Table Of Contents
cnfln
cnflnalm
cnfmfrbundle
cnfmfrlnk
cnfmpbundle
cnfmpbundleparams
cnfpart
cnfpath
cnfpathalm
cnfport
cnfppplink
cnfpppmux
cnfprfparam
cnfrmrsrc
cnfrscprtn
cnftug3
core
delapsln
delbert
delchanloop
delcon
delimagrp
delimalnk
dellnloop
delmfrbundle
delmfrlnk
delmpbundle
delpart
delport
delppplink
delpppmux
delsesn
delrscprtn
dnallports
dncon
dncons
dnilmi
dnimagrp
dnln
dnmfrbundle
dnmpbundle
dnpath
dnport
dnppplink
dspadjlnalm
dspadjlnalmcnt
dspapsbkplane
dspapsln
dspapslns
dspatmlayer
dspatmlayercnt
dspautolndiag
dspautorestart
dspbecnt
dspbert
dspbertcap
dspberts
dspbertstat
dspcd
dspcdsct
dspcdstatcnf
dspcduptime
dspchancnt
dspchanloop
dspchanstdabr
dspchantests
dspclictx
dspcon
dspconalmcnts
dspconalms
dspconload
dspcons
dspdiagresults
dspeng
dspfile
dspfrparms
dspilmi
dspilmicnt
dspilmis
cnfln
Configure Line
Service Context—ATM, Frame Relay, PPP
Modules—MPSM-T3E3-155, MPSM-16-T1E1
Enter the cnfln command to configure a SONET/SDH, DS3/E3, or DS1/E1 line on the current card. Use the cnfln command after you have activated the line using upln.
Note 
You cannot configure a line that currently has virtual interfaces configured.
Syntax —(SONET/SDH Lines)
cnfln <bay.line> -slt <LineType> -clk <clockSource>
Syntax Description —(SONET/SDH Lines)
bay.line
|
Identifies the MPSM-T3E3-155 line you want to configure, in the format bay.line.
Note Use the dsplns command to display the line numbers for all lines on the current card.
|
-slt
|
Sets the line type to SONET or SDH. The possible values are:
•1 = sonetSts3c, which selects SONET (default)
•2 = sonetStm1, which selects SDH
|
-clk
|
Specifies the transmit clock source. The possible values for this parameter are:
•1 = loopTiming source—The line clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The local clock from the backplane is the transmit clock source.
|
Syntax (DS1 Lines)
cnfln <bay.line> -len <LineLength> -clk <clockSource> -lt <LineType> -lc <Line Coding>
Syntax Description (DS1 Lines)
bay.line
|
Identifies the MPSM-16-T1E1 line you want to configure, in the format bay.line
Note Use the dsplns command to display the line numbers for all lines on the current card
|
-len
|
Specifies the DS1 Line Length in meters
|
-clk
|
Specifies the transmit clock source. The possible values for this parameter are:
•1 = loopTiming source—The line clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The local clock from the backplane is the transmit clock source.
|
-lt
|
Specifies the Framing Type:
•2 = D_dsx1LineType_dsx1ESF,
•3 = D_dsx1LineType_dsx1D4
|
-lc
|
Specifies the line coding type
•2 = B8ZS
•5 = AMI
|
Syntax (E1 Lines)
cnfln <bay.line> -clk <clockSource> -lt <LineType> -lc <Line Coding>
Syntax Description (E1 Lines)
bay.line
|
Identifies the MPSM-16-T1E1 line you want to configure, in the format bay.line
Note Use the dsplns command to display the line numbers for all lines on the current card
|
-clk
|
Specifies the transmit clock source. The possible values for this parameter are:
•1 = loopTiming source—The line clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The local clock from the backplane is the transmit clock source.
|
-lt
|
Defines if CRC and TS-16 Multiframing is enabled for E1.
•4 = D_dsx1LineType_dsx1E1,
•5 = D_dsx1LineType_dsx1E1CRC,
•6 = D_dsx1LineType_dsx1E1MF,
•7 = D_dsx1LineType_dsx1E1CRCMF
|
-lc
|
Specifies the line coding type.
•3 = HDB3
•5 = AMI
|
Syntax (DS3 Lines)
cnfln <bay.line> -lt <LineType> -len <LineLength> -oof <OOFCriteria> -cb <AIScBitsCheck> -rfeac <RcvFEACValidation> -sc <sendCode> -clk <clockSource> -chan <channelization>
Syntax Description (DS3)
bay.line
|
Identifies the MPSM-T3E3-155 line you want to configure, in the format bay.line.
Note Use the dsplns command to display the line numbers for all lines on the current card.
|
-lt
|
Specifies the DS3 line type. The possible values are:
•1 = ds3cbitadm
•2 = ds3cbitplcp
•9 = dsx3M23
•11 = dsx3CbitParity
|
-len
|
Specifies the DS3 line length in meters. 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
|
Specifies the threshold for triggering an out-of-frame condition. The possible values for this parameter are:
•1 = 3 out of 8. An out-of-frame condition is declared if at least 3 out of 8 framing bits are in error.
•2 = 3 out of 16. An out-of-frame condition is declared if at least 3 out of 16 framing bits are in error.
|
-cb
|
Determines whether the node checks the C-bit in response to AIS. The possible values for this parameter are:
•1 = check the C-bit
•2 = ignore the C-bit
|
-rfeac
|
Sets the FEAC (far-end alarm and control) code validation criteria. The possible values are:
•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.
|
-sc
|
Identifies the line send code.
Note Release 5 of the MPSM-T3E3-155 does not support the -sc option.
|
-clk
|
Specifies the transmit clock source. The possible values for this parameter are:
•1 = loopTiming source—The line clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The local clock from the backplane is the transmit clock source.
|
-chan
|
Enables or disables DS1 channelization on the specified DS3 line.
The possible values for this parameter are:
•1 = Disabled
•2 = Enabled
|
Syntax (E3)
cnfln <bay.line> -lt <lineType> -clk <clockSource> -txtrace <TraceString>
Syntax Description (E3)
bay.line
|
Identifies the MPSM-T3E3-155 line you want to configure, in the format bay.line.
Note Use the dsplns command to display the line numbers for all lines on the current card.
|
-lt
|
Specifies the E3 line type. The possible values are:
•17 = e3g832frmronly
•18 = e3g751frmronly
|
-clk
|
Specifies the transmit clock source. The possible values for this parameter are:
•1 = loopTiming source—The line clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The local clock from the backplane is the transmit clock source.
|
-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. The TraceString is a number that can be a maximum of 15 bytes.
|
Related Commands
dsplns, dspln, dnln, upln, addlnloop
Attributes
Log: yes
|
State: active
|
Privilege: ANYUSER
|
Example
In the following example, the user configures the sonet line 1.1 so that the line type is SONET, and the transmit clock uses the recovered receive clock from the backcard (loop timing).
M8850_NY.13.MPSM155[ATM].a > cnfln 1.1 -slt 1 -clk 1
In the following example, the user configures the E3 line 1.2 so that its receive clock is the transmit clock source.
mpsm_node1.9.MPSM155[ATM].a > cnfln 1.2 -clk 2
cnflnalm
Configure Line Alarm
Service Context—ATM and Frame Relay
Modules—MPSM-T3E3-155
Enter the cnflnalm command to configure statistical line alarms thresholds and severities. You can use this command to make the lines more or less sensitive to alarm conditions.
Syntax (Sonet Section)
cnflnalm -sonetsec <bay.line> -secsev <Severity> -seces15 <ES15min> -seces24 <ES24Hr>
-secses15 <SES15min> -secses24 <SES24Hr> -secsefs15 <SEFS15min> -secsefs24 <SEFS24Hr> -seccv15 <UAS15min> -seccv24 <UAS24Hr>
Syntax Description (Sonet Sections)
-sonetsec <bay.line>
|
Identifies the SONET or SDH section on which you want to configure statistical line alarms thresholds. Enter the keyword (-sonetsec) followed by the line number in the format bay.line, where bay = 1 and line = 1-3. For example: -sonetsec 1.2
Note Use the dsplns command to display the line numbers for all lines.
|
-secsev
|
Determines the severity of SONET or SDH section statistical alarm counters. When a Statistical Counter exceeds its specified threshold, the system sends an alarm with appropriate severity. Enter a number to indicate the severity for all statistical alarms on the specified line as follows:
•1—minor
•2—major
•3—none (no alarm will be raised).
|
-seces15
|
Sets the threshold for errored seconds in the current 15-minute interval.
|
-seces24
|
Sets the threshold for errored seconds in the current 24-hour interval.
|
-secses15
|
Sets the threshold for severely errored seconds in the current 15-minute interval.
|
-secses24
|
Sets the threshold for severely errored seconds in the current 24-hour interval.
|
-secsefs15
|
Sets the threshold for severely errored framing seconds in the current 15-minute interval.
|
-secsefs24
|
Sets the threshold for severely errored framing seconds in the current 24-hour interval.
|
-seccv15
|
Sets the threshold for code violations in the current 15-minute interval.
|
-seccv24
|
Sets the threshold for code violations in the current 24-hour interval.
|
Syntax (Sonet Lines)
cnflnalm -sonetline <bay.line> -lnsev <Severity> -lnes15 <ES15min>
-lnes24 <ES24Hr> -lnses15 <SES15min> -lnses24 <SES24Hr> -lncv15 <CV15min>
-lncv24 <CV24Hr> -lnuas15 <UAS15min> -lnuas24 <UAS24Hr>
Syntax Description (Sonet Lines)
-sonetline <bay.line>
|
Identifies the SONET orSDH line which to you want to configure statistical line alarms thresholds. Enter the keyword (-sonetline) followed by the line number in the format bay.line, where bay = 1 and line = 1-3. For example: -sonetline 1.2
Note Use the dsplns command to display the line numbers for all lines.
|
-lnsev
|
Determines the severity of SONET or SDH line statistical alarm counters. When a Statistical Counter exceeds its specified threshold, the system sends an alarm with appropriate severity. Enter a number to indicate the severity for all statistical alarms on the specified line as follows:
•1—minor
•2—major
•3—none (no alarm will be raised).
|
-lnes15
|
Sets the threshold for errored seconds in the current 15-minute interval.
|
-lnes24
|
Sets the threshold for errored seconds in the current 24-hour interval.
|
-lnses15
|
Sets the threshold for severely errored seconds in the current 15-minute interval.
|
-lnses24
|
Sets the threshold for severely errored seconds in the current 24-hour interval.
|
-lncv15
|
Sets the threshold for code violations in the current 15-minute interval.
|
-lncv24
|
Sets the threshold for code violations in the current 24-hour interval.
|
-lnuas15
|
Sets the threshold for unavailable seconds in the current 24-hour interval.
|
-lnuas24
|
Sets the threshold for unavailable seconds in the current 24-hour interval.
|
Syntax (DS3/E3 Lines)
cnflnalm ds3|-e3 <bay.line> -dsev <severity> -lcv15 <LCV15min> -lcv24 <LCV24Hr>
-les15 <LES15min> -les24 <LES24Hr> -pcv15 <PCV15min> -pcv24 <PCV24Hr>
-pes15 <PES15min> -pes24 <PES24Hr> -pses15 <PSES15min> -pses24 <PSES24Hr>
-sefs15 <SEFS15min> -sefs24 <SEFS24Hr> -uas15 <UAS15min> -uas24 <UAS24Hr>
Syntax Description DS3/E3 Lines)
-ds3|-e3 <bay.line>
|
Identifies the DS3/E3 line which to you want to configure statistical line alarms thresholds. Enter the keyword (-ds3 or -e3) followed by the line number in the format bay.line, where bay = 1 and line = 1-3. For example: -ds3 1.2
Note Use the dsplns command to display the line numbers for all lines.
|
-dsev
|
Determines the severity of DS3 or E3 statistical alarm counters. When a Statistical Counter exceeds its specified threshold, the system sends an alarm with appropriate severity. Enter a number to indicate the severity for all statistical alarms on the specified line as follows:
•1—minor
•2—major
•3—none (no alarm will be raised).
|
-lncv15
|
Sets the threshold for code violations in the current 15-minute interval.
|
-lncv24
|
Sets the threshold for code violations in the current 24-hour interval.
|
-les15
|
Sets the threshold for errored seconds in the current 15-minute interval.
|
-les24
|
Sets the threshold for errored seconds in the current 24-hour interval.
|
-pcv15
|
Sets the threshold for PVC errors in the current 15-minute interval.
|
-pcv24
|
Sets the threshold for PVC errors in the current 24-hour interval.
|
-pes15
|
Sets the threshold for errored seconds in the current 15-minute interval.
|
-pes24
|
Sets the threshold for errored seconds in the current 24-hour interval.
|
-pses15
|
Sets the threshold for P-bit errored seconds in the current 15-minute interval.
|
-pses24
|
Sets the threshold for P-bit errored seconds in the current 24-hour interval.
|
-sefs15
|
Sets the threshold for severely errored framing seconds in the current 15-minute interval.
|
-sefs24
|
Sets the threshold for severely errored framing seconds in the current 24-hour interval.
|
-uas15
|
Sets the threshold for unavailable seconds in the current 24-hour interval.
|
-uas24
|
Sets the threshold for unavailable seconds in the current 24-hour interval.
|
Syntax (PLCP Lines)
cnflnalm -plcp <bay.line> -psev <severity>
-bcv15 <CV15min> -bcv24 <CV24Hr> -bes15 <ES15min> -bes24 <ES24Hr>
-bses15 <SES15min> -bses24 <SES24Hr> -pses15 <SEFS15min>
-pses24 <SEFS24Hr> -puas15 <UAS15min> -puas24 <UAS24Hr>
Syntax Description (PLCP Lines)
-plcp <bay.line>
|
Identifies the PLHP line which to you want to configure statistical line alarms thresholds. Enter the keyword (-plcp) followed by the line number in the format bay.line, where bay = 1 and line = 1-3. For example: -plcp 1.2
Note Use the plcp command to display the line numbers for all lines.
|
-psev
|
Determines the severity of DS3 or PLCP statistical alarm counters. When a Statistical Counter exceeds its specified threshold, the system sends an alarm with appropriate severity. Enter a number to indicate the severity for all statistical alarms on the specified line as follows:
•1—minor
•2—major
•3—none (no alarm will be raised).
|
-bcv15
|
Sets the threshold for code violations in the current 15-minute interval.
|
-bcv24
|
Sets the threshold for code violations in the current 24-hour interval.
|
-bes15
|
Sets the threshold for errored seconds in the current 15-minute interval.
|
-bes24
|
Sets the threshold for errored seconds in the current 24-hour interval.
|
-bses15
|
Sets the threshold for severely errored seconds in the current 15-minute interval.
|
-bses24
|
Sets the threshold for severely errored seconds in the current 24-hour interval.
|
-pses15
|
Sets the threshold for P-bit severely errored seconds in the current 15-minute interval.
|
-pses24
|
Sets the threshold for P-bit severely errored seconds in the current 24-hour interval.
|
-puas15
|
Sets the threshold for unavailable seconds in the current 24-hour interval.
|
-puas24
|
Sets the threshold for unavailable seconds in the current 24-hour interval.
|
Related Commands
clrlnalmcnt, dsplnalm, dsplnalmcnf, dsplnalmcnt, dsplnalms
Attributes
Log: yes
|
State: active, standby, init
|
Privilege: ANYUSER
|
Example (E3)
In the following example, the user configures the E3 line 1.1 to show minor alarms when any of the statistical counters exceed their threshold. The user also sets the threshold for code violations in the current 24-hour and 15-minute intervals to 500.
mpsm_node1.9.MPSM155[ATM].a > cnflnalm -e3 1.1 -dsev 1 -lcv15 500 -lcv24 500
cnfmfrbundle
Configure Multi-link Frame Relay Bundle
Service Context—Frame Relay
Modules—MPSM-T3E3-155
Enter the cnfmfrbundle command to configure an MFR bundle.
Syntax
cnfmfrbundle -bundle <bundleNum>
[-class <activationclass>] [-minlinks <minimumlinks>]
[-hellotimer <hellotimer>] [-acktimer <acktime>]
[-maxretry <maxretry>] [-bname <bundleName>]
Syntax Description
-bundle
|
Identifies the MFR bundle number.
Note Enter the dspmfrbundles command to display all MFR bundles on the card.
|
-class
|
Bundle activation class:
•1=Class A—At least one bundle links must be operational for the MFR Bundle to be operational
•2=Class B—All the bundle links must be operational for the MFR Bundle to be operational
•3=Class C—Configured number of bundle links must be operational for the MFR Bundle to be operational.
|
-minlinks
|
Minimum number of Links for Class-C activation class, in the range 1-12.
|
-hellotimer
|
Interval for sending hello messages, in the range 1-180 seconds
|
-acktimer
|
Maximum time period to wait for an acknowledgement from the far end, in the range 1-10 seconds
|
-maxretry
|
Maximum number of Retries (Maximum retries), in the range 1-5 retries.
|
-bname
|
Near-end bundle name:
A null-terminated string consisting of ASCII characters A-Z, a-z, 0-9 and any printable characters, with a maximum of 49 characters.
|
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Related Commands
addmfrbundle, delmfrbundle, dspmfrbundle, dspmfrbundles
Example
In the following example, the user sets the hello timer to 20 seconds for MFR bundle 3.
M8850_SF.10.MPSM155[FR].a > cnfmfrbundle -bundle 3 -hellotimer 20
cnfmfrlnk
Configure Multi-link Frame Relay Link
Service Context—Frame Relay
Modules—MPSM-T3E3-155
Enter the cnfmfrlnk command to configure the name of an MFR link.
Syntax
cnfmfrlnk -link <lnkNum> -lname <linkname>
Syntax Description
-link
|
Specifies the MFR link number:
Note Enter the dspmfrlnks command to display all MFR links on the card.
|
-lname
|
Near-end link name:
A null -terminated string consisting of ASCII characters A-Z, a-z, 0-9 and any printable characters with a maximum of 49 characters.
|
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Related Commands
addmfrlnk, delmfrlnk, dspmfrlnk, dspmfrlnks
Example
In the following example, the user sets the name of MFR link 1.1:11 to GoldenGateLink111.
M8850_SF.10.MPSM155[FR].a > cnfmfrlnk -link 1.1:11 -lname GoldenGAteLink111
cnfmpbundle
Configure MLPPP Bundle
Service Context—PPP
Modules—MPSM-16-T1E1, MPSM-T3E3-155
Enter the cnfmpbundle command to change the configuration of an MLPPP bundle.
Syntax
cnfmpbundle -bundle <bundleNumber> [-mrru <value>] [-endDisc <value>]
Syntax Description
-bundle
|
Specifies the MLPPP bundle number.
Note Enter the dspmpbundles command to display all MLPPP bundles on the card.
|
-mrru
|
Specifies the Max Received Reconstructed Unit (MRRU), in the range 64 - 1524.
After the user adds a link to an MLPPP bundle, the MRRU is sent to the remote end, which notifies the remote end that this link is capable of receiving MLPPP packets.
|
-endDisc
|
Describes the bundle endpoint. The value is null terminated string that contains printable ASCII characters, which include A-Z, a-z, and 0-9. Maximum length: 20 characters.
|
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Related Commands
addmpbundle, delmpbundle, dspmpbundle
Example
In the following example, the user changes the MRRU to 1024 for MLPPP bundle 5.
M8850_SF.27.MPSM16T1E1PPP[FR].a > cnfmpbundle -bundle 5 -mrru 1024
Warning: Bundle Config is being changed, traffic might be interrupted briefly
cnfmpbundleparams
Configure MLPPP Bundle parameters
Service Context—PPP
Modules—MPSM-16-T1E1, MPSM-T3E3-155
Enter the cnfmpbundleparams command to configure Layer 2 QoS parameters on an MLPPP bundle.
Syntax
cnfmpbundleparams -bundle <bundleNumber> [-q0threshold <value>] [-q1threshold <value>] [-q2threshold <value>] [-normpvcbw <value>] [-autobw <value>]
Syntax Description
-bundle
|
Specifies the MLPPP bundle number.
Note Enter the dspmpbundles command to display all MLPPP bundles on the card.
|
-q0threshold
|
Q0 threshold, range 0 - 65535 packets
Default: 100
|
-q1threshold
|
Q1 threshold, range 0 - 65535 packets
Default: 100
|
-q2threshold
|
Q2 threshold, range 0 - 65535 packets
Default: 100
|
-normpvcbw
|
Normalized PVC bandwidth, range 0 - 176603 cps
Default: 8600 cps
|
-autobw
|
Auto PVC bandwidth mode. When enabled, the card automatically negotiates the PVC bandwidth on connections to the RPM-XF.
•1 = enable—The card automatically negotiates the bandwidth on RPM-XF PVCs to assure that the queues operate correctly.
•2 = disable—You must manually configure the bandwidth on RPM-XF PVCs to avoid overloading the queues.
|
Attributes
Log: yes
|
State: active
|
Privilege: GROUP1
|
Related Commands
addmpbundle, delmpbundle, dspmpbundle
Example
In the following example, the user disables the dynamic bandwidth feature on MLPPP bundle2.
M8850_SF.10.MPSM155[FR].a > cnfmpbundleparams -bundle 2 -autobw 2
cnfpart
Configure Resource Partition
Service Context—ATM and Frame Relay
Modules—MPSM-T3E3-155, MPSM-16-T1E1
Enter the cnfpart command to modify a resource partition. A resource partition 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.
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 range is 0-140.
•For a VPI on a PNNI port where the range is 0-4096, the recommended range is 0-2500 or about 60%.
Caution If you configure all of the available ranges for the PNNI partition, you will not be able to add a new 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 (ATM Service Context)
cnfpart -if <if> -id <partionID> -emin <egrMinBw> -emax <egrMaxBw> -imin <ingMinBw> -imax <ingMaxBw> -vpmin <minVpi> -vpmax <maxVpi> -vcmin <minVci> -vcmax <maxVci> -mincon <min connections> -maxcon <max connections>
Syntax Description (ATM Service Context)
-if
|
The interface number (partition number) of the partition to configure.
Note Use the dspparts command in the ATM CLI context to see all active ATM partitions.
|
-id
|
A number that identifies the partition, in the range 1-20.
|
-emin
|
A guaranteed percentage of egress bandwidth. Each unit of egrminbw is 0.0001 percent of the total bandwidth on the port. (An egrMinBw of 1000000 = 100%.) These small increments provide a high level of granularity.
|
-emax
|
A maximum percentage of egress bandwidth. Each unit of egrmaxbw is 0.0001 percent of the total bandwidth available to the port. (An egrMaxBw of 1000000 = 100%.) The minimum bandwidth must be at least 50 cps.
|
-imin
|
A guaranteed percentage of the ingress bandwidth. Each unit of ingminbw is 0.0001 percent of the total bandwidth available to a port. (An ingMinBw of 1000000 = 100%.)
|
-imax
|
A maximum percentage of the ingress bandwidth. Each increment of ingmaxbw is 0.0001 percent of the total bandwidth on the port. (An ingMaxBw of 100000000 = 100%.) The maximum ingress bandwidth must be at least 50 cps.
|
-vpmin
|
Minimum VPI for the partition:
•UNI range 0-255
•NNI or VNNI range: 0-4095
|
-vpmax
|
Maximum VPI for the partition
•UNI range 0-255
•NNI or VNNI range: 0-4095
The max_vpi cannot be less than the min_vpi.
On a virtual trunk, the min_vpi and max_vpi must be the same.
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-vcmin
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Minimum VCI, in the range from 1-65535
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-vcmax
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Maximum VCI, in the range from 1-65535
The max_vci cannot be less than the min_vci.
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-mincon
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Guaranteed number of connections. Value: 0 only
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-maxcon
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A maximum number of connections, in the range 10-2000.
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Syntax (Frame Relay Service Context)
cnfpart <ifNum> <ctrlNum> [-lcn <available connections>] [-dlcimin <minDlci>] [-dlcimax <maxDlci>] [-ibw <ingPctBw>] [-ebw <egrPctBw>]
Syntax Description (Frame Relay Service Context)
ifNum
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Specifies the interface number (partition number) of the partition to configure.
Note Use the dspparts command in the Frame Relay CLI context to see all active partitions.
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ctrlNum
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Specifies a network controller protocol. Enter 2 to specify the PNNI controller.
Note Release 5 of the MPSM-T3E3-155 supports the PNNI controller (option 2) only. Options 1 (TAG switching) and 3 (MPLS) are not supported on the MPSM-T3E3-155 card.
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-lcn
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Maximum number of connections.
•MPSM-16-T1E1 range: 0-2000
•MPSM-T3E3-155 range: 0-4000
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-dlcimin
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Minimum DLCI value.
•2-byte header range: 0-1023.
•4-byte header range: 0-8355840, in multiples of 32768.
For example, you can enter one of the following numbers as the minimum DLCI value, or any other number that is a multiple of 32768:
0 = (0 x 32768)
163840 = (5 x 32768)
8355840 = (255 x 32768)
Unless your provisioning plan calls for a specific range of DLCI values on a port or card, specify the minimum DLCI value as 0.
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-dlcimax
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Maximum DLCI value.
•2-byte header range: 0-1023.
•4-byte header range: 32767-8355840, in multiples of 32768, minus 1.
For example, you can enter one of the following numbers as the maximum DLCI value, or any other number that is a multiple of 32768 minus l:
32767 = (32768 * 1)-1
163839 = (32768 * 5)-1
6520831 = (32768 * 199)-1
Unless your provisioning plan calls for a specific range of DLCI value on a port or card, specify the maximum DLCI value as 8388607.
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-ibw
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Maximum ingress port bandwidth percentage for the controller type specified with the ctrlrNum argument, in the range 0-100 percent.
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-ebw
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Maximum egress port bandwidth percentage for the controller type specified with the ctrlrNum argument, in the range 0-100 percent.
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Related Commands
addpart, delpart, dsppart, dsppart
Attributes
Log: yes
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State: active
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Privilege: GROUP1
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Example (ATM Service Context)
In the following example, the user enters the cnfpart command to configure resource partition 1 with the following parameters:
•guaranteed egress bandwidth—9000
•maximum egress bandwidth—9000
•guaranteed ingress bandwidth—1000
•maximum ingress bandwidth—10000
•minimum VPI—0
•maximum VPI—200
•minimum VCI—1
•maximum VCI—60000
NodeB.6.MPSM155[ATM].a > cnfpart -if 4 -id 1 -emin 9000 -emax 9000 -imin 1000 -imax 10000
-vpmin 0 -vpmax 200 -vcmin 1 -vcmax 60000
Example (Frame Relay Service Context)
In the following example, the user enters the cnfpart command to configure resource partition 2 so that it has the logical channel number 2000.
mpsm_node.5.MPSM155[FR].a > cnfpart 50 2 -lcn 2000
cnfpath
Configure Path
Service Context—ATM and Frame Relay
Modules—MPSM-T3E3-155
Enter the cnfpath command to create or configure paths (channels) a SONET/SDH or DS3/E3 line. You provision the SONET/SDH path width with the -width keyword, and the service type using the -payload keyword.
Syntax—Sonet/SDH Path
For an STS path in an "up" state, use the following syntax:
cnfPath [-sts] <path_id> [-payload <sts_au_payload_type>] [-txtrace <trace-string>]
For an STS path in an "down" state, use the following syntax:
cnfPath [-sts] <path_id> [-width <width_spec>]
Syntax Description—Sonet/SDH Path
-sts
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The -sts keyword explicitly selects STS paths in SONET networks, or AU paths in SDH networks.
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path_id
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Specifies the id of the STS/STM path you want to configure, in the following format:
bay.line.sts
where: bay = 1, line = 1, sts = 1-3
Use the dsppaths -sts command to display the existing STS/STM paths.
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-payload
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Specifies the payload type. The possible values for this parameter are:
•2 = unspecified
•3 = ds3—Configure a DS3 payload
•4 = vt15vc11—Configure virtual tributaries for DS1
•5 = vt2vc12—Configure virtual tributaries for E1
•8 = e3 —Configure an E3 payload
•9 = vtStructured— Configure TUG3 virtual tributaries (SDH line type with -width = 3 only)
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-txtrace
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The transmitting trail trace string in bytes, up to 64 characters.
Enter 0, 16, or 64.
For SONET the string can be up to 62 bytes.
For SDH the string can be up to 15 bytes.
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-width
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Specifies the width of the path. The possible values for this parameter are:
•1 = Configure the path width for SONET STS1 and SDH STM0
•3 = Configure the path width for SONET STS3c and SDH STM1
Note The path width may only be configured when the path is down.
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Syntax—DS3 Path
cnfpath [-ds3] <path_id>[-cb <AIScBitsCheck>] [-oof <OOF Criteria>] [-lt <Line Type>] [-clk <Clock Source>] [-feac <RcvFEAC>] [-lpb <Loopback>] [-chan <Channelization>]
Syntax Description—DS3 Path
-ds3
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The -ds3 keyword explicitly selects paths with DS3 payloads.
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path_id
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Specifies the DS3 path you want to configure, in the following format:
bay.line.sts
where: bay = 1, line = 1, sts = 1-3
Note Use the dsppaths -ds3 command to display the path numbers for all available DS3 paths.
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-cb
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Determines whether the node checks the C-bit in response to AIS. Enter the keyword (-cb) followed by the AIScBitsCheck identifier. The possible values for this parameter are:
•1 = check the C-bit
•2 = ignore the C-bit
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-oof
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Specifies the threshold for triggering an out-of-frame condition. The possible values for this parameter are:
•1 = 3 out of 8. An out-of-frame condition is declared if at least 3 out of 8 framing bits are in error.
•2 = 3 out of 16. An out-of-frame condition is declared if at least 3 out of 16 framing bits are in error.
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-lt
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Specifies the DS3 line type. The possible values for this parameter are:
•1 = ds3cbitadm
•2 = ds3cbitplcp
•9 = dsx3M23
•11 = dsx3CbitParity (default)
Note After you add ATM service to a path with the addport command, the line type is set to dsx3CbitParity (option 11) by default. You can change to ds3cbitadm (option 1) or ds3cbitplcp (option 2) only after ATM service has been added to a path with the addport command.
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-clk
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Specifies the DS3 clock source.The possible values for this parameter are:
•1 = loopTiming source—The receive clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The clock source from the backplane is the transmit clock source.
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-feac
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Specifies the threshold for triggering an FEAC condition. The possible values for this parameter are:
•1 = 4 out of 5
•2 = 8 out of 10
•3 = disable
Note Release 5 of the MPSM-T3E3-155 does not support option 3 (disable).
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-lpb
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Specifies the type of path loopback to apply. The possible values for this parameter are:
•1 = No loopback
•2 = Local loopback
•3 = Remote loopback
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-chan
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Enables or disables channelization on the current line. The possible values for this parameter are:
•1 = Disabled
•2 = Enabled
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Syntax—E3 Path
cnfpath [-e3] <path_id> [-lt <Line Type>] [-clk <Clock Source>] [-lpb <Loopback>] [-txtrace <traceString>]
Syntax Description—E3 Path
-e3
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The -e3 keyword explicitly selects paths with E3 payloads.
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path_id
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Identifies the E3 path you want to configure, in the following format:
bay.line.sts
where: bay = 1, line = 1, sts = 1-3
Note Use the dsppaths -e3 command to display the path numbers for all available E3 paths.
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-lt
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Specifies the E3 line type. The possible values for this parameter are:
•17 = e3g832frmronly
•18 = e3g751frmronly
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-clk
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Specifies the E3 clock source.The possible values for this parameter are:
•1 = loopTiming source—The receive clock from the back card is the transmit clock source.
•2 = localTiming source (default)—The clock source from the backplane is the transmit clock source.
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-lpb
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Specifies the type of path loopback to apply. The possible values for this parameter are:
•1 = No loopback
•2 = Local loopback
•3 = Remote loopback
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-txtrace
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Optional keyword that allows you to transmit trail trace bytes. You can test the line by transmitting a group of numbers using cnfpath -txtrace and then displaying the result using the dsppath command to see if the numbers are the same.
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Syntax—DS1/E1 Path
cnfpath [-ds1 | -e1] <path_id> [-lpb <Loopback>][-clk <Clock Source>] [-lt <Line Type>]
Syntax Description
-ds1 | -e1
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The -ds1 and -e1 keyword explicitly select paths with DS1 or E1 payloads, respectively.
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path_id
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Identifies the DS1 or E1 path you want to configure, in the following formats:
•DS3 line: bay.line:ds1
•DS3 payload: bay.line.sts:ds1
•VT payload: bay.line.sts:vtg.vt
•VT structured: bay.line.sts:tug3.vtg.vt
where: bay=1, line=1, sts=0-3, ds1=1-28,
tug3=1-3, vtg=1-7, vt=1-4 (VT15) or 1-3 (VT2)
Note Use the dsppaths -ds1 command to display the path numbers for all available DS1 paths. Use the dsppaths -e1 command to display the path numbers for all available E1 paths.
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-lpb
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Specifies the type of path loopback to apply. The possible values for this parameter are:
•1 = No loopback
•2 = Local loopback
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