Table Of Contents

Logical Node, Port, and Signaling Commands

Types of Address

Position-Dependent and Keyword-Driven Parameters

Command Entry

Identifying the AXSM Models

Connection Capacities of the AXSM

Identifying Physical and Logical Elements

AXSM Format

PNNI Format

Dot Notation in ATM Addresses

addaddr

addfltset

addpnport

aesa_ping

clrpnconstats

clrqosdefault

clrsigstats

clrsscopstats

cnfainihopcount

cnfe164justify

cnfenhiisp

cnffltset

cnfintfcongth

cnfintfvsvd

cnfnodalfd

cnfnodalcongth

cnfpnctlvc

cnfpnportacc

cnfpnportcac

cnfpnportcc

cnfpnportloscallrel

cnfpnportncci

cnfpnportrange

cnfpnportsig

cnfqosdefault

cnfsig

cnfsigdiag

cnfspvcprfx

cnfsscop

cnftrapip

deladdr

deladdrs

delfltset

delpnport

delpnportacc

delsigdiag

disablesscop

dnpnport

dspaddr

dspainihopcount

dspatmaddr

dspconsegep

dspenhiisp

dspfltset

dspintfcongcntr

dspintfcongflags

dspintfcongth

dspnodalcongcntr

dspnodalcongflags

dspnodalcongth

dspnodalfd

dsppingatmaddr

dsppnallgrpaddr

dsppncon

dsppncons

dsppnconstats

dsppnctlvc

dsppngrpmbrs

dsppnport

dsppnportcac

dsppnportcc

dsppnportidmaps

dsppnportloscallrel

dsppnportncci

dsppnportrange

dsppnportrsrc

dsppnports

dsppnportsig

dsppnsysaddr

dspqosdefault

dspsig

dspsigdiag

dspsigstats

dspspvcaddr

dspspvcprfx

dspsscop

dspsscopstats

dspsvcparm

dsptrapip

tstpndelay

uppnport

Logical Node, Port, and Signaling Commands

---

This chapter describes primarily the PNNI commands that apply to PNNI ports. It also contains some node-level commands, such as a variety of commands that relate to node-level congestion thresholds. In general, the commands let you create, delete, display logical elements, and view and clear statistics. The commands pertain to the following areas of PNNI port function:

•Address assignment

•Address filtering

•Address ping

•Signalling

•Control Channels

•Defaults for bandwidth parameters

•Connection-related commands—either or both SVCs and SPVCs

•Port resource commands

•IISP interfaces

•ILMI Port Management

•SSCOP (service-specific connection-oriented protocol)

•Congestion thresholds for the node and for individual ports

Types of Address

Three types of local addresses exist:

•ILMI-registered addresses

•User-provisioned addresses via addaddr

•Host application addresses, such as AESA-Ping, PNNI logical group numbers, IP connectivity, node-level SPVC prefix, and so on

Position-Dependent and Keyword-Driven Parameters

A command can include parameters that are keyword-driven or position-dependent.

For position-dependent parameters, you must type parameters in the order they appear in the syntax description or on-line help. To create a logical port, for example, the position-dependent syntax is:

addport <ifNum> <bay.line> <guaranteedRate> <maxrate> <sctID> <ifType> [vpi]

For a keyword-driven parameter, a keyword must precede the value. The keyword is preceded by a dash and followed by the parameter (-timeout <secs>, for example). The order you enter keyword-driven parameters does not matter—although any preceding or succeeding, position-dependent parameters must appear as they do in the command syntax description.

In the following syntax example, the command is to delete more than one connection at a time. The mandatory, position-dependent connection identifier consist of a logical port (ifNum) and the VPI and VCI of the first connection to delete. After the connection identifier, the line shows two optional, keyword-driven parameters. These keyword-driven parameters let you enter the number of connections to delete and specify verbose mode:

delcons <ifNum> <vpi> <vci> [-num <num. conns to del>] [-verbose < 1 | 0 >]

Command Entry

When you enter a command with the current version of the product, you must type all intended arguments before you press the Return key or Enter key.

If you press the Return key or Enter key with incorrect parameters or no parameters (if the command requires parameters), a message displays the syntax and parameter ranges. The returned message may also suggest what the problem is. For example, the message may warn of too few parameters. No error messages or warnings appear until you complete the command.

Identifying the AXSM Models

The model number of an AXSM identifies the line speed, line count, and number of bays (see Table 6-1.) Note that the number of lines applies to an individual back card, so the total number of lines supported by the front card equals the highest line number times the number of bays. The OC-48 card AXSM-1-2488 has the lowest number of lines—one. The highest number of lines exist on the AXSM-16-155 and AXSM-16-T3E3—16, as the name indicates.

An MGX 8850 or MGX 8950 node uses the concept of a bay. The bay refers to the upper or lower location of a single-height card. (The switch has a double-height card cage, so a single-height back card necessarily occupies either an upper or lower position.)

The T3/E3, OC-3, and OC-12 versions of the AXSM can have two back cards, one in bay 1 (upper location of the back slot) and the second in bay 2 (lower slot). The MGX-AXSM-1-2488 (OC-48 AXSM) can have a back card in bay 1 only. For further descriptions and illustrations of the card sets, refer to Cisco MGX 8850 Routing Switch Hardware Installation Guide, Release 2.1 or Cisco MGX 8950 Switch Hardware Installation, Release 1.

Table 6-1 Valid Line Numbers and Number of Bays for AXSM Card Types

Front Card	Speed	Lines	Bays
AXSM-1-2488	OC-48	1	1
AXSM-4-622	OC-12	1-4	1-2
AXSM-16-155	OC-3	1-8	1-2
AXSM-16-T3E3	T3, E3	1-8	1-2
AXSM-2-622-E	OC12	1-2	1-2
AXSM-8-155-E	OC3	1-8	1-2
AXSM-16-T3E3-E	T3, E3	1-8	1-2

Connection Capacities of the AXSM

The SVC and SPVC connection capacities for the front card, back card, and physical lines appear in Table 6-2 and Table 6-3. The capacity of a single AXSM card is greater than that of the node itself. Nevertheless, the tables provide these maximums when you plan the use of commands such as addrscprtn, addcon, and any other command where you may want to know the capacity of the configured item to support connections.

Table 6-2 Maximum Connections by Connection Type and Front Card

Front Card	SVC	SPVC
AXSM-1-2488	128 K	64 K
AXSM-4-622	128 K	64 K
AXSM-16-155	128 K	64 K
AXSM-16-T3E3	128 K	64 K

Table 6-3 Maximum Connections on Back Cards and Lines

Card Type	Back Card Maximum	Physical Line Maximum
OC-48c	128 K	64 K
OC-12c	64 K	32 K
OC-3c	64 K	32 K
T3	64 K	64 K
E3	64 K	64 K

Identifying Physical and Logical Elements

The Private Network-to-Network Interface (PNNI) control protocol and the AXSM use different formats to identify the same elements. This section describes the format of these elements in the PNNI and AXSM contexts and how they correspond to each other. When you configure or view items on the CLIs of different cards, you often need to specify it in PNNI as well as the AXSM. For example, when you configure a PNNI port on the CLI of the PXM45, you also need to configure a port on the CLI of the AXSM. Furthermore, when you display a connection on the AXSM, you identify that same connection using a different format on the PXM45 CLI. For specific examples of these parallel actions, see the Cisco MGX 8850 and MGX 8950 Switch Software Configuration Guide, Release 2.1.

Apart from the way PNNI and the lower levels of logic identify the same element, the issue of configuration sequence needs explanation. When you configure logical ports—as just one example—you must complete certain tasks on the AXSM CLI before and after related PNNI tasks. This manual describes prerequisites for certain commands, but refer to the Cisco MGX 8850 and MGX 8950 Switch Software Configuration Guide, Release 2.1, for more details of this sequence.

AXSM Format

The AXSM items that you identify for addressing purposes are:

•Slot

•Bay

•Line

•Logical port

A logical port on an AXSM (and its CLI) always uses the label ifNum. For a UNI and NNI interface, a one-to-one correspondence exists between a logical port and a physical line. For virtual trunks, you can configure multiple ports for a line.

The maximum number of logical ports on an AXSM is 60 or 32 on an AXSM-E, regardless of the number of AXSM back cards or whether the interface type is UNI, NNI, or VNNI.

PNNI Format

The PNNI controller requires the following format to identify a physical port:

[shelf.]slot:subslot.port:subport

The PNNI physical port identifier (physical port ID) consists of a series of mandatory elements. Note the period or colon associated with each element. The elements of the physical port ID are as follows:

•The shelf is always 1 for the current product and so is usually omitted.

•The slot number of the front card.

•Subslot is the number of the bay where the back card resides. This number is 1 or 2.

•Port is the physical line.

•Subport corresponds to the resource partition on the AXSM. For a UNI or NNI, this resource partition is the same number as the logical port number (ifNum) on the AXSM. For a virtual network-to-network interface (VNNI), these numbers do not directly correspond to each other.

For each physical port number, PNNI also generates a logical port number as an encrypted form of the physical port number. The logical port number appears as an unformatted numerical string. For example, a PNNI physical port ID may have the form 1:1.2:2, so the PNNI logical port number would be 16848898. Where needed, the descriptions in the PNNI command chapter define the need for this logical port number. (This section does not define a PNNI logical port number, nor does it describe the correspondence between an AXSM port and a PNNI logical port number.) For the correspondence between a PNNI physical port and the port identifier on an AXSM, see Table 6-4.

Table 6-4 Mapping PNNI Port ID to AXSM Elements

PNNI port	AXSM
Shelf	N/A
Slot	Slot
Subslot	Bay (for upper or lower back card)
Port	Line
Subport	Logical interface (or port)

As the table shows, a port from the PNNI side is a line on the AXSM, and a subport from the PNNI side is a logical interface (or logical port) on an AXSM. An example of a PNNI physical port identifier is 1:2.1:1. This portid corresponds to an AXSM, with the following particulars:

Slot 1

Bay 2

Line 1

Logical interface 1 (or logical port 1)

Dot Notation in ATM Addresses

In this chapter, many examples of ATM addresses appear with dots. The dots serve only as an aid to entering or viewing these fields, which have considerable lengths. The controller strips out the dots, so you can enter these addresses without dots.

addaddr

Add Address—create an ATM address.

Use addaddr to specify one or more ATM addresses for a port. The port can be a UNI or an IISP port. For each port, the mandatory parameters are an ATM address and the length of that address. For a description of the format of an ATM address and address planning in general, see the Cisco MGX 8850 Software Configuration Guide, Release 2 or higher.

The optional parameters for addaddr let you specify:

•Details about the application of the address to either a public or private UNI or an IISP

•An address plan—E.164 or NSAP

•Whether the node at the near end of an IISP link can distribute the new address to the node at the far end of the IISP link (making the new address visible to the nodes in other networks)

•The scope of the ATM address

•A transit network identifier (applies to static addresses only)

---

Note Before you add an ATM address on a UNI port, disable ILMI address registration on the port. To disable ILMI address registration, use cnfaddrreg (and supply the portID followed by "no").

---

Creating a Group

In addition to uniquely identifying a port or creating a summary address for multiple ports, you can create a group of PNNI logical ports. (Group addresses can be either ILMI-registered or user-provisioned.) The way to create a group is by assigning the same address for more than one port. These ports can exist on the same switch or throughout the network. The application of such grouping is called "anycast" and depends on the design purposes of the customer.

Creating a group requires two conditions for the ATM address:

•The first 8-bit byte of the ATM address must be A0 or higher. The controller recognizes that any port with an ATM address starting with A0 or higher is a member of a group.

•Each member of a group must have the same ATM address.

To see the members of a group, use dsppngrpmbrs. To see all ATM addresses that are part of a group, use dsppnallgrpaddr.

Cards on Which This Command Runs

PXM45

Syntax

addaddr <portid> <atm-address> <length> [-type {int | ext}] [-proto {local | static}]
[-plan {e164 | nsap}] [-scope value] [-redst {yes | no}] [-tnid tnid]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
atm-address	The ATM address: its format depends on whether the address type is NSAP or E.164. The address plan specifies the address type and so determines the maximum number of bytes or bits in the address. You can specify the address plan with the forthcoming -plan option. The default plan is NSAP. •An NSAP address can have 1-20, 8-bit, hexadecimal bytes. Cisco recommends that you use 20 bytes for the NSAP address. •An E.164 address can 8-15 decimal digits. The number of bits or bytes in the ATM address effects the uniqueness of the address. The longest address ensures total uniqueness of the address. With a one-byte address, any caller that sends an address whose first address byte matches that one-byte ATM address goes to that port.
length	Address length. The units of measure differ for each address plan. The -plan option lets you specify E.164 or NSAP. •For an NSAP address plan, the units of measure are bits. The range is 0-160. Using the maximum of a 20-byte ATM address: 20 bytes x 8 bits per byte = 160 bits •For an E.164 address plan, the value is the number of decimal digits. If the ATM address consists of 15 digits, the value for this parameter is also 15.
-type	The type of reachability of the node. The reachability is either internal or external. For internal, the address of this port is advertised to only the nodes within the current PNNI network. The default is internal. The external address can go outside the PNNI network and applies to an IISP link, an AINI link, or a public UNI. For example, the boundary node on the far side of an IISP link must have access to the ATM address of the near-side boundary node to be able to reach the near-side boundary node. Note that, for any ATM address on an IISP port or a public UNI, you must specify external. Possible entries: "internal" (or just "int"" or "external (or just "ext"). Default: int
-proto	The protocol for advertising a reachable address: •If the -type is internal, enter local for the -proto parameter. •If the -type is extenal, enter static for the -proto parameter. Possible entries: local or static. Default: local
-plan	The address plan: E.164 or NSAP. If you choose NSAP address, the first byte of the address implies one of the three NSAP address plans: NSAP E.164, NSAP DCC, or NSAP ICD. For example, 47 is reserved for NSAP ICD (see Example section). Valid entries: e164 or nsap Default: nsap
-scope	The PNNI hierarchal level to which the address is advertised. In a single peer group (SPG), only `0' applies. Range: 0-104 Default: 0
-redst	Enable for distribution of a static address. Enter "yes" to enable (distribute) or "no" to disable (do not distribute). Enabling this option means that the address you are now adding is visible to all nodes within the PNNI network. Other networks cannot see specific port addresses unless you enable such addresses for distribution. Default: no
-tnid	The transit network ID identifies a network where connections from the current node do not terminate.This number applies to static addresses only. The application of this option depends on the design intent of the user. The ID can have up to four IA5 characters (IA5 is a superset of the ASCII character set). Default: (no default for this parameter)

Related Commands

deladdr, deladdrs, dspaddr, dsppngrpmbrs, dsppnallgrpaddr

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

For logical port 11:2.8:28, specify the address that follows. Specify its length in bits (160), and leave all optional parameters in the default state. Use dspaddr to confirm the address. Note that the ICD code differs from the default from Cisco Systems. The address is:

47.0077.6400.0000.0000.0ca7.9e01.4000.0c81.8000.00

Geneva.7.PXM.a > addaddr 11:2.8:28 47.0077.6400.0000.0000.0ca7.9e01.4000.0c81.8000.00 160

Geneva.7.PXM.a > dspaddr 11:2.8:28

47.0077.6400.0000.0000.0ca7.9e01.4000.0c81.8000.00

length: 160   type: internal proto: local     
scope: 0 plan: nsap_icd redistribute: false

transit network id:

Geneva.7.PXM.a >

addfltset

Add Filter Set—create or modify an ATM address filter set.

A filter controls the access of incoming calls to a port. The addfltset command lets you create a new filter set or modify the contents of an existing filter set. Note that, if you want to change the address plan, you must delete the filter set and re-create it. You can assign more than one filter to a port.

---

Note The addfltset command creates but does not associate a filter set to a port. To associate a filter set to a port, use the cnf-pnportacc command.

---

Cards on Which This Command Runs

PXM45

Syntax

addfltset <name>
[-address atm-address <-length address-length> [-plan {nsap | e164}] [-list {calling | called}]]
[-index number] [-accessMode {permit | deny}]
[-cgPtyAbsentAction {permit | deny}]
[-cdPtyAbsentAction {permit | deny}]

Syntax Description

name	The name of the filter set can have up to 30 characters.
-address	The ATM address. The plan determines the possible number of bytes or bits in the address: •An NSAP address can have 1-20 eight-bit bytes (where a byte is two hexadecimal numbers). A 20-byte address is an exact address, and less than 20 bytes is a prefix. •An E.164 address can have 8-15 decimal digits. A 15-digit address is an exact address, and less than 15 digits is a prefix. You can specify the address plan with the forthcoming -plan option. NSAP is the default plan. Note that the number of bits or bytes in the ATM address effects the uniqueness of the address. Although the maximum number of characters in the address requires the most key-strokes, the address with the maximum length insures the uniqueness of the port. To use an extreme example: with a one-byte address, for any caller that sends an address whose first address byte matches that one-byte ATM address, the node routes the call to that port. The default is modifying the accessMode field of a filter element using the index only, in which case you do not need to specify the address field.
-length	Address length. The units of measure differ for each address plan. The -plan option lets you specify E.164 or NSAP. •For an NSAP address plan, the units of measure are bits. The range is 0-160. Using the maximum of a 20-byte ATM address: 20 bytes x 8 bits per byte = 160 bits. For a prefix, you must follow the significant bytes with 3 dots (and no spaces). See Example. •For an E.164 address plan, the value is the number of decimal digits. If the ATM address consists of 15 digits, the value for this parameter is also 15. For a prefix, you must follow the significant digits with 3 dots (and no spaces). See Example section.
-plan	Address plan: e164 or nsap. This option applies only if you specify an address (see -address). Default: nsap
-list	Address list: "calling" or "called." You can specify this field only if you also specify the address field. Default: calling
-index	Order in which the filter is applied. If you assign more than one filter to a port, you must plan the order in which the node applies the filters to a calling party. Plan the filters and their order of application so that the order of application does not negate the purpose of filtering. The first position in the filtering order is 1. The dspfltset command displays existing filters. Range: 1-65535 Default: 1
-AccessMode	The access mode specifies whether the port permits or denies a call if the address pattern-matching results in a match. Type the entire word "permit" or "deny." Default: permit
-cgPtyAbsentAction	The access mode specifies whether the port permits or denies a call if the address of the calling party does not match an address in the calling party list of the filter. Type the entire word "permit" or "deny." Default: permit
-cdPtyAbsentAction	The access mode specifies whether the port accepts or denies the call if the calling party does not match any address entry in the called party list of the filter. Type the entire word "permit" or "deny." Default: permit

Related Commands

cnffltset, delfltset, dspfltset, cnf-pnportacc

Attributes

Log: yes

State: active

Privilege: GROUP1

Examples

On the port with prefix 47.1111.1111, create address filter "mendocino." The 47 indicates NSAP ICD address plan. Note that the three-dot notation is necessary for the prefix, and the address length of 40 is the 40 bits that make up that hex prefix.

Unknown.1.1.PXM.a > addfltset mendocino -address 47.1111.1111... -length 40 -index 2

addpnport

Add Port—adds a UNI or NNI port through PNNI.

The addpnport command lets you pre-configure an NNI or UNI port. The purpose of pre-configuring is that it may best serve the configuration strategy of some companies.

To pre-configure a port means you add it on the PXM45 before you add it on the service module (by using addport). Eventually, you must run addport on the service module. The addpnport command is optional because when you create the port by using addport (and a resource partition by using addpart), PNNI automatically creates the port. Therefore, after you create the port on the service module, using the addpnport command is not necessary.

After you pre-configure the port through addpnport at the controller, its administrative and operational states are down by default. Use uppnport to bring up the port.

The addpnport command only creates the port. The PNNI commands for configuring the operational characteristics of the port are cnfpnportrange, cnfpnportcac, and cnfpnportsig. If the configuration you specify with these commands conflict with the values you specify on the service module through the addport or cnfport commands, these PNNI commands override the slave-side configuration.

Note that the format of the PNNI logical port and the format of the logical port on the slave side map to each other. See AXSM Format and PNNI Format, for a description of this mapping.

Cards on Which This Command Runs

PXM45

Syntax

addpnport <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

On the PXM45: delpnport, dnpnport, uppnport, dsppnports, dsppnport, cnfpnportcac, cnfpnportsig, cnfpnportrange

On the service module: addport, cnfport, dspport, dspports

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Add a port with the ID 6:1.1:1. Use the dsppnports command to see if 6:1.1:1 appears in a list of all ports.(If many PNNI ports already existed, you could use the dsppnport command for 6:1.1:1) It appears at the end of the list—after the entries for BITS clock ports in the format 7.x.

Note that the IF status and the Administrative status are both up. (The IF refers to the logical interface on the service module—the slave side rather than the PNNI controller side.) That IF status and the Administrative status are up indicates that the addpart and addport commands have already been used on the service module. If these commands had not been executed, IF and Admin would be "provisioning" and "down," respectively. For details on the content of the dsppnports command, see its description.

M8850_NY.7.PXM.a > addpnport 6:1.1:1

M8850_NY.7.PXM.a > dsppnports

Summary of total connections

(p2p=point to point,p2mp=point to multipoint,SpvcD=DAX spvc,SpvcR=Routed spvc)

Type   #Svcc:   #Svpc:   #SpvcD:  #SpvpD:  #SpvcR:  #SpvpR:  #Total:

p2p:   0        0        0        0        0        0        0      

p2mp:  0        0        0        0        0        0        0      

                         Total=      0/50000 

Summary of total configured SPVC endpoints

Type   #SpvcR   #SpvpR   #SpvcD   #SpvpD   Total

p2p:   0         0         2         0         2      

p2mp:  0         0         0         0         0      

                         Total=2      

Summary of total active SVC/SPVC intermediate endpoints

Type   #Svcc    #Svpc     #SpvcR   #SpvpR   Total

p2p:   0         0         0         0         0      

p2mp:  0         0         0         0         0      

                         Total=0      

          EndPoint Grand Total =      2/100000 

Per-port status summary

PortId      LogicalId    IF status      Admin status  ILMI state        #Conns

7.35         17251107    up             up            NotApplicable     0       

7.36         17251108    up             up            NotApplicable     0       

7.37         17251109    up             up            NotApplicable     0       

7.38         17251110    up             up            NotApplicable     0       

1:2.1:1      16848897    up             up            UpAndNormal       0       

2:2.2:1      16914433    provisioning   up            NotApplicable     0       

3:1.1:1      16979969    down           up            Disable           0       

3:1.2:2      0           provisioning   down          NotApplicable     0       

6:1.1:1      17176577    up             up            Disable           0       

M8850_NY.7.PXM.a > 

aesa_ping

ATM End System Address Ping—ping any ATM end station connected to a PNNI network.

The aesa_ping command lets you ping an AESA based on an ATM address that you provide as a destination address. If you specify only the destination address, the local node merely looks up that address in its routing table. To actually confirm the reachability of another node, specify the optional parameters for setting up a SVC to send and receive keep-alive packets.

Cards on Which This Command Runs

PXM45

Syntax

aesa_ping <destination address> [-setupcall {yes/no} ] [-qos {ubr | abr | cbr | vbr_rt | vbr_nrt}]
[-pcr {peak cell rate}] [-scr {sustain cell rate}] [-trace {yes/no}] [-timeout {time out in secs}]
[-data {yes/no}] [-interval {time}]

Syntax Description

destination address	Destination address in NSAP format. Example (the dots are optional): 47.00918100000000500ffde873.00500ffde873.01 Default: (none)
-setupcall	Sets up an SVC call as part of the ping. If you do not include the setupcall parameter, the system performs only route lookup for the QoS parameters to the destination. Possible values: yes or no Default: no
-qos	Quality of service (QoS) used for SVC ping connection. This parameter applies only if you enable setupcall. Possible values for QoS are: ubr, cbr, vbr, vbr-nrt, and vbr-rt Default: ubr
-pcr	Peak cell rate of the ping. This parameter only applies if you enable setupcall. Range: 1-100 cells per second Default: 10
-scr	Sustained cell rate of the ping. This parameter applies only if you enable setupcall. Range: 1-50 cells per second Default: 5
-trace	Enable path trace during ping. This parameter only applies if -setupcall is enabled. Possible values: yes or no Default: no
-timeout	Connection timeout for the ping. This parameter applies only if setupcall is enabled. Range: 5-120 seconds Default: 5 seconds
-data	If you enable data, the switch transfers data then prints statistics at the end of the timeout. Possible values: enable or disable Default: disable
-interval	The interval between the call setup of successive transmissions. This parameter applies only if setupcall is enabled. Range: 5-120 seconds Default: 5 seconds

Related Commands

dsppingatmaddr

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Examples

Ping the ATM end station with the address 47.00918100000000500ffde873.00500ffde873.0.

svcpop1.1.PXM.a > aesa_ping 47.00918100000000500ffde873.00500ffde873.01

Ping Got CLI message, index=0

PING:from PNNI - SOURCE ROUTE

DTL    1 :Number of (Node/port)elements    2

DTL 1:NODE 1::56:160:71:0:145::238:238:238:238:

Port 1:263168

DTL 1:NODE 2::56:160:71:0:145::15:253:232:115:

Port 2:0

Port List :no of ports =    1

Port ID    1:263168

svcpop1.1.PXM.a > 

clrpnconstats

Clear Port Connection Statistics

Clears call statistics for one port or all ports.

Cards on Which This Command Runs

PXM45

Syntax

clrpnconstats [portid]

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dsppnconstats

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Examples

First, check the connection statistics on port 4:1.1:11.

Geneva.7.PXM.a > dsppnconstats 4:1.1:11

 Call Statistics for 4:1.1:11

 Incoming Call Attempts:     209           Outgoing Call Attempts:       8

 Incoming Call Success:      6             Outgoing Call Success:        0

 Incoming Call Failures:     0             Outgoing Call Failures:       209

 Incoming Filtering Failures:0             Outgoing Filtering Failures : 0

 Incoming Routing Failures:  0             Outgoing Routing Failures :   209

 Incoming CAC Failures:      0             Outgoing CAC Failures :       0

 Incoming Timer Failures:    0             Outgoing Timer Failures :     0

 Incoming Crankback Failures:0             Outgoing Crankback Failures : 0

Clear the call statistics on port 4:1.1:11.

Geneva.7.PXM.a > clrpnconstats 4:1.1:11

Check the results by executing dsppnconstats.

Geneva.7.PXM.a > dsppnconstats 4:1.1:11

 Call Statistics for 4:1.1:11

 Incoming Call Attempts:     0             Outgoing Call Attempts:       8

 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

Geneva.7.PXM.a > 

clrqosdefault

Clear Quality of Service Defaults—clear the defaults for each service type on the switch.

The clrqosdefault command clears the defaults for QoS values on the switch. For information on the switch-level QoS defaults, see the description of cnfqosdefault.

Cards on Which This Command Runs

PXM45

Syntax

clrqosdefault

Syntax Description

This command takes no parameters.

Related Commands

cnfqosdefault, dspqosdefault

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Clear the QoS defaults on the switch. The system does not return a message unless an error occurs.

Unknown.8.PXM.a > clrqosdefault

Unknown.8.PXM.a >

clrsigstats

Clear Signaling Statistics

Clears existing signaling statistics for one port or all ports.

Cards on Which This Command Runs

PXM45

Syntax

clrsigstats [portid]

Syntax Description

portid

The port in the format [shelf.]slot:subslot.port:subport. See PNNI Format.

Related Commands

cnfsigdiag, delsigdiag, dspsigdiag, dspsigstats

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Example

Clear the signaling statistics on port 3:1.1:11. Thereafter, check the results with dspsigstats.

Geneva.7.PXM.a > clrsigstats 3:1.1:1

Clearing Signaling Statistics for 3:1.1:1

8850_NY.7.PXM.a > dspsigstats 3:1.1:1

 Signaling Statistics for 3:1.1:1

 Message                          Rcv           Xmt

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

 Call Proceeding                    0             0

 Connect                            0             0

 Connect Ack                        0             0

 Setup                              0             0

 Release                            0             0

 Release Complete                   0             0

 Add Party                          0             0

 Add Party Ack                      0             0

 Add Party Rej                      0             0

 Drop Party                         0             0

 Restart                            0             0

 Restart Ack                        0             0

 Status                             0             0

 Status Enquiry                     0             0

 Alerting                           0             0

 Notify                             0             0

 Progress                           0             0

Last Cause/Diag/Crankback

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

 Cause                              0

 Diagnostic                         0       0       0       0

 Src Crankback port count           0

8850_NY.7.PXM.a >

clrsscopstats

Clear SSCOP Statistics

The clrsscopstats command lets you clear the statistics for the service-specific connection-oriented protocol (SSCOP). You can specify the statistics for an individual port or all ports on the switch.

Cards on Which This Command Runs

PXM45

Syntax

clrsscopstats [portid]

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dspsscopstats

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Example

Clear the SSCOP statistics on port 4:1.1:11.

Geneva.7.PXM.a > clrsscopstats 4:1.1:11

cnfainihopcount

Configure AINI Hop Count—enable and specify a maximum number of hops over AINI links.

The cnfainihopcount command lets you determine the maximum number of AINI links that a call can traverse. The specification applies to any call originating on the local node, and the area to which the setting applies is the entire network. With cnfainihopcount, you can:

•Enable or disable the counter. This counter generates the Hop Counter Information Element (IE).

•Specify the maximum number of AINI hops. The hop counter (IE) is initialized to this value in the setup message. With each AINI link that the setup message traverses, the counter is decremented. This hop count applies to only AINI interfaces (see also the description of cnfpnportsig.)

---

Note To enable AINI hop count, you must also enable it at each port that should have it by using the cnfpnportsig command and typing "enable" for the -hopcntgen parameter.

---

Cards on Which This Command Runs

PXM45

Syntax

cnfainihopcount [-hopcntgen {enable | disable}] [-maxhops <value>]

Syntax Description

-hopcntgen	The enable for counting AINI hops. Type the entire word "enable" or "disable." Enabling hop count generation initializes the counter to the value for maxhops. Default: enable
-maxhops	The maximum number of AINI hops that a connection can take. The range is 1-31. Default: 31

Related Commands

dspainihopcount

Attributes

Log: yes

State: active, standby

Privilege: SUPER_GP

Example

Enable AINI hop counting and specify a maximum of 20 hops. No response appears unless an error occurs, so follow up by displaying the configuration.

8850_NY.8.PXM.a > cnfainihopcount -hopcntgen enable -maxhops 20

8850_NY.8.PXM.a > dspainihopcount

AINI Hop Counter Generation: enable

Max AINI Hops: 20

8850_NY.8.PXM.a >

cnfe164justify

Configure E.164 Justification

Specifies whether the E.164 AESAs with the E.164 AFI are converted to the left or right-justified encoding format. For PNNI to search the address correctly, all nodes in the PNNI network must use the same justification.

Cards on Which This Command Runs

PXM45

Syntax

cnfe164justify left | right

Syntax Description

left or right

Justification of E164 addresses. Type the entire word "left" or "right." The default is left.

Related Commands

dspsvcparm

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Examples

Configure right-hand justification for the E.164 AESAs.

Geneva.7.PXM.a > cnfe164justify right 

cnfenhiisp

Configure Enhanced IISP—enable or disable enhanced IISP features.

The cnfenhiisp command enables or disables the enhanced IISP feature on the port. This command applies to only IISP ports. When you change the operational state of enhanced IISP, the change does not affect existing calls.

The items that enhanced IISP include are:

•Generic identifier transport (GIT)

•Virtual path service over the IISP

•Added support or nrt-VBR and rt-VBR

•Transport of frame discard specification

Cards on Which This Command Runs

PXM45

Syntax

cnfenhiisp <portid> {yes | no}

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
yes | no	Enter "yes" to enable enhanced IISP or "no" to disable enhanced IISP. Default: no

Related Commands

dspenhiisp

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Examples

Enable enhanced IISP on port 11:2.1:1.

Geneva.7.PXM.a > cnfenhiisp 11:2.1:1 yes 

cnffltset

Configure Filter Set—modifies an ATM address filter set.

Use cnffltset to modify an existing filter set. This command can:

•Add more addresses to the filter set.

•Change the access mode or address field of a filter set entry.

After a filter is modified for a specific port, associate the filter to that port by using cnf-pnportacc.

Cards on Which This Command Runs

PXM45

Syntax

cnffltset <name> [-address atm-address -length address-length [-plan {nsap | e164}] [-list {calling | called}]]
[-index number]
[-accessMode {permit | deny}]

Syntax Description

name	A name for the filter set: the maximum is 30 characters.
address	The 1-40 digit NSAP or 1-15 digit E.164 address. You can add the address to a filter set. The default is modifying the accessMode field of a filter element using the index only: in this case, the you need not specify the address field.
length	If the address is specified, the length must be specified. •For NSAP, the length is in bits. •For E164, the length is in bytes.
plan	Address Plan: e.164 or nsap. You may specify this field only if you also specify the address field. Default: nsap
list	Address List: calling or called. You may specify this field only if you also specify the address field. Default: calling
index	Order in which filters are set. Range: 1-65535 Default: 1
AccessMode	Specify the access mode (permit or deny) to whether accept or deny the call on the port if the address pattern-matching succeeds. Default: permit.

Related Commands

addfltset, delfltset, dspfltset

Attributes

Log: yes

State: active

Privilege: SUPER_GP

cnfintfcongth

Configure Interface Congestion Threshold

The cnfintfcongth command lets you configure congestion thresholds for a logical port. The thresholds apply to incoming calls and status enquiries. When the upper congestion limit is reached, the port may block incoming calls and adjust the pace of status enquiries.

You must specify at least one keyword.

Cards on Which This Command Runs

PXM45

Syntax

cnfintfcongth <portid>

[ -setuphi {setuphival [-unackedstatenqlo {unackedstatenqloval} ]

[ -unackedstatenqhi {unackedstatenqloval} ]

Syntax Description

portid	The portid identifies a PNNI physical port and has the format [shelf.]slot:subslot.port:subport. See the section, "PNNI Format," at the beginning of the chapter.
-setuphi	The number of connection set-up messages per second. Above this number, the condition of set-up messages on the interface is congested. Range: 1-260 calls per second Default: 180
-unackedStatEnqLo	The number of status enquires yet to be acknowledged by peer-to-peer interface. Below this value, the congestion condition for status enquiries at the interface level is dropped. Range: 1-500 messages Default: 40
-unackedStatEnqHi	The number of status enquires yet to be acknowledged by peer-to-peer interface. The interface is considered to be congested with status enquiries when this thresholds is reached. Range: 1-500 messages Default: 100

Related Commands

dspintfcongth, dspnodalcongth

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Configure a congestion threshold of 200 for set-up messages on 6:1.1:1. Check the results by using the dspintfcongth command.

M8850_NY.7.PXM.a > cnfintfcongth 6:1.1:1 -setuphi 200

M8850_NY.7.PXM.a > dspintfcongth 6:1.1:1

Congestion Thresholds for port : 6:1.1:1 

Parameter            Value        unit

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

setuphi              100          cps

unackedStatEnqLo     40           messages

unackedStatEnqHi     200          messages

M8850_NY.7.PXM.a > 

cnfintfvsvd

Configure Interface VSVD—enable virtual source/virtual destination for a PNNI port.

The cnfintfvsvd command lets you enable internal or external VSVD on a PNNI port. If VSVD is disabled on a port, you can enable VSVD for individual ABR connections by using the cnfabr command. As described in Syntax Description, the cnfintfvsvd command also lets the service class template determine whether VSVD is enabled.

Before using the cnfintfvsvd command, note the following.

•The command applies to ports configured for UNI 4.0 or higher.

•The port must be administratively down (see dnpnport).

•The port must exist on an AXSM-E because it alone supports ABR VS/VD.

Cards on Which This Command Runs

PXM45

Syntax

cnfintfvsvd <portid> [-internal {off | on | unspecified}] [-external {off| on | unspecified}]

Syntax Description

portid	The portid identifies a PNNI physical port and has the format [shelf.]slot:subslot.port:subport. See the section, "PNNI Format," at the beginning of the chapter.
internal	Indicates the internal loop for VSVD. The choices are as follows: off: at the port level, VSVD service for ABR connections is disabled. Therefore, for an ABR connection to have VS/VD support, you must use the cnfabr command to enable it. on: at the port level, VSVD service for ABR connections is enabled. Therefore, all ABR connections on the port have VS/VD support. If you do not want a particular ABR connection to have VS/VD, use the cnfabr command to disable it for that connection. unspecified: the port defaults to the VSVD capability that the port-level SCT specifies. Default: off
external	Indicates the external loop for VSVD. The choices are as follows: off: at the port level, VSVD service for ABR connections is disabled. Therefore, for an ABR connection to have VS/VD support, you must use the cnfabr command to enable it. on: at the port level, VSVD service for ABR connections is enabled. Therefore, all ABR connections on the port have VS/VD support. If you do not want a particular ABR connection to have VS/VD, use the cnfabr command to disable it for that connection. unspecified: the port defaults to the VSVD capability that the port-level SCT specifies. Default: off

Related Commands

dsppnport, cnfabr

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

This example starts with the assumption that port 5:1.1:1 is administratively down and is configured for an interface type other than UNI 4.0. Do the following:

---

Step 1 Specify UNI 4.0 for port 5:1.1:1 by using the cnfpnportsig command.

Step 2 Enable internal and external VSVD.

Step 3 Up the port by using the uppnport command.

Step 4 Confirm that internal and external VSVD is enabled on the port. Note that, for UNI 4.0 or higher, the dsppnport shows VSVD status. For earlier UNI versions, the dsppnport display does not show VSVD.

---

M8850_NY.7.PXM.a > cnfpnportsig 5:1.1:1 -univer uni40

M8850_NY.7.PXM.a > cnfintfvsvd 5:1.1:1 -internal on -external on

M8850_NY.7.PXM.a > uppnport 5:1.1:1 

M8850_NY.7.PXM.a > dsppnport 5:1.1:1

Port:               5:1.1:1           Logical ID:       17111041          

IF status:          down              Admin Status:     up                

VSVD Internal Loop: on                

VSVD External Loop: on                

UCSM:               enable            

Auto-config:        enable            Addrs-reg:        enable            

IF-side:            network           IF-type:          uni               

UniType:            private           Version:          uni4.0            

PassAlongCapab:     n/a               

Input filter:       0                 Output filter:    0                 

minSvccVpi:         0                 maxSvccVpi:       255               

minSvccVci:         35                maxSvccVci:       65535             

minSvpcVpi:         1                 maxSvpcVpi:       255               

       #SpvcCfg:  #SpvcActive:  #SpvpCfg:  #SpvpActive:  

p2p :  0          0             0          0             

p2mp:  0          0             0          0             

       #Svcc:     #Svpc:        Total:     

p2p :  0          0             0          

p2mp:  0          0             0          

                                Total:     0             

M8850_NY.7.PXM.a > 

cnfnodalfd

Configure Nodal Frame Discard

The cnfnodalfd command lets you determine whether the switch can use frame discard for AAL5 cells.

---

Note This command formerly had the name cnffdonaal5.

---

Use dspnodalfd to see the enable status of frame discard for AAL5 cells.

Cards on Which This Command Runs

PXM45

Syntax

cnfnodalfd yes | no

Syntax Description

yes	Install frame discard on the presence of the AAL5 IE. The default is yes.
no	Do not install frame discard on the presence of the AAL5 IE.

Related Commands

dspnodalfd

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Examples

Disable frame discard for AAL5 cells on the switch.

Geneva.7.PXM.a > cnfnodalfd no

cnfnodalcongth

Configure Nodal Congestion Thresholds

The cnfnodalcongth command lets you configure congestion thresholds at the node level. The thresholds relate to call setup messages, status enquiries, queue levels, and so on. You must specify at least one optional parameter.

Cards on Which This Command Runs

PXM45

Syntax

cnfnodalcongth

[-setuphi {setupHiThreshold}]

[-statenqlo {statusEnqLoThreshold}]

[-statenqhi {statusEnqHiThreshold}]

[-connpendlo {connPendingLo}]

[-connpendhi {connPendingHi} ]

[-incompjour {incompleteJournalCallsHi}]

[-vsiqmild {mildCongPerc}]

[-vsiqmedium {mediumCongPerc}]

[-vsiqsevere {severeCongPerc}]

Syntax Description

-setuphi	The number of connection set-up messages per second above which the node is congested. Range: 1-1000 connection set-up messages per second Default: •500 on a PXM45/B with R7K processor •180 in all other cases
-statenqlo	The number of status enquiries per second below which the node is not congested. Range: 1-500 messages per second Default: 100
-statenqhi	The number of status enquiries per second above which the node is congested with status enquiries. Range: 1-500 status enquiries per second Default: 200 status enquiries per second
-connpendlo	The aggregate number of connections in the establishment phase below which the establishment congestion flag is dropped. Range: 1-1000 connections Default: 400 connections
-connpendhi	The aggregate number of connections in the establishment phase above which the establishment congestion state is flagged. Range: 1-1000 connections Default: 500 connections
-incompjour	The number of incomplete journaling cycles that must be exceeded to trigger an increase in the journaling rate. Range: 1-10 cycles Default: 5 cycles
-vsiqmild	The VSI Q depth above which VSI master is mildly congested. The mildCongPerc value is a percentage of VSI master-slave communication window size. This threshold applies to all the PNNI logical ports on the node. Range: 1-175 Default: 5
-vsiqmedium	The VSI Q depth above which VSI master is congested at a medium level. The mediumCongPercis value is a percent of VSI master-slave communication window size.This threshold applies to all interfaces on the node. Range: 1-175 Default: 10
-vsiqsevere	The VSI Q depth above which VSI master is severely congested. The severeCongPerc value is a percent of VSI master-slave communication window size. This threshold applies to all interfaces on the node. Range: 1-175 Default: 20

Related Commands

dspnodalcongth

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Examples

Configure the nodal congestion thresholds, as follows:

svcpop1.1.PXM.a > cnfnodalcongth -setuphi 80 -vsiqmild 100 -vsiqmedium 140 -vsiqsevere 175

 svcpop1.1.PXM.a > dspnodalcongth 

 Parameter         Value      Unit 

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

 setuphi(prov)       80       cps 

 setuphi(curr)       80       cps 

 statenqlo          100       cps 

 statenqhi          200       cps 

 connpendinglo      400       messages 

 connpendinghi      500       messages 

 incompjournalhi      5       cycles 

 vsiqdepthmild      100       multiplier 

 vsiqdepthmedium    140       multiplier 

 vsiqdepthsevere    175       multiplier 

cnfpnctlvc

Configure Port Control Virtual Channel—configure bandwidth parameters for a control channel.

The cnfpnctlvc command lets you configure bandwidth parameters for two types of control channels on a port. The types of control channels are service-specific connection-oriented protocol (SSCOP) and PNNI routing control channel (PNNI-RCC).

Before using cnfpnctlvc, note the following:

•You can execute cnfpnctlvc for one type of control VC at a time.

•A control VC belongs to a special service type called virtual switch interface signaling (VSI-SIG). A VSI-SIG connection behaves like a VBR-nrt connection.

•The port must be down for you to execute cnfpnctlvc (so you may first have to use dnpnport).

•The bandwidth used by control-type VCs (including ILMI, when enabled) adds to the bandwidth load on the port. Use dspload to determine the load on port resources.

(The VC for ILMI is also a control channel, but its bandwidth parameters are fixed, as follows: PCR=1000 cps; SCR=50cps; and MBS=1024 cells).

The controller guarantees bandwidth for control VCs. The reserved bandwidth is proportional to the line rate (T3/E3, OC3, OC12, and so on). Also, the excess priority for this category is equal to CBR and is higher than any other category. This scheme protects the flow of control data from bursts in user data.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnctlvc <portid> <vc-type>[<-pcr> {peak cell rate}][<-scr> {sustained cell rate}]
[<-mbs> {Maximum burst size}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
vc-type	The type of control VC. The VC types are pnnircc and sscop.
-pcr	The peak cell rate for the control VC. Range: 1-5000 cells per second Defaults: •If vc-type is pnnircc, the default is 906 cps. •If vc-type is sscop, the default depends on the line rate.
-scr	The sustained cell rate of the control VC. Range: 1-5000 cps Default: •If vc-type is pnnircc, the default is 453 cps. •If vc-type is sscop, the default depends on the line rate.
-mbs	The maximum burst size of the control VC. Range: 1-1000 cells Defaults: •If vc-type is pnnircc, the default is 171 cells. •If vc-type is sscop, the default is 1000 cells.

Related Commands

dsppnctlvc (on the active control card), dspload (on a service module)

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Change the MBS of the PNN-RCC VC on port 3:1.1:1 to 100 cells. The system returns the error message that the port is still in service. After downing the port with the dnpnport command, complete the task. (If connections were on the port, they would go into alarm.) Check the control VCs with dsppnctlvc.

One section of the display (labeled "provisioned") shows configured parameters, and one section shows operational VC parameters. In this example, the "provisioned" section reflects that you did not configure bandwidth parameters other than MBS, and the "operational" section shows actual bandwidth parameters—including the MBS you configured. Remember to re-activate the port by using uppnport.

8850_NY.8.PXM.a > cnfpnctlvc 3:1.1:1 sscop -mbs 100

ERROR: Port is not out-of-service 

8850_NY.8.PXM.a > dnpnport 3:1.1:1 

8850_NY.8.PXM.a > cnfpnctlvc 3:1.1:1 sscop -mbs 100

cnfpnctlvc Successful

8850_NY.7.PXM.a > dsppnctlvc 3:1.1:1

vc type = sscop      Parameter = Provisioned

service category : sig                       PCR : Not Provisioned

SCR :  Not Provisioned                       MBS :             100 

vc type = sscop      Parameter = Operational 

service category : sig                       PCR :          308000

SCR :             2000                       MBS :             100

8850_NY.8.PXM.a > uppnport 3:1.1:1

cnfpnportacc

Configure Port Access—associates an ATM filter set with a port.

The cnfpnportacc command lets you associate an ATM filter set with a port (after you create the filter set with addfltset). You must specify at least one filter set if you use this command.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportacc <portid> [-in in-filter-name] [-out out-filter-name]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-in	in-filter-name: the name of the filter set that applies to SETUP messages that arrive at the port.
-out	out-filter-name: the name of the filter set that applies to SETUP messages that leave the port.

Related Commands

delpnportacc, addfltset

Attributes

Log: yes

State: active

Privilege: GROUP1

cnfpnportcac

Configure Port Connection Admission Control—configure CAC for a all connections on a port.

The cnfpnportcac command lets you reserve a percent of the bandwidth for an individual service type. The new configuration applies to new and existing calls. You can execute this command whether the port is active or in the provisioning state.

The bookfactor is the percent of utilization. It applies to connection admission control (CAC). When the default for maxbw and minbw is used for all service types, the common AvCR is advertised for all the service types.

You must specify at least one of the optional keywords.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportcac <portid> <service_category>

[-bookfactor utilization-factor]

[-maxbw max-bw-percent]

[-minbw min-bw-percent]

[-maxvc max-vc-percent]

[-minvc min-vc-percent]

[-maxvcbw max-vc-bw]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
service_category	Service category (service type). Choices are: cbr, rtvbr, nrtvbr, ubr, or abr.
-bookfactor	The service category utilization factor (SCUF) for a service type. Range: 1-200 Default: 100
-maxbw	The max-bw-percent: maximum percentage of bandwidth for a service category on this port. Range: 0-100.0000 Default: 100
-minbw	The min-bw-percent: minimum percentage bandwidth for a service category on this port. Range: 0-100.0000 Default: 0
-maxvc	The max-vc-percent: maximum percentage of VCs for a service category on this port. Range: 0-100 Default: 100
-minvc	The min-vc-percent: minimum percentage of VCs for a service category on this port. Range: 0-100 Default: 0
-maxvcbw	The max-vc-bw: maximum bandwidth, in cells per second, as specified by the PCR allowed for a VC in a service category on this port. Range: 0 through the maximum possible line rate Default: 0 (disabled)

Related Commands

dsppnportcac

Attributes

Log: yes

State: active

Privilege: GROUP1

Usage Guidelines

This section uses three examples to describe the booking factor.

1. For no overbooking or oversubscription, suppose that a user has a 100-Mbit link and the booking factor is 100.

•PNNI advertises 100 Mbits to the network.

•The link on the service module is configured for 100 Mbits.

2. A booking factor less than 100% results in link oversubscription because the bandwidth booked for each connection exceeds the configured bandwidth for the connection. This situation is referred to as overbooking.

Suppose that, for the same 100-Mbit link, the booking factor is 10.

•PNNI advertises 1000 Mbits (calculated by 100 * 100/10 = 1000)

•The link is configured on the service module for 100 Mbits.

3. Booking factors greater than 100% result in link undersubscription, and the bandwidth booked for a connection exceeds the connection's configured bandwidth. This situation is referred to as underbooking.

For the same 100-Mbit link, the booking factor is 200.

•PNNI advertises 50 Mbits (calculated as 100 * 100/200 = 50)

•The link is configured on the service module for 100 Mbits.

•The policing bandwidth is based on the configured bandwidth and not the book factor. For a 10-Mbit connection, the policing is 10 Mbits, regardless of the booking factor.

cnfpnportcc

Configure Port Call Control

Sets call control parameters for a port. The possible applications of cnfpnportcc are to let you:

•Specify maximum root and leaf connections for point-to-multipoint connections

•Specify whether all SVCs or all SPVCs are blocked on the port

---

Note The current release does not support point-to-multipoint calls.

---

You can execute this command whether the port is active or in the provisioning state. Changes apply to new incoming calls, not existing calls. You must specify at least one optional keyword.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportcc <portid>

[-maxp2mproot max-p2mp-root]

[-maxp2mpleaf max-p2mp-leaf]

[-svcblock {yes | no}]

[-spvcblock {yes | no}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-maxp2mproot	The max-p2mp-root: maximum number of root VCs on this port. Default: 1000
-maxp2mpleaf	The max-p2mp-leaf: maximum number of leaf VCs on this port. Default: 4095
-svcblock	Enables or disables SVC blocking on the port. Yes (enable): The port accepts no call setups. No (disable): The port accepts call setups. Default: no.
-spvcblock	Enables or disables SPVC blocking on the port. Type "yes" or "no." Yes (enable): an attempt to add an SPVC through addcon or Cisco WAN Manager fails. The resulting error message is: "ERR: SPVC blocking is enabled on this interface." No (disable): you can add SPVCs through addcon or Cisco WAN Manager. Default: no

Related Commands

dsppnportcc

Attributes

Log: yes

State: active

Privilege: GROUP1

cnfpnportloscallrel

Configure PNNI Port Loss of Signal Call Release

The cnfpnportloscallrel command lets you shut off the standard delay for rerouting calls on a port when the system detects loss of signal (LOS) on a port.

When the system detects LOS on an NNI link, the switch does not immediately tear down the calls on the link—in case the break is momentary. By default, the system waits for the SSCOP "no-response" and T309 timers to time out before it releases calls on the broken link. The default values for these timers are 30 seconds and 10 seconds, respectively. The system-level assumption (and therefore the default for cnfpnportloscallrel) is to retain all the calls for a temporary loss of connectivity, but this can also have the effect of delaying the rerouting of connections. The cnfpnportloscallrel command lets you direct the system to reroute calls without delay on a particular port.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportloscallrel <portid> <yes | no>

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
yes | no	Specifies whether immediate call release is enabled upon LOS. To enable this feature—to remove the standard reroute delay—type "yes." Default: no.

Related Commands

dsppnportloscallrel

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Example

Enable call release upon LOS for port 3:1.1:1, then confirm its status.

8850_NY.8.PXM.a > cnfpnportloscallrel 3:1.1:1 yes

8850_NY.8.PXM.a > dsppnportloscallrel 3:1.1:1

Call release on Los :enabled

cnfpnportncci

Configure Network Call Correlation Identifier—configures an action for a call correlation identifier.

The cnfpnportncci command lets you determine the action that PNNI takes on a call correlation identifier. The possible responses to this identifier are:

•Forward the identifier.

•Discard the identifier.

•Assign a new identifier.

---

Note This command applies only to UNI 4.0 and AINI. It does not apply to UNI 3.x, IISP, and PNNI.

---

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportncci <portid> [-action {forward | discard | assign}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-action	The action that the controller takes on the network call correlation identifier: the choices are "forward," "discard," and "assign." The default is forward.

Related Commands

dsppnportncci

Attributes

Log: yes

State: active

Privilege: GROUP1

cnfpnportrange

Configure Port Range—configure a range of VPIs or VCIs for SVCCs and SVPCs.

The cnfpnportrange command lets you specify a range of VPIs and VCIs on a port for SVCCs or SVPCs for the purpose of screening calls from another switch. If the VPI or VCI for one of these control channels from another switch does not fall within the range for the called port, the called switch rejects the call.

To execute this command, the port must be down (see dnpnport). The maxsvccvpi default of 4095 provides the maximum advantage for negotiation during ILMI auto-configuration. Note that the maxsvccvpi parameter is limited by the highest VPI that the switch assigns (whether the port is a UNI or an NNI).

In addition to the port ID, you must specify at least one keyword for cnfpnportrange.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportrange <portid>

[-minsvccvpi min-svcc-vpi ]

[-maxsvccvpi max-svcc-vpi ]

[-minsvccvci min-svcc-vci ]

[-maxsvccvci max-svcc-vci ]

[-minsvpcvpi min-svpc-vpi ]

[-maxsvpcvpi max-svpc-vpi ]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-minsvccvpi	The min-svcc-vp: minimum VPI for SVCC. Range: 0-4095 Default: 0
-maxsvccvpi	The max-svcc-vp: maximum VPI for SVCC. Range: 0-4095 Default: 4095
-minsvccvci	The min-svcc-vci: minimum VCI for SVCC. Range: 0-65535 Default: 35
-maxsvccvci	The max-svcc-vci: maximum VCI for SVCC. Range: 32-65535 Default: 65535
-minsvpcvpi	The min-svpc-vp: minimum VPI for SVPC. Range: 1-4095 Default: 1
-maxsvpcvpi	The max-svpc-vp: maximum VPI for SVPC. Range: 1-4095 Default: 4095

Related Commands

dsppnportrange

Attributes

Log: yes

State: active

Privilege: GROUP1

cnfpnportsig

Configure Port Signaling—specify ATM signaling parameters on a PNNI port.

Before you can execute cnfpnportsig, the port must be down (by dnpnport). For a UNI or an NNI, the type of interface you specify on the controller must match the interface type that you configure on the slave (the service module). On the service module, you need specify UNI, NNI, or VNNI, but the cnfpnportsig command has options for specifying the version of an interface type and other parameters that apply to signaling. See the Syntax Description.

Cards on Which This Command Runs

PXM45

Syntax

cnfpnportsig <portid>

[-univer {uni30 | uni31 | uni40 | q2931 | none | self}]

[-nniver {iisp30 | iisp31 | pnni10 | enni | aini}]

[-unitype {public | private}]

[-addrplan {both | aesa | e164}]

[-side {user | network}]

[-vpi <vpi>]

[-sigvci signalling-vci]

[-rccvci routing-vci]

[-cntlvc {ip}]

[-passalongcap {enable | disable}]

[-hopcntgen {enable | disable}]

[-vpivcialloc {enable | disable}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-univer	The UNI version: uni30, uni31, uni40, none, or self. Note that univer and nniver are mutually exclusive—so the interface at each end of the connection must have the same interface type. Also, the port type on the PNNI controller must be the same as on the slave (through addport ... ifType on the AXSM, for example). The default for this parameter is UNI 3.1. If this version is sufficient, you can forego this parameter. However, to change a UNI version, the port must be down. Remember to up the port by using the uppnport command after completing the cnfpnportsig command. The none choice applies to any port that does not need to run SSCOP protocol (for example, SPVC endpoints). The self choice applies to voice SVCs. Default: uni31
-nniver	The NNI version: iisp30, iisp31, pnni10, aini, or enni. Note that univer and nniver are mutually exclusive—so the interface at each end of the connection must have the same interface type. Also, the port type on the PNNI controller must be the same as on the slave (through addport ... ifType on the AXSM, for example). The default for this parameter is PNNI 1.0. If this version is sufficient, you can forego this parameter. However, to change an NNI version, the port must be down. Remember to up the port by using the uppnport command after completing the cnfpnportsig command. Default: pnni10
-unitype	The type of UNI is either private or public. This parameter is relevant only if you specified a UNI interface through the -univer parameter. Default: private
-addrplan	The address plan of the calling party that the interface accepts. The choices are both, e164, and aesa. The default is both. Only a public UNI can use this parameter. For all other interface types, the port automatically accepts either AESA or E.164 address plans.
-side	The side of the port: type "user" or "network." This parameter applies to IISP only and public UNI. (An NNI interface type automatically is "network.") An IISP or public UNI has a user side and a network side. (If both sides are the same, a configuration error has occurred.) The network side is the side that assigns the VPI and VCI. These links do not distinguish between SVCs and SPVCs. Default: network
-vpi	The VPI of the signaling and routing control channel (RCC) on the port. Range: 0-4095 Default: 0
-sigvci	The signaling VCI for the port. If you do not use the default of 5, this VCI must be in the range 32-65535. Range: 5 or 32-65535 Default: 5
-rccvci	The routing control channel-vci: the VCI for PNNI RCC. If you do not use the default of 18, this VCI must be in the range 32-65535. Range: 18 or 32-65535 Default: 18
-cntlvc	Enable for an IP-based signaling channel. This option applies only to a feeder connected to the switch. An IP-based control channel is mutually exclusive of either UNI or NNI. The only choice for -cntlvc is "ip." Default: "ip" (for Internet Protocol)
-passalongcap	Pass-along capability: type "enable" or "disable." With this capability, the port has the ability to pass along unrecognized information elements (IEs) or messages. Enabling or disabling the pass-along capability applies to AINI, IISP, and public UNI. For all other types, the port behaves as if pass-along is enabled—you cannot disable pass-along on the other port types. Default: enable
-hopcntgen	This parameter applies to AINI only. Type the entire word, "enable" or "disable." If you enable hop counting for AINI, the controller generates the hop counter information IE for all setup messages that pass through the interface if this IE does not already exist in the setup message. You must also enable AINI hop count IE for the switch by using the cnfainihopcount command. Default: enable
-vpivcialloc	This parameter applies to AINI only: type "enable" or "disable." If you enable it, the interface becomes responsible for assigning the VPI and VCI for any SVC or SPVC. Note that if you enable VPI/VCI allocation on one side of the AINI link, allocation must be disabled on the other side of the link, Default: enable

Related Commands

dsppnportsig

Attributes

Log: yes

State: active

Privilege: GROUP1

Examples

Specify an RCC VCI of 10000 for port 1:2.1:1. Be sure the interface type is compatible with the parameter you want to change. Do the following:

1. Confirm that the interface type for 1:2.1:1 is NNI.

2. Down the port.

3. Configure the RCC VCI to be 10000.

4. Check the port by using the dsppnportsig command.

5. Up the port.

M8850_NY.7.PXM.a > dsppnport 1:2.1:1

Port:               1:2.1:1           Logical ID:       16848897          

IF status:          up                Admin Status:     up                

UCSM:               enable            

Auto-config:        enable            Addrs-reg:        enable            

IF-side:            network           IF-type:          nni               

UniType:            private           Version:          pnni10            

PassAlongCapab:     n/a               

Input filter:       0                 Output filter:    0                 

minSvccVpi:         0                 maxSvccVpi:       200               

minSvccVci:         35                maxSvccVci:       255               

minSvpcVpi:         1                 maxSvpcVpi:       200               

       #SpvcCfg:  #SpvcActive:  #SpvpCfg:  #SpvpActive:  

p2p :  0          0             0          0             

p2mp:  0          0             0          0             

       #Svcc:     #Svpc:        Total:     

p2p :  0          0             0          

p2mp:  0          0             0          

                                Total:     0             

M8850_NY.7.PXM.a > dnpnport 1:2.1:1 

M8850_NY.7.PXM.a > cnfpnportsig 1:2.1:1 -rccvci 10000

M8850_NY.7.PXM.a > dsppnportsig 1:2.1:1

provisioned IF-type: nni   version:     pnni10  

sigType:  private          side:        network 

addrPlan:  aesa    

VpiVciAllocator:  n/a      HopCounterGen:  n/a

PassAlongCapab:  n/a

sigVpi:          0         sigVci:             5

rccVpi:          0         rccVci:         10000

M8850_NY.7.PXM.a > uppnport 1:2.1:1

cnfqosdefault

Configure Quality of Service Default—configure QoS defaults at the switch level.

The cnfqosdefault command lets you specify default, switch-level QoS values for three service classes. The applicable service classes are CBR, rt-VBR, and nrt-VBR. The switch applies these default values to an SVC or SPVC if the incoming setup message does not contain the QoS specification. For an SPVC, the values specified through addcon or cnfcon override the defaults configured through the cnfqosdefault command.

You can specify defaults for one service class at a time. In addition to the bandwidth parameters, you can either enable (activate) or disable the default configuration. The default state is disabled. Therefore, be sure to enable the configuration for each QoS if you want PNNI to use it. You can configure the parameters and leave them disabled until a suitable time (see Example).

Each bandwidth parameter is optional:

•Maximum cell transfer delay

•Peak-to-peak cell delay variation

•Maximum cell loss ratio for cells with CLP=0

•Maximum cell loss ratio for cells with CLP=1 or 0

Cards on Which This Command Runs

PXM45

Syntax

cnfqosdefault <cbr | rtvbr | nrtvbr> [<-maxctd> maxctd] [<-ppcdv> ppcdv]
[<-maxclrclp0> maxclrclp0] [<-maxclrclp01> maxclrclp01] [<-enable> {yes | no}]

Syntax Description

cbr, rtvbr, or nrtvbr	The service class for the current iteration of the command: type either "cbr," "rtvbr," or "nrtvbr."
-maxctd	The maximum cell transfer delay has a range of 0- 65535 milliseconds. Default: (none)
-ppcdv	The peak-to-peak cell delay variation has a range of 0-16777215 microseconds. Default: (none)
-maxclrclp0	The maximum cell loss ratio for CLP0 can be an integer in the range 1-15. Default: (none)
-maxclrclp01	The maximum cell loss ratio for CLP0+1 can be an integer in the range 1-15. Default: (none)
-enable	The entry for enabling or disabling the switch level defaults for the current service class. Type "yes" to enable or "no" (or leave in the default state). Default: no

Related Commands

clrqosdefault, dspqosdefault

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

For CBR, configure and enable the following:

•Maximum cell transfer delay of 100 milliseconds

•Maximum cell delay variation of 1000 microseconds

•Maximum cell loss ratio for CLP0 of 10

•Maximum cell loss ratio for CLP0+1 of 5

After configuring the defaults, disable them, check the configuration with dspqosdefault, then re-enable and re-check them. Note that the output of dspqosdefault has been edited to show only the CBR values.

8850_NY.7.PXM.a > cnfqosdefault cbr -maxctd 100 -ppcdv 1000 -maxcltclp0 10 -maxclrclp01 5 
-enable yes

8850_NY.7.PXM.a > dspqosdefault

Service Category = cbr                        Qos Default Enable = yes          

MaxCTD =           100                        ppCDV  =             1000         

MaxClrClp0 =       10                         MaxClrClp01 =        5

8850_NY.7.PXM.a > cnfqosdefault cbr -enable no

8850_NY.7.PXM.a > dspqosdefault 

Service Category = cbr                        Qos Default Enable = no           

MaxCTD =           100                        ppCDV  =             1000         

MaxClrClp0 =       10                         MaxClrClp01 =        5 

8850_NY.7.PXM.a > cnfqosdefault cbr -enable yes

8850_NY.7.PXM.a > dspqosdefault

Service Category = cbr                        Qos Default Enable = yes          

MaxCTD =           100                        ppCDV  =             1000         

MaxClrClp0 =       10                         MaxClrClp01 =        5

cnfsig

Configure Signaling—configures signaling timers and crankback attempts for a port.

The cnfsig command lets you configure signaling timers for a port whether the port is up or down. The new configuration applies to new incoming calls while existing calls remain intact. In addition to standard timers, this command lets specify the maximum number of crankbacks that PNNI can attempt at a port. You must specify at least one of the optional parameters.

Cards on Which This Command Runs

PXM45

Syntax

cnfsig <portid>

[-t301 t301-timer ]

[-t303 t303-timer ]

[-t308 t308-timer ]

[-t310 t310-timer ]

[-t316 t316-timer ]

[-t317 t317-timer ]

[-t322 t322-timer ]

[-t397 t397-timer ]

[-t398 t398-timer ]

[-t399 t399-timer ]

[-maxcrbk value ]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-t301	The T301 timer. Range: 150-240 seconds Default: 180
-t303	The T303 timer. Range: 4-8 seconds Default: 4
-t308	The T308 timer. Range: 20-45 seconds Default: 30
-t310	The T310 timer. Range:  •10-20 seconds for UNI. •30-120 seconds for PNNI. The range you can specify for PNNI is 30-120. If you do not specify a T310 timer value for PNNI, it remains the default of 10 seconds for PNNI. Default: 10
-t316	The t316-timer: Set the T316 timer. Range: 90-300 seconds Default: 90
-t317	The t317-timer: Set the T317 timer. Range: 60-300 seconds Default: 60
-t322	The t322-timer: Set the T322 timer. Range: 4-20 seconds. Default: 4
-t397	The t397-timer: Set the T397 timer. Range: 180-240 seconds Default: 180
-t398	The t398-timer: Set the T398 timer. Range: 4-20 seconds Default: 4
-t399	The t399-timer: Set the T399 timer. Range: 14-28 seconds for UNI 3.0 and 3.1, and 34-124 for UNI 4.0. Default: 14 and 34, respectively.
-maxcrbk	The maximum number of crankback attempts allowed on the port. Range: 0-10 Default: 3

Related Commands

dspsig

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Example

Configure port 1:1.1:1 to have the maximum crankback count of 5. Check the results with the dspsig command. Note the default values in the dspsig output.

pop20one.7.PXM.a > cnfsig 1:1.1:1 -maxcrbk 5

pop20one.7.PXM.a > dspsig 1:1.1:1

Signaling Timers for port: 1:1.1:1

Timer           Value(secs)

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

t301            180

t303            4

t308            30

t310            10

t316            90

t317            60

t322            4

t397            180

t398            4

t399            14

Max Crankback: 5

cnfsigdiag

Configure Signaling Diagnostic

The cnfsigdiag command lets you create a filter table for signaling diagnostics or disable signaling diagnostics. Signaling diagnostics are disabled by default.

The ATM signaling diagnostics are tools for troubleshooting call failures in the network and should not be enabled while the switch is operating.

Cards on Which This Command Runs

PXM45

Syntax

cnfsigdiag {[enable | disable | index]}

[-cldaddr nsap-address]

[-clgaddr nsap-address]

[-cldaddrmask atm-address-mask]

[-clgaddrmask atm-address-mask]

[-casttype {all | p2p | p2mp}]

[-clrcause clear-cause-code]

[-connctgy {all | svc | svp | swvc | swvp}]

[-inport portid]

[-outport portid]

[-maxrec max-num-records ]

[-scope {all | ext | int}]

[-servctgy {all | cbr | rtvbr | nrtvbr | ubr | abr}]

[-status {active | inactive}]

Syntax Description

enable, disable, or index	Enable or disable signaling diagnostics or configure an index. Specify the diagnostics index number for the filter table and enter the diagnostics configuration mode. The range for index is 1-50. If you do not specify an index, the enable or disable condition globally applies to all signaling diagnostics. Default: disable
-cldaddr	The nsap-address is the filter for ATM signaling call failures against this called address. Default: NULL
-clgaddr	The nsap-address is the filter for ATM signaling call failures against this calling address. Default: NULL
-cldaddrmask	The the atm-address-mask: Address mask for identifying valid bits of the called NSAP address field (ff.ff.ff, for example). To match this selection criterion, a failed connect setup must have a called party address value equal to the configured called party address for all bits that are 1 in the specified mask. Default: NULL. NULL means the rejected call matches the filter criteria for any called address in the rejected call.
-clgaddrmask	The atm-address-mask: Address mask for identifying valid bits of the calling NSAP address field. (ff.ff.ff, for example). To match this selection criteria, a failed connect setup must have a calling party address value equal to the configured calling party address for all bits that are 1 in the specified mask. Default: NULL means the call matches the filter criteria for any calling address in the rejected call.
-casttype	Filtering by connection type. The types are point-to-point (p2p), point-to-multipoint (p2mp)—currently not supported, or both (all)). Default: all
-clrcause	The clear-cause-code: Filters ATM signaling call failures by the release cause code (a decimal number) as specified in the ATM Forum UNI 3.1 specification. Default: 0, meaning the cause code is not considered during filtering.
-connctgy	Filters ATM signaling call failures by virtual circuit category (SPVC, SPVP, SVC, SVP, or all of these circuit categories). Default: all
-inport	The portid: filters ATM signaling call failures based on the incoming port of the call. Default: 0, meaning the incoming port is not considered during filtering.
-outport	The portid: filters ATM signaling call failures based on the outgoing port of the call. Default: 0, meaning the outgoing port is not considered during filtering.
-maxrec	The max-num-records: the maximum number of records collected for a particular signaling diagnostics filter table entry. When the maximum value is reached, the older records are deleted. If this field is set to -1, the records are not overwritten. Setting this field to -1 increases memory usage for call failure records and can lead to shortages of available system memory. Range: -1 through 214783647 Default: 20
-scope	The filtering scope choices are within the switch (int), on other switches (ext), or both (all). Default: all
-servctgy	Filters ATM signaling call failures by service category (service type): valid entries are: all (for all service types), cbr, rtvbr, nrtvbr, ubr, or abr. Default: all
-status	The status of the entry for the signaling diagnostics filter table. Type active to begin filtering failed connections or inactive to stop filtering failed connections. The inactive specification causes the node to delete all the records associated with the filter entry. Default: inactive

Related Commands

delsigdiag, dspsigdiag, dspsigstats, clrsigstats

Attributes

Log: yes

State: active

Privilege: ANYUSER

cnfspvcprfx

Configure SPVC Prefix—configure a node-level prefix for SPVCs.

For the node to support SPVCs, it must have a 13-byte SPVC prefix that applies to the entire node. No SPVCs can exist on the node until it has an SPVC prefix. Likewise, to change this prefix, no SPVCs can exist on the node.

Prerequisites

Setting up a node and a network requires advance planning for the PNNI node addressing scheme. For basic guidance on the topic of address planning, refer to related material in the Cisco MGX 8850 and MGX 8950 Switch Software Configuration Guide, Release 2.1.

Cisco provides a default SPVC prefix that is the same as the Cisco-supplied ATM address prefix. Each of these default prefixes contains an International Code Designator (ICD) that is unique to Cisco Systems. Therefore, Cisco Systems recommends that you change the ICD identifier for both the ATM address prefix and the SPVC prefix if the node is planned for operation in a public ATM network. If the node operates in a private ATM network, it can keep the default ATM and SPVC address prefixes.

The following list shows the order of prerequisite commands and the cnfspvcprfx command. All commands run on the PXM.

1. addcontroller

2. cnfpnni-intf

3. cnfspvcprfx

4. dspspvcprfx

Cards on Which This Command Runs

PXM45

Syntax

cnfspvcprfx -prfx <prefix | "default">

Syntax Description

-prfx

The prefix is either a 13-byte value you enter or the character string "default" (to keep the Cisco factory default).

Related Commands

dspspvcprfx

Attributes

Log: yes

State: active

Privilege: SUPER_GP

Example

First display the current SPVC prefix. The ICD field shows the prefix is the default from Cisco (0091). Configure the SPVC prefix 47.0077780000000aa2109ff214.

pop20one.7.PXM.a > dspspvcprfx

SPVC Node Prefix: 47.00918100000000107b65f33c

pop20one.7.PXM.a > cnfspvcprfx 47.0077780000000aa2109ff214

cnfsscop

Configure SSCOP

The cnfsscop command lets you configure service-specific connection-oriented protocol (SSCOP) on a port. You can use this command regardless of the state of the port. You must specify at least one of the optional parameters.

Cards on Which This Command Runs

PXM45

Syntax

cnfsscop <portid>

[-polltmr {poll-timer | 0}]

[-keepalivetmr {keepalive-timer | 0}]

[-idletmr {idle-timer | 0}]

[-cctmr {cc-timer | 0}]

[-norsptmr {noresponse-timer | 0}]

[-t309tmr {t309-timer | 0}]

[-maxcc {retries | 0}]

[-sndwnd {send-window-packets | 0}]

[-rcvwnd {recv-window-packets | 0}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-polltmr	Number of seconds to send POLL PDUs in the active phase. A 0 forces restore of the default value. Range: 1-5 seconds Default: 1 second
-keepalivetmr	Number of seconds to send POLL PDUs in the transient phase. 0 forces restore of the default value. Range: 1-10 seconds Default: 5 seconds
-idletmr	Number of seconds to send POLL PDUs in the idle phase. 0 forces restore of the default value. Range: 1-20 seconds Default: 10 seconds
-cctmr	Number of seconds to send BGN/END/RS/ER PDUs at the connection control phase. 0 forces restore of the default value. Range: 1-5 seconds Default: 1 second
-norsptmr	Number of seconds after which at least one STAT PDU must be received (for the No Response timer). A 0 forces restoration of the default value. Range: 1-45 seconds Default: 30 seconds
-t309tmr	Number of seconds before SAAL reconnects after disconnection. Range: 1 -15 seconds Default: 10 seconds
-maxcc	Maximum number of retries for connection control operations. A 0 forces restoration of the default. Range: 1-15 Default: 10
-sndwnd	Number of packets the port can send before it must receive an acknowledgment from the ATM switch. A 0 forces restoration of the default. Range: 1-127 Default: 30
-rcvwnd	Number of packets the port can receive before it sends an acknowledgment to the ATM switch. A 0 forces restoration of the default. Range: 1-127 Default: 30

Related Commands

disablesscop, dspsscop, dspsscopstats

Attributes

Log: yes

State: active

Privilege: GROUP1

cnftrapip

Configure Trap IP

The cnftrapip command lets you configure the trap IP for Cisco WAN Manager. You can then use the command dsptrapip to confirm the value.

Before you use cnftrapip:

1. The SNMP agent must be installed.

2. The switch's interface must have an IP address. (To assign an IP address to a switch's interface, use ipifconfig.)

For information about installing the SNMP agent for CWM, see Cisco WAN Manager Installation for Solaris, Release 10.

Cards on Which This Command Runs

PXM45

Syntax

cnftrapip <ip address>

Syntax Description

ip address

The switch's ethernet IP address on which the traps are configured.

Related Commands

dsptrapip, dsptrapmgr, addtrapmgr, deltrapmgr

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Assign IP address 172.27.27.184 to the switch, then use the dsptrapip command to check it.

SanJose.7.PXM.a > cnftrapip 172.27.27.184

SanJose.7.PXM.a > dsptrapip

Trap IP Address :172.27.27.184

SanJose.7.PXM.a > 

deladdr

Delete Address

Removes an ATM address for a UNI or IISP.

Cards on Which This Command Runs

PXM45

Syntax

deladdr <portid> <atm-address> <length> [-plan {e164 | nsap}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
atm-address	The ATM address: its format depends on whether the address type is NSAP or E.164. The address plan specifies the address type and so determines the maximum number of bytes or bits in the address. You can specify the address plan with the forthcoming -plan option. The default plan is NSAP. •An NSAP address can have 1-20, 8-bit bytes (where a byte is 2 hexadecimal characters). Cisco recommends that you use 20 bytes for the NSAP address. •An E.164 address can 8-15 decimal digits. The number of bits or bytes in the ATM address effects the uniqueness of the address. The longest address ensures total uniqueness of the address. With a one-byte address, any caller that sends an address whose first address byte matches that one-byte ATM address goes to that port.
length	Address length. The units of measure differ for each address plan. The -plan option lets you specify E.164 or NSAP. •For an NSAP address plan, the units of measure are bits. The range is 0-160. Using the maximum of a 20-byte address: 20 bytes x 8 bits per byte = 160 bits. •For an E.164 address plan, the value is the number of decimal digits. If the ATM address consists of 15 digits, the value for this parameter is also 15.
-plan	Address plan: E.164 or NSAP. Default: nsap

Related Commands

addaddr, dspaddr, deladdrs

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

On port 11:2.8:22, delete 47.0091.8100.0000.0000.0ca7.9e01.4000.0c81.8000.00. Note that the command entry includes the address length of 160 after the address.

Geneva.7.PXM.a > deladdr 11:2.8:28 47.0091.8100.0000.0000.0ca7.9e01.4000.0c81.8000.00 160

deladdrs

Delete Addresses—delete all ATM addresses.

Removes all ATM addresses on a UNI, AINI, or IISP. The optional plan parameter lets you differentiate by address plan:

•E164

•NSAP

•All address plans (the default)

Cards on Which This Command Runs

PXM45

Syntax

deladdrs <portid> [-plan {e164 | nsap | all}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-plan	Address plan: E.164, NSAP, or all. Default: all

Related Commands

addaddr, dspaddr, deladdr

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

On port 11:2.8:22, delete all the addresses (regardless of address plan).

Geneva.7.PXM.a > deladdrs 11:2.8:28

delfltset

Delete Filter Set

Removes an ATM address filter set.

Cards on Which This Command Runs

PXM45

Syntax

delfltset <name> [index]

Syntax Description

name	The name of the filter set.
index	Delete a specific filter element. Range: 1-65535 Default: 0

Related Commands

addfltset, cnffltset, dspfltset

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Remove the "connect" filter set from the port.

Geneva.7.PXM.a > delfltset connect

delpnport

Delete Port

Remove a UNI or NNI 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. If the controller does no provisioning on the port in the Plug and Play Scenario, then the PNNI port on the controller is removed if you remove the PNNI Partition on the switch.

Cards on Which This Command Runs

PXM45

Syntax

delpnport <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

addpnport, uppnport, dnpnport, dsppnport

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Delete port 11:2.8:28 from the switch.

Geneva.7.PXM.a > delpnport 11:2.8:28 

delpnportacc

Delete Port Access

Removes an address access filter group from a port.

Cards on Which This Command Runs

PXM45

Syntax

delpnportacc <portid> {in | out}

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
in	Delete incoming access group for the port.
out	Delete outgoing access group for the port.

Related Commands

cnfpnportacc

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Delete the filter group for incoming calls from port 11:2.8:28.

Geneva.7.PXM.a > delpnportacc 11:2.8:28 in

delsigdiag

Delete Signaling Diagnostic

Removes a signaling diagnostics filter table entry or removes some configuration values within a filter table entry.

Cards on Which This Command Runs

PXM45

Syntax

delsigdiag [index]

[-cldaddr nsap-address]

[-clgaddr nsap-address]

[-cldaddrmask {yes | no}]

[-clgaddrmask {yes | no}]

[-casttype {yes | no}]

[-clrcause {yes | no}]

[-connctgy {yes | no}]

[-inport {yes | no}]

[-outport {yes | no}]

[-maxrec {yes | no}]

[-scope {yes | no}]

[-servctgy {yes | no}]

Syntax Description

index	Specifies the diagnostics index number for the filter table. If no other keywords are entered, the indexed filter table entry is deleted. Range: 1-50
-cldaddr	Removes the configured called address from the filter entry.
-clgaddr	Removes the configured calling address from the filter entry.
-cldaddrmask	yes returns the called address mask to the default. Default: no
-clgaddrmask	yes returns the calling address mask to the default. Default: no
-casttype	yes to disable filtering by connection type. Default: no
-clrcause	yes to disable filtering by the release cause code. Default: no
-connctgy	yes returns the connection category to the default. Default: no
-inport	yes returns the incoming port to the default. Default: no
-outport	yes returns the outgoing port to the default. Default: no
-maxrec	yes returns the maximum records to the default. Default: no
-scope	yes to disable filtering by scope. Default: no
-servctgy	yes returns the service category to the default. Default: no

Related Commands

cnfsigdiag, delsigdiag, dspsigstats, clrsigstats

Attributes

Log: yes

State: active

Privilege: ANYUSER

disablesscop

Disable SSCOP

The disablesscop command lets you disable SSCOP on a port. The port must be administratively down (by the dnpnport command). Be sure a valid and useful reason exists for disabling SSCOP.

Cards on Which This Command Runs

PXM45

Syntax

disablesscop <portid> {yes | no}

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
yes or no	The choice for disabling or enabling SSCOP on the port: •yes means disable SSCOP. •no means enable SSCOP. Default: no (enable SSCOP on the specified port)

Related Commands

cnfsscop, dspsscop, dspsscopstats

Attributes

Log: no

State: active

Privilege: GROUP1

Example

Disable SSCOP on port 11:2.8:28.

Geneva.7.PXM.a > disablesscop 11:2.8:28 yes

Geneva.7.PXM.a > 

dnpnport

Down PNNI Port

The dnpnport command takes a UNI or NNI port out of service (administratively "downs" a port). For example, downing a port is necessary for certain provisioning activity or maintenance activity. Where appropriate, the applicable commands state that you must down a port by using dnpnport.

---

Note This command deletes all connections on a port—except for SPVCs whose endpoints are on the port.

---

Cards on Which This Command Runs

PXM45

Syntax

dnpnport <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

addpnport, delpnport, uppnport, dsppnport

Attributes

Log: yes

State: active

Privilege: GROUP1

Examples

Remove port 11:2.8:22 from service.

Geneva.7.PXM.a > dnpnport 11:2.8:28

Geneva.7.PXM.a > 

dspaddr

Display Address

The dspaddr command displays ATM addresses and associated information for a UNI or IISP. For details on the displayed items, see the addaddr description. The items in the display are as follows:

•ATM addresses on the port and the length of each

•Address plan

•The type of address—internal or external

•The protocol for advertising the address

•The choice for address distribution

•The ID number of transit node

•The scope—applicable to multi-peer groups only

Cards on Which This Command Runs

PXM45

Syntax

dspaddr <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

addaddr, deladdr

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display the ATM address and other details for port 3:1.1:1.

8850_NY.8.PXM.a > dspaddr 3:1.1:1

47.0091.8100.0002.0003.6b5e.30c0

length: 104    type: internal      proto: local

scope: 0       plan: nsap_icd      redistribute: false

transit network id:

8850_NY.8.PXM.a > 

dspainihopcount

Display AINI Hop Count—display the current configuration for AINI hop count.

The dspainihopcount command shows the enable or disable status and the limit for the number of hops a connection can have over AINI links. The counter is the Hop Counter Information Element. This configuration applies to the entire node.

Cards on Which This Command Runs

PXM45

Syntax

dspainihopcount

Syntax Description

This command takes no parameters.

Related Commands

cnfainihopcount

Attributes

Log: yes

State: active, standby

Privilege: ANYUSERP

Example

Display the current configuration for AINI hop count.

8850_NY.8.PXM.a > dspainihopcount

AINI Hop Counter Generation: enable

Max AINI Hops: 20

8850_NY.8.PXM.a >

dspatmaddr

Display ATM Addresses—displays active ATM addresses on a port.

The output of dspatmaddr includes configured ATM addresses, configured ILMI address prefixes, and ATM addresses registered by way of the ILMI address registration procedure.

Cards on Which This Command Runs

PXM45

Syntax

dspatmaddr <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dspaddr

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Examples

Display the ATM addresses and prefixes on port 2:1.1:1.

Geneva.7.PXM.a > dspatmaddr 2:1.1:1

Port Id: 2.1

Configured Port Address(es):

    39.840f.8011.3744.0000.0040.1005.3456.7834.7777.77

    length: 160		type: internal		proto: local

    scope:  0		plan: nsap-dcc		redistribute: false

ILMI Configured Port Prefix(es):

    47.0091.8100.0000.0000.0ca7.9e01

    88.8888.8888.0000.0000.0000.0000

ILMI Registered Port Address(es):

    47.0091.8100.0000.0000.0ca7.9e01.1234.5678.9012.34

    88.8888.8888.0000.0000.0000.0000.1234.5678.9012.34

length: 160	type: internal		proto: local

scope:  0	plan: nsap-dcc		redistribute: false

Geneva.7.PXM.a > 

dspconsegep

Display Connection Segment Endpoint

Displays oam segment endpoint for a connection endpoint. When both vpi and vci are present, the segment endpoint is a F5 flow endpoint (for VCCs). When the optional vci is not present, the segment endpoint is a F4 flow endpoint (for VPCs). This command applies to established calls only.

Cards on Which This Command Runs

PXM45

Syntax

dspconsegep <portid> vpi [vci]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
vpi	The VPI of the connection.
vci	The VCI of the connection.

Related Commands

cnfoamsegep, dspoamsegep, cnfconsegep, delconsegep

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

dspenhiisp

Display Enhanced IISP

Displays the enhanced IISP setting for one port or all ports.

Cards on Which This Command Runs

PXM45

Syntax

dspenhiisp [<portid>]

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfenhiisp

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Geneva.7.PXM.a > dspenhiisp

Enhanced IISP Features Setting

 Port Id     Enabled

 <portid1>   yes

 <portid2>   no

 ...

Geneva.7.PXM.a > 

dspfltset

Display Filter Set

Displays a specific ATM filter set or a summary of ATM filter sets.

Cards on Which This Command Runs

PXM45

Syntax

dspfltset [-name <...>]

Syntax Description

-name

If you do not type a filter set name, a summary of ATM filter sets is displayed.

Related Commands

addfltset, cnffltset, delfltset

Attributes

Log: yes

State: any_state

Privilege: ANYUSER

Example

Geneva.7.PXM.a > dspfltset SanJose

FilterName: SanJose

Index: 1

Address: 1234567890123456789012345678901234567890

AddrLen: 160 bits

AddrPlan: Nsap

AccessMode: Permit

AddrList: Calling

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

FilterName: SanJose

Index: 2

Address: 1234567890123456789012345678901234567891

AddrLen: 160 bits

AddrPlan: Nsap

AccessMode: Deny

AddrList: Called

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

Output example for the command

dspfltset

Filter Number: 1

FilterName: SanJose

ScreeningDigits: 40

CgPtyAbsentAction: Permit

CdPtyAbsentAction: Deny

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

Filter Number: 2

FilterName: Sunnyvale

ScreeningDigits: 20

CgPtyAbsentAction: Deny

CdPtyAbsentAction: Deny

Geneva.7.PXM.a > 

dspintfcongcntr

Display Interface Congestion Counters

Display the congestion thresholds for a port. This command cannot be used if the interface is in PROVISIONING state or if the interface ("IF" in the display) is down.

Cards on Which This Command Runs

PXM45

Syntax

dspintfcongcntr <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dspintfcongth, cnfintfcongth

Attributes

Log: no

State: active, standby

Privilege: SUPER_GP

Examples

Geneva.7.PXM.a > dspintfcongcntr 11:2.2:22

Parameter             Value         thresh1 thresh2

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

setupRx                   0           140     180

unackstatenq              0            40     100

Parameter             Value          Mild     Medium   Severe

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

vsiqdepth                 0             5      10      20

Geneva.7.PXM.a >

Note: vsiqdepth is the depth of the VSI queue for the slave that serves the interface identified by portid, and this is displayed as the percentage of VSI communication window size.

dspintfcongflags

Display Interface Congestion Flags

To display various congestion detection and action flags maintained at the CCM at the interface level.

Cards on Which This Command Runs

PXM45

Syntax

dspintfcongflags <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dspnodalcongflag

Attributes

Log: no

State: active, standby

Privilege: SUPER_GP

Examples

Geneva.7.PXM.a > dspitfcongflags 4:1.1:1

Parameter                 Value 

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

vsimildcongflg            FALSE

vsimedcongflg             FALSE

vsiseverecongflg          FALSE

setupflg                  FALSE

unackstatenqcongflg       FALSE

Congestion Action Flags for Interface:1.4

Parameter                 Value  

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

dropsetupflg              FALSE

dropestabflg              FALSE

queuerel                  FALSE

markcallsforrelflag       FALSE

pacevsiresyncflg          FALSE

pacestatenqflg            FALSE

speedjournalflg           FALSE

pacepnniroutecalflg       FALSE

lowersetupthflg           FALSE

dspintfcongth

Display Interface Congestion Thresholds

The dspintfcongth command display the congestion thresholds for a port.

Cards on Which This Command Runs

PXM45

Syntax

dspintfcongth <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfintfcongth

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

svcpop1.1.PXM.a > dspintfcongth 10:1.1:1 

 Congestion Thresholds for port : 10:1.1:1 

 Parameter            Value        unit 

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

 setuphi              90           cps 

 unackedStatEnqLo     40           messages 

 unackedStatEnqHi     100          messages 

Geneva.7.PXM.a > 

dspnodalcongcntr

Display Nodal Congestion Threshold Counters

The dspnodalcongcntr command displays thresholds and current contents of the congestion counters for the node.

Cards on Which This Command Runs

PXM45

Syntax

dspnodalcongcntr

Related Commands

None

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the node-level congestion thresholds.

Geneva.7.PXM.a > dspnodalcongcntr

Parameter             Value         thresh1  thresh2

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

setupRx                   0            90     100

statenqRx                 0           100     200

connpending               0           400     500

incompljournal            0             5

Parameter             Value          Mild    Medium    Severe

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

vsiqdepth               0              5        10        20

Geneva.7.PXM.a > 

dspnodalcongflags

Display Nodal Congestion Flags

The dspnodalcongflags command displays congestion flags maintained at the CCM at the node level.

Cards on Which This Command Runs

PXM45

Syntax

dspnodalcongflags

Related Commands

dspintfcongflags

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the node-level congestion flags.

Geneva.7.PXM.a > dspnodalcongflags

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

Geneva.7.PXM.a > 

dspnodalcongth

Display Nodal Congestion Thresholds

Displays configuration of the nodal congestion thresholds.

Cards on Which This Command Runs

PXM45

Syntax

dspnodalcongth

Output Description

setuphi	The number of connection setup messages per second, above which the set-up messages have congested the node. Range: 1-105 calls per second Default: 100 calls per second
statenqlo	The number of status enquiry messages per second, below which the status enquiry congestion condition is dropped. Range: 1-500 calls per second Default: 100 calls per second
statenqhi	The number of connection setup messages per second, above which the status enquiries have congested the node. Range: 1 -500 calls per second Default: 200 calls per second
connpendlo	The aggregate number of connections in the establishment phase, below which establishment congestion is dropped. Range: 1-1000 connections Default: 400 connections
connpendhi	The aggregate number of connections in establishment phase above which the establishment congestion sets in Range: 1-1000 connections Default: 500 connections
incompjour	The number of incomplete journaling cycles that must be exceeded to increase the journaling speed. Range: 1-10 cycles Default: 5 cycles
vsiqmild	The VSI Q depth above which the VSI master is mildly congested. This threshold is represented as a percentage of the VSI master-slave communication window. This threshold applies to all the interfaces on the node. Range: 1-175 Default: 5
vsiqmedium	The VSI Q limit above which the VSI master is congested at a medium level. This threshold is represented as a percentage of VSI master-slave communication window size. This threshold applies to all the interfaces on the node. Range: 1-175 Default: 10
vsiqsevere	The VSI Q depth above which the VSI master is severely congested; This threshold is represented as a percentage of VSI master-slave communication window size.This threshold applies to all the interfaces on the node. Range: 1-175 Default: 20

Related Commands

cnfnodalcongth

Attributes

Log: no

State: active, standby

Privilege: SUPER_GP

Example

Display the current node-level congestion thresholds.

8850_SF.7.PXM.a > dspnodalcongth

Parameter         Value      Unit

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

setuphi(prov)      180       cps

setuphi(curr)      180       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

8850_SF.7.PXM.a > 

dspnodalfd

Display Nodal Frame Discard

The dspnodalfd command shows whether the switch is enabled to perform frame discard on AAL5 cells.

---

Note This command formerly had the name dspsigparms.

---

The dspnodalfd command indicates whether the frame discard feature for AAL5 cells is enabled. The cnfnodalfd command lets you enable or disable frame discard for AAL5 cells. The default is enabled.

Cards on Which This Command Runs

PXM45

Syntax

dspnodalfd

Syntax Description

This command takes no parameters.

Related Commands

cnfnodalfd

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Determine whether frame discard for AAL5 cells is enabled on this switch.

SanJose.7.PXM.a > dspnodalfd

Global Signaling Parameters

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

Frame Discard on AAL5 IE: yes

SanJose.7.PXM.a >

dsppingatmaddr

Display Ping ATM Address

Display the default ping ATM address.

Cards on Which This Command Runs

PXM45

Syntax

dsppingatmaddr

Related Commands

dsppingatmaddr, aesa_ping

Attributes

Log: no

State: active

Privilege: ANYUSER

Example

Display the ATM ping address.

Geneva.7.PXM.a > dsppingatmaddr

47.0091.8100.0000.0030.ff0f.ef38.0030.ff0f.ef38.99

length: 160    type: unknown       proto: unknown

scope: 0       plan: unknown       redistribute: false

Geneva.7.PXM.a >

dsppnallgrpaddr

Display All Group Addresses

The dsppnallgrpaddr command lists all group addresses on the node. The ATM address is the basis of membership of such a group. See the description of addaddr for details.

For an ATM address to be a member of a particular group:

•The first 8-bit byte of the ATM address must be A0 or higher.

•The ATM address must be the same as the other ATM addresses in the group.

You can list all member-addresses by not supplying a port ID, or you can specify that the display show member-addresses for a particular port.

Cards on Which This Command Runs

PXM45

Syntax

dsppnallgrpaddr <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

None

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

dsppncon

Display PNNI Connection—display information about an active SVC or SPVC.

The information that dsppncon displays corresponds to the objects described in the portCallTable and portAbrCallTable MIBs. This command can be issued at any node in the route. Refer to the example for the contents of the output.

Cards on Which This Command Runs

PXM45

Syntax

dsppncon <portid> <vpi> <vci>

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
vpi	VPI for the call. Default: 0
vci	VCI for the call. If you do not specify a VCI, the connection is a virtual path connection. Default: 0

Related Commands

dsppncons

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display VPI/VCI 100 100 on port 1.5.

mpgses1.2.PXM.a > dsppncon 1.5 100 100

 Port :            1.5 VPI :    100  VCI :    100 

 CallRef:      116  CallRefFlag:   0  CallLeafRef :        0 

 Calling-address: 47.009181000000003071f80e4a.000000010500.00

 Calling-subaddress #1: N/A

 Calling-subaddress #2: N/A

 Called-address: 47.009181000000003071f80e49.000000010500.00

 Called-subaddress #1: N/A

 Called-subaddress #2: N/A

 OE Port :            1.7 OE VPI :      1  OE VCI :     39 

 OE CallRef:       39  OE CallRefFlag:   0

 OAM-Type : Not an OAM Endpoint

 Connection-type : SPVC   Cast-type : point-to-point   Bearer-class :BCOBX

 Service-category :CBR   Call-clipping-susceptibility:no

 Tx conformance :CBR.1  Rx conformance :CBR.1

 Tx pcr :         50           Rx pcr :         50

 Tx scr :    N/A Rx scr :    N/A

 Tx mbs :    N/A Rx mbs :    N/A

 Tx cdvt : 250000

 Tx frame-discard-option :disable  Rx frame-discard-option :disable

 Max ctd :    N/A

 Max Tx cdv :    N/A    Max Rx cdv :    N/A

Max Tx clr :    N/A    Max Rx clr :    N/A

 NCCI value: 47 00 91 81 00 00 00 00 30 71 f8 0e 4a 00 30 71 f8 0e 4a 01 00 01 

dsppncons

Display PNNI Connections

The dsppncons command displays a summary of active SVCs and SPVCs that are known to PNNI. The default is all connections on all PNNI ports. Because the number of connectioins can be very large, a variety of filters are available to narrow the scope of the display, as follows:

•You can specify one PNNI port rather than all ports.

•You can specify a starting VPI or VCI to begin a range of connections.

•You can display one of two types: point-to-point or point-to-multipoint.

Cards on Which This Command Runs

PXM45

Syntax

dsppncons [-port portid] [-vpi starting-vpi] [-vci starting-vci] [-type {p2p | p2mp | ctrl}]

Syntax Description

-port	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
-vpi	Starting VPI.
-vci	Starting VCI.
-type	Causes the system to display only point-to-point or point-to-multipoint. Without this option, the system displays both types. No default value exists if you include the keyword type on the command line, you must enter one of the possible entries. •"p2p" for point-to-point •"p2mp" for point-to-multipoint •"ctrl" for control connections (for example: ipconn, aesa-ping, svcc-rcc, and so on

Related Commands

dsppncon

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Geneva.7.PXM.a > dsppncons 

Port       VPI  VCI       CallRef X-Port       VPI  VCI   CallRef  Type OAM-Type 

1:1.2:2     1   100       33       1:1.2:2      1   101      32    PTP    No 

    Calling-Addr:47.00918100000000107be92f3d.000001011802.00 

    Called-Addr:47.00918100000000107be92f3d.000001011802.00 

1:1.2:2     1   101       32       1:1.2:2      1   100       33   PTP    No 

    Calling-Addr:47.00918100000000107be92f3d.000001011802.00 

    Called-Addr:47.00918100000000107be92f3d.000001011802.00 

1:1.2:2     2   200       34       1:1.6:6      0    49   8388609  PTP    No 

    Calling-Addr:47.00918100000000107be92f3f.000001011804.00 

    Called-Addr:47.00918100000000107be92f3d.000001011802.00 

1:1.6:6     0    49  8388609       1:1.2:2      2   200        34  PTP    No 

    Calling-Addr:47.00918100000000107be92f3f.000001011804.00 

    Called-Addr:47.00918100000000107be92f3d.000001011802.00 

Geneva.7.PXM.a >

dsppnconstats

Display Connection Statistics

Displays connection statistics for a port. Refer to the section, for a description of the items in the display.

Cards on Which This Command Runs

PXM45

Syntax

dsppnconstats <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

clrpnconstats

Attributes

Log: no

State: active

Privilege: ANYUSER

Examples

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

 Call Statistics for 4:1.1:11

 Incoming Call Attempts:     209           Outgoing Call Attempts:       8

 Incoming Call Success:      6             Outgoing Call Success:        0

 Incoming Call Failures:     0             Outgoing Call Failures:       209

 Incoming Filtering Failures:0             Outgoing Filtering Failures : 0

 Incoming Routing Failures:  0             Outgoing Routing Failures :   209

 Incoming CAC Failures:      0             Outgoing CAC Failures :       0

 Incoming Timer Failures:    0             Outgoing Timer Failures :     0

 Incoming Crankback Failures:0             Outgoing Crankback Failures : 0

SanJose.7.PXM.a >   

Output Description for dsppnconstats

Incoming Call Attempts	The number of incoming signaling messages—Setup and AddParty—received on this port for call establishment.
Incoming Call Success	The number of incoming Connect and AddPartAck messages received on this port. Each of these message pairs indicate successful call setup.
Incoming Call Failures	The number of incoming point-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-multipoint 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 AddParty—sent from this port for call establishment.
Outgoing Call Success	The number of outgoing signaling messages—Connect and AddPartAck—sent from this port, which indicates 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 no route existed 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 not enough resources existed to meet the request in the traffic parameters of the call.
Outgoing Timer Failures	The number of signaling timers that timed out on outgoing point-to-point SVC/SPVC calls sent from this port.
Outgoing Crankback Failures	The number of crankback information elements sent from this port for outgoing signaling release messages.

dsppnctlvc

Display Control VC Parameters

The command lets you display the bandwidth parameters for the control VCs on the port. These bandwidth parameters result from the use of the (optional) cnfpnctlvc command.

---

Note To see details about the VCs that support ILMI, use dsppnilmi.

---

Cards on Which This Command Runs

PXM45

Syntax

dsppnctlvc <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnctlvc

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the configuration of control VCs on port 10:1.1:1.

Geneva.7.PXM.a > dsppnctlvc 10:1.1:1

vc type = pnnircc 

service category : sig                       PCR :             906

SCR :              453                       MBS :             171 

vc type = sscop      Parameter = Provisioned

service category : sig                       PCR : Not Provisioned

SCR :  Not Provisioned                       MBS : Not Provisioned 

vc type = sscop      Parameter = Operational 

service category : cbr                       PCR :               0

Geneva.7.PXM.a > 

dsppngrpmbrs

Display Group Members—displays members of a port-level, ATM address group.

The dsppngrpmbrs command lists all the members of an address-based group. The ATM address is the basis of membership of such a group. See the description of addaddr for details.

For an ATM address to be a member of a particular group:

•The first 8-bit byte of the ATM address must be A0 or higher.

•The ATM address must be the same as the other ATM addresses in the group.

Cards on Which This Command Runs

PXM45

Syntax

dsppngrpmbrs <group_addr> <length>

Syntax Description

atm-address	The ATM address: its format depends on whether the address type is NSAP or E.164. Note that all group addresses begin with 0xA0 or higher. See addaddr description for details.
length	Address length. The units of measure differ for each address plan: •For an NSAP address plan, the units of measure are bits. The range is 0-160. Using the maximum of a 20-byte ATM address: 20 bytes x 8 bits per byte = 160 bits. •For an E.164 address plan, the value is the number of decimal digits. If the ATM address consists of 15 digits, the value for this parameter is also 15.

Related Command

addaddr, dsppnallgrpaddr, dspaddr, deladdr

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

dsppnport

Display PNNI Port—displays PNNI port information.

The dsppnport command shows dynamic, operational data rather than just the configuration data you would see by using the dspport command on the CLI of a service module.

The total number of connections that the dsppnport shows does not include control VCs. The types of control VCs are:

•Service-specific connection-oriented protocol (SSCOP)

•PNNI routing control channel (PNNI-RCC)

•Interim local management interface (ILMI) but only if ILMI is enabled

To see the connection counts that include control VCs, use the commands that operate on the CLI of the service modules (dspln, dsppart or dsprscprtn, dspcd, or dspport).

Cards on Which This Command Runs

PXM45

Syntax

dsppnport <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dspnports, addpnport, delpnport

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

First determine if connections exist on port 3:1.1:1 by executing dspcons. One connection exists, and the display shows the view from each port (3:1.1:1 and 2:2.2:1). Display port 2:2.2:1 then port 3:1.1:1. Note the differences in the display when you specify the master-end port and the slave-end port. Also, note that the interface type is UNI 3.1.

The dsppnport display shows a combination of user-configured and dynamic details, as follows:

•Configuration details such as the type and version of the interface (UNI 3.1, for example), minimum and maximum VPIs for SPVCs, and minimum and maximum VPIs and VCIs for SVCs.

•A system-generated logical number that maps to the physical portID. The label these fields is "Logical ID" and "Port," respectively. The values in this example are 16979969 for logical ID and 3:1.1:1 for port. Some PNNI commands require you to provide the logical ID, and dsppnport is one command that can provide it.

•Dynamic information such as:

–Status of the port

–The number of point-to-point and point-to-multipoint connections

–The numbers of configured and active of SPVCs and SVCs

8850_NY.7.PXM.a > dspcons

Local Port         Vpi.Vci   Remote Port        Vpi.Vci    State   Owner

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

2:2.2:1            10 100    3:1.1:1            10 100     FAIL        MASTER

Local  Addr: 47.00918100000000036b5e30cd.000001021801.00

Remote Addr: 47.00918100000000036b5e30cd.000001031801.00

3:1.1:1            10 100    2:2.2:1            10 100     FAIL        SLAVE 

Local  Addr: 47.00918100000000036b5e30cd.000001031801.00

Remote Addr: 47.00918100000000036b5e30cd.000001021801.00

8850_NY.7.PXM.a > dsppnport 2:2.2:1

Port:               2:2.2:1           Logical ID:       n/a               

IF status:          provisioning      Admin Status:     up                

8850_NY.7.PXM.a > dsppnport 3:1.1:1

Port:               3:1.1:1           Logical ID:       16979969          

IF status:          up                Admin Status:     up                

UCSM:               enable            

Auto-config:        enable            Addrs-reg:        enable            

IF-side:            network           IF-type:          uni               

UniType:            private           Version:          uni3.1            

PassAlongCapab:     n/a               

Input filter:       0                 Output filter:    0                 

minSvccVpi:         0                 maxSvccVpi:       4095              

minSvccVci:         35                maxSvccVci:       65535             

minSvpcVpi:         1                 maxSvpcVpi:       4095              

       #SpvcCfg:  #SpvcActive:  #SpvpCfg:  #SpvpActive:  

p2p :  1          0             0          0             

p2mp:  0          0             0          0             

       #Svcc:     #Svpc:        Total:     

p2p :  0          0             0          

p2mp:  0          0             0          

                                Total:     0             

8850_NY.7.PXM.a > 

Display port 5:1.1:1. Note that the display shows the state of the internal and external VSVD loops—enabled in this case. This VSVD status indicates the following:

•The type of port is UNI 4.0 because only 4.0 or higher supports VSVD (see description of the cnfintfvsvd command). If the UNI version were earlier than 4.0, no fields for VSVD would appear.

•The card in slot 5 is an AXSN-E because only the AXSM-E supports ABR VSVD.

M8850_NY.7.PXM.a > dsppnport 5:1.1:1

Port:               5:1.1:1           Logical ID:       17111041          

IF status:          down              Admin Status:     up                

VSVD Internal Loop: on                

VSVD External Loop: on                

UCSM:               enable            

Auto-config:        enable            Addrs-reg:        enable            

IF-side:            network           IF-type:          uni               

UniType:            private           Version:          uni4.0            

PassAlongCapab:     n/a               

Input filter:       0                 Output filter:    0                 

minSvccVpi:         0                 maxSvccVpi:       255               

minSvccVci:         35                maxSvccVci:       65535             

minSvpcVpi:         1                 maxSvpcVpi:       255               

       #SpvcCfg:  #SpvcActive:  #SpvpCfg:  #SpvpActive:  

p2p :  0          0             0          0             

p2mp:  0          0             0          0             

       #Svcc:     #Svpc:        Total:     

p2p :  0          0             0          

p2mp:  0          0             0          

                                Total:     0             

M8850_NY.7.PXM.a >

dsppnportcac

Display Port Call Admission Control

Displays CAC policy parameters for the port as configured by cnfpnportcac. For a list of the displayed items, see the Example section. For a description of these items, see the cnfpnportcac description.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportcac <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnportcac

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Example

Display the CAC parameters for port 3:2.2:4.

8850_NY.7.PXM.a > dsppnportcac 3:2.2:4

                  cbr:       rt-vbr:       nrt-vbr:          ubr:         abr:

        sig:

bookFactor:       100%          100%           100%          100%         100%

        100%

maxBw:       100.0000%     100.0000%      100.0000%     100.0000%    100.0000%

   100.0000%

minBw:         0.0000%       0.0000%        0.0000%       0.0000%      0.0000%

   100.0000%

maxVc:            100%          100%           100%          100%         100%

        100%

minVc:              0%            0%             0%            0%           0%

          1%

maxVcBw:            0             0              0             0            0

          0 

dsppnportcc

Display Port Call Control

This command lets you display the call control parameters for a logical port. See cnfpnportcc for a description of applicable parameters.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportcc <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnportcc

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Examples

Display the call control configuration for port 3:1.1:1.

8850_NY.8.PXM.a > dsppnportcc 3:1.1:1

maxP2mpRoot:             1000

maxP2mpLeaf:             4095

svc blocking option:        no

spvc blocking option:       no

8850_NY.8.PXM.a >

dsppnportidmaps

Display Port ID Maps—display physical port ID to logical port ID mapping.

The dsppnportidmaps command lets you display the mapping of physical port identifiers (portIDs) to logical port identifiers. The purpose of having logical port IDs is that some command require the logical port ID. The displayed information consists of:

•Physical port ID in the format slot:subslot.port:subport

•Logical port ID in decimal format

•Logical port ID in hexadecimal format

•Operational state of the port

Cards on Which This Command Runs

PXM45

Syntax

dsppnportidmaps

Syntax Description

This command takes no parameters.

Related Commands

none

Attributes

Log: no

State: active, standby

Privilege: SUPER_GP

Example

Display the mapping of physical port IDs to the logical IDs on the switch. Note that the switch has not generated a logical ID for port 2:2.2:1 because the port is still in the provisioning state.

8850_NY.7.PXM.a > dsppnportidmaps

Port Id         Logical ID (Dec)  Logical ID (Hex)  OperStatus

7.35            17251107          1073b23           up                

7.36            17251108          1073b24           up                

7.37            17251109          1073b25           up                

7.38            17251110          1073b26           up                

1:2.1:1         16848897          1011801           up                

2:2.2:1         n/a               n/a               provisioning      

3:1.1:1         16979969          1031801           up                

8850_NY.7.PXM.a > 

dsppnportloscallrel

Display PNNI Port Loss of Signal Call Release

This command displays the enable status of the LOS call release feature. See cnfpnportloscallrel for a description of this feature.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportloscallrel <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnportloscallrel

Attributes

Log: no

State: active, release

Privilege: ANYUSER

Example

First, confirm that LOS call release is disabled on port 3:1.1:1. Enable it, then confirm that it is enabled.

8850_NY.8.PXM.a > dsppnportloscallrel 3:1.1:1

Call release on Los :disabled 

8850_NY.8.PXM.a > cnfpnportloscallrel 3:1.1:1 yes

8850_NY.8.PXM.a > dsppnportloscallrel 3:1.1:1

Call release on Los :enabled

dsppnportncci

Display Network Call Correlation Identifier—display the configured response to a call correlation identifier.

The dsppnportncci command displays the configured response to a network call correlation identifier for a port. For details about this identifier, see the description of cnfpnportncci.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportncci <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnportncci

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display the current response on port 2:2.2:1 to a call correlation identifiers. The output shows the default of "forward."

8850_NY.7.PXM.a > dsppnportncci 2:2.2:1

NCCI action: forward

dsppnportrange

Display Port Range

Displays ATM VPI/VCI range only for the port configured by cnfpnportrange. dsppnport displays the operational values.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportrange <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnportrange, dsppnport

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Geneva.7.PXM.a > dsppnportrange

minSvccVpi: 0   maxSvccVpi:  4095

minSvccVci: 32  maxSvccVci: 65535

minSvpcVpi: 1   maxSvpcVpi:  4095

Geneva.7.PXM.a > 

dsppnportrsrc

Display Port Resources

Displays available bandwidth and channels on the port for all service classes.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportrsrc <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dsppnports

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Example

Display the available resources on port 11:1.1:11.

GGeneva.7.PXM.a > dsppnportrsrc 11:1.1:11

                                         cbr:     rt-vbr:     nrt-vbr:       ubr

:      abr:    sig:

Maximum Tx Cell Rate (cells/sec):      351707      351707       351707     35170

7    351707    353207

Maximum Rx Cell Rate (cells/sec):      351707      351707       351707     35170

7    351707    353207

Min Guarant Tx Cell Rate (cells/sec):       0           0            0

0         0      1500

Min Guarant Rx Cell Rate (cells/sec):       0           0            0

0         0      1500

Minimum Cell Loss Ratio Tx :               10           8            6

6         6         8

Minimum Cell Loss Ratio Rx :               10           8            6

6         6         8

Available Tx Cell Rate (cells/sec):    344035      344035       344035     34403

5    344035    344035

Available Rx Cell Rate (cells/sec):    344035      344035       344035     34403

5    344035    344035

# of Available Tx Channels:             28903       28903        28903      2890

3     28903     28903

# of Available Rx Channels:             28903       28903        28903      2890

3     28903     28903

dsppnports

Display Ports

The dsppnports command displays status for all logical ports. If you do not identify a particular type of interface, the display shows all port types.

In brief, the display consists of:

•A summary of connections

•The logical number associated with the PNNI port number (a format that some commands require)

•A status summary for each port, including the number of connections on each port (excluding control VCs)

For details on the connection summaries, see the section, "Description of the dsppnports Connection Summaries."

---

Note The total number of connections that the display shows does not include control VCs. The types of control VCs are SSCOP, PNNI-RCC, and ILMI (if ILMI is enabled). To see the connection counts that include control VCs, use the commands that operate on the CLI of the service modules (dspln, dsppart or dsprscprtn, dspcd, and dspport).

---

Cards on Which This Command Runs

PXM45

Syntax

dsppnports [uni | nni | enni]

Syntax Description

uni	Show status for only UNI ports.
nni	Show status for only NNI ports.
enni	Show status for only ENNI ports.

ILMI States

The display includes ILMI status, as follows:

Disable	Protocol is not enabled on this port.
NotApplicable	This port is not accessible due to hardware-related conditions.
LostConnectivity	Protocol on listening port is not enabled.
EnableNotUp	This port is not accessible due to hardware.
UpAndNormal	This port is physically up, and the protocol is enabled.

Related Commands

dsppnportrsrc, dsppnport

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Description of the dsppnports Connection Summaries

This section contains the following:

1. A list identifies all fields in the connection summary part of the display.

2. A simple network description illustrates how an SPVC in a three-node network would appear in the summary part of the display.

3. A description of the summary for a DAX connection follows the SPVC explanation.

The list of summary fields follows:

•Total point-to-point or point-to-multipoint connections

–SVCC, switched virtual channel connections

–SVPC, switched virtual path connections

–SPVCD, semi-permanent virtual channel DAX connections

–SPVPD, semi-permanent virtual path DAX connections

–SPVCR, active (routed) semi-permanent virtual circuits

–SPVPR, active (routed) semi-permanent virtual paths

–Total of all the preceding types

•Configured SPVC endpoints for either point-to-point and point-to-multipoint connections

–SPVCD, semi-permanent virtual channel DAX connections

–SPVPD, semi-permanent virtual path DAX connections

–SPVCR, active (routed) semi-permanent virtual circuits

–SPVPR, active (routed) semi-permanent virtual paths

–Totals for the preceding types

•Active, intermediate endpoints for either point-to-point and point-to-multipoint connections

–SVCC, switched virtual channel connections

–SVPC, switched virtual path connection

–SPVCR, active (routed) semi-permanent virtual circuits

–SPVPR, active (routed) semi-permanent virtual paths

–Totals for the preceding types

For an example SPVC, refer to Figure 6-1. An SPVC's master endpoint is on a UNI on Node 1. The slave endpoint is on a UNI on Node 3. The SPVC traverses the via node, Node 2. If you run the dsppnports command on Node 1, the display gives the following information in the four parts of the summary:

•Number of connections: SpvcR = 1

•Number of configured endpoints: SpvcR = 1

•Number of active intermediate endpoints: SpvcR = 1

•Total of 1 connection, 2 endpoints (1 configured, 1 active intermediate).

If you run the dsppnports command on via Node 2, the display gives the following information in the four parts of the summary:

•Number of connections: Svcc = 1

•Number of configured endpoints: 0

•Number of active intermediate endpoints: Svcc = 2

•Total of 1 connection, 2 endpoints (2 active intermediate)

Next, a DAX connection has both endpoints on the same switch (the DAX does not appear in Figure 6-1). The summary information for a DAX connection would appear as follows:

•Number of connections: SpvcD = 1

•Number of configured endpoints: SpvcD = 2

•Number of active intermediate endpoints:0

•Total of 1 connections, 2 endpoints (2 configured)

In summary, each active connection has two endpoints. Configured endpoints translate to the endpoints added through the addcon command. (shown as spvc on AXSM). Active, intermediate endpoints translate to the NNI sides for and SPVC or both sides for a pure SVC (shown as an SVC on an AXSM).

Figure 6-1 An SPVC With Endpoints and a Via Node

Example

Display all PNNI logical ports on the switch. UNI ports 7.35, 7.36, 7.37, and 7.38 are reserved for BITS clock sources on the PXM45 UI card. In reality, only 7.35 and 7.36 are meaningful.

M8850_NY.7.PXM.a > dsppnports

Summary of total connections

(p2p=point to point,p2mp=point to multipoint,SpvcD=DAX spvc,SpvcR=Routed spvc)

Type   #Svcc:   #Svpc:   #SpvcD:  #SpvpD:  #SpvcR:  #SpvpR:  #Total:

p2p:   0        0        0        0        0        0        0      

p2mp:  0        0        0        0        0        0        0      

                         Total=      0/50000 

Summary of total configured SPVC endpoints

Type   #SpvcR   #SpvpR   #SpvcD   #SpvpD   Total

p2p:   0         0         2         0         2      

p2mp:  0         0         0         0         0      

                         Total=2      

Summary of total active SVC/SPVC intermediate endpoints

Type   #Svcc    #Svpc     #SpvcR   #SpvpR   Total

p2p:   0         0         0         0         0      

p2mp:  0         0         0         0         0      

                         Total=0      

          EndPoint Grand Total =      2/100000 

Per-port status summary

PortId      LogicalId    IF status      Admin status  ILMI state        #Conns

7.35         17251107    up             up            NotApplicable     0       

7.36         17251108    up             up            NotApplicable     0       

7.37         17251109    up             up            NotApplicable     0       

7.38         17251110    up             up            NotApplicable     0       

1:2.1:1      16848897    up             up            UpAndNormal       0       

2:2.2:1      16914433    provisioning   up            NotApplicable     0       

3:1.1:1      16979969    down           up            Disable           0       

3:1.2:2      0           provisioning   down          NotApplicable     0       

6:1.1:1      17176577    up             up            Disable           0       

M8850_NY.7.PXM.a >

dsppnportsig

Display Port Signaling—displays signaling parameters on a port.

The dsppnportsig command displays the ATM signaling parameters as configured by cnfpnportsig.

Cards on Which This Command Runs

PXM45

Syntax

dsppnportsig <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfpnportsig

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Examples

Display signaling for port 3:1.1:1 then port 2:2.2:1. Note the interface type for 3:1.1:1 is UNI, and the UNI version is 3.1. On port 2:2.2:1, the interface type is NNI, and the version is IISP 3.1.

8850_NY.8.PXM.a > dsppnportsig 3:1.1:1

provisioned IF-type: uni   version:     uni3.1  

sigType:  private          side:        network 

addrPlan:  aesa    

VpiVciAllocator:  n/a      HopCounterGen:  n/a

PassAlongCapab:  n/a

sigVpi:          0         sigVci:             5

rccVpi:        n/a         rccVci:           n/a

8850_NY.8.PXM.a > dsppnportsig 2:2.2:1

provisioned IF-type: nni   version:     iisp31  

sigType:  private          side:        network 

addrPlan:  aesa    

VpiVciAllocator:  n/a      HopCounterGen:  n/a

PassAlongCapab:  enable  

sigVpi:          0         sigVci:             5

rccVpi:        n/a         rccVci:           n/a

8850_NY.8.PXM.a >

dsppnsysaddr

Display PNNI Port System Addresses—displays the PNNI system address table.

The dsppnsysaddr command displays addresses in the system address table. The system address table only contains static addresses.

---

Note This command does not belong to the RA module.

---

Cards on Which This Command Runs

PXM45

Syntax

dsppnsysaddr [ ilmi | uni | static | host | all ]

Syntax Description

ilmi	Display all of the ilmi addresses in the peer group.
uni	Display all of the uni addresses in the peer group.
static	Display all of the static addresses in the peer group.
host	Display all of the host addresses in the peer group.
all	Display all of the addresses. This is the default.

Display Contents

The ATM address, the address prefixes, and the peer group identifier share some default field values, as shown in Figure 6-2.

The following parameters are displayed for each node.

ATM Address (displayed but not labeled)	Display the PNNI node ATM address. This is a 20-byte, formatted hexadecimal string. Like all PNNI addresses, identifiers, and prefixes, this value is portrayed as a string of hexadecimal "nibbles." One or several pairs of nibbles entail each parameter field. Default: Figure 6-2 shows the factory-set default.
Type	Display the type of address that you specified in the command line. Possible address types: ILMI, UNI, static, host
Port id	The PNNI logical port identifier. Range: 1-2147483648

Figure 6-2 Cisco Factory-shipped Defaults for PNNI Peer Group Identifier, PNNI Summary Address, ATM Address, and PNNI Node Identifier

 

Related Commands

None

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display addresses in the System Address Table. The first command entry includes the option all, so dsppnsysaddr displays all addresses in the peer group.

Geneva.7.PXM.a > dsppnsysaddr all

47.0091.8100.0000.0030.9409.f1f1.0030.9409.f1f1.01/160

Type:     host     Port id:   17251106

47.0091.8100.0000.0030.9409.f1f1.0030.9409.f1f1.99/160

Type:     host     Port id:   17251106

47.0091.8100.0000.0030.9409.f1f1.0011.1010.0000.01/160

Type:     host     Port id:   17251106

47.0091.8100.0000.0030.9409.f1f2.0000.0104.180b.00/160

Type:     host     Port id:   17251106

47.0091.8100.0000.0030.9409.f1f2.0000.0104.180c.00/160

Type:     host     Port id:   17251106

47.1111.1111.1111.1111.1111.1111.0000.0000.0000/152

Type:      uni     Port id:   17045515

47.1111.1111.1111.1111.1111.1111.0000.0000.0000/152

Type:      uni     Port id:   17045516

Geneva.7.PXM.a > 

The following example includes the option "host," so dsppnsysaddr displays only the host addresses in the peer group.

Geneva.7.PXM.a > dsppnsysaddr host

47.0091.8100.0000.0030.ff0f.ef38.0000.010b.180b.00/160

Type:     host     Port id:   17251106

47.0091.8100.0000.0030.ff0f.ef38.0000.010d.180b.00/160

Type:     host     Port id:   17251106

47.0091.8100.0000.0030.ff0f.ef38.1111.1101.0001.01/160

Type:     host     Port id:   17251106

Geneva.7.PXM.a >

dspqosdefault

Display Quality of Service Defaults—displays the defaults for each service type on a port.

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

Cards on Which This Command Runs

PXM45

Syntax

dspqosdefault

Syntax Description

This command takes no parameters.

Related Commands

clrqosdefault, cnfqosdefault

Attributes

Log: yes

State: active, standby

Privilege: ANYUSER

Example

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

Unknown.8.PXM.a > dspqosdefault

Service Category = cbr                        Qos Default Enable = no

MaxCTD =           Not Provisioned            ppCDV  =             Not Provisioned

MaxClrClp0 =       Not Provisioned            MaxClrClp01 =        Not Provisioned

Service Category = rt-vbr                     Qos Default Enable = no

MaxCTD =           Not Provisioned            ppCDV  =             Not Provisioned

MaxClrClp0 =       Not Provisioned            MaxClrClp01 =        Not Provisioned

Service Category = nrt-vbr                    Qos Default Enable = no

MaxCTD =           Not Provisioned            ppCDV  =             Not Provisioned

MaxClrClp0 =       Not Provisioned            MaxClrClp01 =        Not Provisioned

Unknown.8.PXM.a >

dspsig

Display Signaling

Displays the configuration of the signaling timers for the port.

Cards on Which This Command Runs

PXM45

Syntax

dspsig <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfsig

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

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

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

Signaling Timers for port : 4:1.1:11

Timer           Value(secs)

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

t301            180

t303            4

t308            30

t310            10

t316            90

t317            60

t322            4

t397            180

t398            4

t399            14

Max Crankback:  3

SanJose.7.PXM.a >

dspsigdiag

Display Signaling Diagnostic

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

Cards on Which This Command Runs

PXM45

Syntax

dspsigdiag {filter | rec | status} [index]

Syntax Description

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

Related Commands

cnfsigdiag, delsigdiag, dspsigstats, clrsigstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

Display the filter sets.

SanJose.7.PXM.a > dspsigdiag filter

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

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

Scope: internal, Cast Type: p2mp

Connection Kind: soft-vc

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

Clear Cause: 0, Initial TimerValue: 600

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

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

Calling Nsap Address:47.111122223333444455556666.777788889999.00

Calling Address Mask:FF.FFFFFF000000000000000000.000000000000.00

Called Nsap Address:47.111122223333444455556666.777788889999.01

Called Address Mask:FF.FFFFFF000000000000000000.000000000000.00

Status: active

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

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

Display the records associated with index 1.

SanJose.7.PXM.a > dspsigdiag rec 1

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

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

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

Connection Kind:   switched-vc

Service Category: UBR (Unspecified Bit Rate)

Clear Cause: 0x29, Diagnostics: NULL

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

Calling-Address: 47.009181000000006011000000.470803040506.00

Calling-SubAddr: NULL

Called-Address : 47.009181000000006083C42C01.750203040506.00

Called-SubAddr : NULL

Crankback Type : No Crankback

DTL's:

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

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

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

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

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

SanJose.7.PXM.a > 

dspsigstats

Display Signaling Statistics

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

Cards on Which This Command Runs

PXM45

Syntax

dspsigstats <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfsigdiag, delsigdiag, dspsigdiag, clrsigstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

Display signaling statistics for port 1:2.1:1.

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

 Signaling Statistics for 1:2.1:1

 Message                          Rcv           Xmt

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

 Call Proceeding                    0             0

 Connect                            0             0

 Connect Ack                        0             0

 Setup                              0             0

 Release                            0             0

 Release Complete                   0             0

 Add Party                          0             0

 Add Party Ack                      0             0

 Add Party Rej                      0             0

 Drop Party                         0             0

 Restart                            0             0

 Restart Ack                        0             0

 Status                             0             0

 Status Enquiry                     0             0

 Alerting                           0             0

 Notify                             0             0

 Progress                           0             0

Last Cause/Diag/Crankback

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

 Cause                              0

 Diagnostic                         0       0       0       0

 Src Crankback port count           0

dspspvcaddr

Display SPVC Address

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

Cards on Which This Command Runs

PXM45

Syntax

dspspvcaddr [port_id]

Syntax Description

portid

If you do not specify a port ID, the output lists all port IDs and associated AESAs. The portid identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

dspspvcprfx

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

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

M8850_NY.7.PXM.a > dspspvcaddr

Interface Id      Soft VC Address(es)

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

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

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

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

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

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

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

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

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

M8850_NY.7.PXM.a > dspspvcprfx

SPVC Node Prefix: 47.00918100000200036b5e30cd

M8850_NY.7.PXM.a >

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

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

Interface Id      Soft VC Address(es)

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

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

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

Interface Id      Soft VC Address(es)

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

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

dspspvcprfx

Display SPVC Prefix

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

Cards on Which This Command Runs

PXM45

Syntax

dspspvcprfx

Syntax Description

This command takes no parameters.

Related Commands

cnfspvcprfx, dspspvcaddr

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

MGX8850.7.PXM.a > dspspvcprfx

SPVC Node Prefix: 47.00918100000100001a531c2a

dspsscop

Display SSCOP—display SSCOP details for a PNNI port.

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

Cards on Which This Command Runs

PXM45

Syntax

dspsscop <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfsscop, disablesscop, dspsscopstats

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

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

SSCOP details for interface: 4:1.1:11

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

SSCOP version = 3.1

   Send Sequence Number: Current = 153,  Maximum = 183

   Send Sequence Number Acked = 153

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

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

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

   Timer_IDLE = 10 - Active

   Timer_CC = 1 - Inactive

   Timer_POLL = 1 - Inactive

   Timer_KEEPALIVE = 5 - Inactive

   Timer_NO-RESPONSE = 30 - Inactive

   Timer_T309 = 10 - Inactive

   Max CC = 10

   Send Window = 30

   Recv Window = 30

   Current Retry Count = 33932, Maximum Retry Count = 10

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

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

      Statistics -

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

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

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

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

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

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

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

      Lack of credit = 0

SanJose.7.PXM.a >

dspsscopstats

Display SSCOP Statistics

Displays SSCOP statistics for the port.

Cards on Which This Command Runs

PXM45

Syntax

dspsscopstats <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

cnfsscop, disablesscop, dspsscop

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Examples

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

SSCOP Statistics for interface: 4:1.1:11

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

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

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

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

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

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

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

 0

      Lack of credit = 0

SanJose.7.PXM.a > 

dspsvcparm

Display SVC Parameters

Displays global SVC parameters for the node.

Cards on Which This Command Runs

PXM45

Syntax

dspsvcparm

Related Commands

cnfe164justify

Attributes

Log: no

State: active, standby

Privilege: ANYUSER

Example

SanJose.7.PXM.a > dspsvcparm

Global SVC parameters

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

E164 Address Conversion Justification :left

SanJose.7.PXM.a > 

dsptrapip

Display Trap IP

The dsptrapip command displays the switch trap IP address. The switch must have a trap IP assigned by the cnftrapip command.

Cards on Which This Command Runs

PXM45

Syntax

dsptrapip

Syntax Description

This command takes no parameters.

Related Commands

cnftrapip, dsptrapmgr, addtrapmgr, deltrapmgr

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Assign and confirm a trap IP address.

SanJose.7.PXM > cnftrapip 172.27.27.184

SanJose.7.PXM > dsptrapip

Trap IP Address :172.27.27.184

SanJose.7.PXM > 

tstpndelay

Test Port Delay

Initiates loopback test for a connection. If you provide both a VPI and VCI, the segment endpoint is an F5 flow endpoint (for VCCs). If you provide only a VPI, the segment endpoint is a F4 flow endpoint (for VPCs). This command displays the round trip delay in microseconds.

Use cnfconsegep to specify the segment endpoint if one does not already exist.

Cards on Which This Command Runs

PXM45

Syntax

tstpndelay <portid> <vpi> [vci] [-direction {inbound | outbound}]

Syntax Description

portid	Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.
vpi	VPI of the connection.
vci	VCI of the connection. Default: 0
-direction	Specifies the direction of loopback. inbound: endpoint towards the backplane outbound: endpoint departing the port Default: inbound

Related Commands

cnfconsegep

Attributes

Log: yes

State: active

Privilege: SUPER_GP

uppnport

Up PNNI Port:

The uppnport command lets you put a UNI or NNI port into service (administratively "up" the port). The circumstances in which you would use the uppnport command are as follows:

•After you have downed the port for any reason by using the dnpnport command

•After you have pre-configured a port by using the addpnport command (see taddpnport description)

Cards on Which This Command Runs

PXM45

Syntax

uppnport <portid>

Syntax Description

portid

Identifies a PNNI physical port. The format is slot:subslot.port:subport. For a description of each field, see the section, "PNNI Format," at the beginning of the chapter.

Related Commands

addpnport, delpnport, dnpnport, dsppnport, dsppnports

Attributes

Log: yes

State: active

Privilege: GROUP1

Example

Check for any downed ports by executing dsppnports. Use uppnport to up any ports that are down. The output of dsppnports shows that only one user port exists (not the 7.3x ports, the first two of which are the BITS clock ports).

8850_NY.8.PXM.a > dsppnports

Summary of total connections

(p2p=point to point,p2mp=point to multipoint,SpvcD=DAX spvc,SpvcR=Routed spvc)

Type   #Svcc:   #Svpc:   #SpvcD:  #SpvpD:  #SpvcR:  #SpvpR:  #Total:

p2p:   0        0        0        0        0        0        0      

p2mp:  0        0        0        0        0        0        0      

                         Total=      0/50000 

Summary of total configured SPVC endpoints

Type   #SpvcR   #SpvpR   #SpvcD   #SpvpD   Total

p2p:   0         0         0         0         0      

p2mp:  0         0         0         0         0      

                         Total=0      

Summary of total active SVC/SPVC intermediate endpoints

Type   #Svcc    #Svpc     #SpvcR   #SpvpR   Total

p2p:   0         0         0         0         0      

p2mp:  0         0         0         0         0      

                         Total=0      

          EndPoint Grand Total =      0/100000 

Per-port status summary

PortId      LogicalId    IF status      Admin status  ILMI state        #Conns

7.35         17251107    up             up            Undefined         0       

7.36         17251108    up             up            Undefined         0       

7.37         17251109    up             up            Undefined         0       

7.38         17251110    up             up            Undefined         0       

3:1.1:1      16979969    down           down          Disable           0       

8850_NY.8.PXM.a > 

SanJose.7.PXM.a > uppnport 3:1.1:1

Check the administrative status of 3:1.1:1.

8850_NY.8.PXM.a > dsppnport 3:1.1:1

Port:               3:1.1:1           Logical ID:       16979969          

IF status:          up                Admin Status:     up                

UCSM:               enable            

Auto-config:        enable            Addrs-reg:        enable            

IF-side:            network           IF-type:          uni               

UniType:            private           Version:          uni3.1            

PassAlongCapab:     n/a               

Input filter:       0                 Output filter:    0                 

minSvccVpi:         0                 maxSvccVpi:       4095              

minSvccVci:         35                maxSvccVci:       65535             

minSvpcVpi:         1                 maxSvpcVpi:       4095