Table Of Contents
TL1 Command Descriptions
3.1 TL1 Commands by Category
3.2 TL1 Commands by Card (Cisco ONS 15454)
3.3 TL1 Commands by Card (ONS 15327)
3.4 TL1 Commands
3.4.1 ACT-USER: Activate User
3.4.2 ALW-MSG-ALL: Allow Message All
3.4.3 ALW-MSG-DBCHG: Allow Database Change Message
3.4.4 ALW-MSG-SECU: Allow Message Security
3.4.5 ALW-PMREPT-ALL: Allow Performance Report All
3.4.6 ALW-SWDX-EQPT: Allow Switch Duplex Equipment
3.4.7 ALW-SWTOPROTN-EQPT: Allow Switch to Protection Equipment
3.4.8 ALW-SWTOWKG-EQPT: Allow Switch to Working Equipment
3.4.9 ALW-USER-SECU: Allow User Security
3.4.10 APPLY: Apply
3.4.11 CANC: Cancel
3.4.12 CANC-USER: Cancel User
3.4.13 CANC-USER-SECU: Cancel User Security
3.4.14 CHG-ACCMD-<MOD_TACC>: Change Test Access Mode (DS1, DS3I, E1, E3, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.15 CONN-TACC-<MOD_TACC>: Connect Test Access (DS1, DS3I, E1, E3, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.16 COPY-IOSCFG: Copy IOS Config File
3.4.17 COPY-RFILE: Copy RFILE
3.4.18 DISC-TACC: Disconnect Test Access
3.4.19 DLT-<MOD_RING>: Delete (BLSR)
3.4.20 DLT-CRS-<PATH>: Delete Cross Connection (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.21 DLT-EQPT: Delete Equipment
3.4.22 DLT-FFP-<OCN_TYPE>: Delete Facility Protection Group (OC3, OC12, OC48, OC192)
3.4.23 DLT-FFP-CLNT: Delete Facility Protection Group Client
3.4.24 DLT-LNK-<MOD2O>: Delete Optical Link (OCH, OMS, OTS)
3.4.25 DLT-OSC: Delete OSC
3.4.26 DLT-UCP-CC: Delete Unified Control Plane Control Channel
3.4.27 DLT-UCP-IF: Delete Unified Control Plane Interface
3.4.28 DLT-UCP-NBR: Delete Unified Control Plane Neighbor
3.4.29 DLT-USER-SECU: Delete User Security
3.4.30 DLT-VCG: Delete Virtual Concatenated Group
3.4.31 DLT-WLEN: Delete Wavelength
3.4.32 ED-<MOD_PATH>: Edit (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.33 ED-<MOD_RING>: Edit Bidirectional Line Switched Ring
3.4.34 ED-<OCN_TYPE>: Edit (OC3, OC12, OC48, OC192)
3.4.35 ED-BITS: Edit Building Integrated Timing Supply
3.4.36 ED-CLNT: Edit Client
3.4.37 ED-CMD-SECU: Edit Command Security
3.4.38 ED-CRS-<PATH>:ED Cross Connect (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS 48C, STS192C, VT1, VT2)
3.4.39 ED-DAT: Edit Date and Time
3.4.40 ED-DS1: Edit DS1
3.4.41 ED-DWDM: Edit Dense Wavelength Division Multiplexing
3.4.42 ED-EC1: Edit Electrical Carrier
3.4.43 ED-EQPT: Edit Equipment
3.4.44 ED-FC: Edit Fiber Channel Facility
3.4.45 ED-FFP-<OCN_TYPE>: Edit Facility Protection Group (OC3, OC12, OC48, OC192)
3.4.46 ED-FFP-CLNT: Edit Facility Protection Group Client
3.4.47 ED-FFP-OCH: Edit Facility Protection Group OCH
3.4.48 ED-G1000: Edit G1000
3.4.49 ED-LNK-<MOD2O>: Edit Link (OCH, OMS, OTS)
3.4.50 ED-NE-GEN: Edit Network Element General
3.4.51 ED-NE-PATH: Edit Network Element Paths
3.4.52 ED-NE-SYNCN: Edit Network Element Synchronization
3.4.53 ED-OCH: Edit Optical Channel
3.4.54 ED-OMS: Edit Optical Multiplex Section
3.4.55 ED-OSC: Edit Optical Service Channel
3.4.56 ED-OTS: Edit OTS
3.4.57 ED-PID: Edit Password
3.4.58 ED-SYNCN: Edit Synchronization
3.4.59 ED-T1: Edit T1
3.4.60 ED-T3: Edit T3
3.4.61 ED-TRC-CLNT: Edit Trace Client
3.4.62 ED-TRC-OCH: Edit Trace Optical Channel Facilities
3.4.63 ED-UCP-CC: Edit Unified Control Plane Control Channel
3.4.64 ED-UCP-IF: Edit Unified Control Plane Interface
3.4.65 ED-UCP-NBR: Edit Unified Control Plane Neighbor
3.4.66 ED-UCP-NODE: Edit Unified Control Plane Node
3.4.67 ED-USER-SECU: Edit User Security
3.4.68 ED-WDMANS: Edit Wavelength Division Multiplexing Automatic Node Setup
3.4.69 ED-WLEN: Edit Wavelength
3.4.70 ENT-<MOD_RING>: Enter BLSR
3.4.71 ENT-CRS-<PATH>: Enter Cross Connection (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.72 ENT-EQPT: Enter Equipment
3.4.73 ENT-FFP-<OCN_TYPE>: Enter Facility Protection Group (OC3, OC12, OC48, OC192)
3.4.74 ENT-FFP-CLNT: Enter Facility Protection Group Client
3.4.75 ENT-LNK-<MOD2O>: Enter Optical Link (OCH, OMS, OTS)
3.4.76 ENT-OSC: Enter Optical Service Channel
3.4.77 ENT-UCP-CC: Enter Unified Control Plane Control Channel
3.4.78 ENT-UCP-IF: Enter Unified Control Plane Interface
3.4.79 ENT-UCP-NBR: Enter Unified Control Plane Neighbor
3.4.80 ENT-USER-SECU: Enter User Security
3.4.81 ENT-VCG: Enter Virtual Concatenated Group
3.4.82 ENT-WLEN: Enter Wavelength
3.4.83 EX-SW-<OCN_BLSR>: Operate Protection Switch (OC12, OC48, OC192)
3.4.84 INH-MSG-ALL: Inhibit Message All
3.4.85 INH-MSG-DBCHG: Inhibit Database Change Message
3.4.86 INH-MSG-SECU: Inhibit Message Security
3.4.87 INH-PMREPT-ALL: Inhibit Performance Report All
3.4.88 INH-SWDX-EQPT: Inhibit Switch Duplex Equipment
3.4.89 INH-SWTOPROTN-EQPT: Inhibit Switch to Protection Equipment
3.4.90 INH-SWTOWKG-EQPT: Inhibit Switch to Working Equipment
3.4.91 INH-USER-SECU: Inhibit User Security
3.4.92 INIT-REG-<MOD2>: Initialize Register (CLNT, DS1, DS3I, EC1, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.93 INIT-SYS: Initialize System
3.4.94 OPR-ACO-ALL: Operate Alarm Cutoff All
3.4.95 OPR-EXT-CONT: Operate External Control
3.4.96 OPR-LASER-OTS: Operate Laser Optical Transport Section
3.4.97 OPR-LNK: Operate Link
3.4.98 OPR-LPBK-<MOD2>: Operate Loopback (CLNT, DS1, DS3I, EC1, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.99 OPR-PROTNSW-<OCN_TYPE>: Operate Protection Switch (OC3, OC12, OC48, OC192)
3.4.100 OPR-PROTNSW-<PATH>: Operate Protection Switch (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.101 OPR-PROTNSW-CLNT: Operate Protection Switch Client
3.4.102 OPR-PROTNSW-OCH: Operate Protection Switch OCH
3.4.103 OPR-SYNCNSW: Operate Synchronization Switch
3.4.104 OPR-WDMANS: Operate Wavelength Division Multiplexing Automatic Node Setup
3.4.105 REPT ALM <MOD2ALM>: Report Alarm (CLNT, DS1, DS3I, E100, E1000, EC1, FSTE, G1000, GIGE, OC12, OC192, OC3, OC48, OCH, OMS, OSC, OTS, POS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, UDCDCC, UDCF, VT1, VT2, WLEN)
3.4.106 REPT ALM BITS: Report Alarm Building Integrated Timing Supply
3.4.107 REPT ALM COM: Report Alarm COM
3.4.108 REPT ALM ENV: Report Alarm Environment
3.4.109 REPT ALM EQPT: Report Alarm Equipment
3.4.110 REPT ALM SECU: Report Alarm Security
3.4.111 REPT ALM SYNCN: Report Alarm Synchronization
3.4.112 REPT ALM UCP: Report Alarm Unified Control Plane
3.4.113 REPT DBCHG: Report Database Change Message
3.4.114 REPT EVT <MOD2ALM>: Report Event (CLNT, DS1, DS3I, FSTE, G1000, GIGE, OC12, OC192, OC3, OC48, OCH, OMS, OSC, OTS, POS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, UDCDCC, UDCF, VT1, VT2, WLEN)
3.4.115 REPT EVT BITS: Report Event BITS
3.4.116 REPT EVT COM: Report Event COM
3.4.117 REPT EVT ENV: Report Event Environment
3.4.118 REPT EVT EQPT: Report Event Equipment
3.4.119 REPT EVT FXFR: Report Event Software Download
3.4.120 REPT EVT IOSCFG: Report Event IOS Config File
3.4.121 REPT EVT SECU: Report Event Security
3.4.122 REPT EVT SESSION: Report Event Session
3.4.123 REPT EVT SYNCN: Report Event Synchronization
3.4.124 REPT EVT UCP: Report Event Unified Control Plane
3.4.125 REPT PM <MOD2>: Report Performance Monitoring (CLNT, DS1, DS3I, EC1, FC, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.126 REPT SW: Report Switch
3.4.127 RLS-EXT-CONT: Release External Control
3.4.128 RLS-LASER-OTS: Release Laser Optical Transport Section
3.4.129 RLS-LPBK-<MOD2>: Release Loopback (CLNT, DS1, DS3I, EC1, FC, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.130 RLS-PROTNSW-<OCN_TYPE>: Release Protection Switch (OC3, OC12, OC48, OC192)
3.4.131 RLS-PROTNSW-<PATH>: Release Protection Switch (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.132 RLS-PROTNSW-CLNT: Release Protection Switch Client
3.4.133 RLS-PROTNSW-OCH: Release Protection Switch OCH
3.4.134 RLS-SYNCNSW: Release Synchronization Switch
3.4.135 RMV-<MOD2_IO>: Remove (CLNT, DS1, DS3I, EC1, FC, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, T1, T3)
3.4.136 RST-<MOD2_IO>: Restore (CLNT, DS1, DS3I, EC1, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, T1, T3)
3.4.137 RTRV-<MOD_RING>: Retrieve Bidirectional Line Switched Ring
3.4.138 RTRV-<OCN_TYPE>: Retrieve (OC3, OC12, OC48, OC192)
3.4.139 RTRV-<PATH>: Retrieve (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.140 RTRV-ALM-<MOD2ALM>:Retrieve Alarm (CLNT, DS1, DS3I, EC1, FC, FSTE, G1000, GIGE, OC12, OC192, OC3, OC48, OCH, OMS, OSC, OTS, POS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, UDCDCC, UDCF, VT1, VT2, WLEN)
3.4.141 RTRV-ALM-ALL: Retrieve Alarm All
3.4.142 RTRV-ALM-BITS: Retrieve Alarm Building Integrated Timing Supply
3.4.143 RTRV-ALM-ENV: Retrieve Alarm Environment
3.4.144 RTRV-ALM-EQPT: Retrieve Alarm Equipment
3.4.145 RTRV-ALM-SYNCN: Retrieve Alarm Synchronization
3.4.146 RTRV-ALM-UCP: Retrieve Alarm Unified Control Plane
3.4.147 RTRV-ALMTH-<MOD2>: Retrieve Alarm Threshold (CLNT, DS1, DS3I, EC1, FC, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STM1E, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.148 RTRV-ALMTH-EQPT: Retrieve Alarm Threshold Equipment
3.4.149 RTRV-ATTR-CONT: Retrieve Attribute Control
3.4.150 RTRV-ATTR-ENV: Retrieve Attribute Environment
3.4.151 RTRV-BITS: Retrieve Building Integrated Timing Supply
3.4.152 RTRV-CLNT: Retrieve Client
3.4.153 RTRV-CMD-SECU: Retrieve Command Security
3.4.154 RTRV-COND-<MOD2ALM>: Retrieve Condition (CLNT, DS1, EC1, FC, FSTE, G1000, GIGE, OC12, OC192, OC3, OC48, OCH, OMS, OSC, OTS, POS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, UDCDCC, UDCF, VT1, VT2, WLEN)
3.4.155 RTRV-COND-ALL: Retrieve Condition All
3.4.156 RTRV-COND-BITS: Retrieve Condition Building Integrated Timing Supply
3.4.157 RTRV-COND-ENV: Retrieve Environmental Condition
3.4.158 RTRV-COND-EQPT: Retrieve Condition Equipment
3.4.159 RTRV-COND-SYNCN: Retrieve Condition Synchronization
3.4.160 RTRV-COND-UCP: Retrieve Condition Unified Control Plane
3.4.161 RTRV-CRS: Retrieve Cross Connect
3.4.162 RTRV-CRS-<PATH>: Retrieve Cross Connect (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.163 RTRV-DFLT-SECU: Retrieve Default Security
3.4.164 RTRV-DS1: Retrieve DS1
3.4.165 RTRV-DWDM: Retrieve Dense Wavelength Division Multiplexing
3.4.166 RTRV-EC1: Retrieve EC1
3.4.167 RTRV-EQPT: Retrieve Equipment
3.4.168 RTRV-EXT-CONT: Retrieve External Control
3.4.169 RTRV-FC: Retrieve Fiber Channel Facility
3.4.170 RTRV-FFP-<OCN_TYPE>: Retrieve Facility Protection Group (OC3, OC12, OC48, OC192)
3.4.171 RTRV-FFP-CLNT: Retrieve Facility Protection Group Client
3.4.172 RTRV-FFP-OCH: Retrieve Facility Protection Group OCH
3.4.173 RTRV-FSTE: Retrieve Fast Ethernet
3.4.174 RTRV-G1000: Retrieve G1000 Facility
3.4.175 RTRV-GIGE: Retrieve Gigabit Ethernet
3.4.176 RTRV-HDR: Retrieve Header
3.4.177 RTRV-INV: Retrieve Inventory
3.4.178 RTRV-LNK: Retrieve Link
3.4.179 RTRV-LNK-<MOD2O>: Retrieve Optical Link (OCH, OMS, OTS)
3.4.180 RTRV-LOG: Retrieve Log
3.4.181 RTRV-MAP-NETWORK: Retrieve Map Network
3.4.182 RTRV-NE-GEN: Retrieve Network Element General
3.4.183 RTRV-NE-IPMAP: Retrieve Network Element IPMAP
3.4.184 RTRV-NE-PATH: Retrieve Network Element Path
3.4.185 RTRV-NE-SYNCN: Retrieve Network Element Synchronization
3.4.186 RTRV-NE-WDMANS: Retrieve NE Wavelength Division Multiplexing Automatic Node Setup
3.4.187 RTRV-OCH: Retrieve Optical Channel
3.4.188 RTRV-OMS: Retrieve Optical Multiplex Section
3.4.189 RTRV-OSC: Retrieve Optical Service Channel
3.4.190 RTRV-OTS: Retrieve Optical Transport System
3.4.191 RTRV-PM-<MOD2>: Retrieve Performance (CLNT, DS1, DS3I, EC1, FC, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.192 RTRV-PMMODE-<STS_PATH>: Retrieve Performance Mode of PM Data Collection (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C)
3.4.193 RTRV-PMSCHED-<MOD2>:Retrieve Performance Monitoring Schedule (CLNT, DS1, DS3I, EC1, FC, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.194 RTRV-PMSCHED-ALL: Retrieve Performance Schedule All
3.4.195 RTRV-POS: Retrieve Packet Over SONET
3.4.196 RTRV-PROTNSW-<OCN_TYPE>: Retrieve Protection Switch (OC3, OC12, OC48, OC192)
3.4.197 RTRV-PROTNSW-<PATH>: Retrieve Protection Switch (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
3.4.198 RTRV-PROTNSW-CLNT: Retrieve Protection Switch Client
3.4.199 RTRV-PROTNSW-OCH: Retrieve Protection Switch OCH
3.4.200 RTRV-PTHTRC-<STS_PATH>: Retrieve Path Trace (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C)
3.4.201 RTRV-STS: Retrieve STS
3.4.202 RTRV-SYNCN: Retrieve Synchronization
3.4.203 RTRV-T1: Retrieve T1 Facility
3.4.204 RTRV-T3: Retrieve T3
3.4.205 RTRV-TACC: Retrieve Test Access
3.4.206 RTRV-TH-<MOD2>: Retrieve Threshold (CLNT, DS1, DS3I, EC1, FC, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.207 RTRV-TH-ALL: Retrieve Threshold ALL
3.4.208 RTRV-TOD: Retrieve Time of Day
3.4.209 RTRV-TRC-<OCN_BLSR>: Retrieve Trace Client (OC12, OC192, OC48)
3.4.210 RTRV-TRC-CLNT: Retrieve Trace Client
3.4.211 RTRV-TRC-OCH: Retrieve Trace Optical Channel
3.4.212 RTRV-UCP-CC: Retrieve Unified Control Plane Control Channel
3.4.213 RTRV-UCP-IF: Retrieve Unified Control Plane Interface
3.4.214 RTRV-UCP-NBR: Retrieve Unified Control Plane Neighbor
3.4.215 RTRV-UCP-NODE: Retrieve Unified Control Plane Node
3.4.216 RTRV-USER-SECU: Retrieve User Security
3.4.217 RTRV-VCG: Retrieve Virtual Concatenated Group
3.4.218 RTRV-VT: RTRV VT
3.4.219 RTRV-WDMANS: Retrieve Wavelength Division Multiplexing Automatic Node Setup
3.4.220 RTRV-WLEN: Retrieve Wavelength
3.4.221 SCHED-PMREPT-<MOD2>: Schedule Performance Monitoring Report (CLNT, DS1, DS3I, FC, EC1, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STM1E, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.222 SET-ALMTH-<MOD2>: Set Alarm Threshold (CLNT, DS1, DS3I, FC, EC1, G1000, OC12, OC192, OC3, OC48, OCH, OMS, OTS, STM1E, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
3.4.223 SET-ALMTH-EQPT: Set Alarm Equipment
3.4.224 SET-ATTR-CONT: Set Attribute Control
3.4.225 SET-ATTR-ENV: Set Attribute Environment
3.4.226 SET-ATTR-SECUDFLT: Set Attribute Security Default
3.4.227 SET-PMMODE-<STS_PATH>: Set Performance Mode of PM Data Collection (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C)
3.4.228 SET-TH-<MOD2>: Set Threshold (CLNT, DS1, DS3I, EC1, FC, G1000, OC3, OC12,OC48, OC192, OCH, OMS, OTS, STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C,T1, T3, VT1)
3.4.229 SET-TOD: Set Time of Day
3.4.230 SW-DX-EQPT: Switch Duplex Equipment
3.4.231 SW-TOPROTN-EQPT: Switch to Protection Equipment
3.4.232 SW-TOWKG-EQPT: Switch to Working Equipment
TL1 Command Descriptions
This chapter provides specific information on TL1 commands and autonomous messages for the
Cisco ONS 15454 and Cisco ONS 15327, Release 4.6, including:
•
TL1 commands by category
•TL1 commands by card
•TL1 commands
For information on command components, such as parameters, see Chapter 4, "TL1 Command Components."
Note The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration. Cisco does not recommend using its path protection feature in any particular topological network configuration.
3.1 TL1 Commands by Category
Table 3-1 TL1 Commands by Category
Category
|
Command or Autonomous Message
|
BLSR
|
DLT-<MOD_RING>
ED-<MOD_RING>
ENT-<MOD_RING>
|
EX-SW-<OCN_BLSR>
RTRV-<MOD_RING>
RTRV-TRC-<OCN_BLSR>
|
Cross Connections
|
DLT-CRS-<PATH>
ED-CRS-<PATH>
ENT-CRS-<PATH>
|
RTRV-CRS
RTRV-CRS-<PATH>
|
DWDM
(Cisco ONS 15454 only)
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
DLT-OSC
DLT-WLEN
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OSC
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ED-WDMANS
ED-WLEN
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
ENT-OSC
ENT-WLEN
OPR-LASER-OTS
OPR-LNK
OPR-PROTNSW-CLNT
|
OPR-PROTNSW-OCH
OPR-WDMANS
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-ALMTH-<MOD2>
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK
RTRV-LNK-<MOD2O>
RTRV-NE-WDMANS
RTRV-OCH
RTRV-OMS
RTRV-OSC
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
RTRV-WDMANS
RTRV-WLEN
SET-ALMTH-<MOD2>
|
Environment
|
RTRV-ATTR-CONT
RTRV-ATTR-ENV
|
SET-ATTR-CONT
SET-ATTR-ENV
|
Environment Alarms and Controls
|
OPR-ACO-ALL
OPR-EXT-CONT
REPT ALM ENV
REPT EVT ENV
|
RLS-EXT-CONT
RTRV-ALM-ENV
RTRV-COND-ENV
RTRV-EXT-CONT
|
Equipment
|
ALW-SWDX-EQPT
ALW-SWTOPROTN-EQPT
ALW-SWTOWKG-EQPT
DLT-EQPT
ED-EQPT
ENT-EQPT
INH-SWDX-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
REPT ALM EQPT
|
REPT EVT EQPT
RTRV-ALM-EQPT
RTRV-ALMTH-EQPT
RTRV-COND-EQPT
RTRV-EQPT
SET-ALMTH-EQPT
SW-DX-EQPT
SW-TOPROTN-EQPT
SW-TOWKG-EQPT
|
Fault
|
REPT ALM <MOD2ALM>
REPT ALM COM
REPT EVT <MOD2ALM>
REPT EVT COM
|
RTRV-ALM-ALL
RTRV-COND-<MOD2ALM>
RTRV-COND-ALL
|
File Transfer
|
APPLY
COPY-RFILE
REPT EVT FXFR
|
|
IOS
|
COPY-IOSCFG
REPT EVT IOSCFG
|
|
Log
|
ALW-MSG-DBCHG
INH-MSG-DBCHG
|
REPT DBCHG
RTRV-LOG
|
Network
|
RTRV-MAP-NETWORK
RTRV-NE-IPMAP
|
|
Paths
|
ED-<MOD_PATH>
RTRV-<PATH>
|
RTRV-STS
|
Performance
|
ALW-PMREPT-ALL
INH-PMREPT-ALL
INIT-REG-<MOD2>
REPT PM <MOD2>
RTRV-PM-<MOD2>
RTRV-PMMODE-<STS_PATH>
|
RTRV-PMSCHED-<MOD2>
RTRV-PMSCHED-ALL
RTRV-TH-<MOD2>
RTRV-TH-ALL
SCHED-PMREPT-<MOD2>
SET-TH-<MOD2>
|
Ports
|
ED-<OCN_TYPE>
ED-DS1
ED-EC1
ED-FC
ED-G1000
ED-T1
ED-T3
RMV-<MOD2_IO>
RST-<MOD2_IO>
RTRV-<OCN_TYPE>
|
RTRV-DS1
RTRV-EC1
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Security
|
ACT-USER
ALW-MSG-SECU
ALW-USER-SECU
CANC
CANC-USER-SECU
DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
SONET Line Protection
|
DLT-FFP-<OCN_TYPE>
ED-FFP-<OCN_TYPE>
ENT-FFP-<OCN_TYPE>
OPR-PROTNSW-<OCN_TYPE>
|
RLS-PROTNSW-<OCN_TYPE>
RTRV-FFP-<OCN_TYPE>
RTRV-PROTNSW-<OCN_TYPE>
|
Switch
|
RTRV-PROTNSW-<PATH>
|
|
Synchronization
|
ED-BITS
ED-NE-SYNCN
ED-SYNCN
OPR-SYNCNSW
REPT ALM BITS
REPT ALM SYNCN
REPT EVT BITS
REPT EVT SYNCN
|
RLS-SYNCNSW
RTRV-ALM-BITS
RTRV-ALM-SYNCN
RTRV-BITS
RTRV-COND-BITS
RTRV-COND-SYNCN
RTRV-NE-SYNCN
RTRV-SYNCN
|
System
|
ALW-MSG-ALL
ED-DAT
ED-NE-GEN
ED-NE-PATH
INH-MSG-ALL
INIT-SYS
|
RTRV-HDR
RTRV-INV
RTRV-NE-GEN
RTRV-NE-PATH
RTRV-TOD
SET-TOD
|
Test Access
|
CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC>
|
DISC-TACC
RTRV-TACC
|
Testing
|
OPR-LPBK-<MOD2>
RLS-LPBK-<MOD2>
|
|
Trace
|
RTRV-PTHTRC-<STS_PATH>
|
|
UCP
|
DLT-UCP-CC
DLT-UCP-IF
DLT-UCP-NBR
ED-UCP-CC
ED-UCP-IF
ED-UCP-NBR
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
|
ENT-UCP-NBR
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Path Protection Switching
|
REPT SW
|
|
VCAT
|
DLT-VCG
ENT-VCG
|
RTRV-VCG
|
3.2 TL1 Commands by Card (Cisco ONS 15454)
Table 3-2 TL1 Commands by Card (Cisco ONS 15454)
Card
|
Applicable Commands
|
AD-1B, AD-4B, AD-1C, AD-2C, AD-4C, MD-4, MUX-32, DMUX-32
|
DLT-EQPT
DLT-LNK-<MOD20>
DLT-WLEN
ED-EQPT
ED-OCH (not for AD-1B, AD-4B) ED-LNK-<MOD20>
ED-OMS (AD-1B, AD-4B, MD-4)
ED-OTS (not for MD-4) ED-WDMANS
ED-WLEN
ENT-EQPT
ENT-LNK-<MOD20> ENT-WLEN
INIT-REG-<MOD2>
OPR-LNK
OPR-WDMANS
REPT ALM WLEN
REPT ALM <MOD2ALM>
REPT EVT WLEN
REPT EVT <MOD2ALM>
REPT PM <MOD2> RMV-<MOD2_IO> RST-<MOD2_IO>
RTRV-ALM-ALL
RTRV-ALM-EQPT
|
RTRV-ALM-WLEN RTRV-ALMTH-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-WLEN RTRV-EQPT
RTRV-INV
RTRV-OCH (not for AD-1B, AD-4B)
RTRV-LNK-<MOD20> RTRV-OMS (AD-1B, AD-4B, MD-4)
RTRV-OTS (not for MD-4) RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-TH-<MOD2> RTRV-WDMANS
RTRV-WLEN SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2>
SET-ALMTH-EQPT SET-TH-<MOD2>
|
AIC, AIC-I
|
DLT-EQPT
ENT-EQPT
INIT-SYS
OPR-ACO-ALL
OPR-EXT-CONT
REPT ALM ENV
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT ENV
REPT EVT EQPT
REPT EVT <MOD2ALM>
RLS-EXT-CONT RTRV-ALM-ALL
|
RTRV-ALM-ENV RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM> RTRV-ATTR-CONT RTRV-ATTR-ENV RTRV-COND-ALL RTRV-COND-ENV RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-EQPT
RTRV-EXT-CONT
RTRV-INV
SET-ATTR-CONT SET-ATTR-ENV
|
DS1, DS1N, DS3, DS3N, DS3E, DS3NE
|
ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC> DISC-TACC
DLT-CRS-<PATH>
DLT-EQPT
ED-<MOD_PATH> ED-CRS-<PATH>
ED-EQPT
ED-NE-PATH
ED-T1 (DS1)
ED-T3 (DS1N,DS3, DS3N, DS3E, DS3NE)
ED-VT1 (DS1)
ENT-CRS-<PATH>
ENT-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT INIT-REG-<MOD2>
INIT-SYS
OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2> RLS-LPBK-<MOD2_IO>
RMV-<MOD2_IO>
|
RST-<MOD2_IO> RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM>
RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-CRS
RTRV-CRS-VT1 (DS1) RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-INV
RTRV-NE-PATH
RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH>
RTRV-PMSCHED-<MOD2> RTRV-PTHTRC-<STS_PATH> RTRV-TACC
RTRV-T1 (DS1)
RTRV-T3
RTRV-TH-<MOD2>
RTRV-TH-ALL (except DS1, DS1N)
RTRV-<PATH>
SCHED-PM
REPT-<MOD2> SET-PMMODE-<STS_PATH> SET-TH-<MOD2> SW-TOPROTN-EQPT SW-TOWKG-EQPT
|
DS3XM
|
ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT CHG-ACCMD-<MOD_TACC> CONN-TACC-<MOD_TACC> DISC-TACC
DLT-CRS-<PATH>
DLT-EQPT
ED-<MOD_PATH>
ED-CRS-<PATH>
ED-DS1
ED-EQPT
ED-NE-PATH
ED-T1
ED-T3
ED-VT1
ENT-CRS-<PATH>
ENT-EQPT
ENT-CRS-VT1 INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT INIT-REG-<MOD2>
INIT-SYS
OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2>
RLS-LPBK-<MOD2_IO>
|
RMV-<MOD2_IO> RST-<MOD2_IO> RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-CRS
RTRV-CRS-<PATH>
RTRV-DS1
RTRV-EQPT
RTRV-INV
RTRV-NE-PATH
RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH> RTRV-PMSCHED-<MOD2> RTRV-PTHTRC-<STS_PATH> RTRV-TACC
RTRV-T1
RTRV-T3
RTRV-TH-<MOD2>
RTRV-TH-ALL
RTRV-VT
RTRV-<PATH> SCHED-PMREPT-<MOD2> SET-PMMODE-<STS_PATH> SET-TH-<MOD2> SW-TOPROTN-EQPT SW-TOWKG-EQPT
|
E100T, E1000T
|
DLT-EQPT
ENT-EQPT
INIT-SYS
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
|
RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-EQPT
RTRV-INV
|
EC1
|
ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC> DISC-TACC
DLT-CRS-<PATH>
DLT-EQPT
ED-<MOD_PATH> ED-CRS-<PATH>
ED-EC1
ED-EQPT
ED-NE-PATH
ED-VT1
ENT-CRS-<PATH>
ENT-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT INIT-REG-<MOD2>
INIT-SYS OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2>
RLS-LPBK-<MOD2_IO>
RMV-<MOD2_IO>
|
RST-<MOD2_IO>
RTRV-<PATH>
RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EC1
RTRV-EQPT
RTRV-INV
RTRV-NE-PATH
RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH> RTRV-PMSCHED-<MOD2> RTRV-PTHTRC-<STS_PATH> RTRV-TACC
RTRV-TH-<MOD2>
RTRV-TH-ALL
RTRV-VT
SCHED-PMREPT-<MOD2> SET-PMMODE-<STS_PATH> SET-TH-<MOD2> SW-TOPROTN-EQPT SW-TOWKG-EQPT
|
FC-MR-4
|
DLT-CRS-<PATH>
DLT-EQPT
DLT-VCG
ED-<MOD_PATH>
ED-CRS-<PATH>
ED-FC
ED-NE-PATH
ENT-CRS-<PATH>
ENT-EQPT
ENT-VCG
INIT-REG-FC
INIT-SYS
REPT ALM <MOD2ALM>
REPT ALM EQPT
REPT DBCHG
REPT EVT <MOD2ALM>
REPT EVT EQPT
RMV-<MOD2_IO>
RST-<MOD2_IO>
RTRV-<PATH>
RTRV-ALM-<MOD2ALM>
|
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-FC
RTRV-COND-<MOD2ALM>
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-FC
RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-FC
RTRV-INV
RTRV-NE-PATH
RTRV-POS
RTRV-PROTNSW-<PATH>
RTRV-PTHTRC-<STS_PATH>
RTRV-STS
RTRV-TH-ALL
RTRV-VCG
SET-TH-<MOD2>
|
G1000-4
|
DLT-CRS-<PATH>
DLT-EQPT
ED-<MOD_PATH> ED-CRS-<PATH>
ED-G1000
ED-NE-PATH
ENT-CRS-<PATH>
ENT-EQPT
INIT-REG-G1000
INIT-SYS
OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM> RLS-LPBK-<MOD2_IO>
RLS-PROTNSW-<PATH>
RMV-<MOD2_IO>
|
RST-<MOD2_IO>
RTRV-<PATH>
RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-G1000
RTRV-INV
RTRV-NE-PATH RTRV-PROTNSW-<PATH>
RTRV-PTHTRC-<STS_PATH>
RTRV-STS
RTRV-TH-ALL
|
ML1000-2, ML100T-12
|
COPY-IOSCFG
DLT-CRS-<PATH>
DLT-EQPT
ED-<MOD_PATH> ED-CRS-<PATH>
ED-NE-PATH
ENT-CRS-<PATH>
ENT-EQPT
INIT-SYS
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT IOSCFG
REPT EVT <MOD2ALM>
RMV-<MOD2_IO> RST-<MOD2_IO>
RTRV-<PATH>
|
RTRV-ALM-ALL RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-FSTE
RTRV-GIGE
RTRV-INV
RTRV-NE-PATH
RTRV-POS RTRV-PROTNSW-<PATH>
RTRV-PTHTRC-<STS_PATH>
RTRV-STS
RTRV-TH-ALL
|
MXP_2.5G_10G, TXP_MR_10G
|
DLT-EQPT
DLT-FFP-CLNT
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-OCH
ED-SYNCN (MXP) ED-TRC-CLNT
ENT-EQPT
ENT-FFP-CLNT INIT-REG-CLNT
INIT-SYS OPR-LPBK-<MOD2_IO> OPR-PROTNSW-CLNT
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2> RLS-PROTNSW-CLNT RMV-<MOD2_IO> RST-<MOD2_IO> RTRV-ALM-ALL,
|
RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-ALMTH-<MOD2ALM> RTRV-CLNT
RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-DWDM
RTRV-EQPT
RTRV-FFP-CLNT
RTRV-INV
RTRV-OCH
RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-PROTNSW-CLNT RTRV-SYNCN (MXP) RTRV-TH-<MOD2> RTRV-TRC-CLNT RTRV-TRC-OCH SCHED-PMREPT-<MOD2>
SET-ALMTH-<MOD2>
SET-ALMTH-EQPT
SET-TH-<MOD2>
|
OC12, OC12-4, OC48, OC48AS, OC192
|
CHG-ACCMD-<MOD_TACC> CONN-TACC-<MOD_TACC> DISC-TACC
DLT-<MOD_RING>
DLT-CRS-<PATH>
DLT-EQPT DLT-FFP-<OCN_TYPE> DLT-UCP-CC
DLT-UCP-IF
ED-<MOD_PATH>
ED-<MOD_RING>
ED-CRS-<PATH> ED-FFP-<OCN_TYPE>
ED-NE-PATH
ED-UCP-CC
ED-UCP-IF
ED-VT1
ED-<OCN_TYPE>
ENT-CRS-VT1 ENT-CRS-<PATH>
ENT-EQPT ENT-FFP-<OCN_TYPE> ENT-UCP-CC
ENT-UCP-IF EX-SW-<OCN_BLSR> INIT-REG-<MOD2>
INIT-SYS OPR-LPBK-<MOD2_IO> OPR-PROTNSW-VT1 OPR-PROTNSW-<OCN_TYPE> OPR-PROTNSW-<PATH> OPR-SYNCNSW
REPT ALM EQPT
REPT ALM RING
REPT ALM SYNCN
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT RING
REPT EVT SYNCN
REPT EVT <MOD2ALM>
REPT PM <MOD2>
RLS-LPBK-<MOD2_IO>
|
RLS-PROTNSW-<OCN_TYPE> RLS-PROTNSW-<PATH> RLS-SYNCNSW RMV-<MOD2_IO> RST-<MOD2_IO> RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-RING RTRV-ALM-SYNCN RTRV-ALM-<MOD2ALM> RTRV-<MOD_RING>
RTRV-COND-ALL
RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-COND-RING
RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT RTRV-FFP-<OCN_TYPE> RTRV-INV
RTRV-NE-IPMAP
RTRV-NE-PATH RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH> RTRV-PMSCHED-<MOD2>
RTRV-PROTNSW-<OCN_TYPE>RTRV-PROTNSW-<PATH> RTRV-PROTNSW-VT1 RTRV-PTHTRC-<STS_PATH> (OC48 AS, OC192)
RTRV-TACC
RTRV-TH-<MOD2>
RTRV-TH-ALL
RTRV-VT1 (OC48, OC48AS, OC192)
RTRV-<OCN_TYPE> RTRV-<PATH> RTRV-TRC-<OCN_BLSR> RTRV-UCP-CC
RTRV-UCP-IF SCHED-PMREPT-<MOD2>
SET-PMMODE-<STS_PATH> SET-TH-<MOD2>
|
OC3, OC3-8
|
CHG-ACCMD-<MOD_TACC> CONN-TACC-<MOD_TACC> DISC-TACC
DLT-CRS-VT1 DLT-CRS-<PATH>
DLT-EQPT DLT-FFP-<OCN_TYPE> DLT-UCP-CC
DLT-UCP-IF
ED-<MOD_PATH> ED-<MOD_RING>
ED-<OCN_TYPE>
ED-CRS-<PATH> ED-FFP-<OCN_TYPE>
ED-NE-PATH
ED-UCP-CC
ED-UCP-IF
ENT-CRS-<PATH>
ENT-EQPT ENT-FFP-<OCN_TYPE> ENT-UCP-CC
ENT-UCP-IF EX-SW-<OCN_BLSR> (OC3-8) INIT-REG-<MOD2>
INIT-SYS
OPR-LPBK-<MOD2_IO> OPR-PROTNSW-<OCN_TYPE> OPR-PROTNSW-<PATH> OPR-SYNCNSW
REPT ALM EQPT
REPT ALM SYNCN
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT SYNCN
REPT EVT <MOD2ALM>
REPT PM <MOD2>
RLS-LPBK-<MOD2_IO>
|
RLS-PROTNSW-<OCN_TYPE> RLS-PROTNSW-<PATH> RLS-SYNCNSW RMV-<MOD2_IO> RST-<MOD2_IO> (OC3, OC3-8) RTRV-TACCRTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-SYNCN
RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-CRS
RTRV-CRS-VT1 RTRV-CRS-<PATH>
RTRV-EQPT RTRV-FFP-<OCN_TYPE> RTRV-INV
RTRV-NE-IPMAP
RTRV-NE-PATH RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH>
RTRV-PMSCHED-<MOD2> RTRV-PROTNSW-<OCN_TYPE> RTRV-PROTNSW-<PATH> RTRV-PTHTRC-<STS_PATH>
RTRV-TH-<MOD2>
RTRV-TH-ALL
RTRV-VT
RTRV-<OCN_TYPE> RTRV-<PATH>
RTRV-UCP-CC
RTRV-UCP-IF SCHED-PMREPT-<MOD2> SET-PMMODE-<STS_PATH> SET-TH-<MOD2>
|
OPT-BST, OPT-PRE
|
DLT-EQPT
DLT-LNK-<MOD20>
DLT-OSC (OPT-BST)
DLT-WLEN
ED-EQPT
ED-LNK-<MOD20>
ED-OSC (OPT-BST)
ED-OTS
ED-WDMANS ED-WLEN
ENT-EQPT
ENT-LNK-<MOD20> ENT-WLEN
INIT-REG-<MOD2> OPR-LASER-OTS
OPR-LNK
OPR-WDMANS
REPT ALM RING (OPT-PRE) REPT ALM WLEN
REPT ALM <MOD2ALM>
REPT EVT OSC (OPT-PRE) REPT EVT WLEN
REPT EVT <MOD2ALM>
REPT PM <MOD2> RLS-LASER-OTS
RMV-<MOD2_IO>
RST-<MOD2_IO>
|
RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-OSC (OPT-PRE) RTRV-ALM-WLEN RTRV-ALMTH-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT
RTRV-COND-OSC (OPT-PRE) RTRV-COND-WLEN RTRV-EQPT
RTRV-INV RTRV-LNK-<MOD20> RTRV-OSC (OPT-PRE) RTRV-OTS
RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-TH-<MOD2> RTRV-WDMANS
RTRV-WLEN SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2>
SET-ALMTH-EQPT SET-TH-<MOD2>
|
OSCM, OSCMS
|
DLT-EQPT
DLT-LNK-<MOD20>
DLT-OSC
DLT-WLEN
ED-EQPT
ED-LNK-<MOD20>
ED-OSC
ED-OTS
ED-SYNCN
ED-WDMANS
ED-WLEN
ED-<OCN_TYPE>
ENT-EQPT
ENT-LNK-<MOD20> ENT-WLEN
INIT-REG-<MOD2>
OPR-LNK
OPR-WDMANS
REPT ALM RING
REPT ALM WLEN
REPT ALM <MOD2ALM>
REPT EVT OSC
REPT EVT WLEN
REPT EVT <MOD2ALM>
REPT PM <MOD2> RMV-<MOD2_IO>
RST-<MOD2_IO>
|
RTRV-ALM-ALL RTRV-ALM-EQPT RTRV-ALM-OSC
RTRV-ALM-WLEN RTRV-ALMTH-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-OSC RTRV-COND-WLEN RTRV-EQPT
RTRV-INV RTRV-LNK-<MOD20> RTRV-OSC
RTRV-OTS
RTRV-PM-<MOD2> RTRV-PMMODE-<STS_PATH> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-SYNCN RTRV-TH-<MOD2> RTRV-<OCN_TYPE> RTRV-WDMANS
RTRV-WLEN SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2>
SET-ALMTH-EQPT SET-TH-<MOD2>
|
TCC2
|
APPLY
COPY-RFILE
|
REPT DBCHG
REPT EVT FXFR
|
TXP_MR_2.5G, TXPP_MR_2.5G
|
DLT-EQPT
DLT-FFP-CLNT (TXP)
ED-CLNT
ED-DWDM
ED-FFP-CLNT (TXP) ED-FFP-OCH (TXP-P)
ED-OCH
ED-TRC-OCH
ENT-EQPT
ENT-FFP-CLNT (TXP) INIT-REG-CLNT
INIT-SYS OPR-LPBK-<MOD2_IO> OPR-PROTNSW-CLNT (TXP) OPR-PROTNSW-OCH (TXP-P) REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2> RLS-PROTNSW-CLNT (TXP) RLS-PROTNSW-OCH (TXP-P) RMV-<MOD2_IO> RST-<MOD2_IO> RTRV-ALM-ALL
|
RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-ALMTH-<MOD2ALM> RTRV-CLNT
RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-DWDM
RTRV-EQPT
RTRV-FFP-CLNT (TXP) RTRV-FFP-OCH (TXP-P) RTRV-INV
RTRV-OCH
RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-PROTNSW-CLNT (TXP) RTRV-PROTNSW-OCH (TXP-P) RTRV-TH-<MOD2> RTRV-TRC-CLNT RTRV-TRC-OCH SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2>
SET-ALMTH-EQPT SET-TH-<MOD2>
|
XC, XCVT, XC192
|
ALW-SWDX-EQPT
DLT-EQPT
ENT-EQPT
INH-SWDX-EQPT
INIT-SYS
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
|
REPT SW
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM> RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-EQPT
RTRV-INV
SW-DX-EQPT
|
XCVXL
|
REPT DBCHG
|
|
3.3 TL1 Commands by Card (ONS 15327)
Table 3-3 TL1 Commands by Card (Cisco ONS 15327)
Card
|
Applicable Commands
|
XTC/DS1
|
CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC>
DISC-TACC
DLT-CRS-<PATH>
ED-<MOD_PATH>
ED-CRS-<PATH>
ED-EQPT
ED-T1
ENT-CRS-<PATH>
ENT-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
INIT-REG-<MOD2>
INIT-SYS
OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM
RLS-LPBK-<MOD2_IO>
RMV-<MOD2_IO>
RST-<MOD2_IO>
|
RTRV-<PATH>
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM>
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-INV
RTRV-PM-<MOD2>
RTRV-PMSCHED-ALL
RTRV-PMSCHED-<MOD2>
RTRV-PTHTRC-<STS_PATH>
RTRV-T1
RTRV-TACC
RTRV-TH-<MOD2>
RTRV-VT
SET-PMMODE-<STS_PATH>
SET-TH-<MOD2>
SW-TOPROTN-EQPT
SW-TOWKG-EQPT
|
XTC/DS3
|
CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC>
DISC-TACC
DLT-CRS-<PATH>
ED-<MOD_PATH>
ED-CRS-<PATH>
ED-EQPT
ED-T3
ENT-CRS-<PATH>
ENT-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
INIT-REG-<MOD2>
INIT-SYS
OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM
RLS-LPBK-<MOD2_IO>
RMV-<MOD2_IO>
|
RST-<MOD2_IO>
RTRV-<PATH>
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM>
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-INV
RTRV-PM-<MOD2>
RTRV-PMMODE-<STS_PATH>
RTRV-PMSCHED-ALL
RTRV-PMSCHED-<MOD2>
RTRV-PTHTRC-<STS_PATH>
RTRV-T3
RTRV-TACC
RTRV-TH-<MOD2>
SET-PMMODE-<STS_PATH>
SET-TH-<MOD2>
|
OC3, OC12, OC48
|
CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC>
DISC-TACC
DLT-<MOD_RING> (OC12, OC48)
DLT-CRS-<PATH>
DLT-EQPT
DLT-FFP-<OCN_TYPE>
ED-<MOD_PATH>
ED-<MOD_RING> (OC12, OC48)
ED-<OCN_TYPE>
ED-CRS-<PATH>
ED-FFP-<OCN_TYPE>
ENT-<MOD_RING> (OC12, OC48)
ENT-CRS-<PATH>
ENT-EQPT
ENT-FFP-<OCN_TYPE>
EX-SW-<OCN_BLSR> (OC12, OC48)
INIT-REG-<MOD2>
INIT-SYS
OPR-LPBK-<MOD2_IO>
OPR-PROTNSW-<OCN_TYPE>
OPR-PROTNSW-<PATH>
OPR-SYNCNSW
REPT ALM EQPT
REPT ALM RING (OC12, OC48)
REPT ALM SYNCN
REPT ALM <MOD2ALM>
REPT EVT EQPT
REPT EVT RING (OC12, OC48)
REPT EVT SYNCN
REPT EVT <MOD2ALM>
REPT PM
RLS-LPBK-<MOD2_IO>
RLS-PROTNSW-<OCN_TYPE>
|
RLS-PROTNSW-<PATH>
RLS-SYNCNSW
RMV-<MOD2_IO>
RST-<MOD2_IO>
RTRV-<PATH>
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-SYNCN
RTRV-ALM-<MOD2ALM>
RTRV-<MOD_RING> (OC12, OC48)
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-FFP-<OCN_TYPE>
RTRV-INV
RTRV-NE-IPMAP
RTRV-PM-<MOD2>
RTRV-PMMODE-<STS_PATH>
RTRV-PMSCHED-ALL
RTRV-PMSCHED-<MOD2>
RTRV-PROTNSW-VT1
RTRV-PROTNSW-<OCN_TYPE>
RTRV-PROTNSW-<PATH>
RTRV-PTHTRC-<STS_PATH> (OC3)
RTRV-TACC
RTRV-TH-<MOD2>
RTRV-TRC-<OCN_BLSR> (OC12, OC48)
RTRV-VT
RTRV-<OCN_TYPE>
SET-PMMODE-<STS_PATH>
SET-TH-<MOD2>
|
E100T, E1000T
|
DLT-EQPT
ENT-EQPT
INIT-SYS
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM (E100T)
|
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM>
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-EQPT
RTRV-INV
|
XTC
|
APPLY
COPY-RFILE
DLT-EQPT
ED-BITS
ED-NE-GEN
ED-NE-SYNCN
ED-SYNCN
ENT-EQPT
INIT-SYS
OPR-ACO-ALL
OPR-SYNCNSW
REPT ALM BITS
REPT ALM EQPT
REPT ALM SYNCN
REPT ALM <MOD2ALM>
REPT EVT BITS
REPT EVT EQPT
REPT EVT FXFR
REPT EVT SYNCN
|
REPT EVT <MOD2ALM>
RLS-SYNCNSW
RTRV-ALM-ALL
RTRV-ALM-BITS
RTRV-ALM-EQPT
RTRV-ALM-SYNCN
RTRV-ALM-<MOD2ALM>
RTRV-BITS
RTRV-COND-ALL
RTRV-COND-BITS
RTRV-COND-EQPT
RTRV-COND-SYNCN
RTRV-COND-<MOD2ALM>
RTRV-EQPT
RTRV-INV
RTRV-NE-GEN
RTRV-NE-SYNCN
RTRV-SYNCN
|
G1000-2
|
DLT-CRS-<PATH>
DLT-EQPT
ED-<MOD_PATH>
ED-CRS-<PATH>
ED-G1000
ENT-CRS-<PATH>
ENT-EQPT
INIT-REG-G1000
INIT-SYS
OPR-LPBK-<MOD2_IO>
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
RLS-LPBK-<MOD2_IO>
|
RMV-<MOD2_IO>
RST-<MOD2_IO>
RTRV-<PATH>
RTRV-ALM-ALL
RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM>
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-CRS
RTRV-CRS-<PATH>
RTRV-EQPT
RTRV-G1000
RTRV-INV
RTRV-PTHTRC-<STS_PATH>
|
XTC/XCVT
|
ENT-EQPT
INH-SWDX-EQPT
INIT-SYS
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT SW
RTRV-ALM-ALL
|
RTRV-ALM-EQPT
RTRV-ALM-<MOD2ALM>
RTRV-COND-ALL
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-EQPT
RTRV-INV
SW-DX-EQPT
|
XTC/AIC
|
ENT-EQPT
INIT-SYS
OPR-EXT-CONT
REPT ALM ENV
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT EVT ENV
REPT EVT EQPT
REPT EVT <MOD2ALM>
RLS-EXT-CONT
RTRV-ALM-ALL
RTRV-ALM-ENV
RTRV-ALM-EQPT
|
RTRV-ALM-<MOD2ALM>
RTRV-ATTR-CONT
RTRV-ATTR-ENV
RTRV-COND-ALL
RTRV-COND-ENV
RTRV-COND-EQPT
RTRV-COND-<MOD2ALM>
RTRV-EQPT
RTRV-EXT-CONT
RTRV-INV
SET-ATTR-CONT
SET-ATTR-ENV
|
MXP_2.5G_10G, TXP_MR_10G
|
DLT-EQPT
DLT-FFP-CLNT
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-OCH
ED-SYNCN (MXP) ED-TRC-CLNT
ENT-EQPT
ENT-FFP-CLNT INIT-REG-CLNT
INIT-SYS OPR-LPBK-<MOD2_IO> OPR-PROTNSW-CLNT
REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2> RLS-PROTNSW-CLNT RMV-<MOD2_IO> RST-<MOD2_IO> RTRV-ALM-ALL,
|
RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-ALMTH-<MOD2ALM> RTRV-CLNT
RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-DWDM
RTRV-EQPT
RTRV-FFP-CLNT
RTRV-INV
RTRV-OCH
RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-PROTNSW-CLNT RTRV-SYNCN (MXP) RTRV-TH-<MOD2> RTRV-TRC-CLNT RTRV-TRC-OCH SCHED-PMREPT-<MOD2>
SET-ALMTH-<MOD2>
SET-ALMTH-EQPT
SET-TH-<MOD2>
|
TXP_MR_2.5G, TXPP_MR_2.5G
|
DLT-EQPT
DLT-FFP-CLNT (TXP)
ED-CLNT
ED-DWDM
ED-FFP-CLNT (TXP) ED-FFP-OCH (TXP-P)
ED-OCH
ED-TRC-OCH
ENT-EQPT
ENT-FFP-CLNT (TXP) INIT-REG-CLNT
INIT-SYS OPR-LPBK-<MOD2_IO> OPR-PROTNSW-CLNT (TXP) OPR-PROTNSW-OCH (TXP-P) REPT ALM EQPT
REPT ALM <MOD2ALM>
REPT DBCHG
REPT EVT EQPT
REPT EVT <MOD2ALM>
REPT PM <MOD2> RLS-PROTNSW-CLNT (TXP) RLS-PROTNSW-OCH (TXP-P) RMV-<MOD2_IO> RST-<MOD2_IO>
RTRV-ALM-ALL
|
RTRV-ALM-EQPT RTRV-ALM-<MOD2ALM> RTRV-ALMTH-<MOD2ALM> RTRV-CLNT
RTRV-COND-ALL RTRV-COND-EQPT RTRV-COND-<MOD2ALM> RTRV-DWDM
RTRV-EQPT
RTRV-FFP-CLNT (TXP) RTRV-FFP-OCH (TXP-P) RTRV-INV
RTRV-OCH
RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-PROTNSW-CLNT (TXP) RTRV-PROTNSW-OCH (TXP-P) RTRV-TH-<MOD2> RTRV-TRC-CLNT RTRV-TRC-OCH SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2>
SET-ALMTH-EQPT SET-TH-<MOD2>
|
3.4 TL1 Commands
The commands and autonomous messages used for ONS 15454 and ONS 15327 are described in detail in this section and are listed alphabetically according to the first alpha character of the command string.
Each TL1 command must be less than or equal to 255 characters. Any command larger than 255 characters must be split into multiple commands. For example, if you use the ED-<MOD_PATH> command to edit the J1 EXPTRC/TRC message, path protection attributes, and TACC attributes and the command exceeds 255 characters the command will not be processed. You must use multiple ED-<MOD_PATH> commands instead.
Note The CTAG of any TL1 line mode command is a mandatory field in this TL1 release.
Note The AID definitions provided are supersets of the actual AID definitions.
Note TL1 commands that are entered incorrectly are not completed.
Note In release 3.3 and later, the ACT-USER command will return a DENY without any error message. Any other command will return DENY with the PLNA (Login Not Active) error message.
3.4.1 ACT-USER: Activate User
This command set-ups a session with the Network Element (NE).
Notes:
1. Passwords are masked for the following security commands: ACT-USER, COPY-RFILE, COPY-IOSCFG, ED-PID, ENT-USER-SECU and ED-USER-SECU. Access to a TL1 session via any means will have the password masked. The CTC Request History and Message Log will also show the masked commands. When a password-masked command is re-issued by double-clicking the command from CTC Request History, the password will still be masked in the CTC Request History and Message Log. The actual password that was previously issued will be sent to the NE. To use a former command as a template only, single-click the command in CTC Request History. The command will be placed in the Command Request text box, where you can edit the appropriate fields prior to re-issuing it.
2. This command is backwards compatible with userids and passwords from ONS 15454 2.X software versions according to the following rules:
ACT-USER:[TID]:[STRING]:CTAG::[STRING]
a. The syntax of the userid (first [STRING]) and the password (second [STRING]) are not checked.
b. Invalid syntax for both the userid and password is permitted, but the user can only log in if the userid/password match what is in the database.
c. The userid and password cannot exceed 10 characters.
3. For the ACT-USER command, it is required that no error code be transmitted except to convey that the login is granted or denied. Per TR-835, Appendix A, Section A.2:
"... the error codes corresponding to ACT ... do not apply to the ACT-USER command because this command requires that no error code be provided to the session request except to indicate that it has been denied. Before a session is established, a specific error code may reveal clues to an intruder attempting unauthorized entry."
Note Starting with this release (R4.6) the following feature can be turned on or off and the default is off: A new user must change his or her password after establishing a session for the first time before continuing. All TL1 commands except for ED-PID and CANC-USER will be denied until the password is changed. Once the password has been changed, a user can execute any command that his security level allows. If the user logs out without changing his password each following session will DENY all commands, except ED-PID and CANC-USER, until the password is changed.
Section
|
ACT-USER Description
|
Category
|
System
|
Security
|
N/A
|
Related Messages
|
ALW-MSG-SECU ALW-USER-SECU
CANC
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
ACT-USER:[<TID>]:<UID>:<CTAG>::<PID>;
where:
•<UID> is the user identifier; <UID> is any combination of up to 10 alphanumeric characters. <UID> is a string and must not be null
•<PID> is the user password; <PID> is any combination of up to 10 alphanumeric characters. <PID> is a string and must not be null
Note CTC allows <UID> and <PID> of up to 20 characters. The 20 character CTC-entered <UID> and <PID> are not valid TL1 <UID> and <PID>
|
Input Example
|
ACT-USER:PETALUMA:TERRI:100::MYPASSWD;
|
Output Format
|
SID DATE TIME
A CTAG COMPLD
"<UID>:<LASTLOGINTIME>,<UNSUCCESSFULLOGINS>"
;
where:
•<UID> userid of the person logging in; <UID> is a string
•<LASTLOGINTIME> date and time of the last successful connection to the NE (not including current login); <LASTLOGINTIME> is a string
•<UNSUCCESSFULLOGINS> number of unsuccessful login attempts since the last successful login; <UNSUCCESSFULLOGINS> is an integer
|
Output Example
|
TID-000 1998-06-20 14:30:00
A 001 COMPLD
"TERRI:2003-01-02 14-04-49,0"
;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.2 ALW-MSG-ALL: Allow Message All
This command instructs the NE to enter a mode in which all the REPT ALM and REPT EVT autonomous messages are transmitted. See the INH-MSG-ALL command to inhibit these autonomous messages. When a TL1 session starts, the REPT ALM and REPT EVT messages are allowed by default.
Note If this command is issued twice in the same session, the SAAL (Status, Already Allowed) error message will be returned. The optional fields in the e block are not supported.
Section
|
ALW-MSG-ALL Description
|
Category
|
System
|
Security
|
Retrieve
|
Related Messages
|
INH-MSG-ALL
|
|
Input Format
|
ALW-MSG-ALL:[<TID>]::<CTAG>[::,,];
|
Input Example
|
ALW-MSG-ALL:PETALUMA::549;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.3 ALW-MSG-DBCHG: Allow Database Change Message
This command enables REPT DBCHG. When a TL1 session starts, the REPT DBCHG messages are not allowed by default.
Note This command is not defined in the GR.
Section
|
ALW-MSG-DBCHG Description
|
Category
|
Log
|
Security
|
Retrieve
|
Related Messages
|
INH-MSG-DBCHG
REPT DBCHG
|
|
Input Format
|
ALW-MSG-DBCHG:[<TID>]::<CTAG>[::,,];
|
Input Example
|
ALW-MSG-DBCHG:CISCO::123;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.4 ALW-MSG-SECU: Allow Message Security
This command enables REPT EVT SECU and REPT ALM SECU
Section
|
ALW-MSG-SECU Description
|
Category
|
Security
|
Security
|
Superuser
|
Related Messages
|
ACT-USER
ALW-USER-SECU
CANC
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU SET-ATTR-SECUDFLT
|
Input Format
|
ALW-MSG-SECU:[<TID>]::<CTAG>;
|
Input Example
|
ALW-MSG-SECU:PETALUMA::123;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.5 ALW-PMREPT-ALL: Allow Performance Report All
This command resumes processing all the PM reports that are inhibited. The allowance of the PM reporting is session-based, which means the command is only effective to the TL1 session that issues this command. REPT PM messages are inhibited by default for a session.
Section
|
ALW-PMREPT-ALL Description
|
Category
|
Performance
|
Security
|
Retrieve
|
Related Messages
|
INH-PMREPT-ALL
INIT-REG-<MOD2>
REPT PM <MOD2>
RTRV-PM-<MOD2>
RTRV-PMMODE-<STS_PATH>
RTRV-PMSCHED-<MOD2>
|
RTRV-PMSCHED-ALL
RTRV-TH-<MOD2>
RTRV-TH-ALL
SCHED-PMREPT-<MOD2>
SET-PMMODE-<STS_PATH>
SET-TH-<MOD2>
|
Input Format
|
ALW-PMREPT-ALL:[<TID>]::<CTAG>;
|
Input Example
|
ALW-PMREPT-ALL:CISCONODE::123;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.6 ALW-SWDX-EQPT: Allow Switch Duplex Equipment
(Cisco ONS 15454 only)
This command allows automatic or manual switching on a duplex system containing duplexed or redundant equipment. To inhibit an NE switching to duplex, use the INH-SWDX-EQPT command.
ALW-SWDX-EQPT is not used for SONET line or electrical card protection switching. For SONET line or path protection switching commands, see OPR-PROTNSW and RLS-PROTNSW commands. For the electrical card protection switching, see the SW-TOWKG-EQPT and SW-TOPROTN-EQPT commands.
Note This command applies to the XC, XCVT, or XC10G equipment units only in this release.
Section
|
ALW-SWDX-EQPT Description
|
Category
|
Equipment
|
Security
|
Maintenance
|
Related Messages
|
ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT
DLT-EQPT
ED-EQPT ENT-EQPT EX-SW-<OCN_BLSR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT
REPT ALM EQPT
REPT EVT EQPT
|
REPT SW
RTRV-ALM-EQPT
RTRV-ALMTH-EQPT RTRV-COND-EQPT
RTRV-EQPT
SET-ALMTH-EQPT
SW-DX-EQPT
SW-TOPROTN-EQPT SW-TOWKG-EQPT
|
Input Format
|
ALW-SWDX-EQPT:[<TID>]:<AID>:<CTAG>[::];
where:
•<AID> is the XC/XCVT/XC10G equipment AID from the "EQPT" section on page 4-27
|
Input Example
|
ALW-SWDX-EQPT:CISCO:SLOT-8:1234;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.7 ALW-SWTOPROTN-EQPT: Allow Switch to Protection Equipment
(Cisco ONS 15454 only)
This command allows automatic or manual switching of an equipment unit back to a protection status. Use the INH-SWTOPROTN-EQPT command to inhibit an NE from switching to protection.
ALW-SWTOPROTN-EQPT is used for non-SONET line cards (e.g. DS1, DS3, DS3XM, and EC1). DS1 and DS3 cards have 1:1 and 1:N equipment protection. DS3XM and EC1 cards have only 1:1 equipment protection. When this command is given to a working unit, the working unit will be allowed to switch to the protection unit. When this command is given to a protection unit, any working unit in the protection group is allowed to switch to the protection unit.
The standing condition of INHSWPR on the unit specified by the AID will be cleared.
Notes:
1. This command only supports one value of the <DIRN> parameter - BTH. A command with any other value is considered an incorrect use of the command. An IDNV (Input, Data Not Valid) error message should be responsed.
2. This command is not used for the common control (TCC2 or XC/XCVT/XC10G) cards. A command on a common control card will receive an IIAC (Input, Invalid Access Identifier) error message. To use the common control card switching commands, use the SW-DX-EQPT and ALW-SWDX-EQPT commands.
3. This command is not used for SONET (OCN) cards. A command on a SONET card will receive an IIAC (Input, Invalid Access identifier) error message. To use a SONET card switching command, use OPR-PROTNSW and RLS-PROTNSW commands.
4. If this command is used on a card that is not in a protection group, the SNVS (Status, Not in Valid State) error message should be responsed.
5. If this command is used on a card that is not in the inhibit state, the SAAL (Status, Already Allowed) error message should be responsed.
6. The following situation(s) are allowed and will not generate any error response: Sending this command to missing cards so long as none of the previous error conditions apply.
Section
|
ALW-SWTOPROTN-EQPT Description
|
Category
|
Equipment
|
Security
|
Maintenance
|
Related Messages
|
ALW-SWDX-EQPT ALW-SWTOWKG-EQPT DLT-EQPT
ED-EQPT
ENT-EQPT
EX-SW-<OCN_BLSR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT
REPT ALM EQPT
|
REPT EVT EQPT
REPT SW
RTRV-ALM-EQPT RTRV-ALMTH-EQPT RTRV-COND-EQPT
RTRV-EQPT
SET-ALMTH-EQPT
SW-DX-EQPT SW-TOPROTN-EQPT SW-TOWKG-EQPT
|
Input Format
|
ALW-SWTOPROTN-EQPT:[<TID>]:<AID>:<CTAG>[::<DIRN>];
where:
•<AID> This parameter can either be the protection unit for which carrying traffic is to be allowed (release of lockout) or the working unit for which switching to protect is to be allowed (release of lock on); <AID> is from the "EQPT" section on page 4-27
•<DIRN> is the direction of the switching. The command only supports one value of the <DIRN> parameter - BTH. This parameter defaults to BTH; valid values for <DIRN> are shown in the "DIRECTION" section on page 4-56
|
Input Example
|
ALW-SWTOPROTN-EQPT:CISCO:SLOT-2:123::BTH;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.8 ALW-SWTOWKG-EQPT: Allow Switch to Working Equipment
(Cisco ONS 15454 only)
This command allows automatic or manual switching of an equipment unit back to a working status. Use the INH-SWTOWKG-EQPT command to inhibit an NE from switching to working. ALW-SWTOWKG-EQPT is used for non-SONET line cards (e.g. DS1, DS3, DS3XM, and EC1). DS1 and DS3 cards have 1:1 and 1:N equipment protection. DS3XM and EC1 cards have only 1:1 equipment protection.
When this command is given to a working unit, the working unit will be allowed to carry traffic. In the case of revertive protection, the traffic will switch immediately from the protection unit to the working unit regardless of the reversion time setting.
When this command is given to a protection unit, the protection unit will be allowed to switch back to the working unit currently protected as long as the working unit has not raised INHSWWKG. In the case of revertive protection, the traffic will switch immediately from the protection unit to the working unit regardless of the reversion time setting. In the case of non-revertive protection, the protection unit will continue to carry the traffic.
The standing condition of INHSWWKG on the unit specified by the AID will be cleared.
Notes:
1. This command only supports one value of the <DIRN> parameter - BTH. A command with any other value is considered an incorrect use of the command. An IDNV (Input, Data Not Valid) error message should be responsed.
2. This command is not used for the common control (TCC2 or XC/XCVT/XC10G) cards. A command on a common control card will receive an IIAC (Input, Invalid Access Identifier) error message. To use the common control card switching commands, use the SW-DX-EQPT and ALW-SWDX-EQPT commands.
3. This command is not used for SONET (OCN) cards. A command on a SONET card will receive an IIAC (Input, Invalid Access Identifier) error message. To use a SONET card switching command, use the OPR-PROTNSW and RLS-PROTNSW commands.
4. If this command is used on a card that is not in a protection group, the SNVS (Status, Not in Valid State) error message should be responsed.
5. If this command is used on a card that is not in the inhibit state, the SAAL (Status, Already Allowed) error message should be responsed.
6. The following situation(s) are allowed and will not generate any error response: sending this command to missing cards as long as none of the previous error conditions apply.
Section
|
ALW-SWTOWKG-EQPT Description
|
Category
|
Equipment
|
Security
|
Maintenance
|
Related Messages
|
ALW-SWDX-EQPT
ALW-SWTOPROTN-EQPT
DLT-EQPT
ED-EQPT
ENT-EQPT
EX-SW-<OCN_BLSR>
INH-SWDX-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
REPT ALM EQPT
|
REPT EVT EQPT
REPT SW
RTRV-ALM-EQPT
RTRV-ALMTH-EQPT
RTRV-COND-EQPT
RTRV-EQPT
SET-ALMTH-EQPT
SW-DX-EQPT
SW-TOPROTN-EQPT
SW-TOWKG-EQPT
|
Input Format
|
ALW-SWTOWKG-EQPT:[<TID>]:<AID>:<CTAG>[::<DIRN>];
where:
•<AID> This parameter can either be the protection unit for which switching back to working is to be allowed (release of lock on) or the working unit for which carrying traffic is to be allowed (release of lockout); <AID> is from the "EQPT" section on page 4-27
•<DIRN> is the direction of the switching. The command only supports one value of the <DIRN> parameter - BTH. This parameter defaults to BTH; valid values for <DIRN> are shown in the "DIRECTION" section on page 4-56
|
Input Example
|
ALW-SWTOWKG-EQPT:CISCO:SLOT-2:123::BTH;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.9 ALW-USER-SECU: Allow User Security
This command enables a userid that has been disabled (e.g., via the INH-USER-SECU command) so the user can establish a session with the NE.
Section
|
ALW-USER-SECU Description
|
Category
|
Security
|
Security
|
Superuser
|
Related Messages
|
ACT-USER
ALW-MSG-SECU
CANC
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
ALW-USER-SECU:[<TID>]::<CTAG>::<UID>;
where:
•<UID> is the userid to enable. The userid can be a list of userids separated by `&'. The keyword ALL cannot be used to specify all users on an NE. <UID> is a string
|
Input Example
|
ALW-USER-SECU:PETALUMA::123::UID;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.10 APPLY: Apply
This command activates or reverts a software load during a software upgrade or downgrade process.
Note An error will be generated if you attempt to activate an older software load or attempt to revert to a newer software load.
Section
|
APPLY Description
|
Category
|
File Transfer
|
Security
|
Superuser
|
Related Messages
|
COPY-RFILE
REPT EVT FXFR
|
|
Input Format
|
APPLY:[<TID>]::<CTAG>[::<MEM_SW_TYPE>];
where:
•<MEM_SW_TYPE> indicates memory switch action during the software upgrade; valid values are shown in the "DL_TYPE" section on page 4-57
|
Input Example
|
APPLY:CISCO::123::ACT;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.11 CANC: Cancel
Reports the occurrence of a session timeout event.
CANC is an autonomous message transmitted by the NE to a user when a session established by that user is terminated because no messages were exchanged for a long period of time, a timeout. There is a default timeout period based on the user's privilege/security level, and starting with Release 4.0 timeouts can be provisioned. The default timeouts based on privilege/security level are: superuser [SUPER] has the timeout period of 15 minutes., the Provision user [PROV] has the timeout period of 30 minutes, the Maintenance [MAINT] user has the timeout period of 60 minutes, the Retrieve user [RTRV] has no timeout.
When a timeout occurs, the corresponding port drops and the next session initiation at that port requires the regular login procedure.
The CANC message is only used to indicate that a session has been terminated because of a timeout. If a session is terminated for a different reason (e.g., forced logout, loss of communication), the REPT EVT SESSION message is used.
Section
|
CANC Description
|
Category
|
Security
|
Security
|
Retrieve
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION RTRV-CMD-SECU RTRV-DFLT-SECU RTRV-USER-SECU SET-ATTR-SECUDFLT
|
Output Format
|
SID DATE TIME
A ATAG CANC
"<UID>"
;
where:
•<UID> refers to the user's identification whose session is terminated due to timeout; <UID> is a string
|
Output Example
|
TID-000 1998-06-20 14:30:00
A 100.100 CANC
"CISCO15"
;
|
3.4.12 CANC-USER: Cancel User
This command logs a user out of an active session with the NE.
Note The USERID field of this command is a mandatory field.
For the CANC-USER command: CANC-USER:[TID]:[STRING]:CTAG
the syntax of the userid (first [STRING]) is not checked. Invalid syntax for the userid is permitted and the userid must not exceed 10 characters.
Section
|
CANC-USER Description
|
Category
|
Security
|
Security
|
Retrieve
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
CANC-USER:[<TID>]:<USERID>:<CTAG>;
where:
•<USERID> identifies the user to the system; <USERID> is any combination of up to 10 alphanumeric characters. <USERID> is a string
Note CTC allows <UID> and <PID> of up to 20 characters. The 20 character CTC-entered <UID> and <PID> are not valid TL1 <UID> and <PID>
|
Input Example
|
CANC-USER:PETALUMA:TERRI:101;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.13 CANC-USER-SECU: Cancel User Security
This command forces a user off of the NE.
The UID specified can be a single userid or a list of userids separated by `&'. The keyword ALL is not permitted. The UID specified cannot be the userid of the administrator issuing the command.
Note This command will log out ALL sessions on the NE (TL1 and CTC) of a user whose userid matches the UID specified in the command.
Section
|
CANC-USER-SECU Description
|
Category
|
Security
|
Security
|
Superuser
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC
CANC-USER
DLT-USER-SECU
ED-CMD-SECU
ED-PID
ED-USER-SECU ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
CANC-USER-SECU:[<TID>]:<UID>:<CTAG>;
where:
•<UID> is a user identifier, or list of UIDs separated by `&'. The keyword ALL is not permitted. <UID> is a string
|
Input Example
|
CANC-USER-SECU:PETALUMA:CISCO10:100;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.14 CHG-ACCMD-<MOD_TACC>: Change Test Access Mode (DS1, DS3I, E1, E3, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command changes the test access (TACC) mode for the circuit being tested. For more information on TACC, refer to the "Test Access" section on page 1-21.
This may be a change from monitoring the data to inserting data into the STS. This command can only be applied to an existing TAP connection.
For this command to be applicable, you must first create the TAP using the ED-<MOD_PATH> command. Intrusive test access modes are traffic-affecting. If a facility/path is connected to a TAP in an intrusive test access mode, it is forced to go into the OOS-MT state. The forced transition could be traffic-affecting. The present state of the facility/path is stored by the NE and is restored when the TAP connection is brought down. Test access connections are dropped automatically if the TL1 session is terminated or is timed out.
Notes:
1. If there is no TAP connection, a DENY error message is returned.
2. If a requested condition already exists, a SRCN error message is returned.
3. If a requested access configuration is invalid, a SRAC error message is returned
4. If a requested TAP does not exist, a RTEN error message is returned.
Section
|
CHG-ACCMD-<MOD_TACC> Description
|
Category
|
Test Access
|
Security
|
Maintenance
|
Related Messages
|
CONN-TACC-<MOD_TACC>
DISC-TACC
RTRV-TACC
|
|
Input Format
|
CHG-ACCMD-<MOD_TACC>:[<TID>]:<TAP>:<CTAG>::<MD>;
where:
•<TAP> indicates the test access path number selected by the NE. The <TAP> is used to identify all messages between the TSC and NE until the access point is released. The <TAP> number must be an integer with a range of 1 to 999. <TAP> is a string
Note This command only changes a single TAP at a time.
•<MD> indicates the test access mode (SPLTE, SPLTF, LOOPE, AND LOOPF require an external QRS input signal); valid values for <MD> are shown in the "TACC_MODE" section on page 4-91
|
Input Example
|
CHG-ACCMD-STS1:CISCO:8:123::MONE;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.15 CONN-TACC-<MOD_TACC>: Connect Test Access (DS1, DS3I, E1, E3, STS1, STS12C, STS192C, STS24C, STS3C, STS48C, STS6C, STS9C, T1, T3, VT1, VT2)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command connects the STS or VT defined by AID to the STS specified by the TAP number. For more information on TACC, refer to the "Test Access" section on page 1-21.
For this command to be applicable, you must first create the TAP using the ED-<MOD_PATH> command. Intrusive test access modes are traffic-affecting. If a facility/path is connected to a TAP in an intrusive test access mode, it is forced to go into the OOS-MT state. The forced transition could be traffic-affecting. The present state of the facility/path is stored by the NE and is restored when the TAP connection is brought down. Test access connections are dropped automatically if the TL1 session is terminated or is timed out.
Notes:
1. If all TAPs are busy, a RABY error message is returned.
2. If a requested TAP is busy, a RTBY error message is returned.
3. If a requested TAP does not exist, a RTEN error message is returned.
4. If a circuit is already connected to another TAP, a SCAT error message is returned.
5. If a requested condition already exists, a SRCN error message is returned.
6. If the AID is invalid, an IIAC (Input, Invalid Access Identifier) error message is returned.
7. If an access is not supported, an EANS error message is returned.
8. If a requested access configuration is invalid, a SRAC error message is returned.
9. A connection can be made to a cross-connection in which case all modes of access are supported. A connection to an Unmapped AID (AID without a cross-connect on it) will allow only MONE, SPLTE, and LOOPE modes.
10. A connection to the protect path of a 1+1, 1:1, or 1:N is not allowed; however, connecting to the PCA path of a two-fiber or four-fiber is supported. This will be preempted when a BLSR switch occurs.
Section
|
CONN-TACC-<MOD_TACC> Description
|
Category
|
Test Access
|
Security
|
Provisioning
|
Related Messages
|
CHG-ACCMD-<MOD_TACC>
DISC-TACC
RTRV-TACC
|
|
Input Format
|
CONN-TACC-<MOD_TACC>:[<TID>]:<SRC>:<CTAG>::<TAP>:MD=<MD>;
where:
•<SRC> is the AID from the "ALL" section on page 4-9 and must not be null
•<TAP> indicates the test access path number selected by the NE. The <TAP> is used to identify all messages between the TSC and the NE until the access point is released. The <TAP> number must be an integer with a range of 1 to 999. A null <TAP> defaults to an appropriate <TAP> number selected by the NE. <TAP> is an integer and a null value is equivalent to ALL
•<MD> indicates the test access mode (SPLTE, SPLTF, LOOPE and LOOPF require an external QRS input signal); valid values for <MD> are shown in the "TACC_MODE" section on page 4-91. <MD> must not be null
|
Input Example
|
CONN-TACC-STS1:CISCO:STS-2-1-4:123::8:MD=MONE;
|
Output Format
|
SID DATE TIME
M CTAG COMPLD
"<TAP>"
;
where:
•<TAP> indicates the test access path number selected by the NE. The <TAP> is used to identify all messages between the TSC and NE until the access point is released. The <TAP> number must be an integer with a range of 1 - 999. A null <TAP> defaults to an appropriate <TAP> number selected by the NE. <TAP> is an integer
|
Output Example
|
TID-000 1998-06-20 14:30:00
M 001 COMPLD
"8"
;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.16 COPY-IOSCFG: Copy IOS Config File
(Cisco ONS 15454 only)
This command supports the following types of operations on the IOS configuration file of ML-series Ethernet cards:
1. Uploading of startup IOS configuration file from the network to the node.
FTP is the only protocol allowed for uploading. When doing this operation, the SRC field must be a FTP URL string specifying the user name and password for FTP authentication, and specifying the host and the directory to locate the startup config file from the network. The DEST field must be a string of "STARTUP".
2. Downloading of startup IOS configuration file from the node to the network.
FTP is the only protocol allowed for downloading. When doing this operation, the SRC field must be a string of "STARTUP". The DEST field must be a FTP URL string specifying the user name and password for FTP authentication, and specifying the host and the directory to store the startup config file.
Notes:
1. The IOS configuration file is unique for each ML-series card, and is specified by the SLOT number in the AID field of the command.
2. In the GNE/ENE environment, if the GNE firewall exists, the download (backup) of IOS configuration file via TL1 is not allowed. Any such attempt will receive a "Data Connection Error" from the GNE. For the upload of IOS configuration file via TL1, GNE will allow it to go through the firewall only if the file contains the header "! Cisco IOS config <text>". If the configuration file does not contain this header, GNE will block the uploading with "Data Connection Error".
3. The format of the FTP URL string used in the SRC or DEST field of the command is as follows:
In a non-firewall environment, the format of the URL should be
"FTP://[FTPUSER[:FTPPASSWORD]]@FTPHOST/PACKAGE_PATH" where:
<FTPUSER> is the userid to connect to the computer with the package file
<FTPPASSWORD> is the password used to connect to the computer with the package file
<FTPHOST> is the IP address of the computer with the package file, DNS lookup of hostnames is not supported
<PACKAGE_PATH> is the long path name to the package file
Note Note that USERID and PASSWORD are optional if the user does not need to log into the host computer. Also note that the password may be optional if the user does not need to log in. All the other portions of the URL are required, including the initial "FTP:\\" string.
In a firewall environment, the hostname should be replaced with a list of IP addresses each separated by a @ character. The first IP address should be for the machine where the package file is stored. Subsequent IP addresses should then be for firewall machines moving outwards towards the edge of the network, until the final IP address listed was the machine that outside users first access the network.
For example: if your topology is "FTPHOST <-> GNE3 <->GNE2 <-> GNE1 <-> ENE", your FTP URL will be: FTP://FTPUSER:FTPPASSWORD@FTPHOST@GNE3@GNE2@GNE1/PACKAGE_PATH
Section
|
COPY-IOSCFG Description
|
Category
|
IOS
|
Security
|
Provisioning
|
Related Messages
|
REPT EVT IOSCFG
|
|
Input Format
|
COPY-IOSCFG:[<TID>]:<AID>:<CTAG>::SRC=<SRC>,DEST=<DEST>;
where:
•<AID> specifies the slot number of the card where the IOS configuration file belongs and is from the AID "EQPT" section on page 4-27
•<SRC> specifies where the IOS config file is copied from and is a string
•<DEST> specifies where the IOS config file is copied to and is a string
|
Input Example
|
COPY-IOSCFG::SLOT-1:CTAG::SRC="LONG_FTP_PATH",DEST="STARTUP";
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.17 COPY-RFILE: Copy RFILE
This command downloads a new software package from the location specified by the FTP URL. It is also used to backup and restore the system database.
In order to upload package files or restore databases from a host, the host must be running an FTP server application. If the host is not running an FTP server application, the command fails indicating that the NE was unable to connect to the remote IP address (host). A host can either be a PC or a workstation running an FTP Server Application.
•Userid is the userid to connect to the computer with the package file or system database.
•Password is the password used to connect to the computer with the package file or system database.
Note Both the userid and password are optional if the user does not need to log into the host computer. The password may be optional if the user does not need to log in.
•Hostname is the hostname or IP address of the computer with the package file or system database.
•Package_path is the long path name to the package file or system database.
All the other portions of the URL are required, including the initial "FTP://" string.
Example:
COPY-RFILE:TID:RFILE-PKG:703::TYPE=SWDL,SRC="FTP://USERID:
PASSWORD@HOSTIP:21/DIR1/DIR2/DIR3/PACKAGE.PKG";
Notes:
1. The SWDL type is used for software package uploads. The RFBU type is used for system database backups, and the RFR type is used for system database restores. The SRC input is required when the type is SWDL or RFR. The DEST input is needed when the type is RFBU. The SRC and DEST inputs cannot both be used in the same command.
2. FTP is the only allowed file transfer method.
3. The extended FTP URL syntax is required by the COPY-RFILE syntax.
4. Port number (21) is optional. 21 is the only supported Port Number. Leaving this field blank defaults to 21.
Section
|
COPY-RFILE Description
|
Category
|
File Transfer
|
Security
|
Superuser
|
Related Messages
|
APPLY
REPT EVT FXFR
|
|
Input Format
|
COPY-RFILE:[<TID>]:[<SRC>]:<CTAG>::TYPE=<XFERTYPE>,
[SRC=<SRC1>,][DEST=<DEST>,][OVWRT=<OVWRT>,][FTTD=<FTTD>];
where:
•<SRC> is the type of file being transferred; <SRC> is the AID from the "RFILE" section on page 4-31
•<XFERTYPE> is the file transfer protocol; valid values for <XFERTYPE> are shown in the "TX_TYPE" section on page 4-95
•<SRC1> specifies the source of the file to be transferred. Only the FTP URL is supported. In a non-firewall environment the format of the URL should be: "FTP://FTP_USER[:FTP_PASSWORD]]@FTP_HOST_IP[:21]/PACKAGE_PATH[;TYPE=I]"
where:
–<FTP_USER> is the userid to connect to the computer with the package file
–<FTP_PASSWORD> is the password used to connect to the computer with the package file
–<FTP_HOST_IP> is the IP address of the computer with the package file, DNS lookup of hostnames is not supported
–<PACKAGE_PATH> is the long path name to the package file
Note Userid and password are optional if the user does not need to log into the host computer. The password may be optional if the user does not need to log in. All the other portions of the URL are required, including the initial "FTP://" string.
In a firewall environment, the hostname should be replaced with a list of IP addresses each separated by a @ character. The first IP address should be for the machine where the package file is stored. Subsequent IP addresses should then be for firewall machines moving outwards towards the edge of the network, until the final IP address listed is the machine that outside users first access the network.
|
Input Format (continued)
|
For example, if the topology is "FTP_HOST_IP <-> GNE3 <->GNE2 <-> GNE1 <-> ENE", the FTP URL is:
FTP://FTP_USER:FTP_PASSWORD@FTP_HOST_IP@GNE3@GNE2@
GNE1/PACKAGE_PATH
<SRC1> is a string.
•<DEST> specifies the destinations of the file to be transferred. Same values as <SRC1> above.
•<FTTD> the node does not support FTTD. If <FTTD> is used, the COPY-RFILE command will fail with and "FTTD Unsupported" error. <FTTD> is a string
|
Input Example
|
COPY-RFILE:HERNDON:RFILE-PKG:703::TYPE=SWDL,
SRC="LONG_FTP_PATH",DEST="LONG_FTP_PATH",OVWRT=YES,
FTTD="UNUSED";
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.18 DISC-TACC: Disconnect Test Access
This command disconnects the TAP and puts the connection back to its original state (no splits). For more information on TACC, refer to the "Test Access" section on page 1-21.
For this command to be applicable, you must first create the TAP using the ED-<MOD_PATH> command.
Notes:
1. If you send this command to an already disconnected connection, a SADC error message is returned.
2. If the system cannot release TAP, an SRTN error message is returned.
Section
|
DISC-TACC Description
|
Category
|
Test Access
|
Security
|
Provisioning
|
Related Messages
|
CHG-ACCMD-<MOD_TACC>
CONN-TACC-<MOD_TACC>
RTRV-TACC
|
|
Input Format
|
DISC-TACC:[<TID>]:<TAP>:<CTAG>;
where:
•<TAP> indicates the test access path number; <TAP> must be an integer with a range of 1- 999. <TAP> is a string
Note This command only supports disconnecting one <TAP> at a time.
|
Input Example
|
DISC-TACC:CISCO:8:123;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.19 DLT-<MOD_RING>: Delete (BLSR)
This command deletes the BLSR of the NE.
Note ONS 15327 does not support four-fiber BLSR.
Error conditions:
1. If the system fails on getting IOR, a SROG (Status, Get IOR Failed) error message is returned.
2. If the AID is invalid, an IIAC (Invalid AID) error message is returned.
3. If the BLSR does not exist, a SRQN (BLSR Does Not Exist) error message is returned.
4. The ALL AID is invalid for this command.
5. The list AID format is supported in this release (R4.6).
6. The SROF (Facility Not Provisioned) or (Cannot Access BLSR) error message will be returned for the invalid query.
7. If the BLSR is in use, a SROF (BLSR In Use) error message is returned.
8. The SRQN (BLSR Deletion Failed) error message is returned for the invalid deletion query.
Section
|
DLT-<MOD_RING> Description
|
Category
|
BLSR
|
Security
|
Provisioning
|
Related Messages
|
ED-<MOD_RING>
ENT-<MOD_RING>
|
RTRV-<MOD_RING>
|
Input Format
|
DLT-<MOD_RING>:[<TID>]:<AID>:<CTAG>[:::];
where:
•<AID> identifies the BLSR of the NE. "ALL" or "BLSR-ALL" AID is not allowed for editing BLSR. <AID> is the AID from the "AidUnionId" section on page 4-15
|
Input Example
|
DLT-BLSR:PETALUMA:BLSR-2:123;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.20 DLT-CRS-<PATH>: Delete Cross Connection (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command deletes a cross-connection between STS and VT paths. STS paths are specified using their STS AID.
Notes:
1. The fields after CTAG (trailing colons) are optional.
2. For the 1-way cross-connections the AIDs must be in the same order as originally entered; for the 2-way cross-connections, either order will work.
3. This command does not support deleting multiple STS cross-connections.
4. Using "&" in the AID field of this command can delete an path protection STS cross-connection.
a. The following command is used to delete a 1-way selector or 2-way selector and bridge with:
from points: F1, F2
to points: T1
DLT-CRS-{STS_PATH}:[<TID>]:F1&F2,T1:<CTAG>;
b. The following command is used to delete a 1-way bridge or 2-way selector and bridge with:
from point: F1
to points: T1, T2
DLT-CRS-{STS_PATH}:[<TID>]:F1,T1&T2:<CTAG>;
c. The following command is used to delete a 1-way or 2-way subtending path protection connection with:
from point: F1, F2
to points: T1, T2
DLT-CRS-{STS_PATH}:[<TID>]:F1&F2,T1&T2:<CTAG>;
d. The AID format in the deletion command is the same as the AID format in the retrieved response message. For example, if the output of any retrieved AID is "F1&F2,T1:CCT,STS3C", the deletion command with the AID format (F1&F2,T1) is required to delete this cross-connection.
e. The following command is used to create a path protection IDRI Cross-Connection:
ENT-CRS-{STS_PATH}:[<TID>]:A&B,C&D:<CTAG>::2WAYDC;
A-Path on ring X to which traffic from ring Y is bridged
B-Path on ring X to which traffic from the same ring is bridged
C-Path on ring Y to which traffic from ring X is bridged
D-Path on ring Y to which traffic from the same ring is bridged
A, B, C, and D have a positional meaning. Connection type 2WAYDC is used for path protection IDRI cross-connections.
f. The following command is used to create a path protection DRI Cross-Connection:
ENT-CRS-{STS_PATH}:[<TID>]:A&B,C:<CTAG>::2WAYDC;
A-Path on ring X to which traffic from ring Y is bridged
B-Path on ring X to which traffic from the same ring is bridged
C-Traffic to and from ring Y
A, B, C, and D have a positional meaning. Connection type 2WAYDC is used for path protection DRI cross-connections.
5. All A&B AIDs in the TL1 cross-connection command are in the format of WorkingAID&ProtectAID.
6. You can experience some implementation behavior problems if additional drops have been added to the connection object.
7. The facility AID is only valid for slots holding the G1000-4 card.
8. The virtual facility AID (VFAC) is only valid on slots holding an ML-series card.
9. A TL1 cross-connect that has been upgraded to a CTC circuit can no longer be managed by TL1. For example, if you issue a DLT-CRS-<PATH> command to delete a circuit, you will see that the circuit still appears in CTC as "incomplete". The reason for this is because in addition to creating cross-connects (as TL1 does), CTC creates another object on the source node that stores network-level circuit attributes. CTC will continue to see that object after the cross-connect is deleted which is why it shows an incomplete circuit.
3.4.21 DLT-EQPT: Delete Equipment
This command deletes a card from the NE.
This command removes the card type and attributes that were entered for a particular slot. If any facilities are assigned, they are deleted too. The command will be denied if the card is part of a protection group or has a cross-connect end-point.
To delete a card that is part of a protection group, it has to be removed from the protection group first using the ED-EQPT command.
Error conditions for deleting equipment may be:
1. If a card in a protection group that has a cross-connection, DCC or is a synchronization source, the SPLD (Equipment in use) error message will be returned.
2. If a card is not provisioned, an error message will be returned.
Section
|
DLT-EQPT Description
|
Category
|
Equipment
|
Security
|
Provisioning
|
Related Messages
|
ALW-SWDX-EQPT
ALW-SWTOPROTN-EQPT
ALW-SWTOWKG-EQPT
ED-EQPT
ENT-EQPT
INH-SWDX-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
REPT ALM EQPT
|
REPT EVT EQPT
RTRV-ALM-EQPT
RTRV-ALMTH-EQPT
RTRV-COND-EQPT
RTRV-EQPT
SET-ALMTH-EQPT
SW-DX-EQPT
SW-TOPROTN-EQPT
SW-TOWKG-EQPT
|
Input Format
|
DLT-EQPT:[<TID>]:<AID>:<CTAG>[:::];
where:
•<AID> is the equipment unit (slot) to act on and is the AID from the "EQPT" section on page 4-27
|
Input Example
|
DLT-EQPT:SONOMA:SLOT-1:104;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.22 DLT-FFP-<OCN_TYPE>: Delete Facility Protection Group (OC3, OC12, OC48, OC192)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command deletes an OCN facility protection group in a 1+1 architecture.
Note If the protection group does not exist, an error message will be returned.
Section
|
DLT-FFP-<OCN_TYPE> Description
|
Category
|
Facility Protection
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
ED-FFP-<OCN_TYPE>
ED-FFP-CLNT
ED-FFP-OCH
ENT-FFP-<OCN_TYPE>
ENT-FFP-CLNT
|
OPR-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-<OCN_TYPE>
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-PROTNSW-<OCN_TYPE>
|
Input Format
|
DLT-FFP-<OCN_TYPE>:[<TID>]:<WORK>,<PROTECT>:<CTAG>[:::];
where:
•<WORK> identifies the working facility and is the AID from the "FACILITY" section on page 4-28
•<PROTECT> identifies the protect facility and is the AID "FACILITY" section on page 4-28
|
Input Example
|
DLT-FFP-OC3:PETALUMA:FAC-2-1,FAC-1-1:1;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.23 DLT-FFP-CLNT: Delete Facility Protection Group Client
(Cisco ONS 15454 only)
This command deletes Y cable protection on client facilities.
Section
|
DLT-FFP-CLNT Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-<OCN_TYPE>
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-<OCN_TYPE>
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-<OCN_TYPE>
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-<OCN_TYPE>
OPR-PROTNSW-CLNT
|
OPR-PROTNSW-OCH
RLS-LASER-OTS
RLS-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-<OCN_TYPE>
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
DLT-FFP-CLNT:[<TID>]:<WORKAID>,<PROTAID>:<CTAG>[:::];
where:
•<WORKAID> identifies the working facility and is the AID from the "FACILITY" section on page 4-28
•<PROTECTAID> identifies the protect facility and is the AID "FACILITY" section on page 4-28
|
Input Example
|
DLT-FFP-CLNT:CISCO:FAC-1-1,FAC-2-1:100;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.24 DLT-LNK-<MOD2O>: Delete Optical Link (OCH, OMS, OTS)
(Cisco ONS 15454 only)
This command deletes an optical link between two optical connection points. Optical link is specified by using the AID of the involved Optical Connection points.
Section
|
DLT-LNK-<MOD2O> Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
DLT-LNK-<MOD2O>:[<TID>]:<FROM>,<TO>:<CTAG>;
where:
•<FROM> indicates an identifier at one end of the optical link and is the AID from the "BAND" section on page 4-18
•<TO> indicates an identifier at the other end of the optical link and is the AID from the "BAND" section on page 4-18.
|
Input Example
|
DLT-LNK-OMS:PENNGROVE:BAND-6-1-TX,BAND-13-1-RX:114;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.25 DLT-OSC: Delete OSC
(Cisco ONS 15454 only)
This command deletes the OSC group of the NE.
Section
|
DLT-OSC Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
ENT-OSC
ED-OSC
RTRV-OSC
|
|
Input Format
|
DLT-OSC:[<TID>]:<AID>:<CTAG>;
where:
•<AID> identifies the OSC group of the NE and is the AID "OSC" section on page 4-30
|
Input Example
|
DLT-OSC:PENNGROVE:OSC-1:114;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.26 DLT-UCP-CC: Delete Unified Control Plane Control Channel
(Cisco ONS 15454 only)
This command deletes a UCP IP control channel.
1. If you send this command to a control channel that is in use, a SRQN (Status, Invalid Request) error message is returned.
2. If sending this command to delete an SDCC IPCC with a complete result, the SDCC of the specified SONET line is deleted (or disabled) automatically with a DB change reporting (if the DB change report is enabled).
3. If sending this command to delete an IPCC which is in use by a UCP Interface, an SROF (Delete UCP IPCC Failed - Object Is In Use) error message is returned.
Section
|
DLT-UCP-CC Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-IF
DLT-UCP-NBR
ED-UCP-CC
ED-UCP-IF
ED-UCP-NBR
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
REPT ALM UCP
|
REPT EVT UCP
RTRV-ALM-UCP
RTRV-CKT-ORIG
RTRV-CKT-TERM
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
DLT-UCP-CC:[<TID>]:<AID>:<CTAG>[::::];
where:
•<AID> indicates an individual IPCC ID; <AID> is the AID from the "IPCC" section on page 4-29
|
Input Example
|
DLT-UCP-CC:CISCO:CC-9:CTAG;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.27 DLT-UCP-IF: Delete Unified Control Plane Interface
This command deletes a UCP interface.
Note If the UCP interface is not found or in use, a SRQN (Status, Invalid Request) error message is returned.
Section
|
DLT-UCP-IF Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-CC
DLT-UCP-NBR
ED-UCP-CC
ED-UCP-IF
ED-UCP-NBR
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
|
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
DLT-UCP-IF:[<TID>]:<AID>:<CTAG>[::::];
where:
•<AID> indicates the interface port index of the data link; <AID> is the AID from the "FACILITY" section on page 4-28
|
Input Example
|
DLT-UCP-IF:CISCO:FAC-2-1:CTAG;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.28 DLT-UCP-NBR: Delete Unified Control Plane Neighbor
This command deletes a UCP neighbor.
Notes:
1. If the neighbor is in use, an SRQN (Status, Invalid Request) error message is returned.
2. If sending this command to delete a neighbor which is in use by IPCC, an SROF (Delete UCP neighbor Failed - Object Is In Use) error message is returned.
Section
|
DLT-UCP-NBR Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-CC
DLT-UCP-IF
ED-UCP-CC
ED-UCP-IF
ED-UCP-NBR
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
|
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
DLT-UCP-NBR:[<TID>]:<AID>:<CTAG>[::::];
where:
•<AID> indicates an individual neighbor AID of the UCP; <AID> is the AID from the "NBR" section on page 4-30
|
Input Example
|
DLT-UCP-NBR:CISCO:NBR-8:CTAG;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.29 DLT-USER-SECU: Delete User Security
This command deletes a user and can only be performed by a Superuser. Privilege levels are described in the ENT-USER-SECU command.
This command cannot be used to delete a user that is currently logged on.
For the DLT-USER-SECU command:
DLT-USER-SECU:[TID]:<UID>:[CTAG];
the syntax of <UID> is not checked. The user is deleted if the <UID> exists in the database.
Section
|
DLT-USER-SECU Description
|
Category
|
Security
|
Security
|
Superuser
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC-USER
CANC-USER-SECU ED-CMD-SECU
ED-PID
ED-USER-SECU ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
DLT-USER-SECU:[<TID>]:<UID>:<CTAG>;
where:
•<UID> is the user identifier and is a string; <UID> is any combination of up to 10 alphanumeric characters
Note CTC allows <UID> and <PID> of up to 20 characters. The 20 character CTC-entered <UID> and <PID> are not valid TL1 <UID> and <PID>.
|
Input Example
|
DLT-USER-SECU:PETALUMA:CISCO15:123;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.30 DLT-VCG: Delete Virtual Concatenated Group
(Cisco ONS 15454 only)
This command deletes a VCG object.
Section
|
DLT-VCG Description
|
Category
|
VCAT
|
Security
|
Provisioning
|
Related Messages
|
ENT-VCG
RTRV-VCG
|
|
Input Format
|
DLT-VCG:[<TID>]:<SRC>:<CTAG>:::[CMDMDE=<CMDMDE>][:];
where:
•<SRC> AID to address the VCG from the "FACILITY" section on page 4-28
•<CMDMDE> command mode. FRCD deletes all the VCG members and member cross-connects of a VCG; valid values are shown in the "CMD_MODE" section on page 4-54
|
Input Example
|
DLT-VCG:NODE1:FAC-1-1:1234:::CMDMDE=FRCD;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.31 DLT-WLEN: Delete Wavelength
(Cisco ONS 15454 only)
This command deletes the provisioned wavelength (WLEN).
Note:
1. The fields after CTAG (trailing colons) are the optional.
2. This command does not support multiple deleting WLEN provisioning.
Section
|
DLT-WLEN Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
ENT-WLEN
ED-WLEN
RTRV-WLEN
|
|
Input Format
|
DLT-WLEN:[<TID>]:<AID>:<CTAG>[:::CMDMDE=<CMDMDE>];
where:
•<AID> is the wavelength AID per ring direction from the "WLEN" section on page 4-37
•<CMDMDE> indicates the command execution mode. There are two options: NORM for normal (default), and FRCD for forced. Forced will override any safeguards that normally reject a request to delete an In Service resource. Valid values are shown in the "CMD_MODE" section on page 4-54
|
Input Example
|
DLT-WLEN:PENNGROVE:WLEN-W_E-1530.33:114:::CMDMDE=NORM;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.32 ED-<MOD_PATH>: Edit (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
This command edits the attributes associated with STS and VT paths.
The SFBER, SDBER, RVRTV, and RVTM parameters only apply to path protection.
The path trace message is a 64 character string including the terminating CR (carriage return) and LF (line feed) that is transported in the J1 byte of the SONET STS Path overhead. Both the EXPTRC and TRC string can be provisioned by user with up to 62 character string.
The EXPTRC indicates the contents of the expected incoming path trace are provisioned by the user. The TRC indicates the contents of the outgoing path trace message. The INCTRC indicates the contents of the incoming path trace message.
The path trace mode has three modes: OFF, MANUAL, and AUTO. The path trace mode defaults to OFF. The MANUAL mode performs the comparison of the received string with the user-entered expected string. The AUTO mode performs the comparison of the present received string with an expected string set to a previously received string. If there is a mismatch, TIM-P alarm is raised. When the path trace mode is in OFF mode, there is no path trace processing, and all the alarm and state conditions are reset.
The TACC parameter edits an existing single STS or VT and changes it to a test access point. When an editing command on TACC is executed, it assigns the STS for the first 2-way connection and STS=1 as the second 2-way connection. For STS3C and STS12C, the next available STS of the same width is chosen. For more information on TACC, refer to the "Test Access" section on page 1-21.
J1 is implemented on the DS1/DS1N, DS3E/DS3NE, DS3XM, EC1, OC3, OC12, OC48AS and OC192 cards.
DS3/DS3N, OC48, E100, and E1000 cards do not support path trace.
DS1/DS1N, DS3E/DS3NE, and DS3XM support both TRC and EXPTRC in the ED-STS-PATH command.
EC1, OC3, OC48AS, and OC192 only support EXPTRC in the ED-STS-PATH command.
Note Each TL1 command must be less than or equal to 255 characters. Any command larger than 255 characters must be split into multiple commands. For example, if you use the ED-<MOD_PATH> command to edit the J1 EXPTRC/TRC message, path protection attributes, and TACC attributes and the command exceeds 255 characters the command will not be processed. You must use multiple ED-<MOD_PATH> commands instead.
Error conditions:
1. If sending this command to edit SFBER or SDBER or RVRTV or RVTM for the non-path protection STS path, an error message will be returned.
2. If sending this command to edit the EXPTRC string with the AUTO path trace mode (TRCMODE=AUTO), an error message will be returned.
3. If sending this command to edit TRC on any card other than DS3(N)E, DS1(N), and DS3XM cards, an error message (TRC-not allowed for monitor paths. Incorrect card type.) will be returned.
4. This command is allowed to edit EXPTRC on DS1(N), DS3(N)E, DS3XM, EC1, OC3, OC48AS, and OC192 cards.
5. If sending this command to edit both TACC and any other attribute(s), the (Parameters Not compatible) error message will be returned.
6. If sending this command to edit TACC on an AID with cross-connections, an error message (STS in Use) will be returned.
7. TACC creation will also be denied on the protect ports/cards for 1:1, 1:N, and 1+1.
8. The VFAC AID is only valid on slots containing an ML1000-2 or ML100T-12 card. TACC is not supported for the ML1000-2 or ML100T-12 cards.
9. After the BLSR switching, provisioning of the J1 trace string or trace mode is not allowed on the protection path.
10. TACC creation is allowed on PCA for two-fiber and four-fiber BLSR.
11. TACC is not supported on G1000, MXP_2.5_10G/TXP_MR-10G, ML1000-2 and ML100T-12 cards.
12. HOLDOFFTIMER is not specific to a path. It is applicable to the path protection selector. If HOLDOFFTIMER is changed on one path associated with the selector, the HOLDOFFTIMER of the other path associated with the same selector is also changed.
Section
|
ED-<MOD_PATH> Description
|
Category
|
Paths
|
Security
|
Provisioning
|
Related Messages
|
—
|
|
Input Format
|
ED-<MOD_PATH>:[<TID>]:<AID>:<CTAG>:::[SFBER=<SFBER>,]
[SDBER=<SDBER>,][RVRTV=<RVRTV>,][RVTM=<RVTM>,]
[SWPDIP=<SWPDIP>,][HOLDOFFTIMER=<HOLDOFFTIMER>,]
[EXPTRC=<EXPTRC>,][TRC=<TRC>,][TRCMODE=<TRCMODE>,]
[TACC=<TACC>,][TAPTYPE=<TAPTYPE>]:[<PST>],[<SST>];
where:
•<AID> is the access identifier from the "CrossConnectId1" section on page 4-23
•<SFBER> identifies an STS path SFBER which only applies to path protection; valid values for <SFBER> are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies an STS path SDBER which only applies to path protection; valid values for <SDBER> are shown in the "SD_BER" section on page 4-85
•<RVRTV> identifies a revertive mode which only applies to path protection; valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies a revertive time which only applies to path protection; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84. <RVTM> is not allowed to be set while <RVRTV> is N.
•<SWPDIP> On-Off switch for path protection Payload Defect Level switching. Valid values for <SWPDIP> are shown in the "ON_OFF" section on page 4-76
•<HOLDOFFTIMER> Hold-off timer for path protection DRI. Values must be within 0 and 10000 milliseconds (0 to 10 seconds) with increments of 100 milliseconds; <HOLDOFFTIMER> is an integer
•<EXPTRC> indicates the expected path trace message (J1) contents. The EXPTRC is any 64 character string, including the terminating CR (carriage return) and LF (line feed); <EXPTRC> is a string
•<TRC> identifies the path trace message to be transmitted. The TRC is any combination of 64 characters, including the terminating CR and LF. The trace byte (J1) continuously transmits a 64 byte string, one byte at a time. A null value defaults to the NE transmitting null characters (Hex 00); <TRC> is a string
•<TRCMODE> indicates the path trace mode, and defaults to the OFF mode; valid values for <TRCMODE> are shown in the "TRCMODE" section on page 4-94
•<TACC> is the TAP number in a range of 0 to 999. When TACC is 0 (zero), the TAP is deleted.
•<TAPTYPE> is the TAP type and valid values are shown in the "TAPTYPE" section on page 4-92; <TAPTYPE> defaults to Dual
•<PST> is the primary state; valid values for <PST> are shown in the "PST" section on page 4-83
•<SST> is the secondary state; valid values for <SST> are shown in the "SST" section on page 4-86
|
Input Example
|
ED-STS3C:FERNDALE:STS-2-1-4:115:::SFBER=1E-3,SDBER=1E-5,
RVRTV=Y,RVTM=1.0,SWPDIP=Y,HOLDOFFTIMER=2000,
EXPTRC="EXPTRCSTRING",TRC="TRCSTRING",
TRCMODE=OFF,TACC=8,TAPTYPE=SINGLE:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.33 ED-<MOD_RING>: Edit Bidirectional Line Switched Ring
This command edits the BLSR attributes.
Notes:
1. ONS 15327 does not support four-fiber BLSR.
2. Only the RVRTV, RVTM, SRVRTV, SRVTM attributes can be edited for the 4-Fiber BLSR.
3. Only the RVRTV and RVTM attributes can be edited for the 2-Fiber BLSR.
Error conditions:
1. If the system fails on getting IOR, a SDBE (Status, Internal Data Base Error) error message will be returned.
2. If the AID is invalid, an IIAC (Invalid AID) error message is returned.
3. If the BLSR does not exist, a SRQN (BLSR Does Not Exist) error message is returned.
4. The ALL AID is invalid for this command.
5. The list AID format is supported in this release (R4.6).
6. The SROF (Facility Not Provisioned) or Cannot Access BLSR) error message will be returned for the invalid query.
7. The SRQN (BLSR Edition Failed) error message is returned for the invalid edition query.
8. If sending this command to modify SRVRTV or SRVTM on a two-fiber BLSR, an IDNV (Invalid Data For 2F-BLSR) error message will be returned.
9. Is sending this command to modify the nodeid with invalid data, an IIAC (Invalid NodeId) error message is returned.
10. If sending this command to change the ringid into invalid data, an IIAC (Invalid RingId) error message is returned.
11. If changing the BLSR nodeid with a duplicated ID, a SROF (Cannot Set NodeId) error message is returned.
12. If changing the BLSR ringid with a duplicated ID, a SROF (Cannot Set RingId) error message is returned.
Section
|
ED-<MOD_RING> Description
|
Category
|
BLSR
|
Security
|
Provisioning
|
Related Messages
|
DLT-<MOD_RING>
ENT-<MOD_RING>
|
RTRV-<MOD_RING>
|
Input Format
|
ED-<MOD_RING>:[<TID>]:<AID>:<CTAG>:::[RINGID=<RINGID>,]
[NODEID=<NODEID>,][RVRTV=<RVRTV>,][RVTM=<RVTM>,]
[SRVRTV=<SRVRTV>,][SRVTM=<SRVTM>][:];
where:
•<AID> identifies the BLSR of the NE and is from the "AidUnionId" section on page 4-15 (the AID "ALL" or "BLSR ALL" is not allowed for editing BLSR).
•<RINGID> identifies the BLSR ring ID of the NE. <RINGID> is a string of up to six characters; valid characters are [A-Z, 0-9]
•<NODEID> identifies the BLSR node ID of the NE. It ranges from 0-31. <NODEID> is an integer
•<RVRTV> identifies the revertive mode and valid values are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies the revertive time; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84
•<SRVRTV> identifies the span revertive mode for 4F BLSR only and valid values are shown in the "ON_OFF" section on page 4-76
•<SRVTM> identifies the span revertive time for 4F BLSR only; valid values for <SRVTM> are shown in the "REVERTIVE_TIME" section on page 4-84. <SRVTM> is not allowed to be set while <SRVRTV> is N
|
Input Example
|
ED-BLSR:PETALUMA:BLSR-43:123:::RINGID=43,NODEID=3,RVRTV=Y,
RVTM=2.0,SRVRTV=Y,SRVTM=5.0;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.34 ED-<OCN_TYPE>: Edit (OC3, OC12, OC48, OC192)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command edits the attributes (i.e., service parameters) and state of an OC-N facility. Allowable states for a facility are Out Of Service (OOS), Out Of Service with Automatic In Service transitioning (OOS-AINS), Out Of Service for Maintenance (OOS-MT), and In Service (IS).
The DCC transmit is bridged to both working and protect in a 1+1 configuration. On the receive side, the active one is selected for DCC. The DCC is provisioned on the working port only in a 1+1 configuration.
All lines in a 1+1 BLSR must have the same mode. If you change the mode of a line that is in a 1+1 BLSR, an error message will be returned.
UNI-C DCC provisioning notes:
1. The attributes DCC(Y/N) and mode (SONET/SDH) remain the same in the ED/RTRV-OCN commands when the DCC is used for UNI-C, in which case the port attribute UNIC is enables (UNIC=Y).
2. UNI-C DCC termination cannot be deleted by the regular DCC de-provisioning command.
3. If the DCC is created under regular SONET provisioning, and this port is used by UNI-C, the port is converted as a UNI-C DCC automatically.
4. De-provisioning UNI-C IF/IB IPCC will free up DCC termination automatically.
5. The parameters ALSMODE, ALSCRINT and ALSRCPW are valid only for OC3-8, OC-192, and OC48ELR cards.
Section
|
ED-<OCN_TYPE> Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-DS1
ED-EC1
ED-FAC
ED-FC
ED-G1000
ED-T1
ED-T3
RMV-<MOD2_IO> RST-<MOD2_IO>
RTRV-<OCN_TYPE>
|
RTRV-DS1
RTRV-EC1
RTRV-FAC
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-<OCN_TYPE>:[<TID>]:<AID>:<CTAG>:::[DCC=<DCC>,]
[AREA=<AREA>,][SYNCMSG=<SYNCMSG>,][SENDDUS=<SENDDUS>,]
[PJMON=<PJMON>,][SFBER=<SFBER>,][SDBER=<SDBER>,]
[MODE=<MODE>,][MUX=<MUX>,][SOAK=<SOAK>,][OSPF=<OSPF>,]
[LDCC=<LDCC>,][ALSMODE=<ALSMODE>,][ALSRCINT=<ALSRCINT>,]
[ALSRCPW=<ALSRCPW>,][RLASER=<RLASER>]:[<PST>],[<SST>];
where:
•<AID> is the access identifier from the "FACILITY" section on page 4-28
•<DCC> identifies the section DCC connection of the port; valid values are shown in the "ON_OFF" section on page 4-76
•<AREA> is area ID and shows up only if the DCC is enabled; <AREA> is a string
•<SYNCMSG> indicates if sync status messaging is enabled or disabled on the facility; valid values for <SYNCMSG> are shown in the "ON_OFF" section on page 4-76
•<SENDDUS> indicates that the facility will send out the DUS (do not use for synchronization) value as the sync status message for that facility; valid values are shown in the "ON_OFF" section on page 4-76
•<PJMON> identifies an OC-N port PJMON with a value range of [0, highest STS number for the SONET card]; <PJMON> is an integer
•<SFBER> identifies an OC-N port SFBER; valid values for <SFBER> are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies an OC-N port SDBER; valid values for <SDBER> are shown in the "SD_BER" section on page 4-85
•<MODE> indicates the OCN port mode; valid values for are shown in the "OPTICAL_MODE" section on page 4-77
•<MUX> BLSR Extension Byte (supported only on OC48AS cards); valid values for <MUX> are shown in the "MUX_TYPE" section on page 4-75
•<SOAK> OOS-AINS to IS transition soak time as measured in 15 minute intervals, so a value of 4 translates to a soak time of 1 hour. The allowable range is 0-192 intervals (maximum of 48 hours). <SOAK> is an integer.
•<OSPF> indicates the OSPF discovery; valid values are shown in the "ON_OFF" section on page 4-76
•<LDCC> indicates the Line DCC connection on the port; valid values are shown in the "EXT_RING" section on page 4-65
•<ALSMODE> valid only for OC3-8, OC192 and OC48ELR cards. Indicates the ALS recovery interval. The range is 100-300 seconds; <ALSMODE> is an integer
•<ALSRCINT> valid only for OC3-8, OC192 and OC48ELR cards. Indicates the ALS recovery interval. The range is 100-300 seconds; <ALSRCINT> is an integer
|
Input Format (continued)
|
•<ALSRCPW> valid only for OC3-8, OC192 and OC48ELR cards. Indicates the ALS recovery pulse width. The range is 20-100 seconds; <ALSRCPW> is a float
•<RLASER> indicates if the laser should be restarted. Applicable only if the ALSMODE is not Automatic; valid values are shown in the "ON_OFF" section on page 4-76
•<PST> is the primary state; valid values for <PST> are shown in the "PST" section on page 4-83
•<SST> is the secondary state; valid values for <SST> are shown in the "SST" section on page 4-86
|
Input Example
|
ED-OC48:PENNGROVE:FAC-6-1:114:::DCC=Y,AREA=10.92.63.1,
SYNCMSG=Y,SENDDUS=N,PJMON=48,SFBER=1E-4,SDBER=1E-6,
MODE=SONET,MUX=E2,SOAK=10,OSPF=Y,LDCC=N,ALSMODE=MAN,
ALSRCINT=101,ALSRCPW=35.1,RLASER=Y:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.35 ED-BITS: Edit Building Integrated Timing Supply
This command edits the BITS reference attributes.
Note SYNC-BITS1 and SYNC-BITS2 AIDs can be used for setting the port state of BITS-OUT ports.
Section
|
ED-BITS Description
|
Category
|
Synchronization
|
Security
|
Provisioning
|
Related Messages
|
ED-NE-SYNCN
ED-SYNCN
OPR-SYNCNSW
REPT ALM BITS
REPT ALM SYNCN
REPT EVT BITS
REPT EVT SYNCN
RLS-SYNCNSW
|
RTRV-ALM-BITS
RTRV-ALM-SYNCN
RTRV-BITS
RTRV-COND-BITS
RTRV-COND-SYNCN
RTRV-NE-SYNCN
RTRV-SYNCN
|
Input Format
|
ED-BITS:[<TID>]:<AID>:<CTAG>:::[LINECDE=<LINECDE>,][FMT=<FMT>,]
[LBO=<LBO>,][SYNCMSG=<SYNCMSG>,]
[AISTHRSHLD=<AISTHRSHLD>,][SABIT=<SABIT>,]
[IMPEDANCE=<IMPEDANCE>][:<PST>];
where:
•<AID> is an access identifier from the "BITS" section on page 4-19
•<LINECDE> is a line code; valid values for <LINECDE> are shown in the "LINE_CODE" section on page 4-68
•<FMT> is the frame format; valid values for <FMT> are shown in the "FRAME_FORMAT" section on page 4-65
•<LBO> indicates BITS line build out. The default value is 0-133. Valid values for <LBO> are shown in the "BITS_LineBuildOut" section on page 4-50
•<SYNCMSG> indicates if this BITS facility supports synchronization status message; <SYNCMSG> defaults to (Y) and valid values are shown in the "ON_OFF" section on page 4-76
•<AISTHRSHLD> is the AIS Threshold. Valid values for <AISTHRSHLD> shown in the "SYNC_CLOCK_REF_QUALITY_LEVEL" section on page 4-89
•<SABIT> when the frame format selection is E1, <SABIT> indicates the BIT used to receive and transmit the SSM; valid values are shown in the "SABITS" section on page 4-84
•<IMPEDANCE> when the frame format selection is one of the E1 values <IMPEDANCE> indicates the terminal impedance of BITS-IN port. Valid values are shown in the "IMPEDANCE" section on page 4-66
•<PST> is a state; valid values for <PST> are shown in the "PST" section on page 4-83
|
Input Example
|
ED-BITS:SONOMA:BITS-2:779:::LINECDE=AMI,FMT=ESF,LBO=0-133,
SYNCMSG=Y,AISTHRSHLD=PRS:IS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.36 ED-CLNT: Edit Client
(Cisco ONS 15454 only)
This command edits client facility attributes.
Note Primary=OOS and secondary=AINS states do not apply to Ethernet mode.
Section
|
ED-CLNT Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-CLNT:[<TID>]:<AID>:<CTAG>:::[NAME=<PORTNAME>,]
[SFBER=<SFBER>,][SDBER=<SDBER>,][ALSMODE=<ALSMODE>,]
[ALSRCINT=<ALSRCINT>,][ALSRCPW=<ALSRCPW>,][COMM=<COMM>,]
[MACADDR=<MACADDR>,][SYNCMSG=<SYNCMSG>,]
[SENDDUS=<SENDDUS>,][RLASER=<RLASER>,][SOAK=<SOAK>,]
[OSPF=<OSPF>]:[<PST>],[<SST>];
where:
•<AID> is from the "FACILITY" section on page 4-28
•<PORTNAME> indicates the port name and is a string
•<SFBER> identifies the SFBER for the SONET payload; valid values are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies the SDBER for the SONET payload; valid values are shown in the "SD_BER" section on page 4-85
•<ALSMODE> indicates if the Automatic Laser Shutdown is enabled or disabled; valid values are shown in the "ALS_MODE" section on page 4-49
•<ALSRCINT> indicates the ALS recovery interval. Range is 100-300 seconds; <ALSRCINT> is an integer
•<ALSRCPW> indicates the ALS recovery pulse width. The range is 2-100 seconds, in increments of 100ms, e.g. 30.1; <ALSRCPW> is a float
•<COMM> indicates if the GCC or DCC is enabled or disabled. The GCC can be enabled only if the digital wrapper has been enabled for the card. The default is NONE. Valid values are shown in the "COMM_TYPE" section on page 4-54. Rules for an MXP_2.5G_10G/TXP_MR_10G client port are; only the DCC can be provisioned, if the termination mode is not transparent and the payload is SONET. On an MXP_2.5G_10G/TXP_MR_10G DWDM port, the DCC can be enabled only if the G.709 is not enabled and if the payload is SONET and the termination mode is not transparent. On an MXP_2.5G_10G/TXP_MR_10G DWDM port, the GCC can be enabled if there is no DCC and the G.709 flag is enabled.
•<MACADDR> identifies the MAC address for the 10GEthernet payload; <MACADDR> is a string
•<SYNCMSG> indicates that the facility be enabled to provide the synchronization clock. This does not apply to a TXP_MR_10G card. This applies to an MXP_2.5G_10G card, only if the payload is SONET and the card termination mode is as follows: TRANSPARENT - All Client ports are available for all timing selections. All Trunk ports are not available. Valid values are shown in the "ON_OFF" section on page 4-76
LINE - All ports are available for all-timing selections.
|
Input Format (continued)
|
•<SENDDUS> indicates that the facility send out a Do not Use for Sync message. This does not apply to a TXP_MR_10G card. This applies to an MXP_2.5G_10G card, only if the payload is SONET and the card termination mode is as follows: TRANSPARENT - All Client ports are available for all timing selections. All Trunk ports are not available.
LINE - All ports are available for all-timing selections. Valid values are shown in the "ON_OFF" section on page 4-76
•<RLASER> indicates if the laser should be restarted. This is applicable only if the ALSMODE is not automatic; valid values are shown in the "ON_OFF" section on page 4-76
•<SOAK> OOS-AINS to IS transition soak time as measured in 15-minute intervals. A value of 4 translates to a soak time of one hour. The allowable range is 0-192 intervals (maximum of 48-hours). <SOAK> is an integer
•<OSPF> indicates the OSPF discovery. <OSPF> can be edited only if the DCC is enabled; valid values are shown in the "ON_OFF" section on page 4-76
•<PST> primary state; valid values are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values are shown in the "SST" section on page 4-86
|
Input Example
|
ED-CLNT:CISCO:FAC-1-1:100:::NAME="NY PORT",SFBER=1E-4,SDBER=1E-5,ALSMODE=Y,ALSRCINT=30,
ALSRCPW=35.1,COMM=DCC,MACADDR=00-0E-AA-BB-CC-FF,
SYNCMSG=Y,SENDDUS=Y,RLASER=Y,SOAK=10,OSPF=Y:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.37 ED-CMD-SECU: Edit Command Security
This command edits the command security level of a particular command.
Section
|
ED-CMD-SECU Description
|
Category
|
Security
|
Security
|
Administrator
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-PID
ED-USER-SECU
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
ED-CMD-SECU:[<TID>]:<AID>:<CTAG>::<CAP>;
where:
•<AID> is the access identifier string. It is the command verb along with the verb modifier(s) as it currently exists. It may be a single command or a block of commands where the block may include all commands. Only INIT-REG is supported in this release (R4.6). <AID> is a string and must not be null
•<CAP> is the command access privilege; valid values are shown in the "PRIVILEGE" section on page 4-82. <CAP> must not be null
|
Input Example
|
ED-CMD-SECU::INIT-REG:1::SU;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.38 ED-CRS-<PATH>:ED Cross Connect (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS 48C, STS192C, VT1, VT2)
This command edits the state of an STS or VT cross-connection.
See Table 4-11 on page 4-5 for supported modifiers by platform.
3.4.39 ED-DAT: Edit Date and Time
This command edits the date and the time
Section
|
ED-DAT Description
|
Category
|
System
|
Security
|
Provisioning
|
Related Messages
|
ALW-MSG-ALL ALW-MSG-DBCHG
ED-NE-GEN
ED-NE-PATH
ED-NE-SYNCN
INH-MSG-ALL INH-MSG-DBCHG
INIT-SYS
RTRV-HDR
|
RTRV-INV
RTRV-NE-GEN
RTRV-NE-IPMAP
RTRV-NE-PATH
RTRV-NE-SYNCN
RTRV-NE-WDMANS
RTRV-TOD
SET-TOD
|
Input Format
|
ED-DAT:[<TID>]::<CTAG>::[<DATE>],[<TIME>];
where:
•<DATE> identifies the date and is a string
•<TIME> identifies the time and is a string
|
Input Example
|
ED-DAT:CISCO::1234::99-12-21,14-35-15;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.40 ED-DS1: Edit DS1
(Cisco ONS 15454 only)
This command edits the test access attribute for DS1 access on a DS3XM card.
Note This command is not allowed if the card is a protecting card.
Section
|
ED-DS1 Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-<OCN_TYPE>
ED-EC1
ED-FAC
ED-FC
ED-G1000
ED-T1
ED-T3
RMV-<MOD2_IO> RST-<MOD2_IO>
RTRV-<OCN_TYPE>
|
RTRV-DS1
RTRV-EC1
RTRV-FAC
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-DS1:[<TID>]:<AID>:<CTAG>:::[TACC=<TACC>,]
[TAPTYPE=<TAPTYPE>];
where:
•<AID> is the DS1 AID from the "DS1" section on page 4-26
•<TACC> is the TAP number. The TAP number ranges from 0-999. When <TACC> is 0, the TAP is deleted. <TACC> is an integer
•<TAPTYPE> is the TAP type; valid values are shown in the "TAPTYPE" section on page 4-92. The default value is DUAL
|
Input Example
|
ED-DS1:PETALUMA:DS1-2-1-6-12:123:::TACC=8,TAPTYPE=DUAL;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.41 ED-DWDM: Edit Dense Wavelength Division Multiplexing
(Cisco ONS 15454 only)
The command edits an already pre-provisioned/provisioned MXP_2.5G_10G/TXP_MR_10G card. It changes the operating parameters for the card.
The rules for provisioning a regeneration group are: a regeneration group can be created only between a pair of TXP cards. The peer slot should contain a card of the same type, and should not have an existing regeneration group for the same slot. The termination mode should be identical for the cards. All the client port level settings should be identical for the cards. Setting the PEERID=Null will remove an existing regeneration group. The two TXP cards should be set to transparent termination mode to successfully create a regeneration group.
The rules for provisioning the payload field are as follows: For a TXP_MR_10G card, the SONET/10GE (Ethernet) applies. For a TXP_MR_2.5G card or TXPP_MR_2.5G card, the options of SONET/10GE are not applicable. Instead, the actual protocol; for example, OC3/OC12/OC48/STM1 should be used. The port has to be in OOS state for a payload change to be successful. There should be no Trace enabled for the port. To set the Payload to 10GE, the termination mode should already be in Transparent mode.
The MXP_2.5_10G card does not support 10GE payload. To change the payload type for the MXP_2.5_10G card, all the ports should be in OOS state.
See the "Provisioning Rules for MXP_2.5G_10G and TXP_MR_10G Cards" section on page 1-8 and "Provisioning Rules for TXP_MR_2.5G and TXPP_MR_2.5G Cards" section on page 1-13 for specific card provisioning rules.
Section
|
ED-DWDM Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-DWDM:[<TID>]:<AID>:<CTAG>:::[PEERID=<PEERID>,]
[NAME=<NAME>,][TERMMODE=<TERMMODE>,]
[PAYLOAD=<PAYLOAD>,][PWL=<PWL>];
where:
•<AID> is from the "EQPT" section on page 4-27
•<PEERID> peer regeneration group card slot AID from the "EQPT" section on page 4-27
•<NAME> name for the regeneration group; <NAME> is a string
•<TERMMODE> termination mode of the card; valid values are shown in the "TERM_MODE" section on page 4-92
•<PAYLOAD> type of payload supported by the card; valid values are shown in the "EQPT_TYPE" section on page 4-59
•<PWL> provisioned wavelength; valid values are shown in the "OPTICAL_WLEN" section on page 4-78
|
Input Example
|
ED-DWDM:VA454-22:SLOT-1:100:::PEERID=SLOT-2,
NAME="NY GROUP",TERMMODE=TRANS,PAYLOAD=OC48,PWL=1546.52;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.42 ED-EC1: Edit Electrical Carrier
(Cisco ONS 15454 only)
This command edits the attributes of an EC1.
Note This command is not allowed if the card is a protecting card.
Section
|
ED-EC1 Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-<OCN_TYPE>
ED-DS1
ED-G1000
ED-T1
ED-T3
INIT-REG-G1000
RMV-<MOD2_IO>
RST-<MOD2_IO>
RTRV-<OCN_TYPE>
|
RTRV-DS1
RTRV-EC1
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-EC1:[<TID>]:<AID>:<CTAG>:::[PJMON=<PJMON>,][LBO=<LBO>,]
[SOAK=<SOAK>,][SFBER=<SFBER>,][SDBER=<SDBER>]:[<PST>],[<SST>];
where:
•<AID> is a facility AID of an EC1 port and is from the "FACILITY" section on page 4-28
•<PJMON> is a SONET pointer number (0 or 1) of an EC1 port and is an integer
•Valid values for <LBO> are shown in the "E_LBO" section on page 4-58
•<SOAK> OOS-AINS to IS transition soak time as measured in 15 minute intervals, so a value of 4 translates to a soak time of 1 hour. The allowable range is 0-192 intervals (maximum of 48 hours). <SOAK> is an integer
•<SFBER> identifies port SFBER; valid values are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies port SDBER; valid values are shown in the "SD_BER" section on page 4-85
•<PST> primary state; valid values for <PST> are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values for <SST> are shown in the "SST" section on page 4-86
|
Input Example
|
ED-EC1:CISCO:FAC-1-1:123:::PJMON=0,LBO=0-225,SOAK=10,SFBER=1E-4,
SDBER=1E-6:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.43 ED-EQPT: Edit Equipment
This command edits the attributes for a given equipment slot in the NE. If the card is in an equipment slot, this command is allowed only on the working AID.
The PROTID parameter indicates the unique identifier of the protection group (the protect card). "NULL" is a special value of the PROTID parameter and indicates absence of a protection group. For 1:1 protection type, RVRTV and RVTM parameters can be changed. For 1:1 protection type, if the PROTID parameter is entered as "NULL", the protection group is deleted.
ED-EQPT:[<TID>]:SLOT-2:<CTAG>:::PROTID=NULL;
For 1:N protection type, if the PROTID is "NULL", the AIDs in the list are removed from the protection group. If all the working cards are in the AID list, the protection group is deleted.
Example: if Slot-1, Slot-2 and Slot-4 were the only working cards in the protection group. The following command will remove Slot-4 from the protection group:
ED-EQPT:[<TID>]:SLOT-4:<CTAG>:::PROTID=NULL;
The protection group still has Slot-1 and Slot-2 as working cards.
The following command will remove all the other working cards in the above example and consequently, delete the protection group itself:
ED-EQPT:[<TID>]:SLOT-2&SLOT-1:<CTAG>:::PROTID=NULL;
The ED-EQPT command can be successfully executed on an already provisioned card to add a working card to or remove one from a protection group. This command is not valid on a protect card. Only cards can be added to or removed from a protection group. Protection type is immutable and is determined at the time of creation of a protection group (while adding the first working card). Once provisioned, the equipment type cannot be edited either.
Examples of adding an existing card to a protection group using the ED-EQPT command:
1:1 protection group
ED-EQPT::SLOT-2:12:::PROTID=SLOT-1,RVRTV=Y,RVTM=9.0;
1:N protection group
ED-EQPT::SLOT-2:12:::PROTID=SLOT-3,PRTYPE=1-N,RVTM=6.5;
Error conditions for editing a 1:1 or 1:N protection group may be:
1. Editing the PRTYPE or PROTID (non-NULL value) parameters.
2. Editing RVRTV or RVTM when no protection group exists.
3. Editing RVRTV for 1:N protection.
4. Failed to remove, currently switched to protect.
5. If the command mode (CMDMDE) is set to forced (FRCD) during the creation of a 1:1 or 1:N protection group, all cards must be physically plugged in and in the ready state (IS). If the cards are not physically plugged in, then the command is denied with an appropriate error message. When the command mode is set to normal (NORM) (which is the default) the cards do not have to be physically plugged in and in the ready state.
6. If the command mode is set to forced (FRCD) during the removal of a card in a 1:1 or 1:N protection group, there must be no cross-connects (i.e., services) present on the card. If there are cross-connects present on the card, the command is denied with an appropriate error message. If the command mode is set to normal (NORM) (which is the default), it does not require that cross-connects be deleted on the card.
Section
|
ED-EQPT Description
|
Category
|
Equipment
|
Security
|
Provisioning
|
Related Messages
|
ALW-SWDX-EQPT
ALW-SWTOPROTN-EQPT
ALW-SWTOWKG-EQPT
DLT-EQPT
ENT-EQPT
INH-SWDX-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
REPT ALM EQPT
|
REPT EVT EQPT
REPT RMV EQPT
REPT RST EQPT
RTRV-ALM-EQPT
RTRV-COND-EQPT
RTRV-EQPT
SW-DX-EQPT
SW-TOPROTN-EQPT
SW-TOWKG-EQPT
|
Input Format
|
ED-EQPT:[<TID>]:<AID>:<CTAG>:::[PROTID=<PROTID>,]
[PRTYPE=<PRTYPE>,][RVRTV=<RVRTV>,][RVTM=<RVTM>,]
[CMDMDE=<CMDMDE>][:];
where:
•<AID> is an access identifier from the "EQPT" section on page 4-27
•<PROTID> is the protecting card slot number of the protection group. <PROTID> is the AID from the "PRSLOT" section on page 4-31
•<PRTYPE> is the protection group type; valid values for <PRTYPE> are shown in the "PROTECTION_GROUP" section on page 4-83
•<RVRTV> is the revertive mode: valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76
•<RVTM> is the revertive time; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84
•<CMDMDE> is the command mode. It is only applicable when creating or deleting a 1:1 or 1:N protection group and/or adding cards to an existing protection group (1:N). The default is NORM. Valid values are shown in the "CMD_MODE" section on page 4-54. If creating or adding cards to a protection group, specifying FRCD will require the card to be physically plugged in and in the ready state (IS). If removing cards from a 1:N protection group or deleting a 1:1 or 1:N protection group, specifying FRCD will require that there are no cross-connects (i.e., services) on the card.
|
Input Example
|
ED-EQPT:CISCO:SLOT-2:123:::PROTID=SLOT-1,PRTYPE=1-1,RVRTV=Y,
RVTM=9.0,CMDMDE=FRCD;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.44 ED-FC: Edit Fiber Channel Facility
This command edits the attributes related to the fiber channel facility.
Note The OOS,AINS is not supported on the FC port.
Section
|
ED-FC Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-<OCN_TYPE>
ED-DS1
ED-EC1
ED-FAC
ED-G1000
ED-T1
ED-T3
RMV-<MOD2_IO> RST-<MOD2_IO>
RTRV-<OCN_TYPE>
|
RTRV-DS1
RTRV-EC1
RTRV-FAC
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-FC:[<TID>]:<AID>:<CTAG>:::[PAYLOAD=<PAYLOAD>,]
[LINKRCVRY=<LINKRCVRY>]:[<PST>],[<SST>];
where:
•<AID> is the facility AID from the "FACILITY" section on page 4-28
•<PAYLOAD> payload type. Can be 1GFC or 2GFC. Valid values are shown in the "FC_LINKRATE" section on page 4-65
•<LINKRCVRY> link recovery; valid values are shown in the "ON_OFF" section on page 4-76
•<PST> primary state; valid values are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values are shown in the "SST" section on page 4-86
|
Input Example
|
ED-FC:CISCO1:FAC-6-1:1:::PAYLOAD=2GFC,LINKRCVRY=Y:OOS,MT;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.45 ED-FFP-<OCN_TYPE>: Edit Facility Protection Group (OC3, OC12, OC48, OC192)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command edits the optical facility protection.
Note This command can be used on both protecting and working AIDs.
Section
|
ED-FFP-<OCN_TYPE> Description
|
Category
|
SONET Line Protection
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-<OCN_TYPE>
DLT-FFP-CLNT
ED-FFP-CLNT
ENT-FFP-<OCN_TYPE>
ENT-FFP-CLNT
EX-SW-<OCN_BLSR>
|
OPR-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-<OCN_TYPE>
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-PROTNSW-<OCN_TYPE>
|
Input Format
|
ED-FFP-<OCN_TYPE>:[<TID>]:<AID>:<CTAG>:::[PROTID=<PROTID>,]
[RVRTV=<RVRTV>,][RVTM=<RVTM>,][PSDIRN=<PSDIRN>][:];
where:
•<AID> is the facility AID from the "FACILITY" section on page 4-28
•<PROTID> is the protection group identifier (protection group name) and is a string; <PROTID> can have a maximum of 32 characters
•<RVRTV> identifies a revertive mode; valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies a revertive time; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84
•<PSDIRN> identifies the switching mode; valid values for <PSDIRN> are shown in the "UNI_BI" section on page 4-96
|
Input Example
|
ED-FFP-OC3:PETALUMA:FAC-1-1:1:::PROTID=PROT_NAME,RVRTV=Y,
RVTM=1.0,PSDIRN=BI;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.46 ED-FFP-CLNT: Edit Facility Protection Group Client
(Cisco ONS 15454 only)
This command edits a Y cable protection group on client facilities.
See the "Provisioning Rules for MXP_2.5G_10G and TXP_MR_10G Cards" section on page 1-8 and the "Provisioning Rules for TXP_MR_2.5G and TXPP_MR_2.5G Cards" section on page 1-13 for specific card provisioning rules.
Section
|
ED-FFP-CLNT Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-<OCN_TYPE>
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-<OCN_TYPE>
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-<OCN_TYPE>
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
EX-SW-<OCN_BLSR>
OPR-LASER-OTS
OPR-PROTNSW-<OCN_TYPE>
OPR-PROTNSW-CLNT
|
OPR-PROTNSW-OCH
RLS-LASER-OTS
RLS-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-<OCN_TYPE>
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-FFP-CLNT:[<TID>]:<AID>:<CTAG>:::[PROTID=<PROTID>,]
[RVRTV=<RVRTV>,][RVTM=<RVTM>,][PSDIRN=<PSDIRN>][:];
where:
•<AID> identifies a port in a protection group and is the AID from the "FACILITY" section on page 4-28
•<PROTID> is a protection group identifier (protection group name). It defaults to the protecting port AID of the protection group. It is a string and can have a maximum length of 32 characters. <PROTID> is a string
•<RVRTV> identifies a revertive mode. The retrieve behavior defaults to N (non-revertive mode); valid values are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies a revertive time. The revertive time defaults to 5.0 minutes; valid values are shown in the "REVERTIVE_TIME" section on page 4-84
•<PSDIRN> identifies the switching mode and defaults to UNI. MXP_2.5G_10G/TXP_MR_10G cards do not support BI-DIRECTIONAL switching. Valid values for <PSDIRN> are shown in the "UNI_BI" section on page 4-96
|
Input Example
|
ED-FFP-CLNT:CISCO:FAC-1-1:100:::PROTID=DC-METRO,RVRTV=N,
RVTM=1.0,PSDIRN=BI;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.47 ED-FFP-OCH: Edit Facility Protection Group OCH
(Cisco ONS 15454 only)
This command changes the provisioning for the default protection group on the DWDM port of a TXP_MR_2.5G and TXPP_MR_2.5G card.
Section
|
ED-FFP-OCH Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-<OCN_TYPE>
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-<OCN_TYPE>
ED-FFP-CLNT
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-<OCN_TYPE>
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
EX-SW-<OCN_BLSR>
OPR-LASER-OTS
OPR-PROTNSW-<OCN_TYPE>
OPR-PROTNSW-CLNT
|
OPR-PROTNSW-OCH
RLS-LASER-OTS
RLS-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-<OCN_TYPE>
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-FFP-OCH:[<TID>]:<AID>:<CTAG>:::[PROTID=<PROTID>,]
[RVRTV=<RVRTV>,][RVTM=<RVTM>,][PSDIRN=<PSDIRN>][:];
where:
•<AID> is the AID from the "CHANNEL" section on page 4-19
•<PROTID> is a protection group and is a string
•<RVRTV> identifies a revertive mode; valid values are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies a revertive time; valid values are shown in the "REVERTIVE_TIME" section on page 4-84
•Valid values for <PSDIRN> are shown in the "TRANS_MODE" section on page 4-93
|
Input Example
|
ED-FFP-OCH:VA454-22:CHAN-2-2:100:::PROTID="FIXED PROTECTION",RVRTV=N,RVTM=1.0,PSDIRN=BI;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.48 ED-G1000: Edit G1000
This command edits the attributes related to a G1000 port.
Note The state OOS-AINS is not supported on the G1000.
Section
|
ED-G1000 Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-<OCN_TYPE>
ED-DS1
ED-EC1
ED-FC
ED-T1
ED-T3
INIT-REG-G1000
RMV-<MOD2_IO>
RST-<MOD2_IO>
RTRV-<OCN_TYPE>
|
RTRV-DS1
RTRV-EC1
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-G1000:[<TID>]:<AID>:<CTAG>:::[MFS=<MFS>,][FLOW=<FLOW>,]
[LOWMRK=<LOWMRK>,][HIWMRK=<HIWMRK>]:[<PST>],[<SST>];
where:
•<AID> is the AID facility from the "FACILITY" section on page 4-28
•Valid values for <MFS> are shown in the "MFS_TYPE" section on page 4-68
•Valid values for <FLOW> are shown in the "ON_OFF" section on page 4-76
•<LOWMRK> low watermark value and an integer
•<HIWMRK> high watermark value and an integer
•<PST> primary state; valid values for <PST> are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values for <SST> are shown in the "SST" section on page 4-86
|
Input Example
|
ED-G1000:TID:FAC-1-1:CTAG:::MFS=1548,FLOW=Y,LOWMRK=20,
HIWMRK=492:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.49 ED-LNK-<MOD2O>: Edit Link (OCH, OMS, OTS)
(Cisco ONS 15454 only)
This command edits an optical link state.
Section
|
ED-LNK-<MOD2O> Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-LNK-<MOD2O>:[<TID>]:<FROM>,<TO>:<CTAG>::::<PST>,[<SST>];
where:
•<FROM> indicates an identifier at one end of the optical link and is the AID from the "BAND" section on page 4-18
•<TO> indicates an identifier at the other end of the optical link and is the AID from the "BAND" section on page 4-18
•<PST> primary state; valid values are shown in the "PST" section on page 4-83
•<SST> secondary state: valid values are shown in the "SST" section on page 4-86
|
Input Example
|
ED-LNK-OMS:PENNGROVE:BAND-6-1-TX,BAND-13-1-RX:114::::OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.50 ED-NE-GEN: Edit Network Element General
This command edits the node attributes of the NE.
Notes:
1. Only the IPADDR, IPMASK, DEFRTR, IIOP PORT and node name can be modified with this command.
2. The node name can be a maximum of 20 characters. If the entered name exceeds 20 characters, an IPNV (Node Name Too Long) error message is returned.
3. An existing timing source can be removed by setting the address to 0.0.0.0.
Caution Changing the IPADDR, IPMASK, or IIOP Port will cause a reset of the TCC2.
Section
|
ED-NE-GEN Description
|
Category
|
System
|
Security
|
Superuser
|
Related Messages
|
ALW-MSG-ALL ALW-MSG-DBCHG
ED-DAT
ED-NE-PATH
ED-NE-SYNCN
INH-MSG-ALL
INH-MSG-DBCHG
INIT-SYS
RTRV-HDR
|
RTRV-INV
RTRV-NE-GEN
RTRV-NE-IPMAP
RTRV-NE-PATH
RTRV-NE-SYNCN
RTRV-NE-WDMANS
RTRV-TOD
SET-TOD
|
Input Format
|
ED-NE-GEN:[<TID>]::<CTAG>:::[NAME=<NAME>,][IPADDR=<IPADDR>,]
[IPMASK=<IPMASK>,][DEFRTR=<DEFRTR>,][IIOPPORT=<IIOPPORT>,]
[NTP=<NTP>,];
where:
•<NAME> indicates the node name and is a string
•<IPADDR> indicates the node IP address and is a string
•<IPMASK> indicates the node IP mask and is a string
•<DEFRTR> indicates the node default router and is a string
•<IIOPPORT> indicates the node IIOPPORT and is an integer
•<NTP> indicates the node's NTP timing origin address and is a string
|
Input Example
|
ED-NE-GEN:CISCO::123:::NAME=NODENAME,IPADDR=192.168.100.52,
IPMASK=255.255.255.0,DEFRTR=192.168.100.1,IIOPPORT=57790,
NTP=192.168.100.52;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.51 ED-NE-PATH: Edit Network Element Paths
This command edits the path attributes of the NE.
Section
|
ED-NE-PATH Description
|
Category
|
System
|
Security
|
Provisioning
|
Related Messages
|
ALW-MSG-ALL ALW-MSG-DBCHG
ED-DAT
ED-NE-GEN
ED-NE-SYNCN
INH-MSG-ALL
INH-MSG-DBCHG
INIT-SYS
RTRV-HDR
|
RTRV-INV
RTRV-NE-GEN
RTRV-NE-IPMAP
RTRV-NE-PATH
RTRV-NE-SYNCN
RTRV-NE-WDMANS
RTRV-TOD
SET-TOD
|
Input Format
|
ED-NE-PATH:[<TID>]::<CTAG>[:::PDIP=<PDIP>];
where:
•<PDIP> flag used to indicate whether PDI-P should be generated on the outgoing VT-structured STSs. PDI-P is specified in GR-253 (Issue2 Rev2 1999) CR6-261 (6.2.1.4.1); valid values are shown in the "ON_OFF" section on page 4-76
|
Input Example
|
ED-NE-PATH:::CTAG:::PDIP=Y;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.52 ED-NE-SYNCN: Edit Network Element Synchronization
This command edits the synchronization attributes of the NE.
Notes:
1. Although mixed mode timing is supported in this release, it is not recommended. See the "Mixed Mode Timing Support" section on page 1-19 for more information.
2. The existing external and line modes have the same functionality in all ONS 15454 4.x releases:
External mode: the node derives its timing from the BITS inputs.
Line mode: the node derives its timing from the SONET line(s).
Mixed mode: the node derives its timing from the BITS input or SONET lines.
Section
|
ED-NE-SYNCN Description
|
Category
|
Synchronization
|
Security
|
Provisioning
|
Related Messages
|
ALW-MSG-ALL ALW-MSG-DBCHG
ED-BITS
ED-DAT
ED-NE-GEN
ED-NE-PATH
ED-SYNCN
INH-MSG-ALL INH-MSG-DBCHG
INIT-SYS
OPR-SYNCNSW
REPT ALM BITS
REPT ALM SYNCN
REPT EVT BITS
REPT EVT SYNCN
RLS-SYNCNSW
|
RTRV-ALM-BITS
RTRV-ALM-SYNCN
RTRV-BITS
RTRV-COND-BITS
RTRV-COND-SYNCN
RTRV-HDR
RTRV-INV
RTRV-NE-GEN
RTRV-NE-IPMAP
RTRV-NE-PATH
RTRV-NE-SYNCN
RTRV-NE-WDMANS
RTRV-SYNCN
RTRV-TOD
SET-TOD
|
Input Format
|
ED-NE-SYNCN:[<TID>]::<CTAG>:::[TMMD=<TMMD>,]
[SSMGEN=<SSMGEN>,][QRES=<QRES>,][RVRTV=<RVRTV>,]
[RVTM=<RVTM>];
where:
•<TMMD> is the timing mode; valid values for <TMMD> are shown in the "TIMING_MODE" section on page 4-92
•<SSMGEN> is the SSM message set; valid values for <SSMGEN> are shown in the "SYNC_GENERATION" section on page 4-89
•<QRES> is the quality of the RES; valid values for <QRES> are shown in the "SYNC_QUALITY_LEVEL" section on page 4-89
•<RVRTV> is the revertive mode; valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76
•<RVTM> is the revertive time; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84
|
Input Example
|
ED-NE-SYNCN:CISCO::123:::TMMD=LINE,SSMGEN=GEN1,
QRES=ABOVE-PRS,RVRTV=Y,RVTM=8.0;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.53 ED-OCH: Edit Optical Channel
(Cisco ONS 15454 only)
This command edits the attributes (service parameters) and state of an OCH facility.
See the "Provisioning Rules for MXP_2.5G_10G and TXP_MR_10G Cards" section on page 1-8 and the "Provisioning Rules for TXP_MR_2.5G and TXPP_MR_2.5G Cards" section on page 1-13 for specific card provisioning rules.
Section
|
ED-OCH Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-OCH:[<TID>]:<AID>:<CTAG>:::[RDIRN=<RDIRN>,]
[EXPWLEN=<EXPWLEN>,][VOAATTN=<VOAATTN>,]
[VOAPWR=<VOAPWR>,][CALOPWR=<CALOPWR>,]
[CHPOWER=<CHPOWER>,]1[NAME=<PORTNAME>,][SFBER=<SFBER>,]
[SDBER=<SDBER>,][ALSMODE=<ALSMODE>,][ALSRCINT=<ALSRCINT>,][ALSRCPW=<ALSRCPW>,][COMM=<COMM>,][GCCRATE=<GCCRATE>,]
[OSDBER=<OSDBER>,][DWRAP=<DWRAP>,]
[FEC=<FEC>,][MACADDR=<MACADDR>,][SYNCMSG=<SYNCMSG>,]
[SENDDUS=<SENDDUS>,][RLASER=<RLASER>,][SOAK=<SOAK>,]
[OSPF=<OSPF>]:[<PST>],[<SST>];
where:
•<AID> is an access identifier from the "CHANNEL" section on page 4-19
•<RDIRN> identifies the ring directionality of the optical line; valid values are shown in the "RDIRN_MODE" section on page 4-83
•<EXPWLEN> identifies the expected value of wavelength for this port. Applicable only to the following cards: optical service channel cards, optical amplifier cards, dispersion compensation units, multiplexor and demultiplexor cards and OADM cards. Valid values are shown in the "OPTICAL_WLEN" section on page 4-78
•<VOAATTN> indicates the value of calibrated attenuation for the VOA. It is expressed in dBm. For the following cards: optical service channel, optical amplifier, dispersion compensation units, multiplexor and demultiplexor and OADM, the range is 0.0 to +30.0. <VOAATTN> is a float
•<VOAPWR> indicates the value of calibrated output power that the VOA is going to set as a result of its attenuation. Applicable only to the following cards: optical service channel, optical amplifier, dispersion compensation units, multiplexor and demultiplexor and OADM. <VOAPWR> is a float
•<CALOPWR> indicates the value of the calibrated optical power expected for the output line added to the calculated value which equals the total expected output power; <CALOPWR> is a float expressed in dBm.
|
Input Format (continued)
|
•<CHPOWER> indicates the value of per channel optical power expected to the OCH drop port of an AD-4C unit. <CHPOWER> is a float expressed in dBm. Valid values are shown in the "REVERTIVE_TIME" section on page 4-84
•<PORTNAME> identifies a port name and is a string
•<SFBER> identifies the SFBER for the SONET payload; valid values are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies the SDBER for the SONET payload; valid values are shown in the "SD_BER" section on page 4-85
•<ALSMODE> indicates if the Automatic Laser Shutdown is enabled or disabled; valid values are shown in the "ALS_MODE" section on page 4-49
•<ALSRCINT> indicates the ALS recovery interval. Range is 100-300 seconds; <ALSRCINT> is an integer
•<ALSRCPW> indicates the ALS recovery pulse width. The range is 2-100 seconds, in increments of 100ms, e.g. 30.1; <ALSRCPW> is a float
•<COMM> indicates if the GCC or DCC is enabled or disabled. The GCC can be enabled only if the digital wrapper has been enabled for the card. The default is NONE. Valid values are shown in the "COMM_TYPE" section on page 4-54. Rules for an MXP_2.5G_10G/TXP_MR_10G client port are; only the DCC can be provisioned, if the termination mode is not transparent and the payload is SONET. On an MXP_2.5G_10G/TXP_MR_10G DWDM port, the DCC can be enabled only if the G.709 is not enabled and if the payload is SONET and the termination mode is not transparent. On an MXP_2.5G_10G/TXP_MR_10G DWDM port, the GCC can be enabled if there is no DCC and the G.709 flag is enabled.
•<GCCRATE> indicates the data rate of the GCC traffic. Valid values are shown in the "GCCRATE" section on page 4-66. The default is 192Kbps. For MXP_2.5G_10G/TXP_MR_10G cards this applies only to the DWDM port. The 576K option is not supported for this release.
•<OSDBER> identifies the signal degrade threshold setting for the OTN level. Applicable only if the G.709 is enabled; valid values are shown in the "SD_BER" section on page 4-85
|
Input Format (continued)
|
•<DWRAP> is the G.709 digital wrapper. It is either on or off. The system default is ON. For MXP_2.5G_10G/TXP_MR_10G cards, this applies only to the DWDM port. To enable G.709 there should be no GCC on the DWDM port. To disable G.709 there should be no GCC on the DWDM port. The FEC should be turned to off; valid values are shown in the "ON_OFF" section on page 4-76
•<FEC> is the Forward Error Correction. It can be enabled only if the G.709 is turned ON. It is either on or off. The system default is ON. For MXP_2.5G_10G/TXP_MR_10G cards this applies only to the DWDM port. The FEC level PM and thresholds apply if the FEC is turned on; valid values are shown in the "ON_OFF" section on page 4-76
•<MACADDR> identifies the MAC address for the 10GE payload; <MACADDR> is a string
•<SYNCMSG> indicates that the facility be enabled to provide the synchronization clock. This does not apply to a TXP_MR-10G card. This applies to an MXP_2.5G_10G card, only if the payload is SONET and the card termination mode is as follows:
TRANSPARENT - All Client ports are available for all timing selections. All Trunk ports are not available.
LINE - All ports are available for all-timing selections.
Valid values are shown in the "ON_OFF" section on page 4-76
•<SENDDUS> indicates that the facility send out a Do not Use for Sync message. This does not apply to a TXP card. This applies to an MXP_2.5G_10G card, only if the payload is SONET and the card termination mode is as follows:
TRANSPARENT- All Client ports are available for all timing selections. All Trunk ports are not available.
LINE - All ports are available for all-timing selections.
Valid values are shown in the "ON_OFF" section on page 4-76
•<RLASER> indicates if the laser should be restarted. This is applicable only if the ALSMODE is not automatic; valid values are shown in the "ON_OFF" section on page 4-76
•<SOAK> OOS-AINS to IS transition soak time as measured in 15-minute intervals. A value of 4 translates to a soak time of one hour. The allowable range is 0-192 intervals (maximum of 48-hours). <SOAK> is an integer
•<OSPF> indicates the OSPF discovery. <OSPF> can be edited only if the DCC is enabled; valid values are shown in the "ON_OFF" section on page 4-76
•<PST> primary state; valid values are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values are shown in the "SST" section on page 4-86
|
Input Example
|
ED-OCH:CISCO:CHAN-6-2:114:::RDIRN=W-E,EXPWLEN=1530.32,
VOAATTN=2.5,VOAPWR=7.5,CALOPWR=0.0,CHPOWER=2.0,
NAME="NY LINE",SFBER=1E-5,SDBER=1E-6,ALSMODE=Y,
ALSRCINT=30,ALSRCPW=35.1,COMM=DCC,GCCRATE=192K,
OSDBER=1E-5,DWRAP=Y,FEC=Y,MACADDR=00-0E-AA-BB-CC-DD,
SYNCMSG=N,SENDDUS=Y,RLASER=Y,SOAK=10,OSPF=Y:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.54 ED-OMS: Edit Optical Multiplex Section
(Cisco ONS 15454 only)
This command edits the attributes (service parameters) and state of an OMS facility.
Section
|
ED-OMS Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-OMS:[<TID>]:<AID>:<CTAG>:::[RDIRN=<RDIRN>,]
[EXPBAND=<EXPBAND>,][VOAATTN=<VOAATTN>,]
[VOAPWR=<VOAPWR>,][CALOPWR=<CALOPWR>,]
[CHPOWER=<CHPOWER>]:[<PST>],[<SST>];
where:
•<AID> is the AID from the "BAND" section on page 4-18
•<RDIRN> identifies the ring directionality of the optical line; valid values are shown in the "RDIRN_MODE" section on page 4-83
•<EXPBAND> identifies the expected value of band for this port; valid values are shown in the "OPTICAL_BAND" section on page 4-76
•<VOAATTN> indicates the value of calibrated attenuation for the VOA. The range is 0,0 to +3.0. <VOAATTN> is a float
•<VOAPWR> indicates the value of calibrated output power that the VOA is going to set as a result of its attenuation. <VOAPWR> is a float
•<CALOPWR> indicates the value of the calibrated optical power expected for the output line which you provide to sum with the calculated value to have the total expected output power; <CALOPWR> is a float expressed in dBm
•<CHPOWER> indicates the value of per channel optical power expected to the OMS port in a DROP port of an AD-1B or AD-4B unit; <CHPOWER> is a float expressed in dBm
•<PST> primary state; valid values are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values are shown in the "SST" section on page 4-86
|
Input Example
|
ED-OMS:PENNGROVE:BAND-6-1:114:::RDIRN=W-E,
EXPBAND=1530.32-1532.68,VOAATTN=2.5,VOAPWR=7.5,CALOPWR=0.0,
CHPOWER=2.0:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.55 ED-OSC: Edit Optical Service Channel
(Cisco ONS 15454 only)
This command edits the OSC (optical service channel) group attributes.
Section
|
ED-OSC Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
ENT-OSC
DLT-OSC
RTR-OSC
|
|
Input Format
|
ED-OSC:[<TID>]:<AID>:<CTAG>:::[RINGID=<RINGID>,]
[NODEID=<NODEID>];
where:
•<AID> identifies the OSC group of the NE and is the AID from the "OSC" section on page 4-30
•<RINGID> identifies the OSC ring ID of the NE. <RINGID> is a string of up to six characters. Valid characters are [A-Z, 0-9]. <RINGID> is a string and the default value is "# of AID OSC-#". <RINGID> is an integer
•<NODEID> identifies the OSC node ID of the NE. <NODEID> ranges from
0 to 31 and is an integer
|
Input Example
|
ED-OSC:PENNGROVE:OSC-1:114:::RINGID=1,NODEID=10;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.56 ED-OTS: Edit OTS
(Cisco ONS 15454 only)
This command edits the attributes (service parameters) and state of an OTS facility.
Section
|
ED-OTS Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-OTS:[<TID>]:<AID>:<CTAG>:::[RDIRN=<RDIRN>,]
[VOAATTN=<VOAATTN>,][VOAPWR=<VOAPWR>,]
[CALOPWR=<CALOPWR>,][CALTILT=<CALTILT>,][OSRI=<OSRI>,]
[ALSMODE=<ALSMODE>,][ALSRCINT=<ALSRCINT>,]
[ALSRCPW=<ALSRCPW>,][EXPGAIN=<EXPGAIN>]:[<PST>],[<SST>];
where:
•<AID> is an access identifier from the "LINE" section on page 4-29
•<RDIRN> identifies the ring directionality of the optical line; valid values are shown in the "RDIRN_MODE" section on page 4-83
•<VOAATTN> indicates the value of calibrated attenuation for the VOA. The range is 0.0 to +3.0. <VOAATTN> is a float
•<VOAPWR> indicates the value of calibrated output power that the VOA is going to set as a result of its attenuation. <VOAPWR> is a float
•<CALOPWR> indicates the value of the calibrated optical power expected for the output line added to the calculated value which equals the total expected output power; <CALOPWR> is a float
•<CALTILT> indicates the amplifier calibration tilt offset added to the calculated reference value. <CALTILT> is an integer and optional
•<OSRI> indicates the OSRI enable or disable feature. <OSRI> is optional and present only on a port where the safety is supported; valid values are shown in the "ON_OFF" section on page 4-76
•<ALSMODE> indicates if the Automatic Laser Shutdown is enabled or disabled. It is an optional parameter present only on the port where the safety is supported; valid values are shown in the "ALS_MODE" section on page 4-49
•<ALSRCINT> indicates the ALS recovery interval. The range is 100-300 seconds. <ALSRCINT> is optional, present only on the port where the safety is supported; <ALSRCINT> is an integer
•<ALSRCPW> indicates the ALS recovery pulse width. The range is 2-100 seconds, in increments of 100ms, e.g. 30.1. <ALSRCPW> is optional, present only on the port where the safety is supported; <ALSRCPW> is a float
•<EXPGAIN> indicates the gain expected value to be reached from an amplifier when the node works in a DWDM access network. <EXPGAIN> is a float expressed in dBm and is optional
•<PST> primary state; valid values are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values are shown in the "SST" section on page 4-86
|
Input Example
|
ED-OTS:PENNGROVE:LINE-6-1:114:::RDIRN=W-E,VOAATTN=5.0,
VOAPWR=10.0,CALOPWR=0,CALTILT=0,OSRI=N,ALSMODE=Y,
ALSRCINT=30,ALSRCPW=35.1,EXPGAIN=-5.0:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.57 ED-PID: Edit Password
This command allows a user to change his or her own password.
Notes:
1. Passwords are masked for the following security commands: ACT-USER, ED-PID, ENT-USER-SECU and ED-USER-SECU. Access to a TL1 session via any means will have the password masked. The CTC Request History and Message Log will also show the masked commands. When a password-masked command is re-issued by double-clicking the command from CTC Request History, the password will still be masked in the CTC Request History and Message Log. The actual password that was previously issued will be sent to the NE. To use a former command as a template only, single-click the command in CTC Request History. The command will be placed in the Command Request text box, where you can edit the appropriate fields prior to re-issuing it.
2. The password will not appear in the TL1 log on the NE.
3. For the ED-PID command:
ED-PID:[TID]:<UID>:[CTAG]::<OLDPID>,<NEWPID>;
the syntax of <OLDPID> is not checked. The <NEWPID> is required to follow Telcordia standards (i.e., 10 characters maximum including 1 letter, 1 number, and any one of the following characters: #, %, or +). The <OLDPID> must match what is in the database.
Section
|
ED-PID Description
|
Category
|
Security
|
Security
|
Retrieve
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-USER-SECU
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
ED-PID:[<TID>]:<UID>:<CTAG>::<OLDPID>,<NEWPID>;
where:
•<UID> is the user identifier and is a string; <UID> is any combination of up to 10 alphanumeric characters
•<OLDPID> is the old password and is a string; <OLDPID> is any combination of up to 10 alphanumeric characters. The syntax of <OLDPID> is not checked for backwards compatibility
•<NEWPID> is the user login password and is a string; <NEWPID> is a minimum of 6, maximum of 10 alphanumeric characters including at least one digit and one special character (%, #, or +)
Note CTC allows <UID> and <PID> of up to 20 characters. The 20 character CTC-entered <UID> and <PID> are not valid TL1 <UID> and <PID>.
|
Input Example
|
ED-PID:CISCO:UID:123::OLDPWD,NEWPWD;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.58 ED-SYNCN: Edit Synchronization
This command edits the synchronization reference list used to determine the sources for the NE's reference clock and the BITS output clock. For each clock, up to three synchronization sources may be specified (e.g., PRIMARY, SECOND, THIRD).To view or edit the system timing mode, use the RTRV-NE-SYNCN or ED-NE-SYNCN commands.
Note To retrieve/set the timing mode, SSM message Set or Quality of RES information, use the RTRV-NE-SYNCN and ED-NE-SYNCN commands.
Section
|
ED-SYNCN Description
|
Category
|
Synchronization
|
Security
|
Provisioning
|
Related Messages
|
ED-BITS
ED-NE-SYNCN
OPR-SYNCNSW
REPT ALM BITS
REPT ALM SYNCN
REPT EVT BITS
REPT EVT SYNCN
RLS-SYNCNSW
|
RTRV-ALM-BITS
RTRV-ALM-SYNCN
RTRV-BITS
RTRV-COND-BITS
RTRV-COND-SYNCN
RTRV-NE-SYNCN
RTRV-SYNCN
|
Input Format
|
ED-SYNCN:[<TID>]:<AID>:<CTAG>:::[PRI=<PRI>,][SEC=<SEC>,]
[THIRD=<THIRD>][:];
where:
•<AID> is the synchronization reference to be modified and is from the "SYNC_REF" section on page 4-34
•<PRI> is the primary reference of the synchronization and is the AID from the "SYN_SRC" section on page 4-34
•<SEC> is the secondary reference of the synchronization and is the AID from the "SYN_SRC" section on page 4-34
•<THIRD> is the third reference of the synchronization and is the AID from the "SYN_SRC" section on page 4-34
|
Input Example
|
ED-SYNCN:BOYES:SYNC-NE:112:::PRI=INTERNAL,SEC=INTERNAL,
THIRD=INTERNAL;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.59 ED-T1: Edit T1
This command edits the attributes related to a DS1/T1 port.
Notes:
1. The T1 facilities on the ONS 15327 are on the XTC card.
2. This command is not allowed if the card is a protecting card.
3. If sending this command to edit TACC and any other attribute(s), and the port having the cross-connection, the (Parameters Not compatible) error message will be returned.
4. Editing TACC via an ED-xxx command is only allowed when there is no circuit/cross-connection on this port and the port/VT does not have a test access point (TAP or TACC number). Otherwise, an error message (e.g. VT in Use) will be returned.
5. TACC creation will also be denied on the protect ports/cards.
Section
|
ED-T1 Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-<OCN_TYPE>
ED-DS1
ED-EC1
ED-FC
ED-G1000
ED-T3
INIT-REG-G1000
REPT RMV <MOD2_IO>
REPT RST <MOD2_IO>
RMV-<MOD2_IO>
RST-<MOD2_IO>
|
RTRV-<OCN_TYPE>
RTRV-DS1
RTRV-EC1
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-T1:[<TID>]:<AID>:<CTAG>:::[LINECDE=<LINECDE>,][FMT=<FMT>,]
[LBO=<LBO>,][TACC=<TACC>,][TAPTYPE=<TAPTYPE>,][SOAK=<SOAK>,]
[SFBER=<SFBER>,][SDBER=<SDBER>]:[<PST>],[<SST>];
where:
•<AID> is the access identifier from the "FACILITY" section on page 4-28
•<LINECDE> is a line code; valid values for <LINECDE> are shown in the "LINE_CODE" section on page 4-68
•<FMT> is a frame format; valid values for <FMT> are shown in the "FRAME_FORMAT" section on page 4-65
•<LBO> is a line build out; valid values for <LBO> are shown in the "LINE_BUILDOUT" section on page 4-67
•<TACC> defines the STS as a test access port with a selected unique TAP number. The TAP number ranges from 0-999. When TACC is 0, the TAP is deleted; <TACC> is an integer.
•<TAPTYPE> indicates the TAP type; valid values are shown in the "TAPTYPE" section on page 4-92. The default value is DUAL
•<SOAK> OOS-AINS to IS transition soak time as measured in 15 minute intervals, so a value of 4 translates to a soak time of 1 hour. The allowable range is 0-192 intervals (maximum of 48 hours); <SOAK> is an integer
•<SFBER> identifies port SFBER; valid values are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies port SDBER; valid values are shown in the "SD_BER" section on page 4-85
•<PST> primary state; valid values for <PST> are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values for <SST> are shown in the "SST" section on page 4-86
|
Input Example
|
ED-T1:CISCO:FAC-2-1:1223:::LINECDE=AMI,FMT=ESF,LBO=0-131,
TACC=8,TAPTYPE=SINGLE,SOAK=10,SFBER=1E-4,SDBER=1E-6:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.60 ED-T3: Edit T3
This command edits the attributes related to a DS3/T3 port.
Notes:
1. T3 facilities on the ONS 15327 are on the XTC card.
2. This command is not allowed if the card is a protecting card.
3. Both FMT and Line code are not supported for T3/DS3 facility. They are supported on both the DS3XM and DS3E card. The unframed value of the framing format is only supported on the DS3E facility.
4. If sending this command to edit TACC and any other attribute(s), and the port having the cross-connection or the port/VT has a test access point (TAP or TACC number), the (Parameters Not compatible) error message will be returned.
5. Editing TACC via an ED-xxx command is only allowed when there is no circuit/cross-connection on the port and the port/VT does not have a test access point (TAP or TACC number). Otherwise, an error message (e.g. VT in Use) will be returned.
6. TACC creation will also be denied on the protect ports/cards.
7. Automatic application of loopbacks originating from the far end can be initiated on the T3 ports of a DS3E, DS3NE, or DS3XM card.
Section
|
ED-T3 Description
|
Category
|
Ports
|
Security
|
Provisioning
|
Related Messages
|
ED-<OCN_TYPE>
ED-DS1
ED-EC1
ED-FC
ED-G1000
ED-T1
INIT-REG-G1000
REPT RMV <MOD2_IO>
REPT RST <MOD2_IO>
RMV-<MOD2_IO>
RST-<MOD2_IO>
|
RTRV-<OCN_TYPE>
RTRV-DS1
RTRV-EC1
RTRV-FC
RTRV-FSTE
RTRV-G1000
RTRV-GIGE
RTRV-POS
RTRV-T1
RTRV-T3
|
Input Format
|
ED-T3:[<TID>]:<AID>:<CTAG>:::[FMT=<FMT>,][LINECDE=<LINECDE>,]
[LBO=<LBO>,][INHFELPBK=<INHFELPBK>,][TACC=<TACC>,]
[TAPTYPE=<TAPTYPE>,][SOAK=<SOAK>,][SFBER=<SFBER>,]
[SDBER=<SDBER>]:[<PST>],[<SST>];
where:
•<AID> indicates a facility AID from the "FACILITY" section on page 4-28
•<FMT> is a frame format and the unframed value of the framing format is only supported for the DS3E; valid values for <FMT> are shown in the "DS_LINE_TYPE" section on page 4-57
•<LINECDE> is a line code; valid values for <LINECDE> are shown in the "DS_LINE_CODE" section on page 4-57
•<LBO> is a line buildout; valid values for <LBO> are shown in the "E_LBO" section on page 4-58
•<INHFELPBK> identifies the Far End Loopback Inhibition attribute of the port. If it is Y, then automatic far end loopbacks are inhibited. It is either on or off. The system default is Y. Valid values are shown in the "ON_OFF" section on page 4-76; <INHFELPBK> is optional
•<TACC> defines the STS as a test access port with a selected unique TAP number. The TAP number ranges from 0-999. When TACC is 0, the TAP is deleted; <TACC> is an integer
•<TAPTYPE> indicates the TAP type; valid values are shown in the "TAPTYPE" section on page 4-92 and the default is DUAL
•<SOAK> OOS-AINS to IS transition soak time as measured in 15 minute intervals, so a value of 4 translates to a soak time of 1 hour. The allowable range is 0-192 intervals (maximum of 48 hours); <SOAK> is an integer
•<SFBER> identifies port SFBER; valid values are shown in the "SF_BER" section on page 4-86
•<SDBER> identifies port SDBER; valid values are shown in the "SD_BER" section on page 4-85
•<PST> primary state; valid values for <PST> are shown in the "PST" section on page 4-83
•<SST> secondary state; valid values for <SST> are shown in the "SST" section on page 4-86
|
Input Example
|
ED-T3:CISCO:FAC-1-2:123:::FMT=C-BIT,LINECDE=B3ZS,LBO=0-225,
INHFELPBK=N,TACC=8,TAPTYPE=SINGLE,SOAK=10,SFBER=1E-4,
SDBER=1E-6:OOS,AINS;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.61 ED-TRC-CLNT: Edit Trace Client
(Cisco ONS 15454 only)
This command edits trace-related attributes on client facilities.
See the "Provisioning Rules for MXP_2.5G_10G and TXP_MR_10G Cards" section on page 1-8 and the "Provisioning Rules for TXP_MR_2.5G and TXPP_MR_2.5G Cards" section on page 1-13 for specific card provisioning rules.
Section
|
ED-TRC-CLNT Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-OCH
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-TRC-CLNT:[<TID>]:<SRC>:<CTAG>:::[EXPTRC=<EXPTRC>,]
[TRC=<TRC>,][TRCMODE=<TRCMODE>,][TRCLEVEL=<TRCLEVEL>,]
[TRCFORMAT=<TRCFORMAT>][:];
where:
•<SRC> is the AID from the "FACILITY" section on page 4-28 and must not be null
•<EXPTRC> indicates the expected path trace message (OTUK-path,J0-section, for example) contents. <EXPTRC> is any 64-character string, including the termination CR (carriage return) and LF (line feed). <EXPTRC> is a string and a null value is equivalent to ALL
•<TRC> identifies the path trace message to be transmitted. The TRC is any combination of 64 characters, including the terminating CR and LF. The trace byte (OTUK-path,J0-section, for example) continuously transmits a 64-byte string, one byte at a time. A null value defaults to the NE transmitting null characters (Hex 00). <TRC> is a string and a null value is equivalent to ALL
•<TRCMODE> indicates the trace mode and defaults to the OFF mode; valid values are shown in the "TRCMODE" section on page 4-94 and a null value is equivalent to ALL
•<TRCLEVEL> indicates the level of trace: valid values are shown in the "TRCLEVEL" section on page 4-93 and a null value is equivalent to ALL
•<TRCFORMAT> indicates the trace message size; valid values are shown in the "TRCFORMAT" section on page 4-93. A null value is equivalent to ALL
|
Input Example
|
ED-TRC-CLNT:CISCO:FAC-6-1:10:::EXPTRC="AAA",TRC="AAA",
TRCMODE=MAN,TRCLEVEL=J0,TRCFORMAT=16-BYTE;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.62 ED-TRC-OCH: Edit Trace Optical Channel Facilities
(Cisco ONS 15454 only)
The command edits trace-related optical channel facilities.
See the "Provisioning Rules for MXP_2.5G_10G and TXP_MR_10G Cards" section on page 1-8 and the "Provisioning Rules for TXP_MR_2.5G and TXPP_MR_2.5G Cards" section on page 1-13 for specific card provisioning rules.
Section
|
ED-TRC-OCH Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ENT-FFP-CLNT
ENT-LNK-<MOD2O>
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ED-TRC-OCH:[<TID>]:<SRC>:<CTAG>:::[EXPTRC=<EXPTRC>,]
[TRC=<TRC>,][TRCMODE=<TRCMODE>,][TRCLEVEL=<TRCLEVEL>,]
[TRCFORMAT=<TRCFORMAT>][:];
where:
•<SRC> is the AID from the "CHANNEL" section on page 4-19
•<EXPTRC> indicates the expected path trace message (OTUK-path,J0-section, for example) contents. The <EXPTRC> is any 64-character string, including the termination CR (carriage return) and LF (line feed). <EXPTRC> is a string
•<TRC> identifies the path trace message to be transmitted. The TRC is any combination of 64 characters, including the terminating CR and LF. The trace byte (OTUK-path, J0-section, for example) continuously transmits a 64-byte string, one byte at a time. A null value defaults to the NE transmitting null characters (Hex 00). <TRC> is a string
•<TRCMODE> identifies the trace mode and defaults to the OFF mode; valid values are shown in the "TRCMODE" section on page 4-94
•<TRCLEVEL> is a string
•<TRCFORMAT> indicates the size of the trace message: valid values are shown in the "TRCFORMAT" section on page 4-93
|
Input Example
|
ED-TRC-OCH:CISCO:CHAN-6-2:10:::EXPTRC="AAA",TRC="AAA",
TRCMODE=MAN,TRCLEVEL=TTI-PM,TRCFORMAT=64-BYTE;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.63 ED-UCP-CC: Edit Unified Control Plane Control Channel
(Cisco ONS 15454 only)
This command edits UCP IP control channel attributes.
Notes:
1. If sending this command with invalid data, an IIAC (Status, Invalid Data) error message is returned.
2. If sending this command to provision MTU, CRCMD, or both while the IPCC type is routed (CCTYPE=ROUTED), an IIAC (Routed CC Is Not Allowed to Provision MTU & CRCMD) error message is returned.
Section
|
ED-UCP-CC Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-CC
DLT-UCP-IF
DLT-UCP-NBR
ED-UCP-IF
ED-UCP-NBR
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
|
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
ED-UCP-CC:[<TID>]:<AID>:<CTAG>:::[LOCALIPCC=<LOCALIPCC>,]
[REMOTEIPCC=<REMOTEIPCC>,][LMPHELLOINT=<LMPHELLOINT>,]
[LMPHELLODEADINT=<LMPHELLODEADINT>,][MTU=<MTU>,]
[CRCMD=<CRCMD>][:];
where:
•<AID> indicates an individual IPCC ID; <AID> is the AID from the "IPCC" section on page 4-29
•<LOCALIPCC> indicates the local IP address of the control channel and is a string
•<REMOTEIPCC> indicates the remote IP address of the control channel and is a string
•<LMPHELLOINT> indicates the LMP (line management protocol) interval (in milliseconds) and is an integer. It is the time between hello messages sent by this node.
•<LMPHELLODEADINT> indicates the control channel time-out interval (in milliseconds) by the neighbor if the neighbor does not receive the hello message; <LMPHELLODEADINT> is an integer
•<MTU> indicates the MTU size of this control channel and is an integer
•<CRCMD> indicates the CRC mode for this control channel. It is applicable to IPCCs in SDCC type.Valid values for <CRCMD> are shown in the "UCP_CRC_MODE" section on page 4-96
|
Input Example
|
ED-UCP-CC:CISCO:CC-9:CTAG:::LOCALIPCC=172.20.209.31,
REMOTEIPCC=172.20.209.15,LMPHELLOINT=1,LMPHELLODEADINT=5,
MTU=1500,CRCMD=16-BIT;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.64 ED-UCP-IF: Edit Unified Control Plane Interface
(Cisco ONS 15454 only)
This command edits UCP interface attributes.
Note If you send invalid data with this command, an IIAC (Status, Invalid Data) error message is returned.
Section
|
ED-UCP-IF Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-CC
DLT-UCP-IF
DLT-UCP-NBR
ED-UCP-CC
ED-UCP-NBR
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
|
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
ED-UCP-IF:[<TID>]:<AID>:<CTAG>:::[TNATYPE=<TNATYPE>,]
[TNAADDR=<TNAADDR>,][CORENETWORKID=<CORENETWORKID>][:];
where:
•<AID> indicates the interface port index of the data link; <AID> is the AID from the "FACILITY" section on page 4-28
•<TNATYPE> indicates the TNA (transport network administered) type; valid values for <TNATYPE> are shown in the "UCP_TNA_TYPE" section on page 4-96
•<TNAADDR> indicates the TNA (transport network administered) IP address and is a string
•<CORENETWORKID> is an integer
|
Input Example
|
ED-UCP-IF:CISCO:FAC-2-1:CTAG:::TNATYPE=IPV4,
TNAADDR=172.20.209.73,CORENETWORKID=9;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.65 ED-UCP-NBR: Edit Unified Control Plane Neighbor
(Cisco ONS 15454 only)
This command edits a UCP neighbor.
The default value of the node name can be overwritten by the TL1 user to a string in a maximum size of 20 characters. If the node name includes non-identified TL1 characters (e.g. space), the text string format with the double quotes is required.
Example:
ENT-UCP-NBR::NBR-18:CTAG:::NBRIX=18,NODEID=192.168.101.18,
NAME=NeibhgorName,NDEN=N,HELLOEN=Y,HELLOINT=5, REFREDEN=Y;
Notes:
1. If this command is sent twice or input with invalid data, a SRQN (Status, Invalid Request) error message is returned.
2. If sending this command without neighbor node name in the "NAME" field, an IIAC (Neighbor Name Cannot Be Empty) error message is returned.
3. If sending this command to set the hello interval while the RSVP hello is disabled, an IIAC (HELLOINT Is Not Allowed If HELLOEN Is Disabled) error message is returned.
Section
|
ED-UCP-NBR Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-CC
DLT-UCP-IF
DLT-UCP-NBR
ED-UCP-CC
ED-UCP-IF
ED-UCP-NODE
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
|
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
ED-UCP-NBR:[<TID>]:<AID>:<CTAG>:::[NAME=<NAME>,]
[HELLOEN=<HELLOEN>,][HELLOINT=<HELLOINT>,]
[REFREDEN=<REFREDEN>][:];
where:
•<AID> indicates an individual neighbor index of the UCP. An available neighbor index will be assigned internally while sending this command without AID; <AID> is the AID from the "NBR" section on page 4-30
•<NAME> indicates the neighbor node name. It defaults to the ASCII representation of the node ID in this command. The default value of this node name can be overwritten by the TL1 user to a string in a maximum size of 20 characters. If the node name includes non-identified TL1 characters (e.g. space), the text string format with the double quotes is required. Node name is a string. The default value is "defaults to the nodeid ASCII representation". <NAME> is a string. The default value is "the ASCII representation of the nodeid". <NAME> is a string
•<HELLOEN> indicates if the RSVP hello enabled to this neighbor or not; valid values for <HELLOEN> are shown in the "ON_OFF" section on page 4-76
•<HELLOINT> indicates the interval between hello messages to neighbor; <HELLOINT> is an integer
•<REFREDEN> indicates if the refresh reduction is enabled or not; valid values for <REFREDEN> are shown in the "EXT_RING" section on page 4-65
|
Input Example
|
ED-UCP-NBR:CISCO:NBR-8:CTAG:::NAME=NODE-B,HELLOEN=Y,
HELLOINT=20,REFREDEN=N;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.66 ED-UCP-NODE: Edit Unified Control Plane Node
(Cisco ONS 15454 only)
This command edits the UCP node level attributes.
The nodeid is the unique number used to identify the local node in LMP, RSVP messages sent to the neighbors. It defaults to the local ethernet interface address (ISA).
The retry initial interval (in seconds) is used for that have been released by the net work side. This interval has a range of 60 seconds (1 minute) to 1800 seconds (30 minutes), with a default value of 180 seconds.
The retry max interval (in seconds) is used for released circuits. The node will back off exponentially from the initial retry interval to this maximum value of 600 seconds (10 minutes).
The restart time is used to be signaled to neighbors. It indicates the time taken by this node (in seconds) to restart. This timer has a range of 1 second to 10 seconds with a default of 5 seconds.
The recovery time is used to be signaled to neighbors. It indicates the time taken by this node (in seconds) to re-sync path, reservation state with a given neighbor. This timer has a range of 300 seconds (5 minutes) to 1800 seconds (30 minutes) and a default value of 600 seconds (10 minutes).
The transmit interval is used to retransmit un-acknowledged messages. This timer has a range of 1 second to 7 seconds with a default value of 1 second.
The refresh interval is used to refresh path, reservation state. This interval has a range of 30 seconds to 4060800 seconds (47 days) with a default value of 30 seconds.
The timeout RESV CONF interval is used to wait for a RESV CONF message in response to a RESV message. This interval has a range of 10-180 seconds with a default value of 60 seconds.
The Source Deletion in Progress is a timeout interval while the source is in the process of cleanly deleting a call. This interval has a range of 1--180 seconds with a default value of 60 seconds.
The Destination Deletion progress is a timeout interval while the destination is in the progress of cleanly deleting a call. This interval has a range of 1-180 seconds with a default value of 60 seconds.
Notes:
1. If the retry initial interval is set to zero, it will be interpreted as having the retry procedure disable.
2. The retry maximum interval has to be set to a higher value than the initial retry interval.
Section
|
ED-UCP-NODE Description
|
Category
|
UCP
|
Security
|
Provisioning
|
Related Messages
|
DLT-UCP-CC
DLT-UCP-IF
DLT-UCP-NBR
ED-UCP-CC
ED-UCP-IF
ED-UCP-NBR
ENT-UCP-CC
ENT-UCP-IF
ENT-UCP-NBR
|
REPT ALM UCP
REPT EVT UCP
RTRV-ALM-UCP
RTRV-COND-UCP
RTRV-UCP-CC
RTRV-UCP-IF
RTRV-UCP-NBR
RTRV-UCP-NODE
|
Input Format
|
ED-UCP-NODE:[<TID>]::<CTAG>:::[NODEID=<NODEID>,]
[INITRETRY=<INITRETRY>,][MAXRETRY=<MAXRETRY>,]
[RESTARTTM=<RESTARTTM>,][RECOVTM=<RECOVTM>,]
[RXMTINT=<RXMTINT>,][RFRSHINT=<RFRSHINT>,]
[RESVTIMEOUT=<RESVTIMEOUT>,]
[RESVCONFTIMEOUT=<RESVCONFTIMEOUT>,]
[SOURCEDIP=<SOURCEDIP>,][DESTINATIONDIP=<DESTINATIONDIP>][:];
where:
•<NODEID> indicates the node IP address and is a string
•<INITRETRY> indicates the circuit retry initial interval (in seconds) and is an integer
•<MAXRETRY> indicates the circuit maximum retry initial interval (in seconds) and is an integer
•<RESTARTTM> indicates the restart time taken by this local node; <RESTARTTM> is an integer and the default value is 5 seconds.
•<RECOVTM> indicates the circuit retry maximum interval (in seconds) and is an integer
•<RXMTINT> indicates the interval for re-transmitting un-acknowledged messages and is an integer
•<RFRSHINT> indicates the interval for refreshing path, reservation state and is an integer
•<RESVTIMEOUT> indicates the timeout interval for waiting for a reservation message in response to a PATH message; <RESVTIMEOUT> is an integer
•<RESVCONFTIMEOUT> indicates the timeout interval for waiting for a RESV CONF message in response to a RESV message; <RESVCONFTIMEOUT> is an integer
•<SOURCEDIP> indicates the timeout interval of the SourceDip (Source Deletion in Progress) while the source is in the process of cleanly deleting a call; <SOURCEDIP> is an integer
•<DESTINATIONDIP> indicates the timeout interval of the DestinationDip (Destination Deletion in Progress) while the destination is in the process of cleanly deleting a call; <DESTINATIONDIP> is an integer
|
Input Example
|
ED-UCP-NODE:CISCO::CTAG:::NODEID=192.168.100.52,INITRETRY=180,
MAXRETRY=600,RESTARTTM=5,RECOVTM=600,RXMTINT=1,
RFRSHINT=30,RESVTIMEOUT=60,RESVCONFTIMEOUT=60,
SOURCEDIP=60,DESTINATIONDIP=60;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.67 ED-USER-SECU: Edit User Security
This command edits a user's privileges, password, or ID. Only a Superuser may perform this operation. Privilege levels are described in the ENT-USER-SECU command.
Notes:
1. Passwords are masked for the following security commands: ACT-USER, ED-PID, ENT-USER-SECU and ED-USER-SECU. Access to a TL1 session via any means will have the password masked. The CTC Request History and Message Log will also show the masked commands. When a password-masked command is re-issued by double-clicking the command from CTC Request History, the password will still be masked in the CTC Request History and Message Log. The actual password that was previously issued will be sent to the NE. To use a former command as a template only, single-click the command in CTC Request History. The command will be placed in the Command Request text box, where you can edit the appropriate fields prior to re-issuing it.
2. Although the CTC allows both <UID> and <PID> of up to 20 characters, the CTC-entered users (<UID>, <PID>) are not valid TL1 users (e.g., if issuing an ACT-USER command and using the CTC-entered <UID> that is greater than 10 characters long, TL1 will respond with DENY.
3. For the ED-USER-SECU command;
ED-USER-SECU:[TID]:<UID>:[CTAG]::[<NEWUID>],[<NEWPID>],,[<UAP>]:;
a. If the <NEWPID> is specified, the syntax is checked.
b. The syntax of <UID> is not checked.
c. Old users can change their password without changing their userid, but the new password must meet the new requirements.
d. The <NEWPID> is required when changing the <USERID>.
Section
|
ED-USER-SECU Description
|
Category
|
Security
|
Security
|
Superuser
|
Related Messages
|
ACT-USER
ALW-MSG-SECU ALW-USER-SECU
CANC
CANC-USER
CANC-USER-SECU DLT-USER-SECU
ED-CMD-SECU
ED-PID
ENT-USER-SECU
|
INH-MSG-SECU
INH-USER-SECU
REPT ALM SECU
REPT EVT SECU
REPT EVT SESSION
RTRV-CMD-SECU
RTRV-DFLT-SECU
RTRV-USER-SECU
SET-ATTR-SECUDFLT
|
Input Format
|
ED-USER-SECU:[<TID>]:<UID>:<CTAG>::[<NEWUID>],[<NEWPID>],,
[<UAP>][:];
where:
•<UID> is the user identifier and is a string. The minimum <UID> size is 6, the maximum UID size is 10
•<NEWUID> is the new user identifier and is a string. The minimum <UID> size is 6, the maximum PID size is 10
•<NEWPID> is a new password and is a string; <NEWPID> is a minimum of 6, maximum of 10
•<UAP> is a user access privilege; valid values for <UAP> are shown in the "PRIVILEGE" section on page 4-82
Note CTC allows <UID> and <PID> of up to 20 characters. The 20 character CTC-entered <UID> and <PID> are not valid TL1 <UID> and <PID>.
|
Input Example
|
ED-USER-SECU:PETALUMA:CISCO15:123::NEWUID,NEWPID,,MAINT;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.68 ED-WDMANS: Edit Wavelength Division Multiplexing Automatic Node Setup
(Cisco ONS 15454 only)
This command edits the optical node setup application (AONS) attributes.
Section
|
ED-WDMANS Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
RTRV-WDMANS
|
|
Input Format
|
ED-WDMANS:[<TID>]:<AID>:<CTAG>:::[POWER-IN=<POWERIN>,]
[POWER-OUT=<POWEROUT>,][POWER-EXP=<POWEREXP>,]
[POWER-DROP=<POWERDROP>,][SYS-TYPE=<SYSTYPE>,]
[RING-TYPE=<RINGTYPE>];
where:
•<AID> is the AID from the "WDMANS" section on page 4-36
•<POWERIN> is the input power for OADM section of an OADM optical network element; <POWERIN> is a float expressed in dBm
•<POWEROUT> output power for OADM section or Mux/Demux of HUB, TERMINAL, or OADM optical network elements; <POWEROUT> is a float expressed in dBm
•<POWEREXP> is the express power for mux/demux section of a HUB or TERMINAL optical network element; <POWEREXP> is a float expressed in dBm
•<POWERDROP> is the drop power for mux/demux section of a HUB or TERMINAL optical network element; <POWERDROP> is a float expressed in dBm
•<SYSTYPE> is the type of interconnected fiber between two adjacent nodes and the length category between them; valid values are shown in "SYS_TYPE" section on page 4-90
•<RINGTYPE> is the type of network where the DWDM node is installed; valid values are shown in the "DWDM_RING_TYPE" section on page 4-58
|
Input Example
|
ED-WDMANS:PENNGROVE:WDMANS-W:114:::POWER-IN=10.0,
POWER-OUT=10.0,POWER-EXP=10.0,POWER-DROP=10.0,
SYS-TYPE=SMF-28-SR,RING-TYPE=METRO-CORE;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.69 ED-WLEN: Edit Wavelength
(Cisco ONS 15454 only)
This command edits WLEN (wavelength) provisioning.
Notes:
1. The fields after CTAG (trailing colons) are optional.
2. This command does not support multiple editing of WLEN provisioning.
3.4.70 ENT-<MOD_RING>: Enter BLSR
This command creates either a two-fiber or four-fiber BLSR.
Note The ONS 15327 does not support four-fiber BLSR.
Note <RINGID> defaults to the string of the AID format of BLSR-string.
Input examples:
Four-fiber BLSR:
ENT-BLSR:PETALUMA:BLSR-2:123:::RINGID=2,NODEID=3,MODE=4F,RVRTV=Y,RVTM=5.0,
SRVRTV=Y,SRVTM=5.0,EASTWORK=FAC-5-1,WESTWORK=FAC-6-1,EASTPROT=FAC-12-1,
WESTPROT=FAC-13-1:;
Two-fiber BLSR:
ENT-BLSR:PETALUMA:BLSR-4:123:::RINGID=4,NODEID=6,MODE=2F,RVRTV=Y,RVTM=5.0,
EASTWORK=FAC-5-1,WESTWORK=FAC-6-1:;
Error conditions:
1. If RINGID is different from the string presented in the AID format, an IIAC (RingId Does Not Match With AID) error message is returned.
2. Both <EASTPROT> and <WESTPROT> are optional, but required for 4-fiber BLSR creation.
3. If sending this command to create a BLSR with an out of range nodeid or ringid, an IIAC (Invalid NodeId) or (Invalid RingId) error message will be returned.
4. If sending this command to create 4-fiber BLSR on OC12 cards, or 2-fiber BLSR on OC3 cards, an IIAC (Input, Invalid work/prot port) error message will be returned.
5. If sending this command to create a BLSR on an NE that already has five BLSRs, a SRQN (BLSR Creation Failed) error message will be returned because one NE is only allowed to have up to five BLSRs in this release (R4.6).
6. If sending this command to create a BLSR on a port with 1+1, a SRQN (BLSR Creation Failed) error message will be returned.
7. If the system fails on getting IOR, an SROF (Get IOR Failed) error message is returned.
8. If the AID is invalid, an IIAC (Invalid AID) error message is returned.
9. The ALL AID is invalid for this command.
10. If any facility requested in this command is in use, an SPLD (Facility is Busy) error message is returned.
11. The SRQN (BLSR Creation Failed) error message is returned for an invalid creation query.
12. If sending this command to provision the mode with an invalid BLSR mode, an IIDT (Invalid BSLR Mode) error message is returned.
13. If sending this command to modify SRVRTV or SRVTM on the two-fiber BLSR, an IDNV (Invalid Data for 2F-BLSR) error message is returned.
14. If sending this command to provision the nodeid with invalid data, an IIAC (Invalid NodeId) error message is returned.
15. If sending this command to provision the ringid with invalid data, an IIAC (Invalid RingId) error message is returned.
16. If sending this command with invalid working AID, an IIDT (Invalid BLSR Working Facility) error message is returned.
17. If sending this command with invalid protection AID, an IIDT (Invalid BLSR Protect Facility) error message is returned.
18. If changing the BLSR nodeid with a duplicated ID, a SROF (Cannot Set NodeId) error message is returned.
Section
|
ENT-<MOD_RING> Description
|
Category
|
BLSR
|
Security
|
Provisioning
|
Related Messages
|
DLT-<MOD_RING> ED-<MOD_RING> EX-SW-<OCN_BLSR>
|
RTRV-<MOD_RING> RTRV-TRC-<OCN_BLSR>
|
Input Format
|
ENT-<MOD_RING>:[<TID>]:<AID>:<CTAG>:::[RINGID=<RINGID>,]
NODEID=<NODEID>,MODE=<MODE>,[RVRTV=<RVRTV>,]
[RVTM=<RVTM>,][SRVRTV=<SRVRTV>,][SRVTM=<SRVTM>,]
EASTWORK=<EASTWORK>,WESTWORK=<WESTWORK>,
[EASTPROT=<EASTPROT>,][WESTPROT=<WESTPROT>];
where:
•<AID> identifies the BLSR of the NE. "ALL" or "BLSR-ALL" AID is not allowed for editing BLSR. This command only supports a single BLSR AID. <AID> is the AID from the "AidUnionId" section on page 4-15
•<RINGID> identifies the BLSR ring ID of the NE. It is a string of up to six characters, valid characters are [A-Z, 0-9]. The default value is "# of AID BLSR-#"
•<NODEID> identifies the BLSR node ID of the NE and is an integer. It ranges from 0-31
•<MODE> identifies the BLSR mode; valid values for <MODE> are shown in the "BLSR_MODE" section on page 4-50
•<RVRTV> identifies the revertive mode and defaults to Y (revertive mode). Valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76. The default value is Y.
•<RVTM> identifies the revertive time and defaults to 5.0. Valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84; the default value is 5.0
•<SRVRTV> identifies the span revertive mode for 4-fiber BLSR only. <SRVRTV> defaults to Y (revertive mode); valid values are shown in the "ON_OFF" section on page 4-76. The default value is Y.
•<SRVTM> identifies the span revertive time for 4-fiber BLSR only. <SRVTM> defaults to 5.0 and valid values are shown in the "REVERTIVE_TIME" section on page 4-84. The default value is 5.0
•<EASTWORK> identifies the east working facility and is the AID from the "FACILITY" section on page 4-28
•<WESTWORK> identifies the west working facility and is the AID from the "FACILITY" section on page 4-28
•<EASTPROT identifies the east protecting facility and is the AID from the "FACILITY" section on page 4-28
•<WESTPROT> identifies the west protecting facility and is the AID from the "FACILITY" section on page 4-28
|
Input Example
|
ENT-BLSR:PETALUMA:BLSR-2:123:::RINGID=2,NODEID=1,MODE=4F,
RVRTV=Y,RVTM=5.0,SRVRTV=Y,SRVTM=5.0,EASTWORK=FAC-5-1,
WESTWORK=FAC-6-1,EASTPROT=FAC-12-1,WESTPROT=FAC-13-1;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.71 ENT-CRS-<PATH>: Enter Cross Connection (STS1, STS3C, STS6C, STS9C, STS12C, STS24C, STS48C, STS192C, VT1, VT2)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command creates an STS cross-connection with a cross-connection type (CCT).
When a path protection cross-connection is created, the path presented by the first AID is configured to be the preferred path. For example, the AID (F1) of the cross-connection (created by ENT-CRS-STS1::F1&F2,T1:123;) is the preferred path.
Notes:
1. The default cross-connection type is 2-way
2. If a path is already in a connection, it cannot be in another connection even if the other is a 1-way and the new one will be 1-way the other direction.
3. This command does not support creating multiple STS cross-connections.
4. The path protection cross STS connection can be created by using "&" in the AID fields of this command.
a. The following command is used to create a 1-way selector or 2-way selector and bridge with:
from points: F1, F2
to points: T1
ENT-CRS-{STS_PATH}:[<TID>]:F1&F2,T1:<CTAG>::[<CCT>];
b. The following command is used to create a 1-way bridge or 2-way selector and bridge with:
from point: F1
to points: T1, T2
ENT-CRS-{STS_PATH}:[<TID>]:F1,T1&T2:<CTAG>::[<CCT>];
c. The following command is used to create a 1-way subtending path protection connection or 2-way subtending path protection connection with:
from point: F1, F2
to points: T1, T2
ENT-CRS-{STS_PATH}:[<TID>]:F1&F2,T1&T2:<CTAG>::[<CCT>];
d. The following command is used to create a 2-way selector and bridge with:
from point: F1,F2 (F1 is the working side, F2 is the protect side)
selector points: S1, S2 (S1 is the working side, S2 is the protect side)
ENT-CRS-{STS_PATH}:[<TID>]:F1&F2,S1&S2:<CTAG>::2WAY;
e. The following command is used to create a path protection IDRI Cross-Connection:
ENT-CRS-{STS_PATH}:[<TID>]:A&B,C&D:<CTAG>::2WAYDC;
A-Path on ring X to which traffic from ring Y is bridged
B-Path on ring X to which traffic from the same ring is bridged
C-Path on ring Y to which traffic from ring X is bridged
D-Path on ring Y to which traffic from the same ring is bridged
A, B, C, and D have a positional meaning. Connection type 2WAYDC is used for path protection IDRI cross-connections.
f. The following command is used to create a path protection DRI Cross-Connection:
ENT-CRS-{STS_PATH}:[<TID>]:A&B,C:<CTAG>::2WAYDC;
A-Path on ring X to which traffic from ring Y is bridged
B-Path on ring X to which traffic from the same ring is bridged
C-Traffic to and from ring Y
A, B, C, and D have a positional meaning. Connection type 2WAYDC is used for path protection DRI cross-connections.
5. All A&B AIDs in the TL1 cross-connection command are in the format of WorkingAID&ProtectAID.
6. To establish a cross-connection on a 2-fiber protection path or on a 4-fiber protection channel, the PCA connection type (1WAYPCA or 2WAYPCA) is required.
7. If you send a PCA cross-connection type on the non-PCA AIDs, the IIAC error message is returned.
8. If you send a non-PCA cross-connection type on the PCA AIDs, the IIAC error message is returned.
9. The facility AID is only valid on slots holding a G1000-4 card.
10. The virtual facility AID (VFAC) is only valid on slots holding an M-series card.
3.4.72 ENT-EQPT: Enter Equipment
This command enters the card type and attributes for a given equipment slot in the NE. It also automatically enters all facilities supported by the card, assigning default values to all facility and path attributes.
The command supports optional parameters: RVTM (revertive time), RVRTV (revertive behavior), PROTID (unique protection ID) and PRTYPE (protection type) for configuring the card in an equipment protection group. PRTYPE can be 1:1 and 1:N. These parameters can only be entered for a working AID. The protect card must already be provisioned before creating the protection group.
1:1 protection involves the odd slot protecting the even slot. The work-protect pair is as follows (2-1, 4-3, 6-5, 16-17, 14-15, 12-13). DS1, DS3, DS3XM, DS3N, DS3E, EC1 and other electrical cards support 1:1 protection. The value of PROTID is the protecting slot and is of the form "slot-x". This command creates a 1:1 protection group. If the command has the optional parameters for creating a protection group and the protection group cannot be created due to an error condition, provisioning of the equipment fails.
The PROTID slot must be provisioned first.
To create 1:1 with the ENT-EQPT command, the working card should not be provisioned first, so the AID type field should be presented in ENT-EQPT for the AID on this <AID>.
The following is an example for a 1:1 protection group:
ENT-EQPT:[<TID>]:SLOT-1:<CTAG>::DS1;
ENT-EQPT:[<TID>]:SLOT-2:<CTAG>::DS1:PROTID=SLOT-1,PRTYPE=1-1,RVTM=5.0,
RVRTV=Y;
1:N protection is always revertive. For 1:N protection, the protect slot can only be Slot 3 or Slot 15. For a protect card in Slot 3, the working cards can be in any of the slots on Bank A. Slot 15 is for protection in Bank B. A DSXN (DS1N or DS3N) card must be provisioned in the protect slot. A 1:1 protection cannot be upgraded to 1:N protection. This command creates a 1:N protection group or adds a new card to an existing 1:N protection group. Multiple working AIDs can be entered in a protection group.
The following is an example of provisioning a 1:N protection group with the ENT-EQPT command:
ENT-EQPT:[<TID>]:SLOT-3:<CTAG>::DS1N;
ENT-EQPT:[<TID>]:SLOT-2&SLOT-1:<CTAG>::DS1:PROTID=SLOT-3,PRTYPE=1-N;
The following is an example of provisioning a 1:N protection group with the ED-EQPT command:
ENT-EQPT:[<TID>]:SLOT-1&SLOT-2:<CTAG>::DS1;
ENT-EQPT:[<TID>]:SLOT-3:<CTAG>::DS1N;
ED-EQPT:[<TID>]:SLOT-2&SLOT-1:<CTAG>:::PROTID=SLOT-1,PRTYPE=1-N;
If the provisioning fails for some AIDs, PRTL responses will be provided indicating failed AIDs. If the provisioning fails for all the AIDs, a DENY response will be provided. For both CMPLD and PRTL responses on creating protection group query, the protection group has been created for the successful AID(s) query.
The following is an example for 1:N protection. The RVRTV parameter is not valid for 1:N protection.
ENT-EQPT:[<TID]>:SLOT-2:<CTAG>:::PROTID=SLOT-3,PRTYPE=1-N,RVTM=5.0;
Both ENT-EQPT and ED-EQPT commands can provision all working AIDs (1-5) together for 1:N by using listed AIDs.
The ENT-EQPT command provisions a new card and adds it to the protection group. The ED-EQPT command adds the already provisioned cards to the protection group.
Protect AID should already be provisioned for either command because protection group parameters are not supported for the protect AID.
The ENT-EQPT command provisions an equipment successfully on an empty slot if the equipment type is compatible with the slot number. This command can have the optional parameters in the "f" block to provision a card as a working card. It has the effect of adding the protection behavior at the time of provisioning itself. For the protection provisioning to succeed, the protect card should have already been provisioned. Trying to execute ENT-EQPT to provision a protection group on an already provisioned card will result in an error.
An example to provision a 1:1 protection group:
ENT-EQPT::SLOT-1:12::DS3;// provision the protect card
ENT-EQPT::SLOT-2:12::DS3:PROTID=SLOT-1,RVRTV=Y,RVTM=8.0; //provision a card and add it to the protection group.
An example to provision a 1:N protection group:
ENT-EQPT::SLOT-3:12::DS3N;//provision the protect card
ENT-EQPT::SLOT-1:12::DS3:PROTID=SLOT-3,RVTM=7.5,PRTYPE=1-N;//provision a card and add it to protection group.
Notes:
1. Sending this command to provision a DS3NE card on Slot {1,2,4,5,6,12,13,14,16,or 17}, the DS3E card type is provisioned instead because 1:N protect cards should be in Slot 3 or Slot 15.
2. Sending this command to provision a DS3N card on Slot {1,2,4,5,6,12,13,14,16,17}, the DS3 card type is provisioned instead because 1:N cards should be in Slot 3 or Slot 15.
3. Sending this command to provision a DS1N card on Slot-{1,2,4,5,6,12,13,14,16,17}, the DS1 card type is provisioned instead because 1:N protect cards should be in Slot 3 or Slot 15.
Error conditions for creating 1:1 or 1:N protection groups are:
1. AID sent to a non-working slot; the working cards must be in even slots for 1:1 and in the same bank for 1:N and not in Slot 3 or Slot 15 (ONS 15454).
2. Invalid AID chosen for protection slot.
3. Working AID is already in protection group.
4. AID is a protect AID.
5. The protect card has a circuit.
6. The equipment type does not match with the allowed AID.
7. The slot is already provisioned.
8. The protecting slot is not provisioned.
9. Multiple working AIDs for 1:1 protection.
10. If the command mode (CMDMDE) is set to forced (FRCD) during the creation of a 1:1 or 1:N protection group, all cards must be physically plugged in and in the ready state (IS). If the cards are not physically plugged in, then the command is denied with an appropriate error message. When the command mode is set to normal (NORM) (which is the default) the cards do not have to be physically plugged in and in the ready state.
Section
|
ENT-EQPT Description
|
Category
|
Equipment
|
Security
|
Provisioning
|
Related Messages
|
ALW-SWDX-EQPT
ALW-SWTOPROTN-EQPT
ALW-SWTOWKG-EQPT
DLT-EQPT
ED-EQPT
INH-SWDX-EQPT
INH-SWTOPROTN-EQPT
INH-SWTOWKG-EQPT
REPT ALM EQPT
|
REPT EVT EQPT
REPT RMV EQPT
REPT RST EQPT
RTRV-ALM-EQPT
RTRV-COND-EQPT
RTRV-EQPT
SW-DX-EQPT
SW-TOPROTN-EQPT
SW-TOWKG-EQPT
|
Input Format
|
ENT-EQPT:[<TID>]:<AID>:<CTAG>::<AIDTYPE>:[PROTID=<PROTID>,]
[PRTYPE=<PRTYPE>,][RVRTV=<RVRTV>,][RVTM=<RVTM>,]
[CMDMDE=<CMDMDE>][:];
where:
•<AID> is an access identifier from the "EQPT" section on page 4-27
•<AIDTYPE> is the AID card type; valid values for <AIDTYPE> are shown in the "EQUIPMENT_TYPE" section on page 4-62
•<PROTID> is the protecting card slot identifier of the protection group and is the AID from the "PRSLOT" section on page 4-31
•<PRTYPE> is the protection group type; valid values for <PRTYPE> are shown in the "PROTECTION_GROUP" section on page 4-83
•<RVRTV> is the revertive mode; valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76
•<RVTM> is the revertive time; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84
•<CMDMDE> is the command mode. It is only applicable when creating a 1:1 or 1:N protection group and/or adding cards to an existing protection group (1:N). The default is NORM. Valid values are shown in the "CMD_MODE" section on page 4-54. If creating or adding cards to a protection group, specifying FRCD will require the card to be physically plugged in and in the ready state (IS).
|
Input Example
|
ENT-EQPT:PETALUMA:SLOT-12:118::DS1:PROTID=SLOT-13,PRTYPE=1-1,
RVRTV=Y,RVTM=8.5,CMDMDE=FRCD:
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.73 ENT-FFP-<OCN_TYPE>: Enter Facility Protection Group (OC3, OC12, OC48, OC192)
See Table 4-11 on page 4-5 for supported modifiers by platform.
This command creates an optical 1+1 protection.
Notes:
1. Protect AID must not be provisioned with traffic.
2. Work AID can be provisioned with traffic.
3. PROTID is a string and can have a maximum length of 32 characters.
Section
|
ENT-FFP-<OCN_TYPE> Description
|
Category
|
SONET Line Protection
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-<OCN_TYPE>
DLT-FFP-CLNT
ED-FFP-<OCN_TYPE>
ED-FFP-CLNT
ENT-FFP-CLNT
EX-SW-<OCN_BLSR>
|
OPR-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-<OCN_TYPE>
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-PROTNSW-<OCN_TYPE>
|
Input Format
|
ENT-FFP-<OCN_TYPE>:[<TID>]:<WORK>,<PROTECT>:<CTAG>:::
[PROTID=<PROTID>,][RVRTV=<RVRTV>,][RVTM=<RVTM>,]
[PSDIRN=<PSDIRN>][:];
where:
•<WORK> identifies a working port and is the AID from the "FACILITY" section on page 4-28
•<PROTECT> identifies a protection port and is the AID from the "FACILITY" section on page 4-28
•<PROTID> is the protection group identifier (protection group name); <PROTID> defaults to the protecting port AID of the protection group, it is a string and can have a maximum length of 32 characters.
•<RVRTV> identifies a revertive mode and defaults to N (non-revertive mode); valid values for <RVRTV> are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies a revertive time and defaults to 5.0 minutes; valid values for <RVTM> are shown in the "REVERTIVE_TIME" section on page 4-84
•<PSDIRN> identifies the switching mode and defaults to UNI; valid values for <PSDIRN> are shown in the "UNI_BI" section on page 4-96
|
Input Example
|
ENT-FFP-OC3:PETALUMA:FAC-2-1,FAC-1-1:1:::PROTID=PROT_NAME,
RVRTV=Y,RVTM=1.0,PSDIRN=BI;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.74 ENT-FFP-CLNT: Enter Facility Protection Group Client
(Cisco ONS 15454 only)
This command creates Y cable protection on client facilities.
See the "Provisioning Rules for MXP_2.5G_10G and TXP_MR_10G Cards" section on page 1-8 and the "Provisioning Rules for TXP_MR_2.5G and TXPP_MR_2.5G Cards" section on page 1-13 for specific card provisioning rules.
Section
|
ENT-FFP-CLNT Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-<OCN_TYPE>
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-<OCN_TYPE>
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-<OCN_TYPE>
ENT-LNK-<MOD2O>
EX-SW-<OCN_BLSR>
OPR-LASER-OTS
OPR-PROTNSW-<OCN_TYPE>
OPR-PROTNSW-CLNT
|
OPR-PROTNSW-OCH
RLS-LASER-OTS
RLS-PROTNSW-<OCN_TYPE>
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-<OCN_TYPE>
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-<OCN_TYPE>
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
RTRV-TRC-OCH
|
Input Format
|
ENT-FFP-CLNT:[<TID>]:<WORKAID>,<PROTAID>:<CTAG>:::
[PROTTYPE=<PROTTYPE>,][PROTID=<PROTID>,][RVRTV=<RVRTV>,]
[RVTM=<RVTM>,][PSDIRN=<PSDIRN>][:];
where:
•<WORKAID> identifies a working port and is the AID from the "FACILITY" section on page 4-28
•<PROTAID> identifies a protection port and is the AID from the "FACILITY" section on page 4-28
•<PROTTYPE> identifies the type of facility protection; valid values are shown in the "PROTTYPE" section on page 4-83
•<PROTID> protection group identifier (protection group name). Defaults to the protecting port AID of the protection group. Is is a string and can have a maximum length of 32 characters; <PROTID> is a string
•<RVRTV> identifies the revertive mode. Defaults to N (non-revertive mode); valid values are shown in the "ON_OFF" section on page 4-76
•<RVTM> identifies the revertive time. Defaults to 5.0 minutes; valid values are shown in the "REVERTIVE_TIME" section on page 4-84
•<PSDIRN> identifies the switching mode and defaults to UNI. Release 4.0 MXP_2.5G_10G/TXP_MR_10G cards do not support BI-DIRECTIONAL switching. Valid values for <PSDIRN> are shown in the "UNI_BI" section on page 4-96
|
Input Example
|
ENT-FFP-CLNT:CISCO:FAC-1-1,FAC-2-1:100:::PROTTYPE=Y-CABLE,
PROTID=DC-METRO-1,RVRTV=Y,RVTM=1.0,PSDIRN=BI;
|
Errors
|
Errors are listed in Table 7-33 on page 7-27.
|
3.4.75 ENT-LNK-<MOD2O>: Enter Optical Link (OCH, OMS, OTS)
(Cisco ONS 15454 only)
This command creates an optical link between two optical connection points. The optical links can be established between two OTS or two OMS of the same band, and two OCH of the same wavelength. The created optical link must be between points belonging to the same ring directionality. An optical link between two OMS or two OCH can be HITLESS if the connection is between two points from one drop to a consecutive add in the logical link.
Section
|
ENT-LNK-<MOD2O> Description
|
Category
|
DWDM
|
Security
|
Provisioning
|
Related Messages
|
DLT-FFP-CLNT
DLT-LNK-<MOD2O>
ED-CLNT
ED-DWDM
ED-FFP-CLNT
ED-FFP-OCH
ED-LNK-<MOD2O>
ED-OCH
ED-OMS
ED-OTS
ED-TRC-CLNT
ED-TRC-OCH
ENT-FFP-CLNT
OPR-LASER-OTS
OPR-PROTNSW-CLNT
OPR-PROTNSW-OCH
|
RLS-LASER-OTS
RLS-PROTNSW-CLNT
RLS-PROTNSW-OCH
RTRV-CLNT
RTRV-DWDM
RTRV-FFP-CLNT
RTRV-FFP-OCH
RTRV-LNK-<MOD2O>
RTRV-OCH
RTRV-OMS
RTRV-OTS
RTRV-PROTNSW-CLNT
RTRV-PROTNSW-OCH
RTRV-TRC-CLNT
|
Feedback
