all active ATM addresses for a port. The output includes configured ATM addresses, configured ILMI address prefixes, and ATM addresses registered via ILMI address registration procedure.

Examples : Output

Port Id: 2.1
Configured Port Address(es):
	 39.8401.8011.3744.0000.0040.1005.3456.7834.7777.77
 	88.8888.8888.0000.0000.0000.0000.0000.0000.5151.00
 
ILMI Configured Port Prefix(es):
 	47.0091.8100.0000.0000.0ca7.9e01
 	88.8888.8888.0000.0000.0000.0000
 
ILMI Registered Port Address(es):
	47.0091.8100.0000.0000.0ca7.9e01.1234.5678.9012.34
 	88.8888.8888.0000.0000.0000.0000.1234.5678.9012.34
 
LECS Address(es):
 	47.0091.8100.0000.0000.0ca7.9e01.4000.0c81.9030.01
 	47.0091.8100.0000.0000.0ca7.9e01.4000.0c81.9030.02

dspcdvtdft

Use the dspcdvtdft command to view the default CDVT set for a specified port.

Syntax Description

Examples : Output

	cbr:	rt-vbr:	nrt-vbr:	ubr;	abr;
CDVT:	250000	250000	250000	250000	250000

dspcon

Use the dspcon command to display a summary of soft pvc connections on a specific port or all ports. This command only applies to endpoint nodes.

Syntax Description

dspcon <portid> <vpi> <vci>

portidshelf	Specifies the port id for the soft pvc.
vpi	Specifies the VPI for the soft pvc.
vci	Specifies the VCI for the soft pvc. If no VCI is specified, this is a SPVP connection.

Examples

Non-ABR SPVC

svcswp20.1.7.PXM.a > dspcon 3:1.5:1 1 100
 
Port                   Vpi Vci                         Owner      State 
-------------------------------------------------------------------------
Local  3:1.5:1       1.100                           MASTER     OK        
       Address: 47.00918100000000107bc15348.000000030500.00
Remote 3:1.1:1       1.100                           SLAVE      OK        
       Address: 47.00918100000000107bc15348.000000030100.00
 
-------------------- Provisioning Parameters -------------------- 
Connection Type: VCC          Cast Type: Point-to-Point      
Service Category: UBR         Conformance: UBR.1     
Bearer Class: BCOB-X    
Last Fail Cause: SPVC Established                 Attempts: 1
Continuity Check: Disabled    Frame Discard: Disabled 
L-Utils: 100   R-Utils: 100   Max Cost: -1    Routing Cost: 0
 
---------- Traffic Parameters ----------
Tx PCR:  50             Rx PCR:  50        
Tx SCR:  50             Rx SCR:  50        
Tx MBS:  1024           Rx MBS:  1024      
Tx CDVT: 250000         Rx CDVT: 250000    
Tx CDV:  -1             Rx CDV:  -1        
Tx CTD:  -1             Rx CTD:  -1 
 
Type <CR> to continue, Q<CR> to stop:

------- SES Parameters only ----------

Tx AIS:0 Rx AIS:0 Rx Abit:0

lpbk_type :Non Destructive

lpbk_dir :forward - tstdelay

lpbk_status :Success

round trip delay:2000 usec

Stats           :Disabled 

Field	Description
all that display in dspcons	same as described in dspcons
AggAdminWt	Aggregate administrative weight of the current route.
LastFailCause	The cause of the last route failure. All causes are conformed to PNNI 1.0 Signalling.
#RrtAttempts	Number of retry attempts.
Provisioning Parameters	Provisioning parameters that are passed in from the service module to the PNNI controller via VSI Passthru.

ABR SPVC

popeye20.1.7.PXM.a > dspcon 3:1.1:1 10 100
 
Port                   Vpi Vci                         Owner      State 
-------------------------------------------------------------------------
Local  3:1.1:1       10.100                          SLAVE      FAIL      
       Address: 47.00918100000000107bc15348.000000030100.00
Remote Routed 			MASTER     FAIL      
       Address: 47.00918100000000107bc15348.000000030100.00
 
-------------------- Provisioning Parameters -------------------- 
Connection Type: VCC          Cast Type: Point-to-Point      
Service Category: ABR         Conformance: ABR       
Bearer Class: BCOB-X    
Last Fail Cause: Invalid SPVC cause               Attempts: 0
Continuity Check: Disabled    Frame Discard: Disabled 
L-Utils: 0     R-Utils: 0     Max Cost: 0     Routing Cost: 0
 
---------- Traffic Parameters ----------
Tx PCR:  50             Rx PCR:  50        
Tx SCR:  50             Rx SCR:  50        
Tx MBS:  1024           Rx MBS:  1024      
Tx CDVT: 250000         Rx CDVT: 250000    
Tx CDV:  -1             Rx CDV:  -1        
Tx CTD:  -1             Rx CTD:  -1 
---------- ABR Traffic Parameters ----------
Tx MCR:  0              Rx MCR:  0         
Tx ICR:  50             Rx ICR:  50        
Tx RIF:  7              Rx RIF:  7         
Tx RDF:  7              Rx RDF:  7         
Tx TBE:  1048320        Rx TBE:  1048320   
Tx NRM:  5              Rx NRM:  5         
Tx TRM:  8              Rx TRM:  8         
Tx CDF:  7              Rx CDF:  7         
Tx ADTF: 50             Rx ADTF: 50        
Tx FRTT: 0              Rx FRTT: 0 
 
Type <CR> to continue, Q<CR> to stop:

------- SES Parameters only ----------

Tx AIS:0 Rx AIS:0 Rx Abit:0

lpbk_type :Non Destructive

lpbk_dir :forward - tstdelay

lpbk_status :Success

round trip delay:2000 usec

Stats           :Disabled 

dspconinfo

Use the dspconinfo command to display the total number SPVCs on each PNNI port on the node.

Syntax Description

dspconinfo [-port PortID]
 


 portid
 Interface number.



 

Examples

spirit11.1.1.PXM.a > dspconinfo 

 
 
Local Port    #Active      #Fail   #AISFail  #ABITFail     #Total
----------------------------+-----------------------------+-------
2.7              3328          0          0          0       3328
3.3              3328          0          0          0       3328
3.4              3408          0          0          0       3408
3.5              3328          0          0          0       3328
3.6              3328          0          0          0       3328
5.1              3328          0          0          0       3328
5.2              3328          0          0          0       3328
5.3              3328          0          0          0       3328
5.5              3328          0          0          0       3328
 
spirit11.1.1.PXM.a > 

dspcons

Use the dspcons command to display a summary of soft pvc connections on a specific port or all ports. This command only applies to endpoint nodes.

Syntax Description

dspcons <portid> [-vpi starting-vpi] [-vci starting-vci] [-state {fail | ok | down|ais}] [-owner {master | slave}]

port	Specifies the port id. If no port is specified, a summary of soft pvc connections for all ports are displayed.
vpi	Specifies the starting VPI. Display soft pvc connections starting from the specified VPI of the specified port. This parameter can only be used if port is specified.
vci	Specifies the starting VCI. Display soft pvc connections starting from the specified VPI/VCI of the specified port. This parameter can only be used if vpi is specified.
state	Specifies the routing state. Only connections of the specified routing state are displayed. fail = unrouted ok = routed down = downed ais = routed
owner	Specifies the end (master or slave) of the connection in control of re-routing. Only connections of the specified end are displayed.

Examples

popeye20.1.7.PXM.a > dspcons

 
Local Port         Vpi.Vci   Remote Port        Vpi.Vci    State   Owner
----------------------------+-----------------------------+-------+------
3:-1.1:-1           1 100    3:-1.5:-1           1 100     OK      SLAVE 
Local  Addr: 47.00918100000000107bc15348.000000030100.00
Remote Addr: 47.00918100000000107bc15348.000000030500.00
3:-1.1:-1           1 101    10:-1.1:-1          1 100     OK      MASTER
Local  Addr: 47.00918100000000107bc15348.000000030100.00
Remote Addr: 47.00918100000000107bc15348.0000000a0100.00
3:-1.1:-1           1 102    10:-1.1:-1          1 101     OK      MASTER
Local  Addr: 47.00918100000000107bc15348.000000030100.00
Remote Addr: 47.00918100000000107bc15348.0000000a0100.00
3:-1.1:-1           1 103    10:-1.1:-1          1 102     OK      MASTER
Local  Addr: 47.00918100000000107bc15348.000000030100.00
Remote Addr: 47.00918100000000107bc15348.0000000a0100.00
3:-1.1:-1           1 104    10:-1.1:-1          1 103     OK      MASTER
Local  Addr: 47.00918100000000107bc15348.000000030100.00
Remote Addr: 47.00918100000000107bc15348.0000000a0100.00
3:-1.1:-1           1 105    10:-1.1:-1          1 104     OK      MASTER
Local  Addr: 47.00918100000000107bc15348.000000030100.00
Remote Addr: 47.00918100000000107bc15348.0000000a0100.00
3:-1.1:-1           1 106    10:-1.1:-1          1 105     OK      MASTER

Note   Type <CR> to continue, Q<CR> to stop.

Field	Description
Local Port	The physical id of the port (Local).
VPI	The number of the virtual path identifier (local).
VCI	The number of the virtual channel identifier (Local).
Remote Port	The physical id of the port at the other end.
VPI	The number of the virtual path identifier at the other end.
VCI	The number of the virtual channel identifier at the other end.
State	The routing state of the connection.(OK/DOWN/FAIL)
Owner	The end of the connection in control of re-routing.(Master/Slave)
Local Addr	The AESA address of Local end of the connection.
Remote Addr	The AESA address of the Remote end of the connection.
Local Port	The physical id of the port (Local).

dspconsegep

Use the dspconsegep command to view an OAM segment endpoint for a connection endpoint. When both vpi and vci are present, the segment endpoint is a F5 flow endpoint (for VCCs). When the optional vci is not present, the segment endpoint is a F4 flow endpoint (for VPCs). This command is used only for established calls.

Syntax Description

 


 vpi
 The vpi of the connection

 vci
 The vci of the connection

dspenhiisp

Use the dspenhiisp command to view the enhanced IISP setting for a specific port or all ports.

Syntax Description

Examples : Output

Enhanced IISP Features Setting
 Port Id     Enabled
 <portid1>   yes
 <portid2>   no
 ...

dspfltset

Use the dspfltset command to display a specific ATM filter set or a summary of ATM filter sets.

Syntax Description dspfltset [filter-set-name]

name	Indicates the name of the filter set to present. If no filter set name is specified, a summary of ATM filter sets is displayed.

dspfltset [-name]

Examples : Output

dspfltset -name SanJose
FilterName: SanJose
Index: 1
Address: 1234567890123456789012345678901234567890
AddrLen: 160 bits
AddrPlan: Nsap
AccessMode: Permit
AddrList: Calling Party List
---------------------------------------
FilterName: SanJose
Index: 2
Address: 1800
AddrLen: 16 bits
AddrPlan: E164
AccessMode: Permit
Filter Address Type : NSAP Prefix
AddrList: Called Party List
---------------------------------------
 
Output example for the command dspfltset:
dspfltset
Filter Number: 1
FilterName: SanJose
CgPtyAbsentAction: Permit
CdPtyAbsentAction: Permit
---------------------------------------
Filter Number: 2
FilterName: sunnyvale
CgPtyAbsentAction: Permit
CdPtyAbsentAction: Permit

dspilmiaddr

Use the dspilmiaddr command to view ATM address(es) registered by the peer via ILMI address registration procedure.

Syntax Description

Examples : Output

ILMI Registered Port Address(es):
   47.0091.8100.0000.0000.0ca7.9e01.1234.5678.9012.34
   88.8888.8888.0000.0000.0000.0000.1234.5678.9012.34

dspintfcongcntr

Use the dspintfcongcntr command to view the current configuration of the congestion thresholds for a specified port.

Note   The dspintfcongcntr command cannot be used if the interface is in PROVISIONING state.

Syntax Description

Examples : Output

Parameter Value thresh1 thresh2

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

setupRx 0 90 105

unackstatenq 0 40 100

Parameter Value Mild Medium Severe

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

vsiqdepth                 0             5      10      20

Note   vsiqdepth is the depth of the vsi queue for the slave that serves the interface, identified by <portid>, which is displayed as the percentage of VSI communication window size.

dspintfcongflags

Use the dspintfcongflags command to view various congestion detection and action flags maintained at the CCM at interface level.

Syntax Description

Examples : Output

Congestion Detection Flags for Interface:10.2

Parameter Value

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

vsimildcongflg FALSE

vsimedcongflg FALSE

vsiseverecongflg FALSE

setupflg FALSE

unackstatenqcongflg FALSE

Congestion Action Flags for Interface:10.2

Parameter Value

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

dropsetupflg FALSE

dropestabflg FALSE

queuerel FALSE

markcallsforrelflag FALSE

pacevsiresyncflg FALSE

pacestatenqflg FALSE

speedjournalflg FALSE

pacepnniroutecalflg FALSE

lowersetupthflg           FALSE
 
	

dspintfcongth

Use the dspintfcongth command to view the current configuration of the congestion thresholds for a specified port.

Syntax Description

Examples : Output

Congestion Thresholds for port :10.3

Parameter Value unit

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

setuphi 105 cps

unackedStatEnqLo 40 messages

unackedStatEnqHi     100          messages

dspmbsdft

Use the dspmbsdft command to view the default MBS currently configured for a specified port.

Syntax Description

Examples : Output

	rt-vbr:	nrt-vbr:
MBS:	1024	1024

dspnodalcongflags

Use the dspnodalcongflags command to view various congestion detection and action flags maintained at the CCM at nodal level.

Syntax Description

Examples : Output

Nodal Congestion Detection Flags are

espses3.1.PXM.a > dspnodalcongth

Parameter Value

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

memflg FALSE

ipcflg FALSE

sarflg FALSE

remstatenqflg FALSE

incompjournalingflg FALSE

setupflg FALSE

connpendingflg FALSE

connswitchoverflg FALSE

conntrfparmflg FALSE

conntrfabrflg FALSE

Nodal Congestion Action Flags are

Parameter Value

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

dropsetupflg FALSE

dropestabflg FALSE

queuerel FALSE

markcallsforrelflag FALSE

pacevsiresyncflg FALSE

pacestatenqflg FALSE

speedjournalflg FALSE

pacepnniroutecalflg FALSE

lowersetupthflg FALSE

dspnodalcongth

Use the dspnodalcongth command to view current configuration of the nodal congestion thresholds.

Syntax Description

Examples : Output

Nodal Congestion Thresholds:

espses3.1.PXM.a > dspnodalcongth

Parameter Value Unit

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

setuphi(prov) 105 cps

setuphi(curr) 105 cps

statenqlo 100 cps

statenqhi 200 cps

connpendinglo 400 messages

connpendinghi 500 messages

incompjournalhi 5 cycles

vsiqdepthmild 5 multiplier

vsiqdepthmedium 10 multiplier

vsiqdepthsevere 20 multiplier

dspoamsegep

Use the dspoamsegep command to view the segment endpoint for F4 and F5 OAM flow on a specified port.

Syntax Description

Examples : Output

Port	OAM End Point
2.3	Yes

dsppncon

Use the dsppncon command to view information for an active call. The displayed call information corresponds to the objects described in the portCallTable and portAbrCallTable MIBs. This command can be issued at any node in the route path.

Syntax Description

Examples : Output

Non-ABR Call:

Port: 5.3   VPI: 33 VCI: 44
CallRef: <call-id>    CallLeafRef: <leaf-id> 
Calling-address: <calling AESA address>
Calling-subaddress: <calling AESA sub-address>
Called-address: <called AESA address>
Called-subaddress: <called AESA sub-address>
OE port: <oe_port_id>    OE VPI: <oe_vpi>   OE VCI: <oe_vci>
OE callRef: <oe_callid>
Call-start-time: <timestamp>
Connection-type: SVC    Cast-type: point-to-point    Bearer-class: <bc>
Service-category: CBR   Call-clipping-susceptibility: no
Tx conformance: CBR.1               Rx conformance: CBR.1
Tx pcr: <tx pcr>                    Rx pcr: <rx pcr>
Tx scr: <tx scr>                    Rx scr: <rx scr>
Tx mbs: <tx mbs>                    Rx mbs: <rx mbs>
Tx cdvt: <tx cdvt>                  Rx cdvt: <rx cdvt>
Tx frame-discard-option: disable    Rx frame-discard-option: disable
Max ctd: <max ctd>
Max Tx cdv: <max tx cdv>            Max Rx cdv: <max rx cdv>
Max Tx clr: <max tx clr>            Max Rx clr: <max rx clr>
 

ABR Call

Port: 5.3  VPI: 100  VCI: 200
CallRef: <call-id>    CallLeafRef: <leaf-id>
Calling-address: <calling AESA address>
Calling-subaddress: <calling AESA sub-address>
Called-address: <called AESA address>
Called-subaddress: <called AESA sub-address>
OE port: <oe_port_id>    OE VPI: <oe_vpi>   OE VCI: <oe_vci>
OE callRef: <oe_callid>
Call-start-time: <timestamp>
Connection-type: SVC    Cast-type: point-to-point   Bearer-class: <bc>
Service-category: ABR   Call-clipping-susceptibility: no
Tx conformance: ABR
Tx pcr: <tx pcr>                    Rx pcr: <rx pcr>
Tx mcr: <tx mcr>                    Rx mcr: <rx mcr>
Tx icr: <tx icr>                    Rx icr: <rx icr>
Tx rif: <tx rif>                    Rx rif: <rx rif>
Tx rdf: <tx rdf>                    Rx rdf: <rx rdf>
Tx tbe: <tx tbe>                    Rx tbe: <rx tbe>
Tx nrm: <tx nrm>                    Rx nrm: <rx nrm>
Tx trm: <tx trm>                    Rx trm: <rx trm>
Tx adtf: <tx adtf>                  Rx adtf: <rx adtf>
Tx cdf: <tx cdf>                    Rx cdf: <rx cdf>
Tx frame-discard-option: disable    Rx frame-discard-option: disable
Frtt: <frtt>                        Max ctd: <max ctd>
Max Tx cdv: <max tx cdv>            Max Rx cdv: <max rx cdv> 
Max Tx clr: <max tx clr>            Max Rx clr: <max rx clr>

dsppncons

Use the command to view a summary of active calls on a specific port or all ports. This command can be issued at any node.

Examples :Output

Port		VPI	VCI	CallRef	X-Port	VPI	VCI 	CallRef Type OAM-Type
5.3		0	32	1	3.2	0	32	1	MTP 	No
Calling-Addr: <clg AESA addr>
Called-Addr: <cld AESA addr>
5.3		0	33	2	3.2	0	33	2	MTP	No
Calling-Addr: <clg AESA addr>
Called-Addr: <cld AESA addr>
5.3		0	34	3	3.2	0	34	3	MTP	No
Calling-Addr: <clg AESA addr>
Called-Addr: <cld AESA addr>
...
5.4		0	41	10	3.8	0	41	10	PTP	Yes
Calling-Addr: <clg AESA addr>
Called-Addr: <cld AESA addr>
5.4		0	42	11	3.8	0	42	11	PTP	Yes
Calling-Addr: <clg AESA addr>
Called-Addr: <cld AESA addr>

...

Port	The physical id of the specified port.
VPI	The number of the virtual path identifier.
VCI	The number of the virtual channel identifier.
CallRef	The call reference number.
X-Port	The physical id of the cross-connected value for the port.
(X-)VPI	The number of the cross-connected value of the virtual path identifier.
(X-)VCI	The number of the cross-connected value of the virtual channel identifier.
(X-)CallRef	The call reference number of the other port.
Type	The cast type.
Calling-Addr	The NSAP address of the calling party of the call.
Called-Addr	The NSAP address of the called party of the call.

dsppnconstats

Use the dsppnconstats command to display call statistics for a port.

Syntax Description

Examples : Output

Call Statistics for <portid>
Incoming Call Attempts:				0	Outgoing Call Attempts:				0
Incoming Call Success:				0	Outgoing Call Success:				0
Incoming Call Failures:				0	Outgoing Call Failures:				0
Incoming Filtering Failures:				0	Outgoing Filtering Failures:				0
Incoming Routing Failures:				0	Outgoing Routing Failures:				0
Incoming CAC Failures:				0	Outgoing CAC Failures:				0
Incoming Timer Failures:				0	Outgoing Timer Failures:				0
Incoming Crankback Failures:				0	Outgoing Crankback Failures:				0	
 


 Incoming Call Attempts
 The number of incoming signaling messages (setup and add party) received on this port for call establishment.

 Incoming Call Success
 The number of incoming signaling messages (connect and add party ack) received on this port, which indicate successful call establishment.

 Incoming Call Failures
 The number of incoming poinkt-to-point and point-to-multipoint SVC/SPVC call attempts that failed on this port.

 Incoming Call Filtering Failures
 The number of incoming point-to-point and point-to-point SVC/SPVC call attempts that failed the address filtering on this port.

 Incoming Routing Failures
 The number of incoming point-to-point and point-to-multipoint SVC/SPVC call attempts that failed on this port because there was no route to the destination.

 Incoming CAC Failures
 The number of incoming point-to-point and point-to-multipoint SVC/SPVC call attempts that failed on this port because there were not enough resources as requested in the traffic parameters of the call.

 Incoming Timer Failures
 The number of signaling timers that timed out on incoming point-to-point and point-to-multipoint SVC/SPVC calls received on this port.

 Incoming Crankback Failures
 The number of crankback IEs received on this port for incoming point-to-point and point-to-multipoint SVC/SPVC call attempts.

 Outgoing Call Attempts
 The number of outgoing signaling messages (setup and add party) sent from this port for call establishment.

 Outgoing Call Success
 The number of outgoing signaling messages (connect and add party ack) sent from this port, which indicate successful call establishment.

 Outgoing Call Failures
 The number of outgoing point-to-point and point-to-multipoint SVC/SPVC call attempts that failed on this port.

 Outgoing Call Filtering Failures
 The number of outgoing point-to-point and point-to-multipoint SVC/SPVC call attempts that failed the address filtering on this port.

 Outgoing Routing Failures
 The number of outgoing point-to-point and point-to-multipoint SVC/SPVC call attempts that failed on this port because there was no route to the destination.

 Outgoing CAC Failures
 The number of outgoing point-to-point and point-to-multipoint SVC/SPVC call attempts that failed on this port because there were not enough resources as requested in the traffic parameters of the call.

 Outgoing Timer Failures
 The number of signaling timers that timed out on outgoing point-to-point and point-to-multipoint SVC/SPVC calls sent from this port.

 Outgoing Crankback Failures
 The number of crankback IEs sent from this port for outgoing signaling release messages.

dsppnctlvc

Use the dsppnctlvc command to display configuration of the control VC parameters.

Syntax Description dsppnctlvc <portid>

dsppnctlvc <portid>

Examples

dsppnctlvc 10.3
vc type = pnnircc
service category : vbr-nrt PCR : 906
SCR : 453 MBS : 171
vc type = sscop
service category : vbr-nrt PCR : 1500
SCR : 900 MBS : 250

dsppnilmi

Use the dsppnilmi command to view the current ILMI service configuration for a specified port.

Syntax Description

Examples : Output

orses17.1.PXM.a > dsppnilmi 9.2

Port: 9.2 Port Type: PNNI Side: symmetric

Autoconfig: enable UCSM:disable

Secure Link Protocol: disable

Change of Attachment Point Procedures: enable

Modification of Local Attributes Standard Procedure: enable

Addressreg: Permit All

VPI: 0 VCI: 16

Max Prefix: 16 Total Prefix: 0

Max Address: 64 Total Address: 0

Resync State: 4 Node Prefix:yes

Peer Port Id: 590080 System_Id :56.52.52.49.48.56

Peer Addressreg: enable

ILMI Link State :UpAndNormal

ILMI Configured Port Prefix(es):
47.0091.8100.0000.0000.0ca7.9e01
88.8888.8888.0000.0000.0000.0000
 

dsppnni-bn-path

Use the dsppnni-bn-path command to display the PNNI border node paths calculated by a PGL node in a given peer group. The node-index specifies the PGL node implemented on this switching system. This is used for debug purpose.

Syntax Description

Examples :
CLI Output

node index: 1
   Source node number...        2     Dest node number.....        37
   Source node id........0:0:00.000000000000000000000000.000000000000.00
   Dest node id..........0:0:00.000000000000000000000000.000000000000.00
 
                 CBR    RTVBR   NRTVBR      ABR      UBR
              ------   ------   ------   ------   ------
     AW         5040     5040     5040     5040     5040
     MCR           0        0        0        0        0
     AvCR     100000   100000   100000   100000   100000
     CTD           0        0        0        0        0
     CDV           0        0        0        0        0
     CLR0          0        0        0        0        0
     CLR0+1        0        0        0        0        0
     CRM          10       10       10       10       10
     VF            5        5        5        5        5

dsppnni-bypass

Use the dsppnni-bypass command to view the PNNI bypass table for a LGN using complex node representation in a given peer group.

The node-index specifies the LGN implemented on this switching system.This is used for debug purpose.

Syntax Description

Examples :
CLI Output

node index: 1
   Input portId........       376     Output portId........       399
   Ptse id.............        12     Flags................        a3
 
                 CBR    RTVBR   NRTVBR      ABR      UBR
              ------   ------   ------   ------   ------
     AW         5040     5040     5040     5040     5040
     MCR           0        0        0        0        0
     AvCR     100000   100000   100000   100000   100000
     CTD           0        0        0        0        0
     CDV           0        0        0        0        0
     CLR0          0        0        0        0        0
     CLR0+1        0        0        0        0        0
     CRM          10       10       10       10       10
     VF            5        5        5        5        5

dsppnni-election

Use the dsppnni-election command to display the PGL election information for a specified node or all nodes on the local switching system, depending if the node index is specified or not, respectively.

Syntax Description

Examples :
CLI Output

node index: 1
   PGL state......       Starting     Init time(sec)......        15
   Priority.......              0     Override delay(sec).        30
                                      Re-election time(sec)       15
   Pref PGL...............0:0:00.000000000000000000000000.000000000000.00
   PGL....................0:0:00.000000000000000000000000.000000000000.00
   Active parent node id..0:0:00.000000000000000000000000.000000000000.00

dsppnni-idb

Use the dsppnni-idb command to display the PNNI internal topology database for a specific logical node if node index is specified, otherwise for all logical nodes on this switching system. This is used for debug purpose.

Syntax Description

Examples :
CLI Output

node index: 1
   Local port id.......     66048     Remote port id.......     66048
   Local link index....         1     Remote link index....         1
   Local node number...         1     Remote node number...         2
PGL node index......         0 LGN node index......         0
   Transit restricted..       off     Complex node.........       off
   Branching restricted       off     PGL..................     false
   Ancestor............     false     Border node..........     false
   VP capable..........      true     Link type............horizontal
   Non-transit for PGL election..     off
   node id...............56:160:47.00918100000000107be92f07.00107be92f07.00
node name:
 
                        forward direction
                 CBR    RTVBR   NRTVBR      ABR      UBR
              ------   ------   ------   ------   ------
     AW         5040     5040     5040     5040     5040
     MCR           0        0        0        0        0
     AvCR     100000   100000   100000   100000   100000
     CTD           0        0        0        0        0
     CDV           0        0        0        0        0
     CLR0          0        0        0        0        0
     CLR0+1        0        0        0        0        0
     CRM          10       10       10       10       10
     VF            5        5        5        5        5

dsppnni-inducing-uplink

Use the dsppnni-inducing-uplink command to view the PNNI inducing uplink database for a logical node if node index is specified, otherwise for all logical nodes on this switching system. This is used for debug purpose.

Syntax Description

Examples :
CLI Output

node index: 1
   Token................      123     Child node portId....      1200
   Child node number....        2
   Upnode id.............0:0:00.000000000000000000000000.000000000000.00
   Upnode ATM addr.......00.000000000000000000000000.000000000000.00
   Upnode PG id..........30:47.00.9181.0000.0000.0000.0000.00
 
                 CBR    RTVBR   NRTVBR      ABR      UBR
              ------   ------   ------   ------   ------
     AW         5040     5040     5040     5040     5040
     MCR           0        0        0        0        0
     AvCR     100000   100000   100000   100000   100000
     CTD           0        0        0        0        0
     CDV           0        0        0        0        0
     CLR0          0        0        0        0        0
     CLR0+1      n/a      n/a      n/a      n/a      n/a
     CRM          10       10       10       10       10
     VF            5        5        5        5        5

dsppnni-intf

Use the dsppnni-intf command to display the specified physical interfaces of the switch that operate PNNI for the given port id. The interfaces are either physical connections or configured VPCs. Each interface is attached to a specific lowest-level node within the switching system. The traffic metrics and attributes associated with each interface is also displayed.

The interfaces are displayed in ascending order of port id.

Syntax Description

Examples :
CLI Output

Physical port id: 1.2              Logical port id: 66099
   Aggr token..........         2     AW-NRTVBR...........      5040
   AW-CBR..............9615040487     AW-ABR..............      5040
   AW-RTVBR............      5040     AW-UBR..............      5040

dsppnni-link

Use the dsppnni-link command to display information of a PNNI link, if both node index and port id specified. Otherwise, if port id is not specified, all links attached to a specified node are displayed. If node index not specified, all links attached to PNNI nodes at all hierarchies on the single switching system are displayed. local switching system.

Syntax Description

Examples :
CLI Output

node index: 1    
Local port id: 4789876609          Remote port id: 66304
   Type.lowestLevelHorizontalLink     Hello state.....   twoWayInside
   Derive agg..........         0     Intf Index...........     66048
   SVC RCC index.......         0     Hello pkt RX.........   1248753
                                      Hello pkt TX.........   1234565
	 	 	 Remote node name.......ses001
   Remote node id.........56:160:47.00918100000000107be92f07.00107be92f07.00
   Upnode id..............0:0:00.000000000000000000000000.000000000000.00
   Upnode ATM addr........00.000000000000000000000000.000000000000.00
   Common peer group id...00:00.00.0000.0000.0000.0000.0000.00

dsppnni-link-selection

Use the dsppnni-link-selection command to view the link selection on a link.

Syntax Description

Examples :
CLI Output

physical port id:        1.2     link selection: minaw
 logical port id:      66048

dsppnni-mtu

Use the dsppnni-mtu command to show the maximum PNNI packet size in number of bytes.

Syntax Description

Examples :
CLI Output

max packet size : 2048

dsppnni-neighbor

Use the dsppnni-neighbor command to display information of a PNNI neighbor, if both node index and remote node id specified. Otherwise, if remote node id is not specified, all neighbors attached to a specified node are displayed. If node index not specified, all neighbors attached to PNNI nodes at all hierarchies on the single switching system are displayed.

Syntax Description

Examples :
CLI Output

node index: 1
 
node name 	 	 	 	 : ses001
Remote node id: 56:160:47.00918100000000107be92f07.00107be92f07.00
Neighbor state: FULL
   Port count..........         0     SVC RCC index.......         0
   RX DS pkts..........         2     TX DS pkts..........         2
   RX PTSE req pkts....       125     TX PTSE req pkts....       134
   RX PTSE ack pkts....        91     TX PTSE ack pkts....        84

dsppnni-node

Use the dsppnni-node command to display PNNI logical nodes operating on a physical switching system with the associated information. The node list is displayed in ascending order of internally assigned PNNI node index, with 1 presenting the node at the lowest PNNI hierarchy.

If node index is specified, the specific node information is displayed.

Syntax Description

Examples :
CLI Output

node index: 1                      node name: Dean
   Level...............        56     Lowest..............      true
   Restricted transit..       off     Complex node........       off
   Branching restricted        on
   Admin status........        up     Operational status..        up
   Non-transit for PGL election..       off
   Node id...............56:160:47.00918100000000107be92f07.00107be92f07.00
   ATM address...........47.0091810000000000c0326496.0000c0326496.00
   Peer group id.........38:47.00.9181.0000.0000.0000.0000.00

dsppnni-node-list

Use the dspnni-node-list command to display PNNI logical nodes network attached to this switch with the associated information. The node list is displayed in an ascending order by the internally assigned PNNI node index. 1 indicates a node at the lowest PNNI hierarchy.

If node index is specified, the specific node information is displayed.

Syntax Description

dsppnni-node-list

Examples

spirit11.1.1.PXM.a > dsppnni-node-list

 
node #  node id                                            node name
------- -------------------------------------------------- ----------
    1   56:160:47.0091810000000030ff0fef38.0030ff0fef38.01 Geneva
 
node #  node id                                            node name
------- -------------------------------------------------- ----------
    2   56:160:47.00918100000000050fff0e02.00050fff0e02.01 NewYork
 
node #  node id                                            node name
------- -------------------------------------------------- ----------
    3   56:160:47.00918100000000500fffe001.00500fffe001.01 Toronto
 
node #  node id                                            node name
------- -------------------------------------------------- ----------
    4   56:160:47.00918100000000309409f321.00309409f321.01 Boston
 
node #  node id                                            node name
------- -------------------------------------------------- ----------
    5   56:160:47.00918100000000050fffe002.00050fffe002.01 HongKong(Rt2)
 
node #  node id                                            node name
 
------- -------------------------------------------------- ----------
    6   56:160:47.00918100000000309409f17c.00309409f17c.01 Sydney(Rt1)
 
node #  node id                                            node name
------- -------------------------------------------------- ----------
    7   56:160:47.00918100000000309409f010.00309409f010.01 Bombay
 

dsppnni-path

Use the dsppnni-path command to display the pre-calculated routes to a specified node or all nodes, depending on if the node index is given, on a specified brandwidht bracket.

Syntax Description

Examples :
CLI Output

node #/PortId   node id                                            node name
--------------- -------------------------------------------------- -------------
D  2/         0 56:160:47.00918100000000107be92f07.00107be92f07.00 Dean
S  1/     66048 56:160:47.00918100000000107be92f09.00107be92f09.00 Jerry

dsppnni-pkttrace

Use the dsppnni-pkttrace command to display the packet trace option for each link. This command is executed on the PXM card.

Syntax Description dsppnni-pkttrace { rx | tx }

dsppnni-pkttrace <tx|rx> [node-index] [-portId port-id] [-svcIndex svc-index ]
 

rx or tx	The direction of packet flow, i.e. are packets received or transmitted.
node-index	The node index assigned to a PNNI logical node.
-portid	The logical Port Identifier of the port on which the packet trace has to be turned on or off.
-svcIndex	The SVC Index of the SVC-based RCC on which the packet trace is turned on or off. logical port id - 32-bit number (or) svc index - 32-bit number display on or off for each entry

Examples

spirit11.1.1.PXM.a > dsppnni-pkttrace rx
 
Node Index : 1   Port id:            65792   Rx Pkt Trace off
 
Node Index : 1   Port id:            66048   Rx Pkt Trace off
 
Node Index : 1   Port id:            66304   Rx Pkt Trace off
 
Node Index : 1   Port id:            66561   Rx Pkt Trace off
 
Node Index : 1   Port id:            66562   Rx Pkt Trace off
 
Node Index : 1   Port id:            66563   Rx Pkt Trace off
 
Node Index : 1   Port id:            66564   Rx Pkt Trace off
 
Node Index : 1   Port id:            66565   Rx Pkt Trace off
 
Node Index : 1   Port id:            66566   Rx Pkt Trace off
 
Node Index : 1   Port id:            66567   Rx Pkt Trace off
 
Node Index : 1   Port id:            66568   Rx Pkt Trace off
 

dsppnni-ptse

Use the dsppnni-ptse command to display a PTSE in a specified PNNI node, originated by a specified node, and of a specified PTSE id. If ptse-id not specified, all PTSEs originated by a specified node in the specified node's database displayed, and if node-id also not specified, all PTSEs in the specified node's database displayed. If node-index not specified, PTSEs stored in PNNI nodes at all hierarchies on a local switching system are displayed.

The syntax detail specifies the amount of the information to be displayed. If detail is not

present, only the content of the PTSE header is displayed, otherwise, all the contained information groups, if any, are also displayed.

Syntax Description

Examples :
CLI Output

node index: 1
originating node name: Krishna
originating node id: 56:160:47.0091810000000000c0326496.0000c0326496.00
   Type................        64     Length..............      1200
   Sequence number.....         1     Checksum............       94d
   PTSE id.............         1     Remaining lifetime..      2997
   PTSE type...........     Nodal Info( 97)
 
   Type................        97     Length..............        65
   Priority............         0     Flags...............        f8
   ATM addr..............47.0091810000000000c0326496.0000c0326496.00
   Pref PGL id...........0:0:00.000000000000000000000000.000000000000.00

   binding info: Type 192, Length  76
   next level LGN node id. 48:56:47.009181000000000000000000.0000c0326496.00
   next level LGN ATM addr 47.0091810000000000c0326496.0000c0326496.30
   next level LGN PG id... 30:47.00.9181.0000.0000.0000.0000.00
   next level LGN PGL id.. 30:48:56:47.009181000000000000000000.0000c0326496.00

node index: 1
originating node name: Liz
originating node id: 56:160:47.0091810000000000c0326496.0000c0326496.00
   Type................        64     Length..............      1200
   Sequence number.....         1     Checksum............       94d
   PTSE id.............         2     Remaining lifetime..      2997
   PTSE type........... Nodal State Parameter( 96)

   Type................        96     Length..............        65
   Reserved............         0     Flags...............         0
   Input port id.......        48     Output port id......        12

      Type(outgoing RA)            3     Length..............         0
      Flags............            0     Reserved............         0
      AW...............            0
      CLR=0............            0     CLR=0+1.............         0
      maxCR(cells/sec)             0     AvCR(cells/sec).....         0
      CTD(micro-sec)...            0     CDV(micro-sec)......         0
         Type(GCAC)....            0     Length..............         0
         CRM...........            0     VF..................         0
 
      Type(incoming RA)            4     Length..............         0
      Flags............            0     Reserved............         0
      AW...............            0
      CLR=0............            0     CLR=0+1.............         0
      maxCR(cells/sec)             0     AvCR(cells/sec).....         0
      CTD(micro-sec)...            0     CDV(micro-sec)......         0

node index: 1
originating node name: Liz
originating node id: 56:160:47.0091810000000000c0326496.0000c0326496.00
   Type................        64     Length..............      1200
   Sequence number.....         1     Checksum............       94d
   PTSE id.............         2     Remaining lifetime..      2997
   PTSE type........... Int Reach Addr(244)

   Type................       224     Length..............        65
   Reserved............         0     Flags...............         0
   Port id.............        48     Scope...............         0
   Ail... .............         0     Aic.................         0
   Prefix..............47.0091.8100.0000.0010.7be9.2f07/104
   Prefix..............47.0091.8100.0000.0010.7be9.2f44/94

      Type(outgoing RA)            3     Length..............         0
      Flags............            0     Reserved............         0
      AW...............            0
      CLR=0............            0     CLR=0+1.............         0
      maxCR(cells/sec)             0     AvCR(cells/sec).....         0
      CTD(micro-sec)...            0     CDV(micro-sec)......         0
         Type(GCAC)....            0     Length..............         0
         CRM...........            0     VF..................         0

      Type(incoming RA)            4     Length..............         0
      Flags............            0     Reserved............         0
      AW...............            0
      CLR=0............            0     CLR=0+1.............         0
      maxCR(cells/sec)             0     AvCR(cells/sec).....         0
      CTD(micro-sec)...            0     CDV(micro-sec)......         0

      Type(incoming RA)            4     Length..............         0
      Flags............            0     Reserved............         0
      AW...............            0
      CLR=0............            0     CLR=0+1.............         0
      maxCR(cells/sec)             0     AvCR(cells/sec).....         0
      CTD(micro-sec)...            0     CDV(micro-sec)......         0
         Type(GCAC)....            0     Length..............         0
         CRM...........            0     VF..................         0

node index: 1
originating node name: Liz
originating node id: 56:160:47.0091810000000000c0326496.0000c0326496.00
   Type................        64     Length..............      1200
   Sequence number.....         1     Checksum............       94d
   PTSE id.............         4     Remaining lifetime..      2997
   PTSE type...........     Horiz Link(288)
   Type................       288     Length..............        65
   Aggregation token...         0     Flags...............        f8
   Remote node id......         4     Local port..........7158763985
   Remote node id......56:160:47.00918100000000107be92f07.00107be92f07.00
 
      Type(outgoing RA)            3     Length..............         0
      Flags............            0     Reserved............         0
      AW...............            0
      CLR=0............            0     CLR=0+1.............         0
      maxCR(cells/sec)             0     AvCR(cells/sec).....         0
      CTD(micro-sec)...            0     CDV(micro-sec)......         0
         Type(GCAC)....            0     Length..............         0
         CRM...........            0     VF..................         0

node index: 1
originating node name: Liz
originating node id: 56:160:47.0091810000000000c0326496.0000c0326496.00
   Type................        64     Length..............      1200
   Sequence number.....         1     Checksum............       94d
   PTSE id.............         5     Remaining lifetime..      2997
   PTSE type........... Ext Reach Addr(256)
 
   Type................       256     Length..............        65
   Reserved............         0     Flags.................      f8
   Port id.............        48     Scope.................       0
   Ail... .............         0     Aic...................       0
   Prefix..............47.0091.8100.0000.0010.7be9.2f07/104
   Prefix..............47.0091.8100.0000.0010.7be9.2f77/104
   Prefix..............47.0091.8100.0000.0010.7be9.2f44/94

node index: 1
originating node name: Liz
originating node id: 56:160:47.0091810000000000c0326496.0000c0326496.00
   Type................        64     Length..............      1200
   Sequence number.....         1     Checksum............       94d
   PTSE id.............         6     Remaining lifetime..      2997
   PTSE type...........         Uplink(289)

   Type................       289     Length..............        65
   Aggregation token...         0     Flags...............        f8
   Reserved.....................0     Local port id.......         0
   Upnode id...........56:160:47.00918100000000107be92f07.00107be92f07.00
   Common PGL id.......56:160:47.00918100000000.107b.e92f.07
   Upnode ATM addr.....00.000000000000000000000000.000000000000.00

      Type(outgoing RA)...         2         Length..............         0
      Flags...............         0         Reserved............         0
      AW..................         0
      CLR=0...............         0         CLR=0+1.............         0
      maxCR(cells/sec)...          0         AvCR(cells/sec).....         0
      CTD(micro-sec)......         0         CDV(micro-sec)......         0
         Type(GCAC).......         0         Length..............         0
         CRM..............         0         VF..................         0
 
      Type(outgoing RA)...         2         Length..............         0
      Flags...............         0         Reserved............         0
      AW..................         0
      CLR=0...............         0         CLR=0+1.............         0
      maxCR(cells/sec)...          0         AvCR(cells/sec).....         0
      CTD(micro-sec)......         0         CDV(micro-sec)......         0
         Type(GCAC).......         0         Length..............         0
         CRM..............         0         VF..................         0
 
      Type(uplink IA).....         1         Length..............        66
      Sequence............         0
         Type(outgoing RA)...         2         Length..............         0
         Flags...............         0         Reserved............         0
         AW..................         0
         CLR=0...............         0         CLR=0+1.............         0
         maxCR(cells/sec)...          0         AvCR(cells/sec).....         0
         CTD(micro-sec)......         0         CDV(micro-sec)......         0
            Type(GCAC).......         0         Length..............         0
            CRM..............         0         VF..................         0

S

dsppnni-reachable-addr

Use the dsppnni-reachable-addr command to display all the reachable addresses and address prefixes as seen from the local node at the lowest PNNI hierarchy. If the option local is used, only those addresses directly attached to the local node are displayed, along with the port id. If the option network is used, only those addresses advertised by other nodes are displayed, along with the advertising node id.

Syntax Description

Examples :
CLI Output

dsppnni-reachable-addr local

scope...............        56    port id.............         2
Exterior............     false
ATM addr prefix.....47.0091.8100.0000.0010.7be9.2f07/104

dsppnni-reachable-addr network

scope...............        56    Advertising node number         2
Exterior............     false
ATM addr prefix.....47.0091.8100.0000.0010.7be9.2f07/104
Advertising nodeid..56:160:47.00918100000000107be92f07.00107be92f07.00
Node name...........ses001

dsppnni-routing-policy

Use the dsppnni-routing-policy command to display the parameters used in background routing tables generation.

Syntax Description

Examples :
CLI Output

SPT epsilon.........         0     Load balance........    random
SPT holddown time...         1     On demand routing... first fit
SPT path holddown time       2 AW Background Table on
CTD Background Table on CDV Background Table on

dsppnni-scope-map

Use thedsppnni-scope-map command to view the scope map table.

Syntax Description

Examples :
CLI Output

UNI  Scope                Pnni Routing Level
----------------------    ------------------
LocalNetwork(1)                           96
LocalNetworkPlusOne(2)                    96
LocalNetworkPlusTwo(3)                    96
SiteMinusOne(4)                           80
IntraSite(5)                              80
SitePlusOne(6)                            72
OrganizationMinusOne(7)                   72
IntraOrganization(8)                      64
OrganizationPlusOne(9)                    64
CommunityMinusOne(10)                     64
IntraCommunity(11)                        48
CommunityPlusOne(12)                      48
Regional(13)                              32
InterRegional(14)                         32
Global(15)                                 0

dsppnni-spoke

Use the dsppnni-spoke command to view the PNNI default spoke for a LGN using complex node representation in a given peer group. The node-index specifies the LGN implemented on this switching system.This is used for debug purpose.

Syntax Description

Examples :
CLI Output

node index: 1
   Ptse id ............       948     Flags................        a3
   Nodal aggregation method.. spanning tree
 
                 CBR    RTVBR   NRTVBR      ABR      UBR
              ------   ------   ------   ------   ------
     AW         5040     5040     5040     5040     5040
     MCR           0        0        0        0        0
     AvCR     100000   100000   100000   100000   100000
     CTD           0        0        0        0        0
     CDV           0        0        0        0        0
     CLR0          0        0        0        0        0
     CLR0+1        0        0        0        0        0
     CRM          10       10       10       10       10
     VF            5        5        5        5        5

dsppnni-summary-addr

Use the dsppnni-summary-addr command to display the summary address prefixes associated with a specified PNNI node if the node index presents, otherwise summary address prefixes with all PNNI nodes on the local switching system are display.

Syntax Description

Examples :
CLI Output

node index: 1
   Type..............    internal     Suppress..............   false
   State............. advertising
   Summary address... 47.0091.8100.0000.0000.c032.6496/104

node index: 2
   Type..............    internal     Suppress..............   false
   State............. advertising
   Summary address........47.0091.8100.0000.0000.c032.6496/104

dsppnni-svcc-rcc

Use the dsppnni-svcc-rcc command to display information of a SVCC-based RCC, if both node index and svc index specified. Otherwise, if svc index is not specified, all SVC-based RCCs attached to a specified node are displayed. If node index not specified, all SVC-based RCCs attached to PNNI nodes at all hierarchies on the single switching system are displayed.

Syntax Description

Examples :
CLI Output

node index: 1                      svc index: 33
   Hello pkt RX........        34     SVCC VPI............        34
   Hello pkt TX........        34     SVCC VCI............       128
   Hello state...........    2wayOutside
   Remote node id.........56:160:39.840f80113744000000400202.00107b0efe01.00
   Remote node ATM addr...39:840f.8011.3744.0000.0040.0102.4000.0c80.8030.00
 
node index: 2                      svc index: 33
   Hello pkt RX........        34     SVCC VPI............        34
   Hello pkt TX........        34     SVCC VCI............       128
   Hello state............2wayOutside
   Remote node id.........56:160:39.840f80113744000000400202.00107b0efe01.00
   Remote node ATM addr...39:840f.8011.3744.0000.0040.0102.4000.0c80.8030.00

dsppnni-svcc-rcc-timer

Use the dsppnni-svcc-rcc-timer command to display the SVCC-based RCC timer values associated with a specified local PNNI node if node index is specified, otherwise, values for all local nodes on the same switching system are displayed.

Syntax Description

Examples :
CLI Output

node index: 1
   Init time..............      4     Retry time.............     35
   Calling party integrity time...    35
   Called party integrity time....    50

dsppnni-timer

Use the dsppnni-timer command to display the timer values and significant change thresholds on a specified local PNNI node if node index is specified, otherwise, values for all local nodes on the same switching system are displayed.

Syntax Description

Examples :
CLI Output

node index: 1
   Hello holddown(100ms)...   120     PTSE holddown(100ms)...    120
   Hello int(sec)..........    15     PTSE refresh int(sec)..   1800
   Hello inactivity factor.     5     PTSE lifetime factor...    200
   Retransmit int(sec).....     5
   AvCR proportional PM....     3     CDV PM multiplier......     25
   AvCR minimum threshold..    50     CTD PM multiplier......     50
   Peer delayed ack int(100ms)...................        10
   Logical horizontal link inactivity time(sec)..        10

dsppnport

Use the dsppnport command to view ATM-specific information about a specified port. The information displayed is operational data as opposed to configuration data, such as port status, ILMI status, etc.

Syntax Description

Examples : Output

Por t:	1.4		Logical Id:	66560
IF status:	up		Admin Status:	up
UCSM:	enable
Auto-config:	enable		Addrs-reg:	enable
IF-side:	network		Operational IF-type:	nni
UniType:	private		version:	pnni10
Input filter:	filter number		Output filter:	filter number
minSvccVpi:	1		maxSvccVpi:	255
minSvccVci:	32		maxSvccVci:	65535
minSvpcVpi:	1		maxSvpcVpi:	255
	#Svcc:	#Svpc:	#SpvcActive:	#SpvcCfg:	#SpvpActive :	Total:
p2p :	647	0	0	0	0	647
p2mp:	0	0	0	0	0	0
					Total :	647