Table Of Contents

TL1 Command Descriptions

3.1  TL1 Commands by Card and Category

3.2  TL1 Commands

3.2.1  ACT-USER

3.2.2  ALW-MSG-ALL

3.2.3  ALW-MSG-DBCHG

3.2.4  ALW-MSG-SECU

3.2.5  ALW-PMREPT-ALL

3.2.6  ALW-SWDX-EQPT

3.2.7  ALW-SWTOPROTN-EQPT

3.2.8  ALW-SWTOWKG-EQPT

3.2.9  ALW-USER-SECU

3.2.10  APPLY

3.2.11  CANC

3.2.12  CANC-USER

3.2.13  CANC-USER-SECU

3.2.14  CHG-ACCMD-<MOD_TACC>

3.2.15  CLR-COND-SECU

3.2.16  CONN-TACC-<MOD_TACC>

3.2.17  COPY-IOSCFG

3.2.18  COPY-RFILE

3.2.19  DISC-TACC

3.2.20  DLT-<MOD1PAYLOAD>

3.2.21  DLT-<MOD_RING>

3.2.22  DLT-CRS-<PATH>

3.2.23  DLT-EQPT

3.2.24  DLT-FFP-<MOD2DWDMPAYLOAD>

3.2.25  DLT-FFP-<STM_TYPE>

3.2.26  DLT-LNK-<MOD2O>

3.2.27  DLT-LNKTERM

3.2.28  DLT-OSC

3.2.29  DLT-RMONTH-<MOD2_RMON>

3.2.30  DLT-ROUTE

3.2.31  DLT-TRAPTABLE

3.2.32  DLT-USER-SECU

3.2.33  DLT-VCG

3.2.34  DLT-WLEN

3.2.35  ED-<GIGE_TYPE>

3.2.36  ED-<MOD1FCPAYLOAD>

3.2.37  ED-<MOD1FICONPAYLOAD>

3.2.38  ED-<MOD2DWDMPAYLOAD>

3.2.39  ED-<MOD_PATH>

3.2.40  ED-<MOD_RING>

3.2.41  ED-<STM_TYPE>

3.2.42  ED-ALS

3.2.43  ED-APC

3.2.44  ED-BITS

3.2.45  ED-CMD-SECU

3.2.46  ED-CRS-<PATH>

3.2.47  ED-DAT

3.2.48  ED-DS3I

3.2.49  ED-E1

3.2.50  ED-E3

3.2.51  ED-E4

3.2.52  ED-EQPT

3.2.53  ED-FAC

3.2.54  ED-FFP-<MOD2DWDMPAYLOAD>

3.2.55  ED-FFP-<STM_TYPE>

3.2.56  ED-FFP-OCH

3.2.57  ED-FSTE

3.2.58  ED-G1000

3.2.59  ED-GFP

3.2.60  ED-LNK-<MOD2O>

3.2.61  ED-LNKTERM

3.2.62  ED-NE-GEN

3.2.63  ED-NE-PATH

3.2.64  ED-NE-SYNCN

3.2.65  ED-OCH

3.2.66  ED-OMS

3.2.67  ED-OSC

3.2.68  ED-OTS

3.2.69  ED-PID

3.2.70  ED-SLV-WDMANS

3.2.71  ED-STM1E

3.2.72  ED-SYNCN

3.2.73  ED-TRAPTABLE

3.2.74  ED-TRC-OCH

3.2.75  ED-USER-SECU

3.2.76  ED-VCG

3.2.77  ED-WDMANS

3.2.78  ED-WLEN

3.2.79  ENT-<MOD1PAYLOAD>

3.2.80  ENT-<MOD_RING>

3.2.81  ENT-CRS-<PATH>

3.2.82  ENT-EQPT

3.2.83  ENT-FFP-<MOD2DWDMPAYLOAD>

3.2.84  ENT-FFP-<STM_TYPE>

3.2.85  ENT-LNK-<MOD2O>

3.2.86  ENT-LNKTERM

3.2.87  ENT-OSC

3.2.88  ENT-RMONTH-<MOD2_RMON>

3.2.89  ENT-ROUTE

3.2.90  ENT-TRAPTABLE

3.2.91  ENT-USER-SECU

3.2.92  ENT-VCG

3.2.93  ENT-WLEN

3.2.94  EX-SW-<STM_MSSPR>

3.2.95  INH-MSG-ALL

3.2.96  INH-MSG-DBCHG

3.2.97  INH-MSG-SECU

3.2.98  INH-PMREPT-ALL

3.2.99  INH-SWDX-EQPT

3.2.100  INH-SWTOPROTN-EQPT

3.2.101  INH-SWTOWKG-EQPT

3.2.102  INH-USER-SECU

3.2.103  INIT-REG-<MOD2>

3.2.104  INIT-SYS

3.2.105  OPR-ACO-ALL

3.2.106  OPR-ALS

3.2.107  OPR-APC

3.2.108  OPR-EXT-CONT

3.2.109  OPR-LASER-OTS

3.2.110  OPR-LNK

3.2.111  OPR-LPBK-<MOD2>

3.2.112  OPR-PROTNSW-<MOD2DWDMPAYLOAD>

3.2.113  OPR-PROTNSW-<STM_TYPE>

3.2.114  OPR-PROTNSW-<PATH>

3.2.115  OPR-PROTNSW-OCH

3.2.116  OPR-SLV-WDMANS

3.2.117  OPR-SYNCNSW

3.2.118  OPR-WDMANS

3.2.119  REPT ALM <MOD2ALM>

3.2.120  REPT ALM BITS

3.2.121  REPT ALM COM

3.2.122  REPT ALM ENV

3.2.123  REPT ALM EQPT

3.2.124  REPT ALM SECU

3.2.125  REPT ALM SYNCN

3.2.126  REPT DBCHG

3.2.127  REPT EVT <MOD2ALM>

3.2.128  REPT EVT BITS

3.2.129  REPT EVT COM

3.2.130  REPT EVT ENV

3.2.131  REPT EVT EQPT

3.2.132  REPT EVT FXFR

3.2.133  REPT EVT IOSCFG

3.2.134  REPT EVT SECU

3.2.135  REPT EVT SESSION

3.2.136  REPT EVT SYNCN

3.2.137  REPT PM <MOD2>

3.2.138  REPT SW

3.2.139  RLS-EXT-CONT

3.2.140  RLS-LASER-OTS

3.2.141  RLS-LPBK-<MOD2>

3.2.142  RLS-PROTNSW-<MOD2DWDMPAYLOAD>

3.2.143  RLS-PROTNSW-<STM_TYPE>

3.2.144  RLS-PROTNSW-<PATH>

3.2.145  RLS-PROTNSW-OCH

3.2.146  RLS-SYNCNSW

3.2.147  RMV-<MOD2>

3.2.148  RST-<MOD2>

3.2.149  RTRV-<MOD1FCPAYLOAD>

3.2.150  RTRV-<MOD1FICONPAYLOAD>

3.2.151  RTRV-<MOD2DWDMPAYLOAD>

3.2.152  RTRV-<MOD_RING>

3.2.153  RTRV-<PATH>

3.2.154  RTRV-<STM_TYPE>

3.2.155  RTRV-10GIGE

3.2.156  RTRV-ALM-<MOD2ALM>

3.2.157  RTRV-ALM-ALL

3.2.158  RTRV-ALM-BITS

3.2.159  RTRV-ALM-ENV

3.2.160  RTRV-ALM-EQPT

3.2.161  RTRV-ALM-SYNCN

3.2.162  RTRV-ALMTH-<MOD2>

3.2.163  RTRV-ALMTH-EQPT

3.2.164  RTRV-ALS

3.2.165  RTRV-APC

3.2.166  RTRV-ATTR-CONT

3.2.167  RTRV-ATTR-ENV

3.2.168  RTRV-BITS

3.2.169  RTRV-CMD-SECU

3.2.170  RTRV-COND-<MOD2ALM>

3.2.171  RTRV-COND-ALL

3.2.172  RTRV-COND-BITS

3.2.173  RTRV-COND-ENV

3.2.174  RTRV-COND-EQPT

3.2.175  RTRV-COND-SYNCN

3.2.176  RTRV-CRS

3.2.177  RTRV-CRS-<PATH>

3.2.178  RTRV-DFLT-SECU

3.2.179  RTRV-DS3I

3.2.180  RTRV-DWDM

3.2.181  RTRV-E1

3.2.182  RTRV-E3

3.2.183  RTRV-E4

3.2.184  RTRV-EQPT

3.2.185  RTRV-ESCON

3.2.186  RTRV-EXT-CONT

3.2.187  RTRV-FAC

3.2.188  RTRV-FFP-<MOD2DWDMPAYLOAD>

3.2.189  RTRV-FFP-<STM_TYPE>

3.2.190  RTRV-FFP-OCH

3.2.191  RTRV-FSTE

3.2.192  RTRV-G1000

3.2.193  RTRV-GFP

3.2.194  RTRV-GIGE

3.2.195  RTRV-HDR

3.2.196  RTRV-INV

3.2.197  RTRV-LNK

3.2.198  RTRV-LNK-<MOD2O>

3.2.199  RTRV-LNKTERM

3.2.200  RTRV-LOG

3.2.201  RTRV-MAP-NETWORK

3.2.202  RTRV-NE-APC

3.2.203  RTRV-NE-GEN

3.2.204  RTRV-NE-IPMAP

3.2.205  RTRV-NE-PATH

3.2.206  RTRV-NE-SYNCN

3.2.207  RTRV-NE-WDMANS

3.2.208  RTRV-NETYPE

3.2.209  RTRV-OCH

3.2.210  RTRV-OMS

3.2.211  RTRV-OPM

3.2.212  RTRV-OSC

3.2.213  RTRV-OTS

3.2.214  RTRV-PM-<MOD2>

3.2.215  RTRV-PMMODE-<VC_PATH>

3.2.216  RTRV-PMSCHED-<MOD2>

3.2.217  RTRV-PMSCHED-ALL

3.2.218  RTRV-POS

3.2.219  RTRV-PROTNSW-<MOD2DWDMPAYLOAD>

3.2.220  RTRV-PROTNSW-<STM_TYPE>

3.2.221  RTRV-PROTNSW-<PATH>

3.2.222  RTRV-PROTNSW-OCH

3.2.223  RTRV-PTHTRC-<PATH>

3.2.224  RTRV-RMONTH-<MOD2_RMON>

3.2.225  RTRV-ROUTE

3.2.226  RTRV-SLV-WDMANS

3.2.227  RTRV-STM1E

3.2.228  RTRV-SYNCN

3.2.229  RTRV-TACC

3.2.230  RTRV-TH-<MOD2>

3.2.231  RTRV-TH-ALL

3.2.232  RTRV-TOD

3.2.233  RTRV-TRAPTABLE

3.2.234  RTRV-TRC-<MOD2DWDMPAYLOAD>

3.2.235  RTRV-TRC-<STM_MSSPR>

3.2.236  RTRV-TRC-OCH

3.2.237  RTRV-USER-SECU

3.2.238  RTRV-VCG

3.2.239  RTRV-VT

3.2.240  RTRV-WDMANS

3.2.241  RTRV-WLEN

3.2.242  SCHED-PMREPT-<MOD2>

3.2.243  SET-ALMTH-<MOD2>

3.2.244  SET-ALMTH-EQPT

3.2.245  SET-ATTR-CONT

3.2.246  SET-ATTR-ENV

3.2.247  SET-ATTR-SECUDFLT

3.2.248  SET-PMMODE-<VC_PATH>

3.2.249  SET-TH-<MOD2>

3.2.250  SET-TOD

3.2.251  SW-DX-EQPT

3.2.252  SW-TOPROTN-EQPT

3.2.253  SW-TOWKG-EQPT

TL1 Command Descriptions

---

This chapter provides specific information on TL1 commands and autonomous messages for the
Cisco ONS 15454 SDH, Release 5.0, including:

•TL1 commands by card and category

•TL1 commands

For information on command components, such as access identifiers, see "TL1 Command Components."

3.1  TL1 Commands by Card and Category

Table 3-1 contains commands and autonomous messages applicable to the Cisco ONS 15454 SDH, and corresponding cards and categories.

Table 3-1 SDH TL1 Commands by Card and Category 

Command	ONS 15454 Card	Category
ACT-USER	TCC2/TCC2P	Security
ALW-MSG-ALL	TCC2/TCC2P	System
ALW-MSG-DBCHG	TCC2/TCC2P	Log
ALW-MSG-SECU	TCC2/TCC2P	Security
ALW-PMREPT-ALL	TCC2/TCC2P	Performance
ALW-SWDX-EQPT	XC10G XC-VXL	Equipment
ALW-SWTOPROTN-EQPT	DS3i-N-12 E1-14/E1-14N E1-42/E1-42N E3-12	Equipment
ALW-SWTOWKG-EQPT	DS3i-N-12 E1-14/E1-14N E1-42/E1-42N E3-12	Equipment
ALW-USER-SECU	TCC2/TCC2P	Security
APPLY	TCC2/TCC2P	Software Download
CANC	TCC2/TCC2P	Security
CANC-USER	TCC2/TCC2P	Security
CANC-USER-SECU	TCC2/TCC2P	Security
CHG-ACCMD-<MOD_TACC>	DS3i-N-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E3-12 STM1E-12	Troubleshooting and Test Access
CLR-COND-SECU	TCC2/TCC2P	Security
CONN-TACC-<MOD_TACC>	DS3i-N-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E3-12 STM1E-12	Troubleshooting and Test Access
COPY-IOSCFG	ML1000-2,/ML100T-12	IOS
COPY-RFILE	TCC2/TCC2P	System
DISC-TACC	DS3i-N-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E3-12 STM1E-12	Troubleshooting and Test Access
DLT-<MOD1PAYLOAD>	MXP_2.5G_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Ports
DLT-<MOD_RING>	STM4/STM4-4 STM16/STM16 AS STM64	MS-SPRing
DLT-CRS-<PATH>	G1000-4 ML1000-2,/ML100T-12 DS3i-N-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E3-12 STM1E-12 FC_MR-4	Cross Connections
DLT-EQPT	All	Equipment
DLT-FFP- <MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
DLT-FFP-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
DLT-LNK-<MOD2O>	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32/WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
DLT-LNKTERM	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32/WSS-32 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Provisionable Patchcords
DLT-OSC	OSCM/OSC-CMS OPT-BST	DWDM
DLT-RMONTH-<MOD2_RMON>	G1000-4 TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
DLT-ROUTE	TCC2/TCC2P	System
DLT-TRAPTABLE	TCC2/TCC2P	System
DLT-USER-SECU	TCC2, TCC2P	Security
DLT-VCG	ML1000-2,/ML100T-12 FC_MR-4	VCAT
DLT-WLEN	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32/WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
ED-<GIGE_TYPE>	TXP_MR_2.5G/TXPP_MR_2.5G TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Ports
ED-<MOD1FCPAYLOAD>	FC_MR-4	Ports
ED-<MOD1FICONPAYLOAD>	FC_MR-4	Ports
ED-<MOD2DWDMPAYLOAD>	TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
ED-<MOD_PATH>	G1000-4 ML1000-2/ML100T-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E3-12 STM1E-12 FC_MR-4	Paths
ED-<MOD_RING>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	MS-SPRing
ED-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 OSCM/OSC-CMS	Ports
ED-ALS	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Ports
ED-APC	TCC2/TCC2P	DWDM
ED-BITS	TCC2/TCC2P	Synchronization
ED-CMD-SECU	TCC2/TCC2P	Security
ED-CRS-<PATH>	G1000-4 ML1000-2/ML100T-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E3-12 STM1E-12 FC_MR-4	Cross Connections
ED-DAT	TCC2/TCC2P	System
ED-DS3I	DS3i-N-12	Ports
ED-E1	E1-14/E1-14N E1-42/E1-42N	Ports
ED-E3	E3-12	Ports
ED-EQPT	G1000-4 ML1000-2/ML100T-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 STM1E-12 E1-14/E1-14N E1-42/E1-42N E3-12 E100T/E1000 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Equipment
ED-FFP- <MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
ED-FFP-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
ED-FFP-OCH	TXPP_MR_2.5G	DWDM
ED-G1000	G1000-4	Ports
ED-GFP	FC_MR-4	Ports
ED-LNK-<MOD2O>	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
ED-LNKTERM	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Provisionable Patchcords
ED-NE-GEN	TCC2/TCC2P	System
ED-NE-PATH	TCC2/TCC2P	System
ED-NE-SYNCN	TCC2/TCC2P	Synchronization
ED-OCH	AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	DWDM
ED-OMS	AD-1B/AD-4B MD-4	DWDM
ED-OSC	OSCM/OSC-CMS OPT-BST	DWDM
ED-OTS	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
ED-PID	TCC2/TCC2P	Security
ED-SLV-WDMANS	TCC2/TCC2P	DWDM
ED-STM1E	STM1E-12	Ports
ED-SYNCN	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 TCC2/TCC2P OSCM/OSC-CMS MXP_2.5G_10G	Synchronization
ED-TRAPTABLE	TCC2/TCC2P	System
ED-TRC-OCH	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	DWDM
ED-USER-SECU	TCC2/TCC2P	Security
ED-VCG	FC_MR-4	VCAT
ED-WDMANS	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
ED-WLEN	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
ENT-<MOD1PAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Ports
ENT-<MOD_RING>	STM4/STM4-4 STM16/STM16 AS STM64	MS-SPRing
ENT-CRS-<PATH>	G1000-4 ML1000-2/ML100T-12 DS3i-N-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E1-14/E1-14N E1-42/E1-42N E100T/E1000 STM1E-12 FC_MR-4	Cross Connections
ENT-EQPT	All	Equipment
ENT-FFP-<MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
ENT-FFP-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
ENT-LNK-<MOD2O>	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
ENT-LNKTERM	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Provisionable Patchcords
ENT-OSC	OSCM/OSC-CMS OPT-BST	DWDM
ENT-RMONTH-<MOD2_RMON>	G1000-4 TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
ENT-ROUTE	TCC2/TCC2P	System
ENT-TRAPTABLE	TCC2/TCC2P	System
ENT-USER-SECU	TCC2/TCC2P	Security
ENT-VCG	ML-1000-2/ML100T-12 FC_MR-4	VCAT
ENT-WLEN	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
EX-SW-<STM_MSSPR>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	MS-SPRing
INH-MSG-ALL	TCC2/TCC2P	System
INH-MSG-DBCHG	TCC2/TCC2P	Log
INH-MSG-SECU	TCC2/TCC2P	Security
INH-PMREPT-ALL	TCC2/TCC2P	Performance
INH-SWDX-EQPT	XC10G/XCVXL-10G/XCVXL-2.5G	Equipment
INH-SWTOPROTN-EQPT	XC10G/XCVXL-10G/XCVXL-2.5G	Equipment
INH-SWTOWKG-EQPT	XC10G/XCVXL-10G/XCVXL-2.5G	Equipment
INH-USER-SECU	TCC2/TCC2P	Security
INIT-REG-<MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
INIT-SYS	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E100T/E1000T TCC2/TCC2P XC10G/XCVXL-10G/XCVXL-2.5G AICI/AIC MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	System
OPR-ACO-ALL	AICI/AIC	Environment
OPR-ALS	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Ports
OPR-APC	TCC2/TCC2P	DWDM
OPR-EXT-CONT	AICI/AIC	Environment
OPR-LASER-OTS	OPT-BST/OPT-PRE	DWDM
OPR-LNK	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
OPR-LPBK-<MOD2>	G1000-4 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	Troubleshooting and Test Access
OPR-PROTNSW- <MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
OPR-PROTNSW-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
OPR-PROTNSW-<PATH>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
OPR-PROTNSW-OCH	TXPP_MR_2.5G	DWDM
OPR-SLV-WDMANS	TCC2/TCC2P	DWDM
OPR-SYNCNSW	TCC2/TCC2P	Synchronization
OPR-WDMANS	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
REPT ALM BITS	TCC2/TCC2P	Synchronization
REPT ALM COM	TCC2/TCC2P	Fault
REPT ALM ENV	AICI/ACI	Environment
REPT ALM EQPT	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E100T/E1000 TCC2/TCC2P XC10G/XCVXL-10G/XCVXL-2.5G AICI/AIC MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Equipment
REPT ALM SECU	TCC2/TCC2P	Security
REPT ALM SYNCN	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 TCC2/TCC2P	Synchronization
REPT DBCHG	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E100T/E1000 TCC2/TCC2P XC10G/XCVXL-10G/XCVXL-2.5G AICI/AIC MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Log
REPT EVT <MOD2ALM>	All	Fault
REPT EVT BITS	TCC2/TCC2P	Synchronization
REPT EVT COM	TCC2/TCC2P	Fault
REPT EVT ENV	AICI/AIC	Environment
REPT EVT EQPT	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E100T/E1000 TCC2/TCC2P XC10G/XCVXL-10G/XCVXL-2.5G AICI/AIC MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Equipment
REPT EVT FXFR	TCC2/TCC2P	File Transfer
REPT EVT IOSCFG	ML1000-2/ML100T-12	File Transfer
REPT EVT SECU	TCC2/TCC2P	Security
REPT EVT SESSION	TCC2/TCC2P	Security
REPT EVT SYNCN	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 TCC2/TCC2P	Synchronization
REPT PM <MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
REPT SW	XC10G/XCVXL-10G/XCVXL-2.5G	Protection
RLS-EXT-CONT	AICI/AIC	Environment
RLS-LASER-OTS	OPT-BST/OPT-PRE	DWDM
RLS-LPBK-<MOD2>	G1000-4 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Troubleshooting and Test Access
RLS-PROTNSW- <MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
RLS-PROTNSW-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
RLS-PROTNSW-<PATH>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
RLS-PROTNSW-OCH	TXPP_MR_2.5G	DWDM
RLS-SYNCNSW	TCC2/TCC2P	Synchronization
RMV-<MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Facility
RST-<MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Facility
RTRV-<MOD1FCPAYLOAD>	FC_MR-4	Ports
RTRV-<MOD1FICONPAYLOAD>	FC_MR-4	Ports
RTRV-<MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
RTRV-<MOD_RING>	STM4/STM4-4 STM16/STM16 AS STM64	MS-SPRing
RTRV-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 OSCM/OSC-CMS	Ports
RTRV-<PATH>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 FC_MR-4	Path
RTRV-10GIGE	MXP_2.5G_10E/TXP_MR_10E	Ports
RTRV-ALM-<MOD2ALM>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E100T/E1000 TCC2/TCC2P XC10G/XCVXL-10G/XCVXL-2.5G AICI/AIC MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Fault
RTRV-ALM-ALL	All	Fault
RTRV-ALM-BITS	TCC2/TCC2P	Synchronization
RTRV-ALM-ENV	AICI/AIC	Environment
RTRV-ALM-EQPT	All	Equipment
RTRV-ALM-SYNCN	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 TCC2/TCC2P MXP_2.5G_10G	Synchronization
RTRV-ALMTH-<MOD2>	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	DWDM
RTRV-ALMTH-EQPT	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	Equipment
RTRV-ALS	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Ports
RTRV-APC	TCC2/TCC2P	DWDM
RTRV-ATTR-CONT	AICI/AIC	Environment
RTRV-ATTR-ENV	AICI/AIC	Environment
RTRV-BITS	TCC2/TCC2P	Synchronization
RTRV-CMD-SECU	TCC2/TCC2P	Security
RTRV-COND-<MOD2ALM>	All	Fault
RTRV-COND-ALL	All	Fault
RTRV-COND-BITS	TCC2/TCC2P	Synchronization
RTRV-COND-ENV	AICI/AIC	Environment
RTRV-COND-EQPT	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 E100T/E1000 XC10G/XCVXL-10G/XCVXL-2.5G AICI/AIC AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Equipment
RTRV-COND-SYNCN	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 TCC2/TCC2P	Synchronization
RTRV-CRS	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 FC_MR-4	Cross Connections
RTRV-CRS-<PATH>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 FC_MR-4	Cross Connections
RTRV-DFLT-SECU	TCC2/TCC2P	Security
RTRV-DS3I	DS3i-N-12	Ports
RTRV-DWDM	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	DWDM
RTRV-E1	E1-14/E1-14N E1-42/E1-42N	Ports
RTRV-E3	E3-12	Ports
RTRV-EQPT	All	Equipment
RTRV-ESCON	TXP_MR_2.5G/TXPP_MR_2.5G	Ports
RTRV-EXT-CONT	AICI/AIC	Environment
RTRV-FAC	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Ports
RTRV-FFP-<MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	DWDM
RTRV-FFP-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Protection
RTRV-FFP-OCH	TXPP_MR_2.5G	DWDM
RTRV-FSTE	ML1000-2/ML100T-12	Ports
RTRV-G1000	G1000-4	Ports
RTRV-GFP	FC_MR-4	Ports
RTRV-GIGE	ML1000-2 TXP_MR_2.5G TXPP_MR_2.5G MXP_MR_2.5G MXPP_MR_2.5G	Ports
RTRV-HDR	TCC2/TCC2P	System
RTRV-INV	All	System
RTRV-LNK	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
RTRV-LNK-<MOD2O>	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
RTRV-LNKTERM	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Provisionable Patchcords
RTRV-LOG	TCC2/TCC2P	Log
RTRV-MAP-NETWORK	TCC2/TCC2P	Network
RTRV-NE-APC	TCC2/TCC2P	DWDM
RTRV-NE-GEN	TCC2/TCC2P	System
RTRV-NE-IPMAP	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Network
RTRV-NE-PATH	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 TCC2/TCC2P FC_MR-4	System
RTRV-NE-SYNCN	TCC2/TCC2P	Synchronization
RTRV-NETYPE	TCC2/TCC2P	System
RTRV-NE-WDMANS	TCC2/TCC2P	DWDM
RTRV-OCH	AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
RTRV-OMS	AD-1B/AD-4B MD-4	DWDM
RTRV-OPM	WSS-32	DWDM
RTRV-OSC	OSCM/OSC-CMS OPT-PRE	DWDM
RTRV-OTS	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
RTRV-PM-<MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AICI/AIC AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
RTRV-PMMODE-<VC_PATH>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	Performance
RTRV-PMSCHED-<MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
RTRV-PMSCHED-ALL	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
RTRV-POS	ML1000-2/ML100T-12
RTRV-PROTNSW- <MOD2DWDMPAYLOAD>	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	DWDM
RTRV-PROTNSW-<STM_TYPE>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Protection
RTRV-PROTNSW-<PATH>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 FC_MR-4	Protection
RTRV-PROTNSW-OCH	TXPP_MR_2.5G MXPP_MR_2.5G	DWDM
RTRV-PTHTRC-<PATH>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 FC_MR-4	Protection
RTRV-RMONTH-<MOD2_RMON>	G1000-4 TXP_MR_10G TXP_MR_2.5G TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
RTRV-ROUTE	TCC2/TCC2P	System
RTRV-SLV-WDMANS	TCC2/TCC2P	DWDM
RTRV-SYNCN	TCC2/TCC2P OSCM/OSC-CMS MXP_2.5G_10G	Synchronization
RTRV-TACC	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Troubleshooting and Test Access
RTRV-TH-<MOD2>	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Performance
RTRV-TH-ALL	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G	Performance
RTRV-TOD	TCC2/TCC2P	System
RTRV-TRAPTABLE	TCC2/TCC2P	System
RTRV-TRC-<STM_MSSPR>	STM4/STM4-4 STM16/STM16 AS STM64	MS-SPRing
RTRV-TRC-OCH	MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	DWDM
RTRV-USER-SECU	TCC2/TCC2P	Security
RTRV-VC	G1000-4 ML1000-2/ML100T-12 E1-14/E1-42 E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 FC_MR-4	Paths
RTRV-VCG	ML1000-2/ML100T-12 FC_MR-4	VCAT
RTRV-WDMANS	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
RTRV-WLEN	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE	DWDM
SCHED-PMREPT-<MOD2>	G1000-4 ML1000-2/ML100T-12 E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
SET-ALMTH-<MOD2>	AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	DWDM
SET-ALMTH-EQPT	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G	Equipment
SET-ATTR-CONT	AICI/AIC	Environment
SET-ATTR-ENV	AICI/AIC	Environment
SET-ATTR-SECUDFLT	TCC2/TCC2P	Security
SET-PMMODE-<VC_PATH>	STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64	Performance
SET-TH-<MOD2>	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12 STM1/STM1-8 STM4/STM4-4 STM16/STM16 AS STM64 AD-1B/AD-4B AD-1C/AD-2C/AD-4C MD-4 MUX-32/DMX-32 WSS-32 OSCM/OSC-CMS OPT-BST/OPT-PRE MXP_2.5G_10G/TXP_MR_10G TXP_MR_2.5G/TXPP_MR_2.5G MXP_2.5G_10E/TXP_MR_10E MXP_MR_2.5G/MXPP_MR_2.5G FC_MR-4	Performance
SET-TOD	TCC2/TCC2P	System
SW-DX-EQPT	XC10G/XCVXL-10G/XCVXL-2.5G	Equipment
SW-TOPROTN-EQPT	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12	Equipment
SW-TOWKG-EQPT	E1-14/E1-14N E1-42/E1-42N E3-12 DS3i-N-12 STM1E-12	Equipment

3.2  TL1 Commands

The commands and autonomous messages used for ONS 15454 SDH 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, SNCP 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.

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Note The ACT-USER command will return a DENY without any error message. Any other command will return DENY with the PLNA (Privilege, Login Not Active) error message.

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3.2.1  ACT-USER

Activate User

Usage Guidelines

This command opens 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. 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."

3. 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.

Category

Security

Security

N/A

Related Commands

ALW-MSG-ALL ALW-MSG-DBCHG ALW-MSG-SECU ALW-USER-SECU CANC CANC-USER CANC-USER-SECU CLR-COND-SECU DLT-USER-SECU ED-CMD-SECU ED-DAT ED-NE-GEN ED-NE-PATH

INH-MSG-SECU INH-USER-SECU INIT-SYS REPT ALM SECU REPT EVT SECU REPT EVT SESSION RTRV-CMD-SECU ED-NE-SYNCN ED-PID ED-USER-SECU ENT-USER-SECU INH-MSG-ALL INH-MSG-DBCHG

RTRV-DFLT-SECU RTRV-HDR RTRV-INV RTRV-NE-GEN RTRV-NE-IPMAP RTRV-NE-PATH RTRV-NE-SYNCN RTRV-NE-WDMANS RTRV-TOD RTRV-USER-SECU SET-ATTR-SECUDFLT SET-TOD

Input Format

ACT-USER:[<TID>]:<UID>:<CTAG>::<PID>;

Input Example

ACT-USER:PETALUMA:TERRI:100::MYPASSWD;

Input Parameters

Table 3-2 ACT-USER Input Parameters 

Parameter and Values	Description
UID	The user identifier (userid) of the person logged in. UID can be any combination of up to 10 alphanumeric characters. String. Must not be null
PID	The user password. PID is any combination of up to 10 alphanumeric characters. Passwords are encrypted for security reasons and will be displayed as asterisks (*). String. Must not be null

Output Format

SID DATE TIME
M CTAG COMPLD
"<UID>:<LASTLOGINTIME>,<UNSUCCESSFULLOGINS>"
;

Output Example

TID-000 1998-06-20 14:30:00
M 001 COMPLD
"TERRI:2003-01-02 14-04-49,0"
;

Output Parameters

Table 3-3 ACT-USER Output Parameters 

Parameter and Values	Description
UID	The user identifier (userid) of the person logged in. UID can be any combination of up to 10 alphanumeric characters. String. Must not be null
LASTLOGINTIME	The date and time of the last successful connection to the NE (not including current login). String
UNSUCCESSFULLOGINS	The number of unsuccessful login attempts since the last successful login. Integer

Errors

Errors are listed in Table 6-1.

3.2.2  ALW-MSG-ALL

Allow Message All

Usage Guidelines

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.

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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.

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Category

System

Security

Retrieve

Related Commands

ACT-USER ALW-MSG-DBCHG ALW-MSG-SECU ED-DAT ED-NE-GEN ED-NE-PATH ED-NE-SYNCN

INH-MSG-ALL INH-MSG-DBCHG INH-MSG-SECU 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

ALW-MSG-ALL:[<TID>]:[<AID>]:<CTAG>[::,,];

Input Example

ALW-MSG-ALL:PETALUMA:ALL:549;

Input Parameters

Table 3-4 ALW-MSG-ALL Input Parameters 

Parameter and Values	Description
AID	Access identifier. Support is limited to AID ALL. String

Errors

Errors are listed in Table 6-1.

3.2.3  ALW-MSG-DBCHG

Allow Database Change Message

Usage Guidelines

This command enables REPT DBCHG. When a TL1 session starts, the REPT DBCHG messages are not allowed by default.

Category

Log

Security

Retrieve

Related Commands

ACT-USER ALW-MSG-ALL ALW-MSG-SECU ED-DAT ED-NE-GEN ED-NE-PATH ED-NE-SYNCN INH-MSG-ALL

INH-MSG-DBCHG INH-MSG-SECU INIT-SYS REPT DBCHG RTRV-HDR RTRV-INV RTRV-LOG

RTRV-NE-GEN RTRV-NE-IPMAP RTRV-NE-PATH RTRV-NE-SYNCN RTRV-NE-WDMANS RTRV-TOD SET-TOD

Input Format

ALW-MSG-DBCHG:[<TID>]::<CTAG>[::,,];

Input Example

ALW-MSG-DBCHG:CISCO::123;

Input Parameters

Table 3-5 ALW-MSG-DBCHG Input Parameters 

Parameter and Values	Description
—

Errors

Errors are listed in Table 6-1.

3.2.4  ALW-MSG-SECU

Allow Message Security

Usage Guidelines

This command enables REPT EVT SECU and REPT ALM SECU autonomous messages.

Category

Security

Security

Superuser

Related Commands

ACT-USER ALW-MSG-ALL ALW-MSG-DBCHG ALW-USER-SECU CANC CANC-USER CANC-USER-SECU CLR-COND-SECU DLT-USER-SECU ED-CMD-SECU ED-DAT ED-NE-GEN ED-NE-PATH

ED-NE-SYNCN ED-PID ED-USER-SECU ENT-USER-SECU INH-MSG-ALL INH-MSG-DBCHG INH-MSG-SECU INH-USER-SECU INIT-SYS REPT ALM SECU REPT EVT SECU REPT EVT SESSION RTRV-CMD-SECU

RTRV-DFLT-SECU RTRV-HDR RTRV-INV RTRV-NE-GEN RTRV-NE-IPMAP RTRV-NE-PATH RTRV-NE-SYNCN RTRV-NE-WDMANS RTRV-TOD RTRV-USER-SECU SET-ATTR-SECUDFLT SET-TOD

Input Format

ALW-MSG-SECU:[<TID>]::<CTAG>;

Input Example

ALW-MSG-SECU:PETALUMA::123;

Input Parameters

Table 3-6 ALW-MSG-SECU Input Parameters 

Parameter and Values	Description
—

Errors

Errors are listed in Table 6-1.

3.2.5  ALW-PMREPT-ALL

Allow Performance Report All

Usage Guidelines

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.

Category

Performance

Security

Retrieve

Related Commands

INH-PMREPT-ALL INIT-REG-<MOD2> REPT PM <MOD2> RTRV-PM-<MOD2>

RTRV-PMMODE-<VC_PATH> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-TH-<MOD2>

RTRV-TH-ALL SCHED-PMREPT-<MOD2> SET-PMMODE-<VC_PATH> SET-TH-<MOD2>

Input Format

ALW-PMREPT-ALL:[<TID>]::<CTAG>;

Input Example

ALW-PMREPT-ALL:CISCONODE::123;

Input Parameters

Table 3-7 ALW-PMREPT-ALL Input Parameters 

Parameter and Values	Description
—

Errors

Errors are listed in Table 6-1.

3.2.6  ALW-SWDX-EQPT

Allow Switch Duplex Equipment

Usage Guidelines

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 SDH line or electrical card protection switching. For SDH 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.

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Note This command applies to the XC10G or XCVXL-2.5G/XCVXL-10G equipment units only in this release.

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Category

Equipment

Security

Maintenance

Related Commands

ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT DLT-EQPT DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-EQPT ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FFP-OCH ENT-EQPT ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> EX-SW-<STM_MSSPR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT OPR-PROTNSW-<STM_TYPE>

REPT ALM EQPT REPT EVT EQPT REPT SW RLS-PROTNSW-<STM_TYPE> RTRV-ALM-EQPT RTRV-ALMTH-EQPT RTRV-COND-EQPT RTRV-EQPT RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FFP-OCH RTRV-PROTNSW-<STM_TYPE> SET-ALMTH-EQPT SW-DX-EQPT SW-TOPROTN-EQPT SW-TOWKG-EQPT

Input Format

ALW-SWDX-EQPT:[<TID>]:<AID>:<CTAG>[::];

Input Example

ALW-SWDX-EQPT:CISCO:SLOT-8:1234;

Input Parameters

Table 3-8 ALW-SWDX-EQPT Input Parameters 

Parameter and Values	Description
AID	Access identifier for XC10G/XCVXL-10G/XCVXL-2.5G from the "EQPT" section

Errors

Errors are listed in Table 6-1.

3.2.7  ALW-SWTOPROTN-EQPT

Allow Switch to Protection Equipment

Usage Guidelines

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 electrical cards that can participate in and electrical protection group (e.g. E1, E3, E4, and DS3i-N-12). 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/TCC2P or XC10G/XCVXL-10G/XCVXL-2.5G) 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 SDH (STM) cards. A command on an SDH card will receive an IIAC (Input, Invalid Access identifier) error message. To use an SDH 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 as long as none of the previous error conditions apply.

Category

Equipment

Security

Maintenance

Related Commands

ALW-SWDX-EQPT ALW-SWTOWKG-EQPT DLT-EQPT DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-EQPT ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FFP-OCH ENT-EQPT ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> EX-SW-<STM_MSSPR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT OPR-PROTNSW-<STM_TYPE>

REPT ALM EQPT REPT EVT EQPT REPT SW RLS-PROTNSW-<STM_TYPE> RTRV-ALM-EQPT RTRV-ALMTH-EQPT RTRV-COND-EQPT RTRV-EQPT RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FFP-OCH RTRV-PROTNSW-<STM_TYPE> SET-ALMTH-EQPT SW-DX-EQPT SW-TOPROTN-EQPT SW-TOWKG-EQPT

Input Format

ALW-SWTOPROTN-EQPT:[<TID>]:<AID>:<CTAG>[::<DIRN>];

Input Example

ALW-SWTOPROTN-EQPT:CISCO:SLOT-2:123::BTH;

Input Parameters

Table 3-9 ALW-SWTOPROTN-EQPT Input Parameters 

Parameter and Values	Description
AID	Access identifier. 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). Values are in the "EQPT" section
DIRN	The direction relative to the entity defined in the AID field.Tthe direction of the switching. This command only supports one value of the DIRN parameter, BTH. Defaults to BTH
	Parameter type is DIRECTION—transmit and receive directions
•BTH	Both transmit and receive directions

Errors

Errors are listed in Table 6-1.

3.2.8  ALW-SWTOWKG-EQPT

Allow Switch to Working Equipment

Usage Guidelines

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 electrical cards that can participate in an electrical protection group (e.g. E1, E3, E4, and DS3i-N-12).

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/TCC2P or XC10G/XCVXL-10G/XCVXL-2.5G) 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 SDH (STM) cards. A command on an SDH card will receive an IIAC (Input, Invalid Access Identifier) error message. To use an SDH 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.

Category

Equipment

Security

Maintenance

Related Commands

ALW-SWDX-EQPT ALW-SWTOPROTN-EQPT DLT-EQPT DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-EQPT ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FFP-OCH ENT-EQPT ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> EX-SW-<STM_MSSPR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT OPR-PROTNSW-<STM_TYPE>

REPT ALM EQPT REPT EVT EQPT REPT SW RLS-PROTNSW-<STM_TYPE> RTRV-ALM-EQPT RTRV-ALMTH-EQPT RTRV-COND-EQPT RTRV-EQPT RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FFP-OCH RTRV-PROTNSW-<STM_TYPE> SET-ALMTH-EQPT SW-DX-EQPT SW-TOPROTN-EQPT SW-TOWKG-EQPT

Input Format

ALW-SWTOWKG-EQPT:[<TID>]:<AID>:<CTAG>[::<DIRN>];

Input Example

ALW-SWTOWKG-EQPT:CISCO:SLOT-2:123::BTH;

Input Parameters

Table 3-10 ALW-SWTOWKG-EQPT Input Parameters 

Parameter and Values	Description
AID	Access identifier. 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). Values are in the "EQPT" section
DIRN	The direction relative to the entity defined in the AID field. The direction of the switching. This command only supports one value of the DIRN parameter, BTH. Defaults to BTH
	Parameter type is DIRECTION—transmit and receive directions
•BTH	Both transmit and receive directions

Errors

Errors are listed in Table 6-1.

3.2.9  ALW-USER-SECU

Allow User Security

Usage Guidelines

This command enables a userid that has been disabled using the INH-USER-SECU command so the user can reestablish a session with the NE.

Category

Security

Security

Superuser

Related Commands

ACT-USER ALW-MSG-SECU CANC CANC-USER CANC-USER-SECU CLR-COND-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>;

Input Example

ALW-USER-SECU:PETALUMA::123::UID;

Input Parameters

Table 3-11 ALW-USER-SECU Input Parameters 

Parameter and Values	Description
UID	The user identifier (userid) of the person logged in. UID can be a list of userids separated by "&". The keyword ALL may not be used to specify all users on an NE. String

Errors

Errors are listed in Table 6-1.

3.2.10  APPLY

Apply

Usage Guidelines

This command activates or reverts a software load during a software upgrade or downgrade process.

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Note An error will be generated if you attempt to activate an older software load or attempt to revert to a newer software load.

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Category

File Transfer

Security

Superuser

Related Commands

COPY-RFILE

REPT EVT FXFR

Input Format

APPLY:[<TID>]::<CTAG>[::<MEM_SW_TYPE>];

Input Example

APPLY:CISCO::123::ACT;

Input Parameters

Table 3-12 APPLY Input Parameters 

Parameter and Values	Description
MEM_SW_TYPE	Memory switch action during the software upgrade
	Parameter type is DL_TYPE—indicates software download type
•ACT	Activates to a newer software load during the software download
•RVRT	Reverts to an older software load during software download

Errors

Errors are listed in Table 6-1.

3.2.11  CANC

Cancel

Usage Guidelines

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. Beginning with Release 4.0 timeouts can be provisioned through CTC. Beginning with Release 4.6, timeouts can be provisioned with the SET-ATTR-SECUDFLT command. 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.

Category

Security

Security

Retrieve

Related Commands

ACT-USER ALW-MSG-SECU ALW-USER-SECU CANC-USER CANC-USER-SECU CLR-COND-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>"
;

Output Example

TID-000 1998-06-20 14:30:00
A 100.100 CANC
"CISCO15"
;

Output Parameters

Table 3-13 CANC Output Parameters 

Parameter and Values	Description
UID	The user identifier (userid) of the person logged in. Refers to the userid of a user whose session is terminated due to timeout. String

3.2.12  CANC-USER

Cancel User

Usage Guidelines

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.

Category

Security

Security

Retrieve

Related Commands

ACT-USER ALW-MSG-SECU ALW-USER-SECU CANC CANC-USER-SECU CLR-COND-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>;

Input Example

CANC-USER:PETALUMA:TERRI:101;

Input Parameters

Table 3-14 CANC-USER Input Parameters 

Parameter and Values	Description
USERID	Identifies the user to the system. USERID can be up to 10 alphanumeric characters. String

Errors

Errors are listed in Table 6-1Table 6-1.

3.2.13  CANC-USER-SECU

Cancel User Security

Usage Guidelines

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.

---

Category

Security

Security

Superuser

Related Commands

ACT-USER ALW-MSG-SECU ALW-USER-SECU CANC CANC-USER CLR-COND-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-SECU:[<TID>]:<UID>:<CTAG>;

Input Example

CANC-USER-SECU:PETALUMA:CISCO10:100;

Input Parameters

Table 3-15 CANC-USER-SECU Input Parameters 

Parameter and Values	Description
UID	The user identifier (userid) of the person logged in. UID can be a list of userids separated by "&". The keyword ALL may not be used to specify all users on an NE. String

Errors

Errors are listed in Table 6-1.

3.2.14  CHG-ACCMD-<MOD_TACC>

Change Test Access Mode (DS3I, E1, E3, VC3, VC44C, VC38C, VC464C, VC48C, VC36C, VC4, VC416C, VC42C, VC43C, VC12)

Usage Guidelines

See Table 4-11 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.

This may be a change from monitoring the data to inserting data into the VC. 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-<VC_PATH> or ED-VC12 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 Locked-Maintenance 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.

Category

Troubleshooting and Test Access

Security

Maintenance

Related Commands

CONN-TACC-<MOD_TACC>

DISC-TACC

RTRV-TACC

Input Format

CHG-ACCMD-<MOD_TACC>:[<TID>]:<TAP>: <CTAG>::<MD>;

Input Example

CHG-ACCMD-VC3:CISCO:8:123::MONE;

Input Parameters

Table 3-16 CHG-ACCMD-<MOD_TACC> Input Parameters 

Parameter and Values	Description
TAP	The Test Access Path number. TAP number must be an integer with a range of 1 to 999. String Note This command only supports changing the mode for a single TAP number at a time.
MD	The test access mode. (SPLTE, SPLTF, LOOPE and LOOPF require an external QRS input signal.) Single FAD Test Access does not support MONEF, SPLTEF & SPLTAB modes
	Parameter type is TACC_MODE—test access mode
•LOOPE	Indicates to split both the A and B paths. Connect the line incoming from E direction to the line outgoing in the E direction, and connect this looped configuration to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode
•LOOPF	Indicates to split both the A and B paths. Connect the line incoming from F direction to the line outgoing in the F direction, and connect this looped configuration to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode
•MONE	Indicates that a monitor connection is to be provided from the FAD to the A transmission path of the accessed circuit
•MONEF	Indicates that a monitor connection is to be provided from the FAD1 to a DFAD, or the odd pair of a FAP, to the A transmission path and from FAD2 of the same DFAD, or the even pair of a FAP, to the B transmission path of the accessed circuit.
•MONF	Indicates that a monitor connection is to be provided from the FAD to the B transmission path of the accessed circuit.
•SPLTA	Indicates that a connection is to be provided from both the E and F sides of the A transmission path of the circuit under test to the FAD and split the A transmission path. Intrusive test access mode
•SPLTB	Indicates that a connection is to be provided from both the E and F sides of the B transmission path of the circuit under test to the FAD and split the B transmission path. Intrusive test access mode
•SPLTE	Indicates to split both the A and B paths and connect the E side of the accessed circuit to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode
•SPLTEF	Indicates to split both the A and B paths, and connect the E side of the accessed circuit to FAD1 and the F side to FAD2. Intrusive test access mode
•SPLTF	Indicates to split both the A and B paths, and connect the F side of the accessed circuit to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode

Errors

Errors are listed in Table 6-1.

3.2.15  CLR-COND-SECU

Clear security condition

Usage Guidelines

This command clears the specified standing condition.

---

Note In R5.0, only INTRUSION-PSWD is supported.

---

Category

Security

Security

Provisioning

Related Commands

ACT-USER 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 <MOD2ALM> REPT ALM BITS REPT ALM COM

REPT ALM ENV REPT ALM EQPT REPT ALM SECU REPT ALM SYNCN REPT EVT <MOD2ALM> REPT EVT BITS REPT EVT COM REPT EVT ENV REPT EVT EQPT REPT EVT FXFR REPT EVT IOSCFG REPT EVT SECU REPT EVT SESSION REPT EVT SYNCN RTRV-ALM-<MOD2ALM>

RTRV-ALM-ALL RTRV-ALM-BITS RTRV-ALM-ENV RTRV-ALM-EQPT RTRV-ALM-SYNCN RTRV-CMD-SECU RTRV-COND-<MOD2ALM> RTRV-COND-ALL RTRV-COND-BITS RTRV-COND-ENV RTRV-COND-EQPT RTRV-COND-SYNCN RTRV-DFLT-SECU RTRV-USER-SECU SET-ATTR-SECUDFLT

Input Format

CLR-COND-SECU:[<TID>]::<CTAG>[::<SECUALMTYPE>];

Input Example

CLR-COND-SECU:CISCO::123::INTRUSION-PSWD:

Input Parameters

Table 3-17 CLR-COND-SECU Input Parameters 

Parameter and Values	Description
SECUALMTYPE	Secure alarm type. Defaults to INTRUSION-PSWD
	Parameter type is SECUALMTYPE—security alarm type
•INTRUSION-PSWD	Condition raised after an invalid password is used during login. Condition is raised only if the password is used a specified number of times.

Errors

Errors are listed in Table 6-1.

3.2.16  CONN-TACC-<MOD_TACC>

Connect Test Access (DS3I, E1, E3, VC3, VC44C, VC38C, VC464C, VC48C, VC36C, VC4, VC416C, VC42C, VC43C, VC12)

Usage Guidelines

See Table 4-11 for supported modifiers by platform.

This command connects the VC or VT defined by AID to the VC specified by the TAP number. For more information on TACC, refer to the "Test Access" section.

For this command to be applicable, you must first create the TAP using the ED-<VC_PATH> or ED-VC12 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 Locked-Maintenance 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 MS-SPRing is supported. This will be preempted when a MS-SPRing switch occurs.

11. When you connect a TACC to a protect SNCP trunk, you will always be connected to the working trunk instead.

Category

Troubleshooting and Test Access

Security

Provisioning

Related Commands

DISC-TACC EX-SW-<STM_MSSPR>

OPR-LPBK-<MOD2> RLS-LPBK-<MOD2>

RTRV-TACC

Input Format

CONN-TACC-<MOD_TACC>:[<TID>]:<SRC>:<CTAG>::<TAP>:MD=<MD>;

Input Example

CONN-TACC-VC3:CISCO:VC4-2-1-4:123::8:MD=MONE;

Input Parameters

Table 3-18 CONN-TACC-<MOD_TACC> Input Parameters 

Parameter and Values	Description
SRC	Source AID from the "ALL" section. SRC must not be null
TAP	The Test Access Path number. The TAP number is used to identify all messages between TSC and NE until the access point is released. TAP number must be an integer with a range of 1 to 999. TAP must not be null
MD	The test access mode. (SPLTE, SPLTF, LOOPE and LOOPF require an external QRS input signal.) Single FAD Test Access does not support MONEF, SPLTEF & SPLTAB modes. MD must not be null
	Parameter type is TACC_MODE—test access mode
•LOOPE	Indicates to split both the A and B paths. Connect the line incoming from E direction to the line outgoing in the E direction, and connect this looped configuration to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode
•LOOPF	Indicates to split both the A and B paths. Connect the line incoming from F direction to the line outgoing in the F direction, and connect this looped configuration to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode
•MONE	Indicates that a monitor connection is to be provided from the FAD to the A transmission path of the accessed circuit
•MONEF	Indicates that a monitor connection is to be provided from the FAD1 to a DFAD, or the odd pair of a FAP, to the A transmission path and from FAD2 of the same DFAD, or the even pair of a FAP, to the B transmission path of the accessed circuit.
•MONF	Indicates that a monitor connection is to be provided from the FAD to the B transmission path of the accessed circuit.
•SPLTA	Indicates that a connection is to be provided from both the E and F sides of the A transmission path of the circuit under test to the FAD and split the A transmission path. Intrusive test access mode
•SPLTB	Indicates that a connection is to be provided from both the E and F sides of the B transmission path of the circuit under test to the FAD and split the B transmission path. Intrusive test access mode
•SPLTE	Indicates to split both the A and B paths and connect the E side of the accessed circuit to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode
•SPLTEF	Indicates to split both the A and B paths, and connect the E side of the accessed circuit to FAD1 and the F side to FAD2. Intrusive test access mode
•SPLTF	Indicates to split both the A and B paths, and connect the F side of the accessed circuit to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line. Intrusive test access mode

Output Format

SID DATE TIME

M CTAG COMPLD

"<TAP>"

;

Output Example

TID-000 1998-06-20 14:30:00

M 001 COMPLD

"8"

;

Output Parameters

Table 3-19 CONN-TACC-<MOD_TACC> Output Parameters 

Parameter and Values	Description
TAP	The Test Access Path number. The TAP number is used to identify all messages between TSC and NE until the access point is released. TAP number must be an integer with a range of 1 to 999

Errors

Errors are listed in Table 6-1.

3.2.17  COPY-IOSCFG

Copy IOS Config File

Usage Guidelines

Cisco ONS 15454

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.

---

Note FTP timeout is 30 seconds and is not configurable.

---

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

Category

File Transfer

Security

Provisioning

Related Commands

REPT EVT IOSCFG

Input Format

COPY-IOSCFG:[<TID>]:<AID>:<CTAG>::SRC=<SRC>,DEST=<DEST>;

Input Example

COPY-IOSCFG::SLOT-1:CTAG::SRC="LONG_FTP_PATH",DEST="STARTUP";

Input Parameters

Table 3-20 COPY-IOSCFG Input Parameters 

Parameter and Values	Description
AID	Access identifier. Specifies the slot number of the card where the IOS configuration file belongs. AID is from the "EQPT" section
SRC	Source AID. Specifies where the IOS configuration file is copied from. String
DEST	Specifies where the IOS configuration file is copied to. String

Errors

Errors are listed in Table 6-1.

3.2.18  COPY-RFILE

Copy File

Usage Guidelines

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.

---

Note Since Release 5.0, PACKAGE_PATH is relative to your home directory, instead of being an absolute path from the root directory of the NE. If you want to specify an absolute path, start the path with the string '%2F'.

---

---

Note FTP timeout is 30 seconds and is not configurable.

---

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.

•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 starting from the home directory of the logged-in user.

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. FTP_PORT defaults to 21 and is optional. Leaving this field blank defaults to 21.

5. The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Category

File Transfer

Security

Superuser

Related Commands

APPLY COPY-IOSCFG

REPT EVT FXFR

REPT EVT IOSCFG

Input Format

COPY-RFILE:[<TID>]:[<SRC>]:<CTAG>::TYPE=<XFERTYPE>,[SRC=<SRC1>,]
[DEST=<DEST>,][OVWRT=<OVWRT>,][FTTD=<FTTD>];

Input Example

COPY-RFILE:HERNDON:RFILE-PKG:703::TYPE=SWDL,SRC="LONG_FTP_PATH",
DEST="LONG_FTP_PATH",OVWRT=YES,FTTD="FTTD_URI";

Input Parameters

Table 3-21 COPY-RFILE Input Parameters 

Parameter and Values	Description
SRC	Source AID. The type of file being transferred. From the AID "RFILE" section
XFERTYPE	The file transfer protocol
	Parameter type is TX_TYPE—specifies the type and direction of the file transferred
•RFBU	Remote File Backup. Applicable for Maintenance User (and above)
•RFR	Remote File Restore. Applicable for Superuser
•SWDL	Software Download. Applicable for Maintenance User (and above)
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[:FTP_PORT] /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 •<FTP_PORT> defaults to 21 •<PACKAGE_PATH> is the long path name to the package file starting from the home directory of the logged-in user. 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. 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. String
DEST	Specifies the destination of the file to be transferred. The comments for the SRC parameter (above) are also valid for DEST. String
OVWRT	If OVWRT is YES, then files should be overwritten. If OVWRT is NO, then file transfers will fail if the file already exists at the destination. Using the NO value will result in a error message. The NO value is not supported for database restore or software download
	Parameter type is YES_NO—indicates whether the user's password is about to expire; the user is logged into the NE or the user is locked out of the NE
•NO	No
•YES	Yes
FTTD	The format of the URI should be "FTTD://[FTTD_USER][:FTTD_PASSWORD]]@FTTD_HOST_TID" where: •FTTD_USER is the userid to connect to the FTTD host •FTTD_PASSWORD is the password used to connect to FTTD host •FTTD_HOST_IP is the TID of the FTTD host, DNS and NSAP names are not supported String

Errors

Errors are listed in Table 6-1.

3.2.19  DISC-TACC

Disconnect Test Access

Usage Guidelines

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.

For this command to be applicable, you must first create the TAP using the ED-<VC_PATH> or ED-VC12 command.

If the test access connection is intrusive, the original state of the facility/path is restored after this command is executed. Test access connections are dropped automatically if the TL1 session is terminated or is timed out

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.

Category

Troubleshooting and Test Access

Security

Maintenance

Related Commands

CONN-TACC-<MOD_TACC> EX-SW-<STM_MSSPR>

OPR-LPBK-<MOD2> RLS-LPBK-<MOD2>

RTRV-TACC

Input Format

DISC-TACC:[<TID>]:<TAP>:<CTAG>;

Input Example

DISC-TACC:CISCO:8:123;

Input Parameters

Table 3-22 DISC-TACC Input Parameters 

Parameter and Values	Description
TAP	The Test Access Path number. TAP number must be an integer with a range of 1 to 999. String Note This command only supports disconnecting one TAP at a time

Errors

Errors are listed in Table 6-1.

3.2.20  DLT-<MOD1PAYLOAD>

Delete (10GFC, 10GIGE, 1GFC, 1GFICON, 2GFC, 2GFICON, D1VIDEO, DV6000, ESCON, ETRCLO, GIGE, HDTV, ISC1, STM4, STM64, STM1, STM16, T3)

Usage Guidelines

See Table 4-11 for supported modifiers by platform.

This command deletes the specified port.

Category

Ports

Security

Provisioning

Related Commands

DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-<GIGE_TYPE> ED-<MOD1FCPAYLOAD> ED-<MOD1FICONPAYLOAD> ED-<MOD2DWDMPAYLOAD> ED-<STM_TYPE> ED-ALS ED-DS3I ED-E1/ED-E3/ED-E4 ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-G1000 ED-GFP ED-HDLC ED-STM1E ENT-<MOD1PAYLOAD> ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> INIT-REG-<MOD2> OPR-ALS OPR-LPBK-<MOD2> OPR-PROTNSW-<MOD2DWDMPAYLOAD> OPR-PROTNSW-<STM_TYPE> REPT PM <MOD2> RLS-LPBK-<MOD2> RLS-PROTNSW-<MOD2DWDMPAYLOAD> RLS-PROTNSW-<STM_TYPE> RMV-<MOD2>

RST-<MOD2> RTRV-<MOD1FCPAYLOAD> RTRV-<MOD1FICONPAYLOAD> RTRV-<MOD2DWDMPAYLOAD> RTRV-<STM_TYPE> RTRV-10GIGE RTRV-ALMTH-<MOD2> RTRV-ALS RTRV-DS3I RTRV-E1/RTRV-E3/RTRV-E4 RTRV-FAC RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FSTE RTRV-G1000 RTRV-GFP RTRV-GIGE RTRV-HDLC RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-POS RTRV-PROTNSW-<MOD2DWDMPAYLOAD> RTRV-PROTNSW-<STM_TYPE> RTRV-STM1E RTRV-TH-<MOD2> SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2> SET-TH-<MOD2>

Input Format

DLT-<MOD1PAYLOAD>:[<TID>]:<AID>:<CTAG>[::::];

Input Example

DLT-GIGE:TID:FAC-5-1:1;

Input Parameters

Table 3-23 DLT-<MOD1PAYLOAD> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "FACILITY" section

Errors

Errors are listed in Table 6-1.

3.2.21  DLT-<MOD_RING>

Delete (MS-SPRing)

Usage Guidelines

This command deletes the MS-SPRing of the NE.

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 MS-SPRing does not exist, a SRQN (MSSPR 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.

6. The SROF (Facility Not Provisioned) or (Cannot Access MSSPR) error message will be returned for the invalid query.

7. If the MS-SPRing is in use, a SROF (MSSPR In Use) error message is returned.

8. The SRQN (MSSPR Deletion Failed) error message is returned for the invalid deletion query.

Category

MS-SPRing

Security

Provisioning

Related Commands

ED-<MOD_RING> ENT-<MOD_RING>

EX-SW-<STM_MSSPR> RTRV-<MOD_RING>

RTRV-TRC-<STM_MSSPR>

Input Format

DLT-<MOD_RING>:[<TID>]:<AID>:<CTAG>[:::];

Input Example

DLT-MSSPR:PETALUMA:MSSPR-2:123;

Input Parameters

Table 3-24 DLT-<MOD_RING> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "AidUnionId1" section. Identifies the MS-SPRing of the NE. ALL or MSSPR-ALL AID is not allowed for editing MS-SPRing

Errors

Errors are listed in Table 6-1.

3.2.22  DLT-CRS-<PATH>

Delete Cross Connection (VC3, VC44C, VC38C, VC464C, VC48C, VC36C, VC4, VC416C, VC42C, VC43C, VC12)

Usage Guidelines

This command deletes a cross-connection between VC paths. VC paths are specified using their VC AID.

See Table 4-11 for supported modifiers by platform.

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 VC cross-connections.

4. Using "&" in the AID field of this command can delete an SNCP VC 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-{VC_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-{VC_PATH}:[<TID>]:F1,T1&T2:<CTAG>;

c. The following command is used to delete a 1-way or 2-way subtending SNCP connection with:

from point: F1, F2

to points: T1, T2

DLT-CRS-{VC_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,VC4", the deletion command with the AID format (F1&F2,T1) is required to delete this cross-connection.

e. The following command is used to delete a SNCP IDRI Cross-Connection:

DLT-CRS-{VC_PATH}:[<TID>]:A&B,C&D:<CTAG>;

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 SNCP IDRI cross-connections.

f. The following command is used to delete a SNCP DRI Cross-Connection:

DLT-CRS-{VC_PATH}:[<TID>]:A&B,C:<CTAG>;

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 SNCP 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. CKTID is a string of ASCII characters. The maximum length of CKTID can be 48 characters. If the CKTID is EMPTY or NULL the field will not be displayed.

Category

Cross Connections

Security

Provisioning

Related Commands

ED-CRS-<PATH> ENT-CRS-<PATH>

RTRV-CRS

RTRV-CRS-<PATH>

Input Format

DLT-CRS-<PATH>:[<TID>]:<SRC>,<DST>:<CTAG>:::[CKTID=<CKTID>,]
[CMDMDE=<CMDMDE>];

Input Example

DLT-CRS-VC44C:VINBURG:VC4-1-1-1,VC4-12-1-1:102:::CKTID=CKTID,CMDMDE=CMDMDE;

Input Parameters

Table 3-25 DLT-CRS-PATH Input Parameters 

Parameter and Values	Description
SRC	Source AID from the "CrossConnectId1" section
DST	Destination AID from the "CrossConnectId1" section
CKTID	String
CMDMDE	Command Mode. The FRCD mode of operation is applicable to delete a VCAT member cross- connect from Unlocked-Enabled or Locked-Disabled,AutomaticInService service status
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail

Errors

Errors are listed in Table 6-1.

3.2.23  DLT-EQPT

Delete Equipment

Usage Guidelines

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. The error message SPLD (Equipment In Use) will be returned in the following conditions:

–The card is in a protection group

–The card has a cross-connection or a DCC/GCC/OSC termination or provisionable patchcord termination.

–If any of its facilities is being used as a synchronization source.

2. If a card is not provisioned, an error message will be returned.

Category

Equipment

Security

Provisioning

Related Commands

ALW-SWDX-EQPT ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT ED-EQPT ENT-EQPT INH-SWDX-EQPT

NH-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>[:::];

Input Example

DLT-EQPT:SONOMA:SLOT-1:104;

Input Parameters

Table 3-26 DLT-EQPT Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "EQPT" section. Identifies an equipment unit (slot) to act on

Errors

Errors are listed in Table 6-1.

3.2.24  DLT-FFP-<MOD2DWDMPAYLOAD>

Delete Facility Protection Group (10GFC, 10GIGE, 1GFC, 1GFICON, 2GFC, 2GFICON, D1VIDEO, DV6000, ETRCLO, GIGE, HDTV, ISC1, ISC3, PASSTHRU)

Usage Guidelines

This command deletes Y cable protection on client facilities.

Category

DWDM

Security

Provisioning

Related Commands

ALW-SWDX-EQPT ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT DLT-FFP-<STM_TYPE> ED-DS3I ED-E1/ED-E3/ED-E4 ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FFP-OCH ED-FSTE ED-G1000 ED-GFP ED-HDLC ED-STM1E ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> EX-SW-<STM_MSSPR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT INH-SWTOWKG-EQPT OPR-PROTNSW-<STM_TYPE> REPT SW RLS-PROTNSW-<STM_TYPE> RMV-<MOD2> RST-<MOD2> RTRV-<MOD1FCPAYLOAD> RTRV-<MOD1FICONPAYLOAD> RTRV-<MOD2DWDMPAYLOAD>

RTRV-<STM_TYPE> RTRV-10GIGE RTRV-ALMTH-<MOD2> RTRV-DS3I RTRV-E1/RTRV-E3/RTRV-E4 RTRV-FAC RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FFP-OCH RTRV-FSTE RTRV-G1000 RTRV-GFP RTRV-GIGE RTRV-HDLC RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-POS RTRV-PROTNSW-<MOD2DWDMPAYLOAD> RTRV-PROTNSW-<STM_TYPE> RTRV-STM1E RTRV-TH-<MOD2> SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2> SET-TH-<MOD2> SW-DX-EQPT SW-TOPROTN-EQPT SW-TOWKG-EQPT

Input Format

DLT-FFP-<MOD2DWDMPAYLOAD>:[<TID>]:<WORKAID>,<PROTAID>:<CTAG>[:::];

Input Example

DLT-FFP-HDTV:CISCO:FAC-1-1-1,FAC-2-1-1:100;

Input Parameters

Table 3-27 DLT-FFP-<MOD2DWDMPAYLOAD> Input Parameters 

Parameter and Values	Description
WORKAID	The working facility AID from the "FACILITY" section
PROTAID	The protecting facility AID from the "FACILITY" section

Errors

Errors are listed in Table 6-1

3.2.25  DLT-FFP-<STM_TYPE>

Delete Facility Protection Group (STM4, STM64, STM1, STM16)

Usage Guidelines

This command deletes an STM facility protection group in a 1+1 architecture.

See Table 4-11 for supported modifiers by platform.

---

Note If the protection group does not exist, an error message will be returned.

---

Category

Protection

Security

Provisioning

Related Commands

ALW-SWDX-EQPT ALW-SWTOPROTN-EQPT ALW-SWTOWKG-EQPT DLT-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FFP-OCH ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> EX-SW-<STM_MSSPR> INH-SWDX-EQPT INH-SWTOPROTN-EQPT

INH-SWTOWKG-EQPT OPR-PROTNSW-<STM_TYPE> REPT SW RLS-PROTNSW-<STM_TYPE> RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FFP-OCH RTRV-PROTNSW-<STM_TYPE> SW-DX-EQPT SW-TOPROTN-EQPT SW-TOWKG-EQPT

Input Format

DLT-FFP-<STM_TYPE>:[<TID>]:<WORK>,<PROTECT>:<CTAG>[:::];

Input Example

DLT-FFP-STM1:PETALUMA:FAC-2-1,FAC-1-1:1;

Input Parameters

Table 3-28 DLT-FFP-<STM_TYPE> Input Parameters 

Parameter and Values	Description
WORK	The working facility AID from the "FACILITY" section
PROTECT	The protect facility AID from the "FACILITY" section

Errors

Errors are listed in Table 6-1

3.2.26  DLT-LNK-<MOD2O>

Delete Optical Link (OCH, OMS, OTS)

Usage Guidelines

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.

Category

DWDM

Security

Provisioning

Related Commands

ED-DWDM ED-FFP-OCH ED-LNK-<MOD2O> ED-OCH ED-OMS ED-OTS ENT-LNK-<MOD2O>

ED-TRC-OCH OPR-LASER-OTS OPR-PROTNSW-OCH RLS-LASER-OTS RLS-PROTNSW-OCH RTRV-DWDM RTRV-FFP-OCH

RTRV-LNK-<MOD2O> RTRV-OCH RTRV-OMS RTRV-OTS RTRV-PROTNSW-OCH RTRV-TRC-OCH

Input Format

DLT-LNK-<MOD2O>:[<TID>]:<FROM>,<TO>:<CTAG>;

Input Example

DLT-LNK-OMS:PENNGROVE:BAND-6-1-TX,BAND-13-1-RX:114;

Input Parameters

Table 3-29 DLT-LNK-<MOD2O> Input Parameters 

Parameter and Values	Description
FROM	The identifier at one end of the optical link from the AID "BAND" section
TO	The identifier at the other end of the optical link from the AID "BAND" section

Errors

Errors are listed in Table 6-1.

3.2.27  DLT-LNKTERM

Delete a Provisionable Patchcord Termination

Usage Guidelines

This command deletes a provisionable patchcord termination present on a node. All termination points of a link/provisionable patchcord have to be deleted for the link to be deleted fully.

Notes:

1. This command accepts multiple AIDs, but does not accept the ALL AID.

2. A suitable error will be responsed if the link termination does not exist.

Category

Provisionable Patchcords

Security

Provisioning

Related Commands

DLT-LNK-<MOD2O> DLT-OSC DLT-WLEN ED-APC ED-CLNT ED-DWDM ED-FFP-OCH ED-LNK-<MOD2O> ED-LNKTERM ED-OCH ED-OMS ED-OSC ED-OTS ED-SLV-WDMANS ED-TRC-OCH ED-WDMANS

ED-WLEN ENT-LNK-<MOD2O> ENT-LNKTERM ENT-OSC ENT-WLEN OPR-APC OPR-LASER-OTS OPR-PROTNSW-OCH OPR-SLV-WDMANS OPR-WDMANS RLS-LASER-OTS RLS-PROTNSW-OCH RTRV-APC RTRV-CLNT RTRV-DWDM RTRV-ESCON

RTRV-FFP-OCH RTRV-LNK-<MOD2O> RTRV-LNKTERM RTRV-NE-APC RTRV-NE-WDMANS RTRV-OCH RTRV-OMS RTRV-OPM RTRV-OSC RTRV-OTS RTRV-PROTNSW-OCH TRV-SLV-WDMANS RTRV-TRC-OCH RTRV-WDMANS RTRV-WLEN

Input Format

DLT-LNKTERM:[<TID>]:<AID>:<CTAG>;

Input Example

DLT-LNKTERM::LNKTERM-1:CTAG;

Input Parameters

Table 3-30 DLT-LNKTERM Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "LNKTERM" section. Indicates a link (provisionable patchcord) termination on the local node.

Errors

Errors are listed in Table 6-1.

3.2.28  DLT-OSC

Delete OSC

Usage Guidelines

This command deletes the OSC group of the NE.

Category

DWDM

Security

Provisioning

Related Commands

DLT-LNK-<MOD2O> DLT-LNKTERM DLT-WLEN ED-APC ED-CLNT ED-DWDM ED-FFP-OCH ED-LNK-<MOD2O> ED-LNKTERM ED-OCH ED-OMS ED-OSC ED-OTS ED-SLV-WDMANS ED-TRC-OCH ED-WDMANS

ED-WLEN ENT-LNK-<MOD2O> ENT-LNKTERM ENT-OSC ENT-WLENOPR-APC OPR-LASER-OTS OPR-PROTNSW-OCH OPR-SLV-WDMANS OPR-WDMANS RLS-LASER-OTS RLS-PROTNSW-OCH RTRV-APC RTRV-CLNT RTRV-DWDM RTRV-ESCON

RTRV-FFP-OCH RTRV-LNK-<MOD2O> RTRV-LNKTERM RTRV-NE-APC RTRV-NE-WDMANS RTRV-OCH RTRV-OMS RTRV-OPM RTRV-OSC RTRV-OTS RTRV-PROTNSW-OCH RTRV-SLV-WDMANS RTRV-TRC-OCH RTRV-WDMANS RTRV-WLEN

Input Format

DLT-OSC:[<TID>]:<AID>:<CTAG>;

Input Example

DLT-OSC:PENNGROVE:OSC-1:114;

Input Parameters

Table 3-31 DLT-OSC Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "OSC" section. Identifies the OSC group of the NE

Errors

Errors are listed in Table 6-1.

3.2.29  DLT-RMONTH-<MOD2_RMON>

Delete RMONTH (10GFC, 10GIGE, 1GFC, 1GFICON, 2GFC, 2GFICON, FSTE, G1000, GFPOS, GIGE, OCH, POS))

Usage Guidelines

This command deletes a threshold entry in the RMON alarm table. Because there can be multiple thresholds created for a particular montype, you must specify all the necessary parameters for the specific threshold you want to delete.

See Table 4-11 for supported modifiers by platform.

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Category

Performance

Security

Provisioning

Related Commands

ALW-PMREPT-ALL ENT-RMONTH-<MOD2_RMON> INH-PMREPT-ALL INIT-REG-<MOD2> RTRV-PM-<MOD2>

RTRV-PMMODE-<VC_PATH> RTRV-PMSCHED-<MOD2> RTRV-PMSCHED-ALL RTRV-RMONTH-<MOD2_RMON> RTRV-TH-<MOD2>

RTRV-TH-ALL SCHED-PMREPT-<MOD2> SET-PMMODE-<VC_PATH> SET-TH-<MOD2>

Input Format

DLT-RMONTH-<MOD2_RMON>:[<TID>]:<SRC>:<CTAG>::<MONTYPE>,,,,<INTVL>:
RISE=<RISE>,FALL=<FALL>,[SAMPLE=<SAMPLE>,][STARTUP=<STARTUP>][:];

Input Example

DLT-RMONTH-GIGE:CISCO:FAC-2-1:1234::ETHERSTATSOCTETS,,,,100:RISE=1000,FALL=100
SAMPLE=DELTA,STARTUP=RISING;

Input Parameters

Table 3-32 DLT-RMONTH-<MOD2_RMON> Input Parameters 

Parameter and Values	Description
SRC	Source access identifier from the "FACILITY" section. AID for the facility that manages the data statistics
MONTYPE	Monitored type. Type of RMON monitored data statistics
	Parameter type is ALL_MONTYPE—monitoring type list
•AISSP	Alarm Indication Signal Seconds—Path
•BBE-PM	OTN—Background Block Errors—Path Monitor Point
•BBE-SM	OTN—Background Block Errors—Section Monitor Point
•BBEP	SDH Background Block Errors Path
•BBER	SDH Background Block Error Ratio
•BBER-PM	OTN—Background Block Error Ratio—Path Monitor Point expressed as 1/10th of a percentage.
•BBER-SM	OTN—Background Block Error Ratio—Section Monitor Point expressed as 1/10th of a percentage.
•BIEC	FEC—Bit Errors Corrected
•CGV	8B10B—Code Group Violations
•CVCPP	Coding Violations—CP-Bit Path
•CVL	Coding Violations—Line
•CVP	Coding Violations—Path
•CVS	Coding Violations—Section
•CVV	Coding Violations—Section
•DCG	8B10B—Data Code Groups
•ES-PM	OTN—Errored Seconds—Path Monitor Point
•ES-SM	OTN—Errored Seconds—Section Monitor Point
•ESCPP	Errored Seconds—CP—Bit Path
•ESL	Errored Seconds—Line
•ESP	Errored Seconds—Path
•ESR	Errored Second—Ratio
•ESR-PM	Errored Seconds Ratio—Path monitor Point expressed as 1/10th of a percentage
•ESR-SM	Errored Seconds Ratio—Section monitor Point expressed as 1/10th of a percentage
•ESS	Errored Seconds—Section
•ESV	Errored Seconds—VC Path
•FC-PM	OTN—Failure Count—Path Monitor Point
•FC-SM	OTN—Failure Count—Section Monitor Point
•FCP	Failure Count—Line
•IOS	8B10B- Idle Ordered Sets
•IPC	Invalid Packet Count
•LBCL-AVG	Average Laser Bias current in uA
•LBCL-MAX	Maximum Laser Bias current in uA
•LBCL-MIN	Minimum Laser Bias current in uA
•LBCN	Normalized Laser Bias Current for STM1-8
•LBCN-MAX	Maximum value for LBCN
•LOSSL	Loss of Signal Seconds—Line
•MS-PSC	Multiplex Section Protection Switching Count
•NIOS	8B10B—Non Idle Ordered Sets
•NPJC-PDET	PPJC-PDET:Negative Pointer Justification
•NPJC-PGEN	PPJC-PGEN:Negative Pointer Justification
•OPR-AVG	Average Receive Power in 1/10 uW
•OPR-MAX	Maximum Receive Power in 1/10 uW
•OPR-MIN	Minimum Receive Power in 1/10 uW
•OPRN	Normalized Optical Receive Power for STM1-8
•OPRN-MAX	Maximum value for OPRN
•OPRN-MIN	Minimum value for OPRN
•OPT-AVG	Average Transmit Power in 1/10 uW
•OPT-MAX	Maximum Transmit Power in 1/10 uW
•OPT-MIN	Minimum Transmit Power in 1/10uW
•OPTN	Normalized value for Optical Power Transmitted for STM1-8 card
•OPTN-MAX	Maximum value for OPTN
•OPTN-MIN	Minimum value for OPTN
•OPWR-AVG	Optical Power—Average Interval Value in 1/10th of dBm
•OPWR-MAX	Optical Power—Maximum Interval Value in 1/10th of dBm
•OPWR-MIN	Optical Power—Minimum Interval Value in 1/10th of dBm
•PPJC-PDET	PPJC-PDET:Positive Pointer Justification
•PPJC-PGEN	PPJC-PGEN:Positive Pointer Justification
•PSC	Protection Switching Count
•PSC-R	Protection Switching Count—Ring
•PSC-S	Protection Switching Count—Span
•PSC-W	Protection Switching Count—Working
•PSD	Protection Switching Duration
•PSD-R	Protection Switching Duration—Ring
•PSD-S	Protection Switching Duration—Span
•PSD-W	Protection Switching Duration—Working
•SASCPP	Severely Errored Framing/AIS Second—CP-Bit Path
•SASP	Severely Errored Framing/AIS Seconds Path
•SEFS	Severely Errored Framing Seconds
•SES-PM	OTN—Severely Errored Second—Path
•SES-SM	OTN—Severely Errored Second—Section Monitor Point
•SESCPP	Severely Errored Second—CP-Bit Path
•SESL	Severely Errored Second—Line
•SESP	Severely Errored Second—Path
•SESR-PM	OTN—Severely Errored Second Ratio—Path Monitor Point expressed as 1/10th of a percentage
•SESR-SM	OTN—Severely Errored Second Ratio—Section Monitor Point expressed as 1/10th of a percentage
•SESS	Severely Errored Second—Section
•SESV	Severely Errored Second—VC Path
•UAS-PM	OTN—Unavailable Second—Path Monitor Point
•UAS-SM	OTN—Unavailable Second—Section Monitor Point
•UASCPP	Unavailable Second—CP-Bit Path
•UASL	Unavailable Second—Line
•UASP	Unavailable Second—Path
•UASV	Unavailable Second—VC Path
•UNC-WORDS	FEC—Uncorrectable Words
•VPC	Valid Packet Count
INTVL	The interval in seconds over which the data is sampled and compared with the rising and falling threshold. A valid value is any integer larger than or equal to 10 (seconds)
RISE	The rising threshold for the sampled statistics. A valid value is any integer
FALL	The falling threshold. A valid value is any integer smaller than the rising threshold
SAMPLE	The method of calculating the value to be compared to the thresholds
	Parameter type is SAMPLE_TYPE—describes how the data will be calculated during the sampling period
•ABSOLUTE	Comparing directly
•DELTA	Comparing with the current value of the selected variable subtracted by the last sample
STARTUP	Dictates whether an event will generate if the first valid sample is greater than or equal to the rising threshold, less than or equal to the falling threshold, or both
	Parameter type is STARTUP_TYPE—indicates whether an event will be generated when the first valid sample is crossing the rising or falling threshold
•FALLING	Generates the event when the sample is smaller than or equal to the falling threshold
•RISING	Generates the event when the sample is greater than or equal to the rising threshold
•RISING-OR-FALLING	Generates the event when the sample is crossing the rising threshold, or the falling threshold

Errors

Errors are listed in Table 6-1.

3.2.30  DLT-ROUTE

Delete Route

Usage Guidelines

This command deletes the static routes.

Category

System

Security

Provisioning

Related Commands

ENT-ROUTE

RTRV-ROUTE

Input Format

DLT-ROUTE:[<TID>]:<AID>:<CTAG>::<DESTIP>,<IPMASK>;

Input Example

DLT-ROUTE:CISCO::123::10.64.72.57,255.255.255.0;

Input Parameters

Table 3-33 DLT-ROUTE Input Parameters 

Parameter and Values	Description
DESTIP	Destination tip. String
IPMASK	IP mask. String

Errors

Errors are listed in Table 6-1.

3.2.31  DLT-TRAPTABLE

Delete TrapTable

Usage Guidelines

This command deletes an SNMP trap destination entry. Entering ALL will delete the whole table.

Category

System

Security

Provisioning

Related Commands

ACT-USER ALW-MSG-ALL ALW-MSG-DBCHG ALW-MSG-SECU COPY-RFILE ED-DAT ED-NE-GEN ED-NE-PATH ED-NE-SYNCN ED-TRAPTABLE

ENT-TRAPTABLE INH-MSG-ALL INH-MSG-DBCHG INH-MSG-SECU INIT-SYS REPT EVT FXFR RTRV-HDR RTRV-INV RTRV-MAP-NETWORK

RTRV-NE-APC RTRV-NE-GEN RTRV-NE-IPMAP RTRV-NE-PATH RTRV-NE-SYNCN RTRV-NE-WDMANS RTRV-TOD RTRV-TRAPTABLE SET-TOD

Input Format

DLT-TRAPTABLE:[<TID>]:<AID>:<CTAG>;

Input Example

DLT-TRAPTABLE::1.2.3.4:1;

Input Parameters

Table 3-34 DLT-TRAPTABLE Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "IPADDR" section. IP address identifies the trap destination. Only numeric IP addresses are allowed

Errors

Errors are listed in Table 6-1.

3.2.32  DLT-USER-SECU

Delete User Security

Usage Guidelines

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.

Category

Security

Security

Superuser

Related Commands

ACT-USER ALW-MSG-SECU ALW-USER-SECU CANC CANC-USER CANC-USER-SECU CLR-COND-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>;

Input Example

DLT-USER-SECU:PETALUMA:CISCO15:123;

Input Parameters

Table 3-35 DLT-USER-SECU Input Parameters 

Parameter and Values	Description
UID	User identifier. Can be up to 10 alphanumeric characters. String

Errors

Errors are listed in Table 6-1

3.2.33  DLT-VCG

Delete Virtual Concatenated Group

Usage Guidelines

This command deletes a VCG object.

Category

VCAT

Security

Provisioning

Related Commands

ED-VCG

ENT-VCG

RTRV-VCG

Input Format

DLT-VCG:[<TID>]:<SRC>:<CTAG>:::[CMDMDE=<CMDMDE>][:];

Input Example

DLT-VCG:NODE1:FAC-1-1:1234:::CMDMDE=FRCD;

Input Parameters

Table 3-36 DLT-VCG Input Parameters 

Parameter and Values	Description
SRC	Source AID from the "FACILITY" section. ML-Series cards use VFAC AID and FC_MR-4 cards use FAC AID
CMDMDE	Command execution mode, forced or normal. FRCD deletes all the VCG members and member cross-connects of a VCG
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail

Errors

Errors are listed in Table 6-1

3.2.34  DLT-WLEN

Delete Wavelength

Usage Guidelines

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.

Category

DWDM

Security

Provisioning

Related Commands

DLT-LNK-<MOD2O> DLT-LNKTERM DLT-OSC ED-APC ED-CLNT ED-DWDM ED-FFP-OCH ED-LNK-<MOD2O> ED-LNKTERM ED-OCH ED-OMS ED-OSC ED-OTS ED-SLV-WDMANS ED-TRC-OCH ED-WDMANS

ED-WLEN ENT-LNK-<MOD2O> ENT-LNKTERM ENT-OSC ENT-WLEN OPR-APC OPR-LASER-OTS OPR-PROTNSW-OCH OPR-SLV-WDMANS OPR-WDMANS RLS-LASER-OTS RLS-PROTNSW-OCH RTRV-APC RTRV-CLNT RTRV-DWDM RTRV-ESCON

RTRV-FFP-OCH RTRV-LNK-<MOD2O> RTRV-LNKTERM RTRV-NE-APC RTRV-NE-WDMANS RTRV-OCH RTRV-OMS RTRV-OPM RTRV-OSC RTRV-OTS RTRV-PROTNSW-OCH RTRV-SLV-WDMANS RTRV-TRC-OCH RTRV-WDMANS RTRV-WLEN

Input Format

DLT-WLEN:[<TID>]:<AID>:<CTAG>[:::CMDMDE=<CMDMDE>];

Input Example

DLT-WLEN:PENNGROVE:WLEN-W_E-1530.33:114:::CMDMDE=NORM;

Input Parameters

Table 3-37 DLT-WLEN Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "WLEN" section. The wavelength AID per ring direction
CMDMDE	Command execution mode. NORM for normal (default) and FRCD for forced. FRCD will override any safeguards that normally reject a request to delete and in service resource
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail

Errors

Errors are listed in Table 6-1

3.2.35  ED-<GIGE_TYPE>

Edit (10GIGE, GIGE)

Usage Guidelines

This command edits Ethernet facility attributes.

See Table 4-11 for supported modifiers by platform.

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Category

Ports

Security

Provisioning

Related Commands

DLT-<MOD1PAYLOAD> DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-<MOD1FCPAYLOAD> ED-<MOD1FICONPAYLOAD> ED-<MOD2DWDMPAYLOAD> ED-<STM_TYPE> ED-ALS ED-DS3I ED-E1/ED-E3/ED-E4 ED-FAC ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FSTE ED-G1000 ED-GFP ED-HDLC ED-STM1E ENT-<MOD1PAYLOAD> ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> INIT-REG-<MOD2> OPR-ALS OPR-LPBK-<MOD2> OPR-PROTNSW-<MOD2DWDMPAYLOAD> OPR-PROTNSW-<STM_TYPE> REPT PM <MOD2> RLS-LPBK-<MOD2> RLS-PROTNSW-<MOD2DWDMPAYLOAD> RLS-PROTNSW-<STM_TYPE>

RMV-<MOD2> RST-<MOD2> RTRV-<MOD1FCPAYLOAD> RTRV-<MOD1FICONPAYLOAD> RTRV-<MOD2DWDMPAYLOAD> RTRV-<STM_TYPE> RTRV-10GIGE RTRV-ALMTH-<MOD2> RTRV-ALS RTRV-DS3I RTRV-E1/RTRV-E3/RTRV-E4 RTRV-FAC RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FSTE RTRV-G1000 RTRV-GFP RTRV-GIGE RTRV-HDLC RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-POS RTRV-PROTNSW-<MOD2DWDMPAYLOAD> RTRV-PROTNSW-<STM_TYPE> RTRV-STM1E RTRV-TH-<MOD2> SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2> SET-TH-<MOD2>

Input Format

ED-<GIGE_TYPE>:[<TID>]:<AID>:<CTAG>:::[NAME=<NAME>,][MACADDR=<MACADDR>,]
[CMDMDE=<CMDMDE>]:<PST>,[<SST>];

Input Example

ED-GIGE:CISCO:FAC-1-1:123:::NAME="GIGE PORT",MACADDR=00-0E-AA-BB-CC-FF,
CMDMDE=CMDMDE:UNLOCKED,AUTOMATICINSERVICE;

Input Parameters

Table 3-38 ED-<GIGE_TYPE> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "FACILITY" section
NAME	Port name. String. Default is NULL. Maximum length is 32 characters
MACADDR	String. Default is NULL. Maximum length is 18 characters
CMDMDE	Command execution mode. NORM for normal (default) and FRCD for forced. FRCD will override any safeguards that normally reject a request to delete and in service resource
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail
PST	Primary state
	Parameter type is PST—indicates the current overall service condition of an entity
•Unlocked	In service
•Locked	Out of service
SST	Secondary state
	Parameter type is SST—provides additional information pertaining to PST and PSTQ
•AutomaticInService	Automatic in service
•Disabled	Disabled
•Loopback	Loopback
•MismatchofEquipmentAlarm	Mismatch of equipment and attributes
•Maintenance	Maintenance mode
•OutOfGroup	Out of group
•SoftwareDownload	Software downloading
•Unassigned	Unassigned
•NotInstalled	Unequipped

Errors

Errors are listed in Table 6-1

3.2.36  ED-<MOD1FCPAYLOAD>

Edit (1GFC, 2GFC)

Usage Guidelines

See Table 4-11 for supported modifiers by platform.

This command edits the attributes related with the Fiber Channel facility. The state Locked,AutomaticInService is not supported on the FC port.

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Category

Ports

Security

Provisioning

Related Commands

DLT-<MOD1PAYLOAD> DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-GIGE_TYPE> ED-<MOD1FICONPAYLOAD> ED-<MOD2DWDMPAYLOAD> ED-<STM_TYPE> ED-ALS ED-DS3I ED-E1/ED-E3/ED-E4 ED-FAC ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FSTE ED-G1000 ED-GFP ED-HDLC ED-STM1E ENT-<MOD1PAYLOAD> ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> INIT-REG-<MOD2> OPR-ALS OPR-LPBK-<MOD2> OPR-PROTNSW-<MOD2DWDMPAYLOAD> OPR-PROTNSW-<STM_TYPE> REPT PM <MOD2> RLS-LPBK-<MOD2> RLS-PROTNSW-<MOD2DWDMPAYLOAD> RLS-PROTNSW-<STM_TYPE>

RMV-<MOD2> RST-<MOD2> RTRV-<MOD1FCPAYLOAD> RTRV-<MOD1FICONPAYLOAD> RTRV-<MOD2DWDMPAYLOAD> RTRV-<STM_TYPE> RTRV-10GIGE RTRV-ALMTH-<MOD2> RTRV-ALS RTRV-DS3I RTRV-E1/RTRV-E3/RTRV-E4 RTRV-FAC RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FSTE RTRV-G1000 RTRV-GFP RTRV-GIGE RTRV-HDLC RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-POS RTRV-PROTNSW-<MOD2DWDMPAYLOAD> RTRV-PROTNSW-<STM_TYPE> RTRV-STM1E RTRV-TH-<MOD2> SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2> SET-TH-<MOD2>

Input Format

ED-<MOD1FCPAYLOAD>:[<TID>]:<AID>:<CTAG>:::[LINKRCVRY=<LINKRCVRY>,]
[DISTEXTN=<DISTEXTN>,][AUTODETECTION=<AUTODETECTION>,]
[LINKCREDITS=<LINKCREDITS>,][MFS=<MFS>,][NAME=<NAME>,]
[CMDMDE=<CMDMDE>,][SOAK=<SOAK>]:[<PST>],[<SST>];

Input Example

ED-1GFC:CISCO:FAC-6-1:1:::LINKRCVRY=Y,DISTEXTN=NONE,AUTODETECTION=Y,
LINKCREDITS=10,MFS=2148,
NAME="FC PORT",CMDMDE=CMDMDE,SOAK=32:LOCKED,MAINTENANCE;

Input Parameters

Table 3-39 ED-<MOD1FCPAYLOAD> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "FACILITY" section
LINKRCVRY	Link recovery
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
DISTEXTN	Distance extension. It can be set to Buffer-to-Buffer (B2B) Credit Management state or None. Note B2B and link recovery are mutually exclusive. You cannot turn on both B2B and link recovery at the same time
	Parameter type is DISTANCE_EXTENSION—distance extension
•B2B	Buffer to buffer flow control
•NONE	No distance extension
AUTODETECTION	Autodetection. Turns autodetection on or off
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
LINKCREDITS	Number of link credits. If autodetection is set to off the value of the link credits will be used to configure the hardware. Integer
MFS	Maximum frame size. Integer
NAME	String
CMDMDE	Command execution mode, forced or normal. FRCD deletes all the VCG members and member cross-connects of a VCG
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail
SOAK	Locked-AutomaticInService to Unlocked 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 to 192 intervals (maximum of 48 hours). Integer
PST	Primary state
	Parameter type is PST—indicates the current overall service condition of an entity
•Unlocked	In service
•Locked	Out of service
SST	Secondary state
	Parameter type is SST—provides additional information pertaining to PST and PSTQ
•AutomaticInService	Automatic in service
•Disabled	Disabled
•Loopback	Loopback
•MismatchofEquipmentAlarm	Mismatch of equipment and attributes
•Maintenance	Maintenance mode
•OutOfGroup	Out of group
•SoftwareDownload	Software downloading
•Unassigned	Unassigned
•NotInstalled	Unequipped

Errors

Errors are listed in Table 6-1

3.2.37  ED-<MOD1FICONPAYLOAD>

Edit (1GFICON, 2GFICON)

Usage Guidelines

This command edits the attributes related with the FICON payload facility. The state Locked,AutomaticInService is not supported on the FICON port.

See Table 4-11 for supported modifiers by platform.

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Category

Ports

Security

Provisioning

Related Commands

DLT-<MOD1PAYLOAD> DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-GIGE_TYPE> ED-<MOD1FCPAYLOAD> ED-<MOD2DWDMPAYLOAD> ED-<STM_TYPE> ED-ALS ED-DS3I ED-E1/ED-E3/ED-E4 ED-FAC ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FSTE ED-G1000 ED-GFP ED-HDLC ED-STM1E ENT-<MOD1PAYLOAD> ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> INIT-REG-<MOD2> OPR-ALS OPR-LPBK-<MOD2> OPR-PROTNSW-<MOD2DWDMPAYLOAD> OPR-PROTNSW-<STM_TYPE> REPT PM <MOD2> RLS-LPBK-<MOD2> RLS-PROTNSW-<MOD2DWDMPAYLOAD> RLS-PROTNSW-<STM_TYPE>

RMV-<MOD2> RST-<MOD2> RTRV-<MOD1FCPAYLOAD> RTRV-<MOD1FICONPAYLOAD> RTRV-<MOD2DWDMPAYLOAD> RTRV-<STM_TYPE> RTRV-10GIGE RTRV-ALMTH-<MOD2> RTRV-ALS RTRV-DS3I RTRV-E1/RTRV-E3/RTRV-E4 RTRV-FAC RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FSTE RTRV-G1000 RTRV-GFP RTRV-GIGE RTRV-HDLC RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-POS RTRV-PROTNSW-<MOD2DWDMPAYLOAD> RTRV-PROTNSW-<STM_TYPE> RTRV-STM1E RTRV-TH-<MOD2> SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2> SET-TH-<MOD2>

Input Format

ED-<MOD1FICONPAYLOAD>:[<TID>]:<AID>:<CTAG>:::[LINKRCVRY=<LINKRCVRY>,]
[DISTEXTN=<DISTEXTN>,][AUTODETECTION=<AUTODETECTION>,]
[LINKCREDITS=<LINKCREDITS>,][MFS=<MFS>,][NAME=<NAME>,]
[CMDMDE=<CMDMDE>,][SOAK=<SOAK>]:<PST>,<SST>;

Input Example

ED-1GFICON:CISCO:FAC-6-1:1:::LINKRCVRY=Y,DISTEXTN=NONE,AUTODETECTION=Y,
LINKCREDITS=10,MFS=2148,
NAME="FC PORT",CMDMDE=CMDMDE,SOAK=32:LOCKED,MAINTENANCE;

Input Parameters

Table 3-40 ED-<MOD1FICONPAYLOAD> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "FACILITY" section
LINKRCVRY	Link recovery
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
DISTEXTN	Distance extension. It can be set to Buffer-to-Buffer (B2B) Credit Management state or None. Note B2B and link recovery are mutually exclusive. You cannot turn on both B2B and link recovery at the same time
	Parameter type is DISTANCE_EXTENSION—distance extension
•B2B	Buffer to buffer flow control
•NONE	No distance extension
AUTODETECTION	Autodetection. Turns autodetection on or off
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
LINKCREDITS	Number of link credits. If autodetection is set to off the value of the link credits will be used to configure the hardware. Integer
MFS	Maximum frame size. Integer
NAME	String
CMDMDE	Command execution mode, forced or normal. FRCD deletes all the VCG members and member cross-connects of a VCG
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail
SOAK	Locked-AutomaticInService to Unlocked 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 to 192 intervals (maximum of 48 hours). Integer
PST	Primary state
	Parameter type is PST—indicates the current overall service condition of an entity
•Unlocked	In service
•Locked	Out of service
SST	Secondary state
	Parameter type is SST—provides additional information pertaining to PST and PSTQ
•AutomaticInService	Automatic in service
•Disabled	Disabled
•Loopback	Loopback
•MismatchofEquipmentAlarm	Mismatch of equipment and attributes
•Maintenance	Maintenance mode
•OutOfGroup	Out of group
•SoftwareDownload	Software downloading
•Unassigned	Unassigned
•NotInstalled	Unequipped

Errors

Errors are listed in Table 6-1

3.2.38  ED-<MOD2DWDMPAYLOAD>

Edit (10GFC, 10GIGE, 1GFC, 1GFICON, 2GFC, 2GFICON, D1VIDEO, DV6000, ETRCLO, GIGE, HDTV, ISC1, ISC3, PASSTHRU)

Usage Guidelines

This command edits the operating parameters for a DWDM client facility.

See Table 4-11 for supported modifiers by platform.

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Category

DWDM

Security

Provisioning

Related Commands

DLT-<MOD1PAYLOAD> DLT-FFP-<MOD2DWDMPAYLOAD> DLT-FFP-<STM_TYPE> ED-GIGE_TYPE> ED-<MOD1FCPAYLOAD> ED-MOD1FICONPAYLOAD> ED-<STM_TYPE> ED-ALS ED-DS3I ED-E1/ED-E3/ED-E4 ED-FAC ED-FFP-<MOD2DWDMPAYLOAD> ED-FFP-<STM_TYPE> ED-FSTE ED-G1000 ED-GFP ED-HDLC ED-STM1E ENT-<MOD1PAYLOAD> ENT-FFP-<MOD2DWDMPAYLOAD> ENT-FFP-<STM_TYPE> INIT-REG-<MOD2> OPR-ALS OPR-LPBK-<MOD2> OPR-PROTNSW-<MOD2DWDMPAYLOAD> OPR-PROTNSW-<STM_TYPE> REPT PM <MOD2> RLS-LPBK-<MOD2> RLS-PROTNSW-<MOD2DWDMPAYLOAD> RLS-PROTNSW-<STM_TYPE>

RMV-<MOD2> RST-<MOD2> RTRV-<MOD1FCPAYLOAD> RTRV-<MOD1FICONPAYLOAD> RTRV-<MOD2DWDMPAYLOAD> RTRV-<STM_TYPE> RTRV-10GIGE RTRV-ALMTH-<MOD2> RTRV-ALS RTRV-DS3I RTRV-E1/RTRV-E3/RTRV-E4 RTRV-FAC RTRV-FFP-<MOD2DWDMPAYLOAD> RTRV-FFP-<STM_TYPE> RTRV-FSTE RTRV-G1000 RTRV-GFP RTRV-GIGE RTRV-HDLC RTRV-PM-<MOD2> RTRV-PMSCHED-<MOD2> RTRV-POS RTRV-PROTNSW-<MOD2DWDMPAYLOAD> RTRV-PROTNSW-<STM_TYPE> RTRV-STM1E RTRV-TH-<MOD2> SCHED-PMREPT-<MOD2> SET-ALMTH-<MOD2> SET-TH-<MOD2>

Input Format

ED-<MOD2DWDMPAYLOAD>:[<TID>]:<AID>:<CTAG>:::[NAME=<NAME>,]
[CMDMDE=<CMDMDE>]:<PST>,[<SST>];

Input Example

ED-HDTV::FAC-1-1:1:::NAME="PORTNAME",CMDMDE=CMDMDE:UNLOCKED,
AUTOMATICINSERVICE;

Input Parameters

Table 3-41 ED-<MOD2DWDMPAYLOAD> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "FACILITY" section
LINKCREDITS	Number of link credits. If autodetection is set to off the value of the link credits will be used to configure the hardware. Integer
NAME	String
CMDMDE	Command execution mode, forced or normal. FRCD deletes all the VCG members and member cross-connects of a VCG
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail
PST	Primary state
	Parameter type is PST—indicates the current overall service condition of an entity
•Unlocked	In service
•Locked	Out of service
SST	Secondary state
	Parameter type is SST—provides additional information pertaining to PST and PSTQ
•AutomaticInService	Automatic in service
•Disabled	Disabled
•Loopback	Loopback
•MismatchofEquipmentAlarm	Mismatch of equipment and attributes
•Maintenance	Maintenance mode
•OutOfGroup	Out of group
•SoftwareDownload	Software downloading
•Unassigned	Unassigned
•NotInstalled	Unequipped

Errors

Errors are listed in Table 6-1

3.2.39  ED-<MOD_PATH>

Edit (VC3, VC44C, VC38C, VC464C, VC48C, STS36C, VC4, VC416C, VC42C, VC43C, VC12)

This command edits the attributes associated with VC and VT paths.

Usage Guidelines

The SFBER, SDBER, RVRTV, and RVTM parameters only apply to SNCP at the VC path level.

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 SDH VC 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 VC or VT and changes it to a test access point. When an editing command on TACC is executed, it assigns the VC or VT for the first 2-way connection and VC+1 as the second 2-way connection. For single FAD test access only a single VC/VT is used for the TAP creation. For more information on TACC, refer to the "Test Access" section.

J1 is implemented on the on E1, E3, E4, DS3i-N-12 and STM cards.

STM4, STM16, E100, and E1000 cards do not support path trace.

STM1, STM16AS, and STM64 only support EXPTRC in the ED-VC-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-<VC_PATH> command to edit the J1 EXPTRC/TRC message, SNCP attributes, and TACC attributes and the command exceeds 255 characters the command will not be processed. You must use multiple ED-<VC_PATH> commands instead.

---

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Error conditions:

1. If sending this command to edit SFBER, SDBER, RVRTV or RVTM for the non-SNCP VC 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. This command is allowed to edit EXPTRC on STM1, STM16AS, and STM64 cards.

4. If sending this command to edit both TACC and any other attribute(s), the (Parameters Not compatible) error message will be returned.

5. If sending this command to edit TACC on an AID with cross-connections, an error message (VC in Use) will be returned.

6. TACC creation will also be denied on the protect ports/cards for 1:1, 1:N, and 1+1.

7. After the MS-SPRing switching, provisioning of the J1 trace string or trace mode is not allowed on the protection path.

8. TACC creation is allowed on PCA for two-fiber and four-fiber MS-SPRing.

9. TACC is not supported on G1000, MXP_2.5_10G/TXP_MR-10G, ML1000-2 and ML100T-12 cards.

10. HOLDOFFTIMER is not specific to a path. It is applicable to the SNCP 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.

11. The cross-connects on the DS3i-N-12 card are VC4 width, but the individual VC 1s within the 3C will be accessible. For editing the path attributes, use ED-VC3 (with the FAC AID). For test access creation use ED-VC4 because the test access path width (like the cross-connect) has to be 3C on the DS3i-N-12 card which creates a new entity (TAP) on the DS3i-N-12 card in 3C width. On the DS3i-N-12 card the ED-VC command can be used either with VC3 or VC4 modifier depending on the parameter to be modified.

12. For the selector path on an MS-SPRing, the SWPDIP is not editable and is always in ON state. If an attempt is made to edit SWPDIP on a selector path with an MS-SPRing, an error message will be returned.

Category

Paths

Security

Provisioning

Related Commands

DLT-CRS-<PATH> DLT-ROLL-<MOD_PATH> ED-CRS-<PATH> ED-NE-PATH ED-ROLL-<MOD_PATH>

ENT-CRS-<PATH> ENT-ROLL-<MOD_PATH> OPR-PROTNSW-<PATH> RLS-PROTNSW-<PATH> RTRV-<PATH>

RTRV-CRS-<PATH> RTRV-NE-PATH RTRV-PROTNSW-<PATH> RTRV-PTHTRC-<PATH> RTRV-ROLL-<MOD_PATH>

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>],
[CMDMDE=<CMDMDE>]:<PST>,[<SST>];

Input Example

ED-VC3C:FERNDALE:VC-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,CMDMDE=CMDMDE:UNLOCKED,
AUTOMATICINSERVICE;

Input Parameters

Table 3-42 ED-<MOD_PATH> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "CrossConnectId1" section
SFBER	Signal failure threshold. Applies only to SNCP. Applies to VC4-level paths
	Parameter type is SF_BER—the threshold for declaring signal failure on a facility or path
•1E-3	SFBER is 1E-3
•1E-4	SFBER is 1E-4
•1E-5	SFBER is 1E-5
SDBER	Signal degrade threshold. Applies only to SNCP. Applies to VC4-level paths (VCn)
	Parameter type is SD_BER—the threshold for declaring signal degrade on a facility or path
•1E-5	SDBER is 1E-5
•1E-6	SDBER is 1E-6
•1E-7	SDBER is 1E-7
•1E-8	SDBER is 1E-8
•1E-9	SDBER is 1E-9
RVRTV	Revertive mode. The value Y indicates that the protection switching system reverts service to the original line after restoration. The value N indicates that the protection switching system does not revert service to the original line after restoration. RVRTV is applicable only for 1+1 protection switching. Null defaults to N. Only applies to SNCP
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
RVTM	Revertive time. RVTM is not allowed to be set while "RVRTV" is N. Only applies to SNCP
	Parameter type is REVERTIVE_TIME—revertive time
•0.5 to 12.0	Revertive time is 0.5 to 12.0 minutes
SWPDIP	On-off switch for SNCP payload defect level switching. Applicable only to VC-level paths in SDH (VCn)
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
HOLDOFFTIMER	Hold off timer for SNCP DRI. Values must be within 0 and 10000 milliseconds (0 - 10 seconds), with increments of 100 milliseconds Integer
EXPTRC	Expected path trace content. Indicates the expected path trace message (J1) contents. EXPTRC is any 64-character ASCII string, including the terminating CR (carriage return) and LF (line feed). Applicable to VC-level paths in SDH (VCn). String
TRC	The path trace message to be transmitted. The trace byte (J1) continuously transmits a 64-byte, fixed length ASCII string, one byte at a time. A null value defaults to the NE transmitting 62 null characters (hex 00) and CR and LF. A null value defaults to the NE transmitting null characters (Hex 00). Applicable to VC-level paths in SDH (VCn). String
TRCMODE	Path trace mode. Applicable only to VC-level Paths in SDH (VCn). Defaults to the OFF mode.
	Parameter type is TRCMODE—trace mode
•AUTO	Use the previously received path trace string as the expected string. Not applicable to MXP/TXP cards
•AUTO-NO-AIS	Use the previously received path trace string as the expected string and do not turn on AIS and RDI if TIMP is detected
•MAN	Use the provisioned expected string as the expected string
•MAN-NO-AIS	Use the provisioned expected string as the expected string and do not turn on AIS and RDI if TIMP is detected
•OFF	Turn off path trace capability. Nothing will be reported
TACC	TAP number within a range of 0 to 999. Indicates whether the digroup being provisioned is to be used as a test access digroup. When TACC is 0 (zero), the TAP is deleted. Integer
TAPTYPE	TAP type
	Parameter type is TAPTYPE—test access point type
•DUAL	Dual FAD
•SINGLE	Single FAD
CMDMDE	Command mode
	Parameter type is CMDMDE—forces the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but you can specify FRCD to force the system to override a state in which the command would normally be denied
•FRCD	Force the system to override a state in which the command would normally be denied
•NORM	Execute the command normally. Do not override any conditions that may make the command fail
PST	Primary state
	Parameter type is PST—indicates the current overall service condition of an entity
•Unlocked	In service
•Locked	Out of service
SST	Secondary state
	Parameter type is SST—provides additional information pertaining to PST and PSTQ
•AutomaticInService	Automatic in service
•Disabled	Disabled
•Loopback	Loopback
•MismatchofEquipmentAlarm	Mismatch of equipment and attributes
•Maintenance	Maintenance mode
•OutOfGroup	Out of group
•SoftwareDownload	Software downloading
•Unassigned	Unassigned
•NotInstalled	Unequipped

Errors

Errors are listed in Table 6-1.

3.2.40  ED-<MOD_RING>

Edit Multiplex Section Shared Protection Ring

Usage Guidelines

This command edits the MS-SPRing attributes.

The RVRTV, RVTM, SRVRTV, SRVTM, NODEID, and RINGID attributes can be edited for the 4-Fiber MS-SPRing.

The RVRTV, RVTM, NODEID, and RINGID attributes can be edited for the 2-Fiber MS-SPRing.

The default values for all optional parameters are NE default values. These values may not be the current value for a parameter. In order to obtain the current value, issue the RTRV-XX command.

Error conditions:

1. If the system fails on getting IOR, a SROF (Get IOR Failed) error message is returned.

2. If the AID is invalid, an IIAC (Invalid AID) error message is returned.

3. If the MS-SPRing does not exist, a SRQN (MSSPR 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.

6. The SROF (Facility Not Provisioned) or Cannot Access MSSPR) error message will be returned for the invalid query.

7. The SRQN (MSSPR 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 MS-SPRing, an IDNV (Invalid Data For 2F-MSSPR) error message will be returned.

9. If 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 MS-SPRing nodeid with a duplicated ID, a SROF (Cannot Set NodeId) error message is returned.

12. If changing the MS-SPRing ringid with a duplicated ID, a SROF (Cannot Set RingId) error message is returned.

Category

MS-SPRing

Security

Provisioning

Related Commands

DLT-<MOD_RING> ENT-<MOD_RING>

EX-SW-<STM_MSSPR> RTRV-<MOD_RING>

RTRV-TRC-<STM_MSSPR>

Input Format

ED-<MOD_RING>:[<TID>]:<AID>:<CTAG>:::[RINGID=<RINGID>,][NODEID=<NODEID>,]
[RVRTV=<RVRTV>,][RVTM=<RVTM>,][SRVRTV=<SRVRTV>,][SRVTM=<SRVTM>][:];

Input Example

ED-MSSPR:PETALUMA:MSSPR-43:123:::RINGID=43,NODEID=3,RVRTV=Y,RVTM=2.0,
SRVRTV=Y,SRVTM=5.0;

Input Parameters

Table 3-43 ED-<MOD_RING> Input Parameters 

Parameter and Values	Description
AID	Access identifier from the "AidUnionId1" section. Identifies the MS-SPRing of the NE. ALL or MSSPR-ALL AID is not allowed for editing a MS-SPRing
RINGID	The MS-SPRing ID of the NE up to six characters. Valid characters are A-Z and 0-9. String
NODEID	The MS-SPRing node ID of the NE. NODEID ranges from 0 to 31. Integer
RVRTV	Revertive mode. The value Y indicates that the protection switching system reverts service to the original line after restoration. The value N indicates that the protection switching system does not revert service to the original line after restoration. RVRTV is applicable only for 1+1 protection switching. Null defaults to N
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
RVTM	Revertive time. RVTM is not allowed to be set while "RVRTV" is N
	Parameter type is REVERTIVE_TIME—revertive time
•0.5 to 12.0	Revertive time is 0.5 to 12.0 minutes
SRVRTV	The span revertive mode for four-fiber MS-SPRing only.
	Parameter type is ON_OFF—disable or enable an attribute
•N	Disable an attribute
•Y	Enable an attribute
SRVTM	The span revertive time for four-fiber MS-SPRing only. SRVTM is not allowed to be set while SRVRTV is N
	Parameter type is REVERTIVE_TIME—revertive time
•0.5 to