Table Of Contents
cnfln
cnfpart
cnfpath
cnfpathalm
cnfport
cnfrmrsrc
delapsln
delchanloop
delcon
delcons
delfdr
delimagrp
delimalnk
dellmi
dellnloop
delpart
delport
delrscprtn
dnallports
dncon
dncons
dnilmi
dnimagrp
dnlmi
dnln
dnpath
dnport
dspadjlnalm
dspadjlnalmcnt
dspalm
dspalms
dspalmcnt
dspapsbkplane
dspapsln
dspapslns
dspatmimagrp
dspatmlayer
dspatmlayercnt
dspatmln
dspautolndiag
dspbecnt
dspbert
dspbertstats
dspcd
dspcdbucketcnt
dspcdcnt
dspcdsct
dspcdstatcnf
dspchancnt
dspchanloop
dspchantests
dspcon
dspcons
dspconalmcnts
dspconalms
dspconhwcnf
dspconload
dspegrbucketcnt
dspfdr
dspfdrs
dspfdrstat
dsphotstandby
dspilmi
dspilmicnt
dspilmis
cnfln
Configure Line—AXSM, AXSM-E, AXSM-XG, AXSM-32-T1E1-E
Configures a line on the current service module. Use cnfln after you have activated the line using upln.
Note 
You cannot configure a line that currently has any configured virtual interfaces on it. To configure a line on an SRM, see the cnfln description that appears before the current description.
Note The syntax varies according to the line type, so each line type has a description.
Syntax (SONET)
cnfln -sonet <bay.line> -slt <LineType> -clk <clockSource> -description <circuitIdentifier>
Syntax Description (SONET)
-sonet
|
Enter the keyword (-sonet) followed by the bay.line number. For example:
Ranges:
•bay: 1-2
•line: 1-8
|
-slt
|
Enter the keyword (-lineType) followed by the LineType identifier. For example:
Identifiers:
•1 = SONET
•2 = SDH
|
-clk
|
Enter the keyword (-clk) followed by the clockSource identifier. For example:
Identifiers:
•1 = loopTiming
•2 = localTiming
|
-description
|
The circuitIdentifier is a text string with up to 64 characters that uniquely identifies the line.
|
Syntax (DS1)
cnfln -ds1 <bay.line> -len <LineLength> -clk <clockSource> -id <circuitIdentifier>
Syntax Description (DS1)
bay.line
|
Identifies the bay (1 or 2) and the line number. The line number is from 1 to the highest numbered line on the back card.
|
-len
|
Enter the keyword (-len) followed by the LineLength identifier. For example:
Range:
•0-64000 meters
|
-clk
|
Enter the keyword (-clk) followed by the clocksource identifier. For example:
Identifiers:
•1 = loopTiming
•2 = localTiming
|
-id
|
The circuitIdentifier is a text string with up to 64 characters that uniquely identifies the line.
|
Syntax (DS3)
cnfln -ds3 <bay.line> -lt <LineType> -len <LineLength> -oof <OOFCriteria> -cb <AIScBitsCheck> -id <circuitIdentifier> -rfeac <RcvFEACValidation> -clk <clockSource>
Syntax Description (DS3)
bay.line
|
Identifies the bay (1 or 2) and the line number. The line number is from 1 to the highest numbered line on the back card.
|
-lt
|
Enter the keyword (-lt) followed by the LineType identifier.
|
-len
|
Enter the keyword (-len) followed by the length of the line in meters, for example, -len 2. Range: 0-64000 meters.
Note On a T3 line, you must set the line length to match the physical length of the cable. Setting this value to a value higher than the actual length of the cable may cause a higher output drive from the card. However, this will not impact the overall power consumption or heat dissipation of the card.
|
-oof
|
Enter the keyword (-oof) followed by the OOFCriteria identifier. For example: -oof 1
Identifiers:
•1 = 3 out of 8
•2 = 3 out of 16
|
-cb
|
Enter 1 or 2 for LineAIScBitsCheck. The setting determines whether the node checks the C-bit in response to AIS. The significance is as follows:
•1 = check the C-bit
•2 = ignore the C-bit
|
-id
|
The circuitIdentifier is a text string with up to 64 characters that uniquely identifies the line.
|
-rfeac
|
Value to set FEAC (far-end alarm and control) code validation criteria. The value for LineRcvFEACValidation can be 1 or 2 and has the following significance:
•1 = 4 out of 5: a valid FEAC code is declared if 4 of 5 codes match.
•2 = 8 out of 10: a valid FEAC code is declared when 8 of 10 codes match.
|
-clk
|
Enter 1 or 2 for clockSource. The significance is as follows:
•1 = loop timing: receive clock is re-directed to become the transmit clock.
•2 = local timing: (default) transmit clock comes from the backplane.
|
Syntax (E1)
cnfln -e1 <bay.line> -clk <clockSource>
Syntax Description (E1)
bay.line
|
Identifies the bay (1 or 2) and the line number. The line number is from 1 to the highest numbered line on the back card.
|
-clk
|
Enter the keyword (-clk) followed by the clocksource identifier. For example:
Identifiers:
•1 = loopTiming
•2 = localTiming
|
Syntax (E3)
cnfln -e3 <bay.line> -clk <clockSource> -txtrace <txtrace> -id <circuitIdentifier>
Syntax Description (E3)
bay.line
|
Identifies the bay (1 or 2) and the line number. The line number is from 1 to the highest numbered line on the back card.
|
-clk
|
Enter the keyword (-clk) followed by the identifier clocksource identifier. For example:
Identifiers:
•1 = loopTiming
•2 = localTiming
|
-txtrace
|
Optional keyword that allows you to transmit and display trail trace bytes. You can test the line by transmitting a group of numbers using cnfln -txtrace and then displaying the result using the dspln command to see if the numbers are the same. See Example below.
|
-id
|
The circuitIdentifier is a text string with up to 64 characters that uniquely identifies the line.
|
Related Commands
dsplns, dspln, dnln, upln, addlnloop
Attributes
Log: yes
|
State: active
|
Privilege: ANYUSER
|
Example
Configure a dsx1ESF type line on bay 1, line 16, 12000 meters in length, with a local clock source:
MGX8850.2.AXSME.a > cnfln -ds1 1.16 -lineType 2 -clk 2
Configure T3 line 4 on the current card to have B8ZS coding and a length of 10:
MGX8850.1.4.AXSM.a > cnfln -ds3 4 2 10
Enable frame scrambling for SONET line 1 of the card in bay 1:
MGX8850.1.4.AXSM.a > cnfln -sonet 1.1 -sfs 2
Transmit and display trail trace bytes on an E3 line:
MGX8850.12.AXSME.a > cnfln -e3 1.1 -txtrace 123456789123450
MGX8850.12.AXSME.a > dspln -e3 1.1
Admin Status : Up Alarm Status :
Line Type : e3g832adm Number of ports : 0
Line Coding : e3HDB3 Number of partitions: 0
Line Length(meters) : 0 Number of SPVC : 0
Loopback : NoLoop Number of SPVP : 0
Xmt. Clock source : localTiming Number of SVC : 0
Xmt. Trace : 123456789123450
cnfpart
Configure Resource Partition—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Modifies a resource partition. A resource partition on the AXSM consists of minimum and maximum percentages of bandwidth, a VPI/VCI range, and a minimum and maximum number of connections available to a network control application. The current network controller is PNNI. Refer to the description of addpart for information on resource partitions.
You must bring the port down using dnport before you can configure a partition using cnfpart.
Note The cnfpart and cnfrscprtn commands are identical. The name "cnfrscprtn" is consistent with the corresponding command in a Cisco MGX 8850 PXM1-based switch. You can use either command.
Note On the AXSM-E and AXSM-XG, the VPI/VCI range can not be modified.
Important VPI/VCI Range Issues
When configuring a partition, be sure to configure the VPI/VCI ranges to meet your actual usage requirements. It is important that you do not configure the entire VPI/VCI range for a single partition. The ability to seamlessly add new partitions in the future depends on configuring only the necessary ranges for each partition.
The Cisco recommended ranges for a single partition are as follows:
•For a VPI on a UNI port where the available range is 0-255, the recommended configured range is 0-140.
•For a VPI on a PNNI port where the range is 0-4096, the recommended configured range is 0-2500 or about 60%.
Caution When adding or configuring a PNNI partition, do not configure the entire VPI/VCI range for one partition. In the future, if you migrate from a PNNI only service to a PNNI/MPLS service with multiple partitions, you will need the additional VPI/VCI ranges to be able to add a new partition. If you configure all of the available ranges for the PNNI partition, you will not be able to add a new MPLS partition without bringing down the port using the
dnport command to change the PNNI VPI/VCI ranges. Bringing down a port on a live network is usually not an option.
Syntax
cnfpart -if <if> -id <partionID> -ctlr <controllerID> -emin <egrMinBw> -emax <egrMaxBw> -imin <ingMinBw> -imax <ingMaxBw> -vpmin <minVpi> -vpmax <maxVpi> -vcmin <minVci> -vcmax <maxVci> -mincon <min connections> -maxcon <max connections>
Note The maximum number of connections must be greater than 10.
Syntax Description
Note On a virtual trunk, the min_vpi and max_vpi must be the same.
-if
|
Logical interface (port) number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
-id
|
The partition ID number. The ranges are as follows:
•AXSM: 1-5
•AXSM-E: 1-20
|
-ctlr
|
A number that identifies a network controller. The range for reserved controller IDs is 1-3 and is the same for all AXSM models.
The reserved controller IDs are as follows:
1 = PAR (Portable AutoRoute)—currently not used
2 = PNNI
3 = LSC (Label Switch Controller, also known as MPLS for Multiprotocol Label Switch Controller.
The absolute ranges for the cards are as follows:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
-emin
|
Specifies the guaranteed percentage of egress bandwidth. Each unit of egrMinBw is 0.00001 of the total bandwidth on the port. (An egrMinBw of 1000000 = 100%.) This approach provides a high level of granularity.
|
-emax
|
Specifies the maximum percentage of the bandwidth. Each unit of egrMaxBw is 0.00001 of the total bandwidth available to the port. (An egrMaxBw of 1000000 = 100%.) The resulting bandwidth must be at least 50 cps.
|
-imin
|
Specifies the guaranteed percentage of the ingress bandwidth. Each unit of ingMinBw is 0.00001 of the total bandwidth available to the port. For example, an ingMinBw of 1000000 = 100%.
|
-imax
|
Specifies the maximum percentage of the ingress bandwidth. Each increment of ingMaxBw is 0.00001 of the total bandwidth on the port. For example, an ingMaxBw of 1000000 = 100%. Note that the maximum ingress bandwidth must be at least 50 cps.
|
-vpmin
|
Specifies the minimum VPI. For NNI, the range is 0-4095. For UNI, the range is 0-255.
|
-vpmax
|
Specifies the maximum VPI in the range 0-4095 for an NNI. For a UNI, the range is 0-255. The maxvpi cannot be less than the minvpi.
|
-vcmin
|
Minimum VCI range: 0-2000 (OC-48 only) or 1-65535
|
-vcmax
|
Maximum VCI: range: 0-2000 (OC-48 only) or 1-65535
|
-mincon
|
Specifies the guaranteed number of connections. The range is between 0 and the maximum number of connections in the port group. See dspcd for information about port groups.
|
-maxcon
|
Specifies the maximum number of connections. The range is between 10 and the maximum number of connections in the port group. See dspcd port group information. maxConns cannot be less than minConns.
|
Related Commands
addpart, delpart, dsppart, dsppart
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
MGX8850.AXSM.a > cnfpart -if 1 -id 1 -vpmin 11
cnfpath
Configure Path—AXSM-XG
Configures the attributes of the specified STS or DS3 path (path_num).
For an STS path, a service is provisioned by configuring the payload (-payload).
The path width (-width) may only be configured when the path is down.
Syntax
For STS:
cnfPath <path_num> [-payload <sts_au_payload_type>] [-width <width_spec>] [-txtrace <trace-string>]
For DS3:
cnfpath <path_num> [-cb <AIScBitsCheck>] [-plcp <plcp_spec>] [-lpb <loopback_type>]
Syntax Description
path_num
|
Specifies the path as the bay, line number, and STS number or the bay, line number, and DS3 number, in the format, bay.line.sts or bay.line.sts.ds3. Ranges are as follows:
•bay: 1-2
•line: 1-4
•sts: 1-48
•ds3: 1-3
|
-payload
|
Specifies the payload type:
atm | ds3
If you select ds3, you must set the width to sts1_stm0. DS3 automatically carries ATM.
|
-width
|
Specifies the width of the path.
1-sts1_stm0
3-sts3c_stm1
12-sts12c_stm4
48- sts48c_stm16
192-sts192c_stm64
|
-txtrace
|
The transmitting trail trace string in bytes, up to 64 characters.
Enter 0, 16, or 64.
For SONET the string can be 0, 16, or 64 bytes.
For SDH the string can be 0 or 16 bytes.
|
-cb
|
Specifies whether to ignore or check the AIS C-bit.
1-Chk C-bit
2-Ignore C-bit
|
-plcp
|
Enables or disable PLCP.
1-enable
2-disable
|
-lpb
|
Specifies the loopback type.
1-no loopback
2-local loopback
3-remote loopback
|
Related Commands
dsppath, dsppaths, uppath, dnpath
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
Configure a ds3 path for ATM with a width of 1.
MGX8950.3.AXSMXG.a > cnfpath 1.1.1 -payload ds3 -width 1
Changing the path width.
MGX8950.1.AXSMXG.a > cnfpath 1.1.1 -width 12
Change in path width may be traffic affecting.
Do you want to proceed (Yes/No) ? y
MGX8950.1.AXSMXG.a > cnfpath 1.1.2 -width 1
Change in path width may be traffic affecting.
Do you want to proceed (Yes/No) ? n
cnfpathalm
Configure Path Alarm—AXSM-XG
Configures a specified statistical alarm threshold for a specified path (path_num). It also configures the Severity of the alarm.
Syntax
cnfpathalm <path_num> [-sev <Severity>] [-es15 <ES15min>] [-es24 <ES24Hr>] [-ses15 <SES15min>] [-ses24 <SES24Hr>] [-cv15 <CV15min>] [-cv24 <CV24Hr>] [-uas15 <UAS15min>] [-uas24 <UAS24Hr>] [-sefs15 <SEFS15min>] [-sefs24 <SEFS24>]
Syntax Description
path_num
|
Specifies the path as the bay, line number, and STS number or the bay, line number, and DS3 number, in the format, bay.line.sts or bay.line.sts.ds3. Ranges are as follows:
•bay: 1-2
•line: 1-4
•sts: 1-48
•ds3: 1-3
|
-sev
|
The severity level of the alarm to be raised when the specified statistical threshold is exceeded.
1-minor
2-major
3-none
|
-es15
|
ES threshold value for a 15 minute window.
|
-es24
|
ES threshold value for a 24 hour window.
|
-ses15
|
SES threshold value for a 15 minute window.
|
-ses24
|
SES threshold value for a 24 hour window.
|
-cv15
|
CV threshold value for a 15 minute window.
|
-cv24
|
CV threshold value for a 24 hour window.
|
-uas15
|
UAS threshold value for a 15 minute window.
|
-uas24
|
UAS threshold value for a 24 hour window.
|
-sefs15
|
SEFS threshold value for a 15 minute widow.
|
-sefs24
|
SEFS threshold value for a 24 hour window.
|
Related Commands
dsppathalmcnf
Attributes
Log: no
|
State: active, standby, init
|
Privilege: ANYUSER
|
Example
MGX8950.3.AXSMXG.a > dsppathalmcnf 1.1.1
Path Stat Alarm Severity: None
15min Threshold 24hr Threshold
MGX8950.3.AXSMXG.a > dsppathalmcnf 1.4.1.1
Path Stat Alarm Severity: None
15min Threshold 24hr Threshold
cnfport
Configure Port—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Configures or changes the parameters of a logical port. You can use dspport to verify the changes.
If a resource partition is configured on the port, you must first down the port using dnport to change the guaranteed rate (guaranteedRate), the maximum rate (maxrate), or the SCT ID (sctID) parameters using the cnfport command. However, the guaranteed rate (guaranteedRate) and the maximum rate (maxrate) must be set to the same value. After you change parameters, use the upport command to return the port to operation.
Syntax
cnfport -if <ifNum> [-min <guaranteedRate>] [-max <maxrate>] [-sct <sctID>] [-minvpi <minVpi>] [-maxvpi <maxvpi>]
Syntax Description
-if
|
Logical interface (port) number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
-min
|
Specifies the guaranteed rate on a logical port in cells per second (cps). The cumulative guaranteed rate cannot exceed the highest value in the following ranges:
OC3: 50-353207 cps
T3: 50-96000 (PLCP) or 104268 (ADM) cps
E3: 50-80000 cps
T1: 50-3622 cps
E1: 50-4528 cps
|
-minvpi
|
Specifies the minimum VPI.
NNI range: 0 and 4095
UNI range: 0 and 255
EVNNI range: 0 and 4095
EVUNI range: 0 and 255
|
-maxvpi
|
Specifies the maximum VPI.
NNI range: 0 and 4095
UNI range: 0 and 255
EVNNI range: 0 and 4095
EVUNI range: 0 and 255
|
-max
|
Specifies the maximum rate on a logical port in cells per second (cps).
•OC3: 50-353207 cps
•T3: 50-96000 (PLCP) or 104268 (ADM) cps
•E3: 50-80000 cps
•T1: 50-3622 cps
•E1: 50-4528 cps
|
-sct
|
Specifies the number of a service class template (SCT) for the port. The range is 0-255. Cisco provides SCT numbers 2, 3, 4, and 5. You can modify one of these SCTs through the Cisco WAN Manager application and assign a number in the range 6-255 to the new SCT. Subsequently, you can assign the new SCT to the port with the sctID parameter in cnfport. To see the ID of the current SCT for this port, use dspport. To see the parameters within the current SCT, use the dspportsct command.
|
Related Commands
addport, delport, dspport, dspports
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
For logical port 1, configure a guaranteed minimum of 10000 cps and a maximum rate of 20000 cps.
MGX8850.7.AXSME.a > cnfport -if 1 -min 10000 max 20000
cnfrmrsrc
Configure Resource Monitor Resource—AXSM, AXSM-E, AXSM-XG
Configures the resource monitor polling interval and thresholds for a specific resource (rsrcId).
Syntax
cnfrmrsrc <rsrcId> [-poll] [-loth] [-medth] [-hith]
Syntax Description
rsrcId
|
The resource ID number that specifies the OS resource to configure. Use the dsprmrsrcs command to get resource ID numbers. Range 0-16.
|
-poll
|
The polling interval in seconds. Range: 5-86400 seconds (24 hours).
|
-loth
|
The low threshold in percentage. Range: zero to any percentage less than the medium threshold.
|
-medth
|
The medium threshold in percentage. Range: any percentage greater than the low threshold and less than the high threshold.
|
-hith
|
The high threshold in percentage. Range: any percentage greater than the medium threshold and up to 100%.
|
Related Commands
dsprmrsrcs, dsprmrsrc, dsprmalms
Attributes
Log: no
|
State: active, standby
|
Privilege: CISCO_GP
|
Example
cnfrmrsrc 3 -poll 30 -loth 1800 -medth 1950 -hith 2100
delapsln
Delete APS Line—AXSM, AXSM-E, AXSM-XG
Removes the specified APS line from the switch.
See the description for the addapsln command for a detailed explanation of Automatic Protection Switching (APS).
Syntax
delapsln <workingline>
Syntax Description
workingline
|
Slot number, bay number, and line number of the active line to delete, in the format:
slot.bay.line.
|
Related Commands
addapsln, cnfapsln, dspapsln, switchapsln, dspapsbkplane, clrbecnt, dspbecnt
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
MGX8850.12.AXSME.a > delapsln 1.1.1
delchanloop
Delete Channel Loopback—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Delete a loopback from a connection (channel). For an understanding of the purpose of channel loopbacks, see the description of addchanloop.
Syntax
delchanloop <ifNumber> <vpi> <vci>
Syntax Description
ifNumber
|
The logical port number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
vpi
|
The VPI of the connection. The range is 0-4095.
|
vci
|
The VCI of the connection. The range is 1-65535.
|
Related Commands
addchanloop, dspchanloop
Attributes
Log: yes
|
State: active, standby
|
Privilege: SERVICE_GP
|
Example
Remove the loopback from VPI/VCI 1 50 on logical port 4.
MGX8850.1.AXSM.a > delchanloop 4 1 50
delcon
Delete Connection—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Deletes an SPVC or SPVP:
•For dual-ended connections, delete the connection at both ends—at the master end first.
•To delete a single-ended connection, use this command at the master end only.
•To delete a point-to-multipoint (P2MP) connection, all parties must be deleted from the connection before you can delete the connection (see the delparty description). For a P2MP connection, use this command at the master end only
Syntax
delcon <ifnum> <vpi> <vci>
Syntax Description
ifnum
|
Logical interface (or port) number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
vpi
|
Virtual path identifier in the range 0-255 (UNI) or 0-4095 (NNI or VNNI).
|
vci
|
Virtual connection identifier (VCI):
•For a VCC on a UNI, the range is 1-4095. On an NNI or VNNI, the VCI range is 1-65535. For MPLS, the recommended minimum VCI is 35.
•For a VPC, the vci is 0.
|
Related Commands
dspcon, addcon, cnfcon
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
MGX8850.1.3.AXSME.a > delcon 1 10 40
delcons
Delete Connections—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
The delcons command deletes an entire range of connections on the specified port (ifNum). The privilege level of this command is CISCO_GP. This command is intended for use by Cisco Development Engineers only. This command displays a warning when it is executed and allows the user to abort the command.
Caution The
delcons command is for use by Cisco Development Engineers during system software testing. The
delcons command should not be used on production networks that are carrying live traffic. The
delcons command may delete more than the anticipated number of connections, and repairing the damage may be very costly.
Syntax
delcons <ifNum> <vpi> <vci> [-num <num. conns to del>] [-verbose < 1 | 0 >]
Syntax Description
ifNum
|
Logical interface (or port) number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
vpi
|
For a UNI, the range is 0-255. For an NNI, the range is 0-4095.
|
vci
|
For a VCC, the range is 1-65535. For a VPC, the only value is 0.
|
-num
|
(Optional) Keyword that specifies the number of connections to delete.
|
-verbose
|
(Optional) Keyword that enables (1) or disables (0) verbose mode. In verbose mode, the screen displays the connection identifier of each connection immediately after it is deleted.
|
Related Commands
None
Attributes
Log: no
|
State: active
|
Privilege: CISCO_GP
|
Example
MGX8850.9.AXSM.a > delcons 11 20 100 -num 1
Warning : delcons command is not recommended to be used on a production node...
delcons: Do you want to proceed (Yes/No)? n
MGX8850.9.AXSM.a > delcons 11 20 100 -num 1
Warning : delcons command is not recommended to be used on a production node...
delcons: Do you want to proceed (Yes/No)? y
delfdr
Delete Feeder—AXSM, AXSM-E
Deletes a feeder node connection from the specified port (ifNum). The interface numbers of active ports are displayed in the dspports command report.
Note You cannot delete a port that has feeder node connections on it.
For more detailed information on configuring a feeder, refer to the Cisco MGX 8850 (PXM1E/PXM45), Cisco MGX 8950, and Cisco MGX 8830 Software Configuration Guide, Release 4
Syntax
delfdr <ifNum>
Syntax Description
ifNum
|
The interface number of the port from which the feeder node connection is deleted. The interface numbers of active ports are displayed in the dspports command report.
|
Related Commands
addfdr, dspfdr, dspfdrs
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
MGX8850.9.AXSM.a > delfdr 8
delimagrp
Delete IMA Group—AXSM-32-T1E1-E
This command deletes the specified IMA group.
Syntax
delimagrp <group>
Syntax Description
group
|
The bay number (1-2) and the IMA group number (1-16) in the format bay.group. For example: 1.16
|
Related Commands
addimagrp, dspimagrp, dspimagrps, cnfimagrp, rstimagrp
Attributes
Log: yes
|
State: active
|
Privilege: ANYUSER
|
Example
MGX8850.2.AXSME.a > delimagrp 1.16
delimalnk
Delete IMA Link—AXSM-32-T1E1-E
This command deletes an IMA link from the IMA group.
Syntax
delimalnk <link>
Syntax Description
link
|
The bay number (1-2) and the IMA link number (1-16) in the format bay.link. For example: 1.16
|
Related Commands
dspimagrp, cnfimagrp, rstimagrp, dspimalnk, addimalnk
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
Delete link at bay 1, ds1 16.
MGX8850.2.AXSME.a > delimalnk 1.16
dellmi
Delete Local Management Interface—AXSM
The dellmi command lets you delete LMI from an AXSM logical interface. By doing so, the feeder line or connection to the SES is removed.
Note Remove all connections before you delete LMI on an interface.
Syntax
dellmi <ifNum>
Syntax Description
ifNum
|
The logical interface number has a range of 1-60.
|
Related Command
addlmi, uplmi, dnlmi, uplmi, clrlmistat, dsplmi, dsplmis, dsplmistat
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
Delete the LMI on port 2, then check to see if any LMIs remain.
MGX8850.1.AXSM.a > dellmi 2
MGX8850.1.AXSM.a > dsplmis
IF Remote Remote Rmt Rmt LMI LMI LMI
No. Name IP Slot Port Admin Oper Alarms
--- ------- ------------ ----- ----- ----- ---- ------
dellnloop
Delete Line Loop—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Remove the line loopback state from a line.
Syntax (AXSM)
dellnloop <-ds3 | -sonet> <bay.line>
Note For AXSM cards, the keyword ds3 applies to both T3 and E3 line types.
Syntax Description (AXSM)
-ds3 | -sonet
|
Specifies a SONET line (OC-3c, OC-12c, OC-48c) or a DS3 line (E3 or T3).
|
bay.line
|
The bay (1 for upper or 2 for lower), and the line number. The line number ranges from 1 to the highest number line on the back card.
|
Attributes (AXSM)
Log: yes
|
State: active
|
Privilege: GROUP1
|
Syntax (AXSM-32-T1E1-E)
dellnloop -ds1<bay.line>
Syntax Description (AXSM-32-T1E1-E)
-ds1
|
The ds1 bay number (1-2) and line number (1-16). For example, for bay 1, line 16, enter -ds1 1.16
|
Attributes (AXSM-32-T1E1-E)
Log: yes
|
State: active, standby, init
|
Privilege: GROUP1
|
Related Commands
addlnloop
Example (AXSM-E)
Delete a DS3 loopback line.
MGX8850.1.11.AXSME.a > dellnloop -ds3 1.6
Line loop-back status will be changed.
Do you want to proceed (Yes/No) ?
Example (AXSM-32-T1E1-E)
Remove the loopback from bay 1, line 1.
MGX8850.2.AXSME.a > dellnloop -ds1 1.16
delpart
Delete Resource Partition—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Note The delpart and delrscprtn commands are identical. The name "delrscprtn" is consistent with the corresponding command in Cisco MGX 8850 PXM1-based switch. You can use either command.
Syntax
delpart <if_num> <part_id>
Syntax Description
if_num
|
Logical interface (port) number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
part_id
|
The partition ID number in the range 1-20. Use dspparts (or dsprscprtns) to see all resource partitions if necessary.
|
Related Commands
addpart, cnfpart, dsppart
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
MGX8850.1.9.AXSME.a > delpart 1 1
delport
Delete Port—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Remove a logical port from a service module. You must delete all connections and resource partitions on the port before you can delete it.
Syntax
delport <ifNum>
Syntax Description
ifNum
|
A logical port (interface) number. Only one logical port is allowed if the line operates as a UNI or NNI. For the virtual network to network interface (VNNI), multiple ports can exist on a line. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
Related Commands
addport, cnfport, dspport, dspports
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
delrscprtn
Delete Resource Partition—AXSM, AXSM-E, AXSM-32-T1E1-E, AXSM-XG
Delete a resource partition. Note that you must delete all connections in the resource partition before you delete it. For information on resource partitions, refer to the description of addrscprtn.
Note The delpart and delrscprtn commands are identical. The name "cnfrscprtn" is consistent with the corresponding command in Cisco MGX 8850 PXM1-based switch. You can use either command.
Syntax
delrscprtn <if_num> <part_id>
Syntax Description
if_num
|
Logical interface (port) number. The ranges are:
•AXSM: 1-60
•AXSM-E: 1-32
•AXSM-XG: 1-126
|
part_id
|
The partition ID number in the range 1-20. Use dsprscprtns to see all resource partitions if necessary.
|
Related Commands
addrscprtn, dsprscprtns, delpart, addpart, dsppart
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
MGX8850.1.9.AXSME.a > delrscprtn 1 1
dnallports
Down All Ports—de-activates all ports—AXSM
The dnallports command primarily applies to a situation where you want to re-configure resource partitions or change the choice of service class template (SCT).
Syntax
dnallports
Syntax Description
N o parameters, but the CLI prompts you to confirm the execution.
Related Commands
upallports
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Example
Check the current state of the logical ports. Down all ports. Up all ports. Re-check the state of the ports.
