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Table Of Contents

TL1 Commands

3.1  ACT-USER: Activate User

3.2  ALW-MSG-ALL: Allow Message All

3.3  ALW-SWDX-EQPT: Allow Switch Duplex Equipment

3.4  CANC-USER: Cancel User

3.5  CPY-MEM: Copy Memory

3.6  DLT-FFP-OCH: Delete Facility Protection OCH

3.7  DLT-IP: Delete IP

3.8  DLT-IPROUTE-STATIC: Delete IP Route Static

3.9  DLT-MEM: Delete Memory

3.10  DLT-NBR: Delete Neighbor

3.11  DLT-NTPASSOC: Delete NTP Associations

3.12  DLT-PATCH: Delete Patch

3.13  DLT-THR-OCH: Delete Threshold OCH

3.14  DLT-USER-SECU: Delete User Security

3.15  ED-DAT: Edit Date

3.16  ED-FFP-OCH: Edit Facility Protection

3.17  ED-GBE10: Edit 10-GE

3.18  ED-IP: Edit IP

3.19  ED-NE-CDP: Edit Network Element CDP

3.20  ED-NE-GEN: Edit Network Element General

3.21  ED-NE-OSCP: Edit Network Element OSCP

3.22  ED-OCH: Edit Optical Channel

3.23  ED-PID: Edit Password

3.24  ED-THR-OCH: Edit Thresholds OCH

3.25  ED-USER-SECU: Edit User Security

3.26  ENT-FFP-OCH: Enter Optical Protection

3.27  ENT-IP: Enter IP

3.28  ENT-IPROUTE-STATIC: Enter Static Routes

3.29  ENT-NBR: Enter Neighbor

3.30  ENT-NTPASSOC: Enter NTP Associations

3.31  ENT-PATCH: Enter Patch

3.32  ENT-THR-OCH: Enter Thresholds OCH

3.33  ENT-USER-SECU: Enter User Security

3.34  FORMAT-MEM: Format Memory

3.35  INH-MSG-ALL: Inhibit Message All

3.36  INH-SWDX-EQPT: Inhibit Switch Duplex Equipment

3.37  INIT-REG-ETH: Initialize Register Ethernet

3.38  INIT-REG-GBE10: Initialize Register 10-GE

3.39  INIT-REG-OCH: Initialize Register OCH

3.40  INIT-SYS: Initialize System

3.41  OPR-LPBK-GBE10: Operate Loopback on the 10-GE

3.42  OPR-LPBK-OCH: Operate Loopback OCH

3.43  OPR-PROTNSW-OCH: Operate Protection Switch OCH

3.44  RLS-LPBK-GBE10: Release Loopback on the 10-GE

3.45  RLS-LPBK-OCH: Release Loopback OCH

3.46  RLS-PROTNSW-OCH: Release Protection Switch OCH

3.47  RST-MEM: Restore Memory

3.48  RST-NE-CDP: Restore Global CDP Attributes

3.49  RTRV-ALM-ALL: Retrieve Alarms All

3.50  RTRV-ALM-ENV: Retrieve Alarms Environmental

3.51  RTRV-ATTR-rr: Retrieve Attributes

3.52  RTRV-CDPNBR-OCH: Retrieve CDP Neighbor OCH

3.53  RTRV-COND-ALL: Retrieve Condition All

3.54  RTRV-EQPT: Retrieve Equipment

3.55  RTRV-FFP-OCH: Retrieve Facility Protection OCH

3.56  RTRV-FILE: Retrieve File

3.57  RTRV-GBE10: Retrieve 10-GE Interfaces

3.58  RTRV-HDR: Retrieve Header

3.59  RTRV-IP: Retrieve IP

3.60  RTRV-IPROUTE: Retrieve IP Route

3.61  RTRV-LOG: Retrieve Log

3.62  RTRV-MEM: Retrieve Memory

3.63  RTRV-NBR: Retrieve Neighbor

3.64  RTRV-NE-CDP: Retrieve Network Element CDP

3.65  RTRV-NE-GEN: Retrieve Generic NE Configuration Values

3.66  RTRV-NE-OSCP: Retrieve Network Element OSCP

3.67  RTRV-NTP: Retrieve NTP

3.68  RTRV-NTPASSOC: Retrieve NTP Associations

3.69  RTRV-OCH: Retrieve Optical Channel

3.70  RTRV-PATCH: Retrieve Patch

3.71  RTRV-PM-ENCAP: Retrieve Performance Encapsulation

3.72  RTRV-PM-EQPT: Retrieve Performance Monitoring Equipment

3.73  RTRV-PM-GBE10: Retrieve Performance Monitoring on 10-GE

3.74  RTRV-PMMODE-OCH: Retrieve Performance Mode OCH

3.75  RTRV-PM-rr: Retrieve Performance Monitoring

3.76  RTRV-THR-OCH: Retrieve Thresholds OCH

3.77  RTRV-TH-rr: Retrieve Threshold

3.78  RTRV-TOD: Retrieve Time of Day

3.79  RTRV-USER-SECU: Retrieve User Security

3.80  SET-ATTR-rr: Set Attributes

3.81  SET-NTP: Set NTP

3.82  SET-PMMODE-OCH: Set Performance Mode OCH

3.83  SET-SID: Set System Identification

3.84  SET-TH-rr: Set Optical Threshold

3.85  SQUEEZE-MEM: Squeeze Memory

3.86  SW-DX-EQPT: Switch Duplex Equipment


TL1 Commands


This chapter describes the TL1 commands used in the Cisco ONS 15540 ESPx environment.

Each TL1 command must be less than or equal to 255 characters. Any command larger than 255 characters must be split into multiple commands


Note TL1 commands that are entered incorrectly are not completed.


3.1  ACT-USER: Activate User

Use this command to log into the NE (network element).

Section
ACT-USER Description 

Category

Security

Security

Retrieve

Related Messages

CANC-USER: Cancel User

DLT-USER-SECU: Delete User Security

ED-USER-SECU: Edit User Security

ENT-USER-SECU: Enter User Security

RTRV-USER-SECU: Retrieve User Security

Input Format

ACT-USER:[<tid>]:<uid>:<ctag>::<pid>;

Where:

<ctag> is the correlation tag.

<uid> is the user identifier. It is a text string with a maximum length of 16 characters.

<pid> is the user login password. It is a text string with a minimum length of six characters.

<tid> is the target identifier.

Input Example

To log into the NE, use the following:

ACT-USER:ons155xx:admin:123::mypswd;

Errors

Errors are listed in Table 2-15.


3.2  ALW-MSG-ALL: Allow Message All

Use the command to transmit all REPT-ALM, REPT-EVT, and REPT-SW autonomous messages.

Section
ALW-MSG-ALL Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

INH-MSG-ALL: Inhibit Message All

Input Format

ALW-MSG-ALL:[<tid>]::<ctag>;

<ctag> is the correlation tag.

<tid> is the target identifier.

Input Example

To transmit all REPT ALM, REPT EVT, and REPT SW autonomous messages, use the following:

ALW-MSG-ALL:ons155xx::123;

Errors

Errors are listed in Table 2-15.


3.3  ALW-SWDX-EQPT: Allow Switch Duplex Equipment

Use this command to switch between active and standby processor cards.

Section
ALW-SWDX-EQPT Description 

Category

Redundancy configuration

Security

Maintenance

Related Messages

INH-SWDX-EQPT: Inhibit Switch Duplex Equipment

SW-DX-EQPT: Switch Duplex Equipment

Input Format

ALW-SWDX-EQPT:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. Valid values are SLOT-6 or SLOT-7.

<ctag> is the correlation tag.

Input Example

To switch between active and standby processor cards, use the following:

ALW-SWDX-EQPT:ons155xx:SLOT-6:123;

Errors

Errors are listed in Table 2-15.


3.4  CANC-USER: Cancel User

Use this command to log out of the NE.

Section
CANC-USER Description 

Category

Security

Security

Retrieve

Related Messages

ACT-USER: Activate User

DLT-USER-SECU: Delete User Security

ED-USER-SECU: Edit User Security

ENT-USER-SECU: Enter User Security

RTRV-USER-SECU: Retrieve User Security

Input Format

CANC-USER:[<tid>]:<uid>:<ctag>;

Where:

<tid> is the target identifier.

<uid> is the user identifier.

<ctag> is the correlation tag.

Input Example

To log out of the NE, use the following:

CANC-USER:ons155xx:admin:123;

Errors

Errors are listed in Table 2-15.


3.5  CPY-MEM: Copy Memory

Use this command to copy the contents from one memory location to another.

The AID of the memory device is specified in the <fromdev> and <todev> fields. Optionally, these fields can be set to NULL and the necessary information can be specified as part of the user defined text string in <frommem> and <tomem>.

Section
CPY-MEM Description

Category

Memory management

Security

Maintenance

Related Messages

FORMAT-MEM: Format Memory

RST-MEM: Restore Memory

RTRV-MEM: Retrieve Memory

Input Format

CPY-MEM:[<tid>]::<ctag>::<frommem>,[<fromdev>],<tomem>,[<todev>]: [CMDMODE=<mode>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<frommem> specifies the name of the source file to copy.

<tomem> specifies the name of the target file to which to copy the contents of the file specified in <frommem>.

<fromdev> indicates the name of the source device from which a file is copied.

<todev> indicates the name of the target device to which a file is copied.

<mode> indicates the mode of operation. Valid values are FRCD or NORMAL. In FRCD mode of operation, any existing file is overwritten. In NORMAL mode of operation, if a file is already present by the name specified in <tomem>, the copy request is denied. The default mode is NORMAL.


Note If this command is used to copy a file to a TFTP location, then the CMDMODE parameter is ignored and any existing file is overwritten.


Input Example

To copy the configuration from running-config to startup-config, use the following:

CPY-MEM:ons155xx::123::"running-config",,"startup-config";


Note The double quotes are optional in the previous example.


To copy the configuration from a TFTP location, use the following:

CPY-MEM:ons155xx::123::"tftp://172.20.46.50/admin/ons15540-i-mz",, "bootflash:ons15540-i-mz";

To copy an image from the bootflash memory to the Flash PC card in slot 0, use the following:

CPY-MEM:ons155xx::123::"bootflash:ons15540-i-mz",, "disk0:ons15540-i-mz";

To use the <fromdev> and <todev> parameters to specify the Flash PC devices involved, use the following:

CPY-MEM:ons155xx::123::"ons15540-i-mz",BOOTFLASH,"ons15540-i-mz", DISK-0;

Errors

Errors are listed in Table 2-15.


3.6  DLT-FFP-OCH: Delete Facility Protection OCH

Use this command to delete a facility protection group.

This command behaves as if executed in forced mode. Upon deletion of a protection group, the system switches service to the working line, irrespective of the state of the working line.

Section
DLT-FFP-OCH Description 

Category

APS

Security

Retrieve

Related Messages

ED-FFP-OCH: Edit Facility Protection

RTRV-FFP-OCH: Retrieve Facility Protection OCH

Input Format

DLT-FFP-OCH:[<tid>]:<wkg_aid>,<prot_aid>:<ctag>;

Where:

<tid> is the target identifier.

<wkg_aid> is the working port AID. Valid values are WAVEPATCH-slot-subcard-port, TRANSPARENT-slot-subcard-0, TENGIGETHERPHY-slot-subcard, or WDMSPLIT-slot-subcard-port.

<prot_aid> is the protection port AID. Valid values are WAVEPATCH-slot-subcard-port, TRANSPARENT-slot-subcard-0, TENGIGETHERPHY-slot-subcard, or WDMSPLIT-slot-subcard-port.

<ctag> is the correlation tag.

Input Example

To delete a facility protection group, use the following:

DLT-FFP-OCH:ons155xx:WAVEPATCH-2-0-0,WAVEPATCH-2-0-1:125;

Errors

Errors are listed in Table 2-15.


3.7  DLT-IP: Delete IP

Use this command to delete IP related configurations on the network management Ethernet port or the OSC interface.

Section
DLT-IP Description 

Category

IP configuration

Security

Retrieve

Related Messages

DLT-IPROUTE-STATIC: Delete IP Route Static

ED-IP: Edit IP

ENT-IP: Enter IP

RTRV-IP: Retrieve IP

RTRV-IPROUTE: Retrieve IP Route

SQUEEZE-MEM: Squeeze Memory

Input Format

DLT-IP:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid > is FE-0, FE-SBY-0, WAVE-slot, ETHERDCC-slot-subcard-0, or LOOPBACK-[0-255].

<ctag> is the correlation tag.

Input Example

To delete IP-related configurations on the active NME port, use the following:

DLT-IP:ons155xx:FE-0:123;

Errors

Errors are listed in Table 2-15.


3.8  DLT-IPROUTE-STATIC: Delete IP Route Static

Use this command to delete IP static routes.

Section
DLT-IPROUTE-STATIC Description 

Category

IP configuration

Security

Provisioning

Related Messages

DLT-IP: Delete IP

ED-IP: Edit IP

ENT-IP: Enter IP

RTRV-IP: Retrieve IP

RTRV-IPROUTE: Retrieve IP Route

SQUEEZE-MEM: Squeeze Memory

Input Format

DLT-IPROUTE-STATIC:[<tid>]::<ctag>:::PREFIXADDR=<addr>, PREFIXMASK=<mask>, [ROUTEIF=<interface>],[ROUTEADDR=<routeaddr>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<addr> is the IP address.

<mask> is the IP subnet mask.

<interface> is the static route interface AID.

<routeaddr> is the static route IP address.

Input Example

To delete IP static routes, use the following:

DLT-IPROUTE-STATIC:ons155xx::123:::PREFIXADDR=10.1.0.0, PREFIXMASK=255.255.0.0, ROUTEIF=WAVE-1;

Errors

Errors are listed in Table 2-15.


3.9  DLT-MEM: Delete Memory

Use this command to delete a file from memory specified by the AID.

The file is simply marked as deleted but not erased from memory.

Section
DLT-MEM Description 

Category

Memory Management

Security

Provisioning

Related Messages

CPY-MEM: Copy Memory

RST-MEM: Restore Memory

RTRV-MEM: Retrieve Memory

Input Format

DLT-MEM:[<tid>]:<aid>:<ctag>:::FILENAME=<filename>;

Where:

<tid> is the target identifier.

<aid> indicates the memory device from which the file is being deleted. Valid values are BOOTFLASH, DISK-[0-1], PCMCIA-[0-1], SBY-BOOTFLASH, SBY-DISK-[0-1], or SBY-PCMCIA-[0-1].

<ctag> is the correlation tag.

<filename> is the filename.

Input Example

To delete a file from memory specified by the AID, use the following:

DLT-MEM:ons155xx:DISK-0:123::"ons15540-i-mz";

Errors

Errors are listed in Table 2-15.


3.10  DLT-NBR: Delete Neighbor

Use this command to delete neighbor entries for a port or to disable learning through CDP on a port.

If LINKDIRN is specified, then only the neighbor entry for that particular direction is deleted. Otherwise, all neighbor entries on the port are deleted.


Note If neighbors are discovered through CDP, then LINKDIRN is always both and the value specified in LINKDIRN is ignored.

Section
DLT-NBR Description 

Category

Topology neighbor configuration

Security

Maintenance

Related Messages

ENT-NBR: Enter Neighbor

RTRV-NBR: Retrieve Neighbor

Input Format

DLT-NBR:[<tid>]:<aid>:<ctag>:::[LINKDIRN=<linkdirn>];

Where:

<aid> identifies the interface and can be one of the following:

TENGIGETHERPHY-slot-subcard-0

TRANSPARENT-slot-subcard-0

WDM-slot-subcard

<linkdirn > is the link direction. Both transmit and receive links of this port are connected to the neighbor specified by the rest of the command.

BOTH - The neighbor is on both the transmit and receive link of this port. BOTH is the default.

TX - The neighbor is on the transmit link of this port.

RX - The neighbor is on the receive link of this port.

For direct links between nodes, LINKDIRN is set to BOTH because there is only one neighbor connected to the port. For configurations with an EDFA connected in one direction, use TX or RX, as appropriate, for the EDFA or neighboring node connected to the port.

Input Example

To delete a physical neighbor in the transmit direction, use the following:

DLT-NBR:ons155xx:WDM-0-0:125:::LINKDIRN=TX;

Errors

Errors are listed in Table 2-15.



3.11  DLT-NTPASSOC: Delete NTP Associations

Use this command to delete an existing NTP association.

Section
DLT-NTPASSOC Description 

Category

NTP

Security

Provisioning

Related Messages

ENT-NTPASSOC: Enter NTP Associations

RTRV-NTP: Retrieve NTP

RTRV-NTPASSOC: Retrieve NTP Associations

Input Format

DLT-NTPASSOC:[<tid>]::<ctag>:::ASSOCTYPE=<assoctype>, ASSOCIPADDR=<associpaddr>;

<tid> is the target identifier.

<ctag> is the correlation tag.

<assoctype> is the association type. Valid values are PEER or SERVER.

<associpaddr> is the association IP address.

Input Example

To delete an existing NTP association, use the following:

DLT-NTPASSOC:ons155xx::123:::ASSOCTYPE=SERVER, ASSOCIPADDR=172.16.246.1;

Errors

Errors are listed in Table 2-15.


3.12  DLT-PATCH: Delete Patch

Use this command to delete a patch configuration.

The CTYPE value for an existing patch cannot be edited. You must delete the patch and make a new patch with the new CTYPE value.

Section
DLT-PATCH Description 

Category

Patch configuration

Security

Provisioning

Related Messages

ENT-PATCH: Enter Patch

RTRV-PATCH: Retrieve Patch

Input Example

DLT-PATCH:<tid>:<from_aid>,<to_aid>:<ctag>;

<tid> is the target identifier.

<from_aid> identifies the port patched from, to the port identified by <to_aid>. Valid values for <from_aid> are as follows:

FILTER-slot-subcard-0

OSCFILTER-slot-subcard

THRU-slot-subcard

WAVE-slot

WAVEPATCH-slot-subcard-port

WDM-slot-subcard

<to_aid> identifies the port patched to, from the port identified by <from_aid>. Valid values for <to_aid> are as follows:

FILTER-slot-subcard-0

OSCFILTER-slot-subcard

THRU-slot-subcard

WAVE-slot

WAVEPATCH-slot-subcard-port

WDM-slot-subcard

<ctag> is the correlation tag.

Input Example

To delete a patch configuration, use the following:

DLT-PATCH:ons155xx:WDM-0-0,THRU-0-0:123;

Errors

Errors are listed in Table 2-15.


3.13  DLT-THR-OCH: Delete Threshold OCH

Use this command to delete either a complete alarm threshold list or particular thresholds within a list.

When deleting particular thresholds from a list, both the ERRTYPE and THRTYPE parameters must be specified.

Section
DLT-THR-OCH Description 

Category

Threshold list configuration

Security

Provisioning

Maintenance

Related Messages

ENT-THR-OCH: Enter Thresholds OCH

RTRV-THR-OCH: Retrieve Thresholds OCH

RTRV-TH-rr: Retrieve Threshold

SET-TH-rr: Set Optical Threshold

Input Format

DLT-THR-OCH:[<tid>]:<thrlistname>:<ctag>:::[ERRTYPE=<errtype>, THRTYPE=<thrtype>];

Where:

<tid> is the target identifier.

<thrlistname> specifies the threshold list.

<ctag> is the correlation tag.

<errtype> indicates the type of error counter to which the threshold applies. Valid values are as follows:

CVS - SONET/SDH section CV errors

CVRD - 8B/10B code violations and running disparity errors

CDLHEC - CDL HEC errors

CRC - Cyclic redundancy check errors

<thrtype> indicates the threshold type. Valid values are as follows:

DEGR - Indicates that a signal degrade condition has been reached. Use this threshold type only when <errtype> is CVS.

FAIL - Indicates that a signal failure conditionhas been reached. Use this threshold type only when <errtype> is CVS.

EVTTHR - Indicates that a non-service affecting condition has been reached. Use this threshold type when <errtype> is not CVS.

ALMTHR - Indicates that a service affecting condition has been reached. Use this threshold type when <errtype> is not CVS.

Input Example

To delete the threshold list or particular thresholds, use the following:

DLT-THR-OCH:ons155xx:sonet-cvs:123;

Errors

Errors are listed in Table 2-15.


3.14  DLT-USER-SECU: Delete User Security

Use this command to delete an existing user account.

Section
DLT-USER-SECU Description 

Category

Security

Security

Retrieve

Related Messages

ACT-USER: Activate User

CANC-USER: Cancel User

ED-USER-SECU: Edit User Security

ENT-USER-SECU: Enter User Security

RTRV-USER-SECU: Retrieve User Security

Input Format

DLT-USER-SECU:[<tid>]:<uid>:<ctag>;

Where:

<tid> is the target identifier.

<uid> is the user identifier.

<ctag> is the correlation tag.

Input Example

To delete an existing user account, use the following:

DLT-USER-SECU:ons155xx:admin:123;

Errors

Errors are listed in Table 2-15.


3.15  ED-DAT: Edit Date

Use this command to edit the date and time on the NE.

Section
ED-DAT Description 

Category

Generic NE configuration

Security

Provisioning

Related Messages

RTRV-HDR: Retrieve Header

RTRV-TOD: Retrieve Time of Day

Input Format

ED-DAT:[<tid>]::<ctag>::[<date>],[<time>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<date> is the current date. The format is YY-MM-DD.

<time> is the current time. The format is HH-MM-SS.

Input Example

To edit the date and time on the NE, use the following:

ED-DAT:ons155xx::123::03-02-11;

Errors

Errors are listed in Table 2-15.


3.16  ED-FFP-OCH: Edit Facility Protection

Use this command to edit the attributes associated with an already created optical 1+1 protection channel and to put the protection group in-service or out-of-service. If the protection group is put out-of-service, then the currently active path continues to remain as the active path.

Section
ED-FFP-OCH Description 

Category

APS

Security

Retrieve

Related Messages

DLT-FFP-OCH: Delete Facility Protection OCH

RTRV-FFP-OCH: Retrieve Facility Protection OCH

Input Format

ED-FFP-OCH:[<tid>]:<wkg_aid>,<prot_aid>:<ctag>:::[PROTID=<protid>], [PSDIRN=<psdirn>], [RVRTV=<rvrtv>],[RVRTM=<rvrtm>], [YCABLE=<ycable>],[ENSWOTM=<enswotm>], [MSGCH=<msgch>], [MSGHOLDTM=<msgholdtm>], [MSGHOLDCOUNT=<msgholdcount>], [MSGMAXINTVTM=<msgmaxintvtm>], [FENDPROTID=<fendprotid>], [FENDIPADDR=<fendipaddr>]: [<pst>];

Where:

<tid> is the target identifier.

<wkg_aid> is the working port AID. Valid values are WAVEPATCH-slot-subcard-port, TRANSPARENT-slot-subcard-0, TENGIGETHERPHY-slot-subcard, or WDMSPLIT-slot-subcard-port.

<prot_aid> is the protection port AID. Valid values are WAVEPATCH-slot-subcard-port, TRANSPARENT-slot-subcard-0, TENGIGETHERPHY-slot-subcard, or WDMSPLIT-slot-subcard-port.

<ctag> is the correlation tag.

<protid> is the protection group identifier. It is a case-sensitive string and can have a maximum of 32 characters. If <protid> is not specified, a protection group name is created with the name of the <wkg_aid>.

<psdirn> is the protection switch direction. Valid values are UNI (unidirectional) and BI (bidirectional). The default is UNI.

<rvrtv> specifies the revertive mode. This feature applies only to y-cable protection. Valid values are Y or N. The default is N.

<rvrtm> is the revertive timer, which applies only if the revertive mode is enabled. The revertive timer specifies the interval to wait before performing a revertive switch. The range is 0 to 720 seconds. The default is 300 seconds.

<ycable> specifies the y-cable mode. This parameter indicates whether the type of protection is y-cable or not. Valid values are Y or N. The default is N.

<enswotm> is the switchover enable timer. This timer is used to delay reenabling of auto-failover to prevent rapid switching between the standby and active links. The range of values is 1 to 120 seconds. The default is 2 seconds.

Input Format (continued)

<msgch> APS Message Channel.

This parameter configures the type of transport channel used to exchange APS protocol messages. Valid values are as follows:

DCC - APS messages are transmitted over the data communications channels (DCCs) in the overhead of the associated channels.

OSC - APS messages are transmitted over the Optical Supervisory Channel.

AUTO - APS automatically selects a transport mechanism to send APS messages. The DCC and OSC transport mechanisms are attempted.

IP - APS messages are transmitted over IP. The IP network can consist of any combination of DCCs, OSCs and out-of-band data communication networks (DCNs).

The default is AUTO.

<msgholdtm> is the APS message channel holddown timer. This parameter specifies the minimum time between successive event-triggered APS messages, in units of milliseconds. The range is 100 to 10,000 milliseconds. The default is 5000 milliseconds.

<msgholdcount> is the APS channel message holddown count. This parameter specifies the maximum number of APS messages that can be sent within one MSGHOLDTM interval. The range is 2 to 10 messages. The default is 2 messages.

<msgmaxintvtm> is the APS channel message maximum interval timer. An APS message is sent unconditionally, whenever the interval specified has elapsed since the last transmission of an APS message. The range is 1 to 120 seconds. The default is 15 seconds.

<fendprotid> is the far-end protection ID. This parameter is a case-sensitive string specifying the APS group at the far-end NE to which the message is being sent over DCC, IP, or OSC message channels.

<fendipaddr> is the far-end IP address. This parameter specifies the IP address of the far-end NE, which is used as the destination address when APS messages are transmitted over the IP message channel.

<pst> is the primary state, used to administratively control the state of the interface, whether it is IS (in-service) or OOS (out-of-service). It also controls the state of the laser on this interface. The default value is IS. If an interface is administratively shut down, then the laser on the interface still sends management and control information. The laser needs to be shut down explicitly. To shut down the interface alone, use OOS-MA as the PST value. To shut down the laser as well, use the PST value of OOS-MA and the SST value of LASERSHUT.

Input Example

To enable a previously configured APS group, use the following:

ED-FFP-OCH:ons155xx:WAVEPATCH-2-0-0,WAVEPATCH-2-0-1:123:::: IS;

Errors

Errors are listed in Table 2-15.


3.17  ED-GBE10: Edit 10-GE

Use this command to configure the 10-GE transponder module interfaces, including forced end-of-hop behavior supported by CDL (Converged Data Link). CDL provides OAM&P (operation, administration, maintenance and provisioning) in Ethernet packet-based optical networks without a SONET/SDH layer.

Section
ED-GBE10 Description 

Category

Interface configuration-10 GE

Security

Provisioning

Related Messages

RTRV-GBE10: Retrieve 10-GE Interfaces

Input Format

ED-GBE10:[<tid>]:<aid>:<ctag>:::[CDL=<cdl>],[FLC=<flc>], [FRCENDHOP=<frcendhop>], [THRLISTNAME=<thrlistname>]:[<pst>];

Where:

<tid> is the target identifier.

<aid> identifies the interface and can be one of the following:

WAVEETHERPHY-slot-subcard

TENGIGETHERPHY-slot-subcard

WAVEPATCH-slot-subcard-port

<cdl> enables or disables the CDL on the given interface. This is applicable only on TENGIGETHERPHY-slot-subcard and WAVEETHERPHY-slot-subcard AIDs. If CDL is enabled on a tengigetherphy interface, an etherdcc interface is created with AID of ETHERDCC-slot-subcard-1. Valid values are Y or N. The default value is N.

<flc> enables or disables forward laser control on TENGIGETHERPHY-slot-subcard and WAVEETHERPHY-slot-subcard AIDs. If forward laser control is enabled, the transmit laser is shut when the cross-connect receive port on the switch is in alarm condition. Valid values are Y or N. The default is N.

<frcendhop> enables or disables the CDL end-of-hop behavior on the given interface. Valid values are Y or N. The default value is N.

The CDL node behavior defines how defect indications are handled. A node behaving as end-of-hop terminates hop-by-hop defect indications. This configuration is valid only when APS is not configured on the interface. If APS is configured, the node behaves as end-of-hop regardless of this object setting. If APS is not configured, we recommend forcing the end-of-hop behavior at administrative boundaries. This ensures that FDI-H and BDI-H between two admin domains reflects only errors that occur between the domains.This parameter can only be used with aid WAVEETHERPHY-slot-subcard.

<thrlistname> assigns a threshold list name to a TENGIGETHERPHY-slot-subcard or WAVEETHERPHY-slot-subcard AID. The threshold list sets thresholds for errors being monitored on this interface. The operator associates multiple threshold lists with an interface. To remove a threshold list from an interface, a NULL value should be passed for that particular list, using the ED-GBE10 command.

<pst> administratively controls the state of the interface, whether it is IS (in-service) or OOS (out-of-service). It also controls the state of the laser on this interface. The default value is IS. If an interface is administratively shut down, the laser on the interface still sends management and control information. The laser needs to be shut down explicitly. To shut down the interface alone, the PST value of OOS-MA should be used. To shut down the laser as well, the PST value of OOS-MA and SST value of LASERSHUT should be used.

Input Example

To force end-of-hop behavior on the waveetherphy interface in slot 9, subcard 0, use the following:

ED-GBE10:ons155xx:WAVEETHERPHY-9-0:123:::FRCENDHOP=Y;

Errors

Errors are listed in Table 2-15.


3.18  ED-IP: Edit IP

Use this command to edit the IP address and mask on the network management Ethernet port or the OSC wave interface.


Note This command cannot be used to change an unnumbered interface configuration. To modify an unnumbered interface configuration, delete the existing configuration using the DLT-IP command and reconfigure using the ENT-IP command.

Section
ED-IP Description 

Category

IP configuration

Security

Retrieve

Related Messages

DLT-IP: Delete IP

DLT-IPROUTE-STATIC: Delete IP Route Static

ENT-IP: Enter IP

RTRV-IP: Retrieve IP

RTRV-IPROUTE: Retrieve IP Route

SQUEEZE-MEM: Squeeze Memory

Input Format

ED-IP:[<tid>]:<aid>:<ctag>:::IPADDR=<addr>,IPMASK=<mask>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. Valid values are FE-0, SBY-FE-0, or WAVE-slot.

<ctag> is the correlation tag.

<addr> is the IP address.

<mask> is the IP subnet mask.

Input Example

Assuming that an IP address was previously configured on the FE-0 interface, to change the address and mask values, use the following:

ED-IP:ons155xx:FE-0:123:::IPADDR=172.16.30.10, IPMASK=255.255.0.0;

Errors

Errors are listed in Table 2-15.



3.19  ED-NE-CDP: Edit Network Element CDP

Use this global level CDP command to edit CDP attributes for the entire system.

Section
ED-NE-CDP Description 

Category

CDP

Security

Provisioning

Related Messages

RTRV-NE-CDP: Retrieve Network Element CDP

Input Format

ED-NE-CDP:[<tid>]::<ctag>:::[CDP=<cdp>],[UPDATETIME=<updatetime>], [HOLDTIME=<holdtime>],[SENDVER=<sendver>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<cdp> enables or disables CDP at the NE level. Valid values are Y or N. The default value is Y.

<updatetime> specifies how often the NE sends CDP packets. Valid values range from 5 to 254 seconds. The default value is 60 seconds.

<holdtime> sets the time for which a received CDP packet must be held before discarding. Valid values range from 10 to 255 seconds. The default value is 180 seconds.


Note The holdtime should not be set to a value less than the updatetime value.


<sendver> indicates the highest version of CDP packets being sent. Valid values are 1 or 2. If SENDVER is 2, then both CDP version 1 and version 2 are sent by the NE. If SENDVER is 1, then only CDP version 1 packets are sent by the NE. The default is 2.

Input Example

To edit CDP attributes for the NE, use the following:

ED-NE-CDP:ons155xx::123::UPDATETIME=30,HOLDTIME=90;

Errors

Errors are listed in Table 2-15.


3.20  ED-NE-GEN: Edit Network Element General

Use this command for generic NE configurations.

Section
ED-NE-GEN Description 

Category

Generic NE configuration

Security

Retrieve

Related Messages

RTRV-NE-GEN: Retrieve Generic NE Configuration Values

Input Format

ED-NE-GEN:[<tid>]::<ctag>:::[CFGREG=<configregval>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<cfgregval> is the string value that specifies the configuration register setting in hexadecimal.

Input Example

To edit general NE configurations, use the following:

ED-NE-GEN:ons155xx::123:::CFGREG=0x0;

Errors

Errors are listed in Table 2-15.


3.21  ED-NE-OSCP: Edit Network Element OSCP

Use this command to configure the OSCP protocol.

Section
ED-NE-OSCP Description 

Category

OSCP

Security

Provisioning

Related Messages

RTRV-NE-OSCP: Retrieve Network Element OSCP

Input Format

ED-NE-OSCP:[<tid>]::<ctag>:::[HELLOINTV=<hello_intv>], [HELLOHLDWN=<hldwn_time>],[INACTFCTR=<factor>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<hello_intv> is the Hello interval. It is the time between successive Hello packets in milliseconds. Valid values range from 100 to 10,000 ms. The default value is 200 ms.

<hldwn_time> is the Hello hold down timer. It is the time interval for which no more than one Hello packet can be sent. Valid values range from 150 to 30,000 ms. The default value is 3000 ms.

<factor> is the inactivity factor. It is the number of Hello intervals to wait before declaring a link as down. Valid values range from 1 to 150. The default value is 5.

Input Example

To configure OSCP protocol parameters, use the following:

ED-NE-OSCP:ons155xx::123:::HELLOINTV=500,HELLOHLDWN=200,INACTFCTR=10;

Errors

Errors are listed in Table 2-15.


3.22  ED-OCH: Edit Optical Channel

Use this command to configure attributes on a transparent interface.

Section
ED-OCH Description 

Category

Transparent interface configuration

Security

Provisioning

Related Messages

RTRV-OCH: Retrieve Optical Channel

OPR-LPBK-OCH: Operate Loopback OCH

RTRV-OCH: Retrieve Optical Channel

Input Format

ED-OCH:[<tid>]:<aid>:<ctag>:::[ENCAP=<encap>],[RATE=<rate>],[FLC=<flc>, [LSC=<lsc>],[OFC=<ofc>],[THRLISTNAME=<name>],[CDP=<cdp>], [LASERFREQ=<laserfreq>]:[<pst>];

Where:

<tid> is the target identifier.

<aid> indicates the interface configured. Valid values of AID are TRANSPARENT-slot-subcard-0, WAVE-slot-subcard, WAVE-slot, WAVEPATCH-slot-subcard-port, and ETHERDCC-slot-subcard-port.

<encap> indicates the protocol encapsulation configured on the transparent interface only. Valid values are as follows:

OC3

OC12

OC48

STM1

STM4

STM16

ESCON

FE

FDDI

FICON-1G

FICON-2G

FC-1G

FC-2G

SYSPLEX-CLO

SYSPLEX-ETR

SYSPLEX-ISC-COMP

SYSPLEX-ISC-PEER

GIGE

TENGIGE

UNKNOWN


Note The default value is UNKNOWN. This parameter can be modified only when the interface is in the OOS state or when it is being brought down to OOS state in the same command.


<rate> indicates the clock rate being configured on a transparent interface. This parameter is configured only when the encapsulation is set to UNKNOWN.

Input Format (continued)

<flc> enables and disables forward laser control. If forward laser control is enabled, the transmit laser is shut down when the cross connect receive port on the switch is in alarm condition. Valid values are Y or N. The default is N.

<lsc> enables or disables laser safety control. The LSC parameter can be configured on wave interfaces only when the carrier boards have no optical splitter. If laser safety control is enabled, the transmit laser on the trunk side is shut down when the receive signal is not available on the fiber. Valid values are Y or N. The default value is N.

<ofc> enables or disables the OFC (open fibre control) safety protocol. The OFC parameter can be modified only when the encapsulation is FC-1G, FC-2G, or FICON and applies to transparent interfaces only. Valid values are Y or N. The default value is N.

<thrlistname> refers to the name entered using the ENT-THR-OCH command. The threshold list sets thresholds for errors monitored on this interface. The ampersand (&) operator associates multiple threshold lists with an interface. To delete a threshold list from an interface, a null value should be passed for that particular list, using the ED-OCH command.

<cdp> enables or disables CDP (Cisco Discovery Protocol) on this port. It applies to the WAVE-slot (OSC) and ETHERDCC ports only. Valid values are Y or N. The default is Y.

<laserfreq> specifies the transmit frequency transponder modules capable of generating more than one laser frequency. The frequency is represented in GHz. This parameter applies only to WAVE-slot-subcard AIDs and can be modified only when the interface is in the OOS (out-of-service) state or when it is brought down to OOS state with this command. The default is the lower frequency for the transponder module.

<pst> is the primary state. The value set in this state determines if the interface is shut down or active. IS (in-service) renders the interface administratively up. OOS is used to administratively shut down the interface. The default value is OOS.

Input Example

To configure SONET OC-12 service, enable FLC, and associate the threshold list named "sonet-cvs" on the transparent interface in slot 3, subcard 0, use the following:

ED-OCH:ons155xx:TRANSPARENT-3-0-0:123:::ENCAP=OC12,FLC=Y, THRLISTNAME=sonet-cvs;

To configure the wave interface in slot 2, subcard 0, with FLC and LSC enabled, use the following:

ED-OCH:ons155xx:WAVE-2-0:123:::THRLISTNAME=sonet-cvs,FLC=Y, LSC=Y, LASERFREQ=159800;

To configure an unknown protocol with a rate of 125,000 Kbps on a transparent interface in slot 2, subcard 0, use the following:

ED-OCH:ons155xx:TRANSPARENT-2-0-0:123:::ENCAP=UNKNOWN, RATE=125000;

To enable or disable the OFC safety protocol on a transparent interface in slot 2, subcard 0, use the following:

ED-OCH:ons155xx:TRANSPARENT-2-0-0:123:::ENCAP=FC-1G,OFC=Y;

Errors

Errors are listed in Table 2-15.


3.23  ED-PID: Edit Password

Use this command to edit your own password.

Section
ED-PID Description 

Category

Security

Security

Provisioning

Related Messages

ACT-USER: Activate User

Input Format

ED-PID:[<tid>]:<uid>:<ctag>::<oldpid>,<newpid>;

Where:

<tid> is the target identifier.

<uid> is the user identifier, a string value with a maximum size of 64 characters.

<ctag> is the correlation tag.

<oldpid> is the old password, which is a string with a maximum size of 25 characters.

<newpid> is the new user login password, which is a string with a maximum size of 25 characters.

Input Example

To edit your own password, use the following:

ED-PID:ons155xx:admin:123::mypswd,newpswd;

Errors

Errors are listed in Table 2-15.


3.24  ED-THR-OCH: Edit Thresholds OCH

Use this command to edit the parameters for an existing threshold in a list.

Section
ED-THR-OCH Description 

Category

Threshold list configuration

Security

Retrieve

Related Messages

RTRV-THR-OCH: Retrieve Thresholds OCH

SET-TH-rr: Set Optical Threshold

Input Format

ED-THR-OCH:[<tid>]:<thrlistname>:<ctag>:::ERRTYPE=<errtype>, THRTYPE=<thrtype>, [VALUE=<value>], [TRGAPS=<trgaps>], [DESCR=<descr>];

where:

<tid> is the target identifier.

<thrlistname> indicates the name of the threshold list being edited.

<ctag> is the correlation tag.

<errtype> indicates the type of error counter to which the threshold applies. Possible values are as follows:

CVS - SONET section CV errors

CVRD - 8B/10B code violations and running disparity errors

CDLHEC - CDL HEC errors

CRC - Cyclic redundancy check errors

<thrtype> indicates the threshold type. Valid values are as follows:

DEGR - Indicates that a signal degrade condition has been reached. Use this threshold type only when <errtype> is CVS.

FAIL - Indicates that a signal failure conditionhas been reached. Use this threshold type only when <errtype> is CVS.

EVTTHR - Indicates that a non-service affecting condition has been reached. Use this threshold type when <errtype> is not CVS.

ALMTHR - Indicates that a service affecting condition has been reached. Use this threshold type when <errtype> is not CVS.

<value> specifies the threshold. If the value assigned here is x, the actual threshold is in the form of 10-x.

<trgaps> is the APS trigger. If enabledk, a protection switch occurs when athe threshold is exceeded. Valid values are Y or N. The default value is Y when ERRTYPE is CVS and N for all other ERRTYPE values.

<index> is an integer value used to uniquely identify a particular threshold within a list of thresholds. The range is 1 to 64. When no value is specified for this parameter, the index for the threshold being created defaults to the lowest available index in that threshold list.

<descr> is a string used to assign a description to the threshold that is being configured. The maximum length of this string is 255 characters.

Input Example

To edit the parameters for an existing threshold in a list, use the following:

ED-THR-OCH:ons155xx:sonet-cvs:123:::ERRTYPE=CVS,THRTYPE=DEG, VALUE=5;

Errors

Errors are listed in Table 2-15.


3.25  ED-USER-SECU: Edit User Security

Use this command to edit the user identifier, password, or privilege levels associated with a user.


Note Only a superuser can perform this function.

Section
ED-USER-SECU Description 

Category

Threshold list configuration

Security

Retrieve

Related Messages

ACT-USER: Activate User

DLT-USER-SECU: Delete User Security

ENT-USER-SECU: Enter User Security

RTRV-USER-SECU: Retrieve User Security

Input Format

[<tid>]:<uid>:<ctag>::<newuid>,<newpid>,,<uap>;

Where:

<tid> is the target identifier.

<uid> is the user identifier, a string value with a maximum size of 64 characters.

<ctag> is the correlation tag.

<newuid> is the new value of the user identifier. It replaces the old value indicated by the <uid>. This field has the same format as the <uid> field.

<uap> is the user access privilege level. Valid values are as follows:

MAINT - maintenance level

PROV - provisioning level

RTRV - retrieve level

SUPER - superuser level

Input Example

To edit the user identifier, password, or privilege levels associated with a user, use the following:

ED-USER-SECU:ons155xx:admin:123::sonalm,password,,PROV;

Errors

Errors are listed in Table 2-15.



3.26  ENT-FFP-OCH: Enter Optical Protection

Use this command to configure splitter protection, line card protection, and trunk fiber based protection.

Section
ENT-FFP-OCH Description 

Category

APS

Security

Retrieve

Related Messages

DLT-FFP-OCH: Delete Facility Protection OCH

RTRV-FFP-OCH: Retrieve Facility Protection OCH

Input Format

ENT-FFP-OCH:[<tid>]:<wkg_aid>,<prot_aid>:<ctag>:::[PROTID=<protid>], [PSDIRN=<psdirn>], [RVRTV=<rvrtv>],[RVRTM=<rvrtm>], [YCABLE=<ycable>],[ENSWOTM=<enswotm>], [MSGCH=<msgch>],[MSGHOLDTM=<msgholdtm>], [MSGHOLDCOUNT=<msgholdcount>], [MSGMAXINTVTM=<msgmaxintvtm>], [FENDPROTID=<fendprotid>], [FENDIPADDR=<fendipaddr>]: [<pst>];

Where:

<tid> is the target identifier.

<wkg_aid> is the working port AID. For splitter protection, the AID is in the form WAVEPATCH-slot-subcard-port, where port equals 0 or 1. For y-cable protection, the AID is in the form TRANSPARENT-slot-subcard-0 or TENGIGETHERPHY-slot-subcard. For trunk fiber based protection, the AID is WDMSPLIT-slot-subcard-port, where port is 0 or 1.

<prot_aid> is the protection port AID. For splitter protection, the AID refers to the wavepatch interface. Hence, the AID is in the form wavepatch-slot-subcard-port, where port equals 0 or 1. For the y-cable protection scheme, the AID is in the form TRANSPARENT-slot-subcard-0 or TENGIGETHERPHY-slot-subcard. For trunk fiber based protection, the AID is WDMSPLIT-slot-subcard-port, where port is 0 or 1.

<ctag> is the correlation tag.

<protid> is the protection group identifier or protection group name. The string can have a maximum of 32 characters. If <protid> is not specified, a protection group name is created with the name of the wkg_aid.

<psdirn> is the switching mode. Valid values are UNI (unidirectional) and BI (bidirectional). The default is UNI.

<rvrtv> is the revertive mode that applies only if monitoring in the standby state is supported. Valid values are Y or N. The default is N. If the value is Y, then the protection switching system reverts service to the active line after restoration.

<rvrtm> is the revertive timer that applies only if the mode is revertive and specifies the wait interval for revertive switching. The range is 0 to 720 seconds. The default is 300 seconds.

<ycable> specifies whether the type of protection is y-cable or not. Valid values are Y or N. The default is N.

<enswotm> specifies the switchover-enable timer. The timer delays re-enabling of auto-failover (to prevent rapid switching between standby and active states). The range is 1 to 120 seconds and the default is two seconds.

Input Format (continued)

<msgch> specifies the APS message channel. This parameter configures the type of transport channel used to exchange APS protocol messages. Valid values are as follows:

DCC - APS messages are transmitted over the data communications channels (DCCs) in the overhead of the associated channels.

OSC - APS messages are transmitted over the optical supervisory channel.

AUTO - APS automatically selects a transport mechanism to send APS messages. DCC and OSC are attempted.

IP - APS messages are transmitted over IP. The IP network can consist of any combination of DCCs, OSCs and out-of-band Data Communication Networks (DCNs). The default is AUTO.

<msgholdtm> specifies the APS message channel holddown time. This parameter specifies the minimum time between successive event-triggered APS messages in units of milliseconds. The range is 100 to 10000 milliseconds. The default is 5000 milliseconds.

<msgholdcount> specifies the APS channel message holddown count. This parameter specifies the maximum number of APS messages that can be sent within one MSGHOLDTM interval. The range is 2 to 10 messages.The default is 2 messages.

<msgmaxintvtm> specifies the APS channel message maximum interval time. An APS message is sent unconditionally whenever the amount of time specified by this object has elapsed since the last transmission of an APS message. The range is 1 to 120 seconds. The default is 15.

<fendprotid> is the far-end protection identifier. This parameter is a case-sensitive string specifying the APS group at the far-end NE to which the message is being sent over DCC, IP, or OSC message channels.

<fendipaddr> specifies the far end IP address This parameter specifies the IP address of the far end, which is used as the destination address when APS messages are transmitted.

<pst> is the primary state. It sets the protection group to be in service or out of service, upon creation. Valid values are IS (in-service) and OOS (out-of-service). OOS-MA (OOS for maintenance) is implied. The default is IS.

Input Example

To configure splitter protection, use the following:

ENT-FFP-OCH:ons155xx:WAVEPATCH-2-0-0,WAVEPATCH-2-0-1:123::: PROTID=switch1-aps,PSDIRN=BI:OOS;

To configure y-cable protection, use the following:

ENT-FFP-OCH:ons155xx:TRANSPARENT-3-0-0,TRANSPARENT-4-0-0::: PROTID=switch2-aps,RVRTV=Y,RVRTM=6,ENSWOTM=10,YCABLE=Y;

To configure trunk fiber based protection, use the following:

ENT-FFP-OCH:ons155xx:WDMSPLIT-0-1-0,WDMSPLIT-0-1-1::: PROTID=switch3-aps,PSDIRN=BI:IS;

Errors

Errors are listed in Table 2-15.


3.27  ENT-IP: Enter IP

Use this command to configure the network management Ethernet port or the OSC interface.

Section
ENT-IP Description 

Category

IP configuration

Security

Retrieve

Related Messages

DLT-IP: Delete IP

DLT-IPROUTE-STATIC: Delete IP Route Static

ED-IP: Edit IP

ENT-IPROUTE-STATIC: Enter Static Routes

RTRV-IP: Retrieve IP

Input Format

ENT-IP:[<tid>]:<aid>:<ctag>:::IPADDRTYPE=<addr_type>,[IPADDR=<addr>], [IPMASK=<mask>],[IPUNIF=<interface>];

Where:

<tid> is the target identifier.

<aid > is the access identifier. Valid values are FE-0, FE-SBY-0, WAVE-slot, ETHERDCC-slot-subcard-0, or LOOPBACK-[0-255]. If the AID is LOOPBACK-port, then the loopback interface is created and the parameters are assigned to it.

<ctag> is the correlation tag.

<addr_type> specifies the address type. This parameter has one of the following values:

ADDR indicates that the IP address is specified.

UNMBR indicates that the unnumbered interface is specified.

<addr> indicates the IP address. This parameter is mandatory if IPADDRTYPE is set to ADDR.

<mask> indicates the IP address subnet mask and is mandatory if IPADDRTYPE is set to ADDR.

<interface> shows the AID of the unnumbered interface and is mandatory if IPADDRTYPE is set to UNMBR. Applicable interfaces are as explained in the earlier <aid> description.


Note If the unnumbered and LOOPBACK-0 combination is used, the AID can be only WAVE-slot or ETHERDCC-slot-subcard-0.


Input Example

To configure an IP address on a network management interface, use the following:

ENT-IP:ons155xx:FE-0:123:::IPADDRTYPE=ADDR, IPADDR=172.16.42.110, IPMASK=255.255.255.0;

To unnumber WAVE-1-0 to LOOPBACK-0 interface, use the following:

ENT-IP:ons155xx:WAVE-1-0:123:::IPADDRTYPE=UNMBR, IPUNIF=LOOPBACK-0;

Errors

Errors are listed in Table 2-15.


3.28  ENT-IPROUTE-STATIC: Enter Static Routes

Use this command to create static routes.

Section
ENT-IPROUTE-STATIC Description 

Category

IP configuration

Security

Retrieve

Related Messages

DLT-IPROUTE-STATIC: Delete IP Route Static

RTRV-IPROUTE: Retrieve IP Route

Input Format

ENT-IPROUTE-STATIC:[<tid>]:<ctag>:::PREFIXADDR=<addr>, PREFIXMASK=<mask>, [ROUTEIF=<interface>], [ROUTEADDR=<routeaddr>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<addr> specifies the prefix IP address for the static route.

<mask> specifies the prefix mask.

<interface> specifies the AID of the routing interface.

<routeaddr > specifies the IP address of the routing interface


Note At least one of the two parameters, ROUTEIF or ROUTEADDR, needs to be specified. There is no Edit command associated with the Enter command. If any of the parameters associated with the static route needs to be changed, the entire route needs to be deleted and a new route created.


Input Example

To configure a static route for a particular address through the OSC WAVE-0 port, use the following:

ENT-IPROUTE-STATIC:ons155xx::123:::PREFIXADDR=10.1.0.0, PREFIXMASK=255.255.0.0, ROUTEIF=WAVE-0;

Errors

Errors are listed in Table 2-15.


3.29  ENT-NBR: Enter Neighbor

Use this command to configure a physical neighbor on a port.

Section
ENT-NBR Description 

Category

Topology neighbor configuration

Security

Provisioning

Related Messages

DLT-NBR: Delete Neighbor

RTRV-NBR: Retrieve Neighbor

Input Format

ENT-NBR:[<tid>]:<aid>:<ctag>:::DSCVRY=<dscvry>, [LINKDIRN=<linkdirn>], [NBRNAME=<nbrname>], [NBRPORT=<nbrport>], [NBRAGENTIP=<nbragentip>], [PRXYPORT=<prxyport>];

Where:

<tid> is the target identifier.

<aid> identifies the interface and can be one of the following:

TRANSPARENT-slot-subcard-0

TENGIGETHERPHY-slot-subcard

WDM-slot-subcard

<dscvry> specifies the means of discovery of this neighbor. It could have one of the following values:

CDP - The neighbor information learned dynamically through CDP.

MANUAL - The neighbor information manually entered by the user.


Note When CDP is specified, LINKDIRN defaults to both and other parameters should not be entered.


<linkdirn > is the link direction. Both transmit and receive links of this port are connected to the neighbor specified by the rest of the command.

TX - The neighbor is on the transmit link of this port.

RX - The neighbor is on the receive link of this port.

For direct links between nodes, the LINKDIRN is both and there can be only one neighbor configured on the port. If an EDFA is connected to one direction of the port, there can be two neighbors, one configured for LINKDIRN = TX and the other for LINKDIRN = RX.

<nbrname> is the name of the neighbor NE. The string has a maximum of 64 characters and it is suggested that this be the <tid> of the neighbor NE.

<nbrport> is the name of the port on the neighbor NE. The string has a maximum of 32 characters and it is suggested that this be the <aid> of the port to which the local port is connected.

<nbragentip> is the IP address of the management agent on the neighbor. String has a maximum of 32 characters.

<prxyport> specifies the AID of the proxy port. This parameter is valid only when DSCVRY = CDP. In the case of external ports that do not run CDP on their own (but are intranode connected to a port running CDP), then physical topology on the external port can be learned through CDP running on the proxy port specified through this parameter. Valid AIDs are as follows:

WAVE-slot (the OSC wave port)

ETHERNETDCC-slot-subcard-port.

Input Example

To manually configure a physical neighbor on a port, use the following:

ENT-NBR:ons155xx:WDM-0-0:123:::DSCVRY=MANUAL,LINKDIRN=RX, NBRNAME=shelf2,NBRPORT=WDM-0-0, NBRAGENTIP=172.16.20.1;

To discover a physical neighbor enabling CDP on a port, use the following:

ENT-NBR:ons155xx:WDM-0-0:100:::DSCVRY=CDP, PRXYPORT=WAVE-0;

Errors

Errors are listed in Table 2-15.


3.30  ENT-NTPASSOC: Enter NTP Associations

Use this command to configure NTP associations for synchronizing system clocks over the network. Two types of associations can be created:

Peer - The system synchronizes to a peer system and allows the peer to synchronize as well.

Server - The system synchronizes to the server, but not the other way around.


Note More than one association can be specified through multiple invocations of this command.

Section
ENT-NTPASSOC Description 

Category

NTP

Security

Provisioning

Related Messages

DLT-NTPASSOC: Delete NTP Associations

RTRV-NTPASSOC: Retrieve NTP Associations

Input Format

ENT-NTPASSOC:[<tid>]::<ctag>:::ASSOCTYPE=<assoctype>, ASSOCIPADDR=<associpaddr>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<assoctype> indicates the type of association. Valid values are SERVER and PEER.

<associpaddr> specifies the IP address of the server or peer.

Input Example

To configure an NTP server association, use the following:

ENT-NTPASSOC:ons155xx::123:::ASSOCTYPE=SERVER, ASSOCIPADDR=172.16.246.1;

Errors

Errors are listed in Table 2-15.



3.31  ENT-PATCH: Enter Patch

Use this command to configure patches between ports on the same network element.

Section
ENT-PATCH Description 

Category

Patch configuration

Security

Provisioning

Related Messages

DLT-PATCH: Delete Patch

RTRV-PATCH: Retrieve Patch

Input Format

ENT-PATCH:[<tid>]:<from_aid>,<to_aid>:<ctag>::[<ctype>];

Where:

<tid> is the target identifier.

<from_aid> identifies the port you patched from to the port identified by <to_aid>. Valid values for <from_aid> are as follows:

FILTER-slot-subcard-0

OSCFILTER-slot-subcard

TENGIGETHERPHY-slot-subcard

THRU-slot-subcard

WAVE-slot

WAVEPATCH-slot-subcard-port

WDM-slot-subcard

<to_aid> identifies the port you patched from the port identified by <from_aid>. Valid values for <to_aid> are as follows:

FILTER-slot-subcard-0

OSCFILTER-slot-subcard

TENGIGETHERPHY-slot-subcard

THRU-slot-subcard

WAVE-slot

WAVEPATCH-slot-subcard-port

WDM-slot-subcard

<ctag> is the correlation tag.

<ctype> is a position defined parameter and can be either 2WAY or 1WAY. When 1WAY is specified, then the patch is from the <from_aid> port to the <to_aid> port is either transmit or receive. 2WAY implies both transmit and receive patches between the two ports. The default is 2WAY.

Input Example

To create a bidirectional patch between the wavepatch port in slot 2, subcard 0, port 0, and the filter port in slot 0, subcard 0, port 0, use the following:

ENT-PATCH:ons155xx:WAVEPATCH-2-0-0,FILTER-0-0-0:123::;

Errors

Errors are listed in Table 2-15.


3.32  ENT-THR-OCH: Enter Thresholds OCH

Use this command to set thresholds for errors that are being monitored on an interface. This command is used every time a new threshold is added to a threshold list.

Section
ENT-THR-OCH Description 

Category

Threshold list configuration

Security

Provisioning

Related Messages

DLT-THR-OCH: Delete Threshold OCH

RTRV-THR-OCH: Retrieve Thresholds OCH

RTRV-TH-rr: Retrieve Threshold

SET-TH-rr: Set Optical Threshold

Input Format

ENT-THR-OCH:[<tid>]:<THRLISTNAME>:<ctag>:::ERRTYPE=<errtype>, THRTYPE=<thrtype>, VALUE=<value>, [TRGAPS=<trgaps>], [INDEX=<index>], [DESCR=<descr>];

Where:

<tid> is the target identifier.

<thrlistname> indicates the name of the threshold list being created.

<ctag> is the correlation tag.

<errtype> indicates the type of error counter to which the threshold applies. Valid values are as follows:

CVS - SONET section CV errors

CVRD - 8B/10B code violations and running disparity errors

CDLHEC - CDL HEC errors

CRC - Cyclic Redundancy Check errors

<thrtype> indicates the threshold type. Valid values are as follows:

DEGR - Indicates that a signal degrade condition has been reached. Use this threshold type only when <errtype> is CVS.

FAIL - Indicates that a signal failure conditionhas been reached. Use this threshold type only when <errtype> is CVS.

EVTTHR - Indicates that a non-service affecting condition has been reached. Use this threshold type when <errtype> is not CVS.

ALMTHR - Indicates that a service affecting condition has been reached. Use this threshold type when <errtype> is not CVS.

<value> specifies the threshold value as 10-x, where <value> is x. The range is 3 to 9.

<trgaps> is a trigger APS, such as protection switch on threshold exceeding. Valid values are Y or N. The default value is Y when ERRTYPE is CVS and is N for all other ERRTYPE values.

<index> is an integer value used to uniquely identify a particular threshold within a list of thresholds. The range is 1 to 64. When no value is specified for this parameter, the index for the threshold being created defaults to the lowest available index in that threshold list.

<descr> is a string used to assign a description to the threshold that is being configured. The maximum length of this string is 255 characters.

Input Example

To configure the SONET section CV threshold and add it to the threshold list sonet-cvs, use the command:

ENT-THR-OCH:ons155xx:sonet-cvs:123:::ERRTYPE=CVS,THRTYPE=DEGR, VALUE=7, INDEX=1;

Errors

Errors are listed in Table 2-15.


3.33  ENT-USER-SECU: Enter User Security

Use this command to create a user ID and set security parameters.

Section
ENT-USER-SECU Description 

Category

Security

Security

Retrieve

Related Messages

ACT-USER: Activate User

CANC-USER: Cancel User

DLT-USER-SECU: Delete User Security

ED-USER-SECU: Edit User Security

l RTRV-USER-SECU: Retrieve User Security

Input Format

ENT-USER-SECU:[<tid>]:<uid>:<ctag>::<pid>,,<uap>;

Where:

<tid> is the target identifier.

<uid> is the user identifier, a string value with a maximum size of 64 characters.

<ctag> is the correlation tag.

<pid> is the user login password, a string value with a maximum length of 25 characters.

<uap> is the user access privilege level. Valid values are as follows:

MAINT - Maintenance level

PROV - Provisioning level

RTRV - Retrieve level

SUPER - Superuser level

Input Example

To create a user ID and set security parameters, use the following:

ENT-USER-SECU:ons155xx:admin:123::psword,,PROV;

Errors

Errors are listed in Table 2-15.


3.34  FORMAT-MEM: Format Memory

Use this command to permanently format a Flash PC device.

Section
FORMAT-MEM Description 

Category

Memory management

Security

Retrieve

Related Messages

CPY-MEM: Copy Memory

l RST-MEM: Restore Memory

RTRV-MEM: Retrieve Memory

Input Format

FORMAT-MEM:[<tid>]:<aid>:<ctag>:::[CMDMODE=<mode>];

Where:

<tid> is the target identifier.

<aid> indicates the memory device that is being formatted. Valid values are BOOTFLASH, DISK-[0-1], PCMCIA-[0-1], SBY-BOOTFLASH, SBY-DISK-[0-1], or SBY-PCMCIA-[0-1].

<ctag> is the correlation tag.

<mode> indicates the mode of operation. Valid values are FRCD and NORMAL. In FRCD mode, any files that may be present on the Flash PC device, are permanently erased as part of the format operation. If any files are present on the Flash PC device in NORMAL mode, the format request is denied. The default mode is NORMAL.

Input Example

To permanently format a Flash PC device, use the following:

FORMAT-MEM:ons155xx:BOOTFLASH:123:::CMDMODE=FRCD;

Errors

Errors are listed in Table 2-15.


3.35  INH-MSG-ALL: Inhibit Message All

Use this command to disable autonomous messages from being transmitted.

Section
INH-MSG-ALL Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

ALW-MSG-ALL: Allow Message All

Input Format

INH-MSG-ALL:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Input Example

To disable autonomous messages from being transmitted, use the following:

INH-MSG-ALL:ons155xx::123;

Errors

Errors are listed in Table 2-15.


3.36  INH-SWDX-EQPT: Inhibit Switch Duplex Equipment

Use this command to inhibit automatic or manual switching from the active to the standby processor card. It also disables configuration syncs between the two processor cards. This command is usually used when performing software upgrades.

Section
INH-SWDX-EQPT Description 

Category

Redundancy configuration

Security

Maintenance

Related Messages

ALW-SWDX-EQPT: Allow Switch Duplex Equipment

SW-DX-EQPT: Switch Duplex Equipment

Input Format

INH-SWDX-EQPT:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. Valid values are SLOT-6 or SLOT-7.

<ctag> is the correlation tag.

Input Example

To inhibit automatic or manual switching from the active to the standby processor card, or disable configuration syncs between the two processor cards, use the following:

INH-SWDX-EQPT:ons155xx:SLOT-6:123;

Errors

Errors are listed in Table 2-15.


3.37  INIT-REG-ETH: Initialize Register Ethernet

Use this command to clear the counters associated with a specific Ethernet AID.


Note Issuing this command clears all counters.

Section
INIT-REG-ETH Description 

Category

IP configuration

Security

Retrieve

Related Messages

ED-IP: Edit IP

RTRV-IP: Retrieve IP

Input Format

INIT-REG-ETH:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid > indicates the interface where counters are being cleared. Valid values are FE-0 and FE-SBY-0.

<ctag> is the correlation tag.

Input Example

To clear the counters associated with a specific Ethernet facility, use the following:

INIT-REG-ETH:ons155xx:FE-0:123;

Errors

Errors are listed in Table 2-15.



3.38  INIT-REG-GBE10: Initialize Register 10-GE

Use this command to clear the counters associated with a specific 10-GE facility.


Note Issuing this command clears all counters.

Section
INIT-REG-GBE10 Description 

Category

10-GE interface configuration

Security

Maintenance

Related Messages

RTRV-GBE10: Retrieve 10-GE Interfaces

Input Format

INIT-REG-GBE10:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid> indicates the interface on which counters are being cleared. Valid values are WAVEETHERPHY-slot-subcard and TENGIGETHERPHY-slot-subcard.

<ctag> is the correlation tag.

Input Example

To clear the counters associated with a waveetherphy port in slot 2, subcard 0, use the following:

INIT-REG-GBE10:ons155xx:WAVEETHERPHY-2-0:123;

Errors

Errors are listed in Table 2-15.



3.39  INIT-REG-OCH: Initialize Register OCH

Use this command to clear the counters associated with a specific OCH facility.


Note Issuing this command clears all counters.

Section
INIT-REG-OCH Description 

Category

Transparent interface configuration

Security

Maintenance

Related Messages

RTRV-OCH: Retrieve Optical Channel

Input Format

INIT-REG-OCH:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid> indicates interface on which counters are being cleared. Valid values are TRANSPARENT-slot-subcard-0 and WAVE-slot-subcard.

<ctag> is the correlation tag.

Input Example

To clear the counters associated with the transparent interface in slot 2, subcard 0, use the following:

INIT-REG-OCH:ons155xx:TRANSPARENT-2-0-0:123;

Errors

Errors are listed in Table 2-15.



3.40  INIT-SYS: Initialize System

Use this command to initialize or reset a processor card on the system.

Section
INIT-SYS Description 

Category

Generic NE configuration

Security

Retrieve

Related Messages

SET-SID: Set System Identification

Input Format

INIT-SYS:[<tid>]:<aid>:<ctag>::;

Where:

<tid> is the target identifier.

<aid> identifies the card that needs to be reset. Valid values are SLOT-6 or SLOT-7.

<ctag> is the correlation tag.

Input Example

To initialize or reset the processor card in slot 6, use the following:

INIT-SYS:ons155xx:SLOT-6:123::;

Errors

Errors are listed in Table 2-15.


3.41  OPR-LPBK-GBE10: Operate Loopback on the 10-GE

Use this command to operate a specific type of loopback on the port specified by the AID.

Section
OPR-LPBK-GBE10 Description 

Category

10-GE interface configuration

Security

Maintenance

Related Messages

RLS-LPBK-GBE10: Release Loopback on the 10-GE

Input Format

OPR-LPBK-GBE10:[<tid>]:<aid>:<ctag>::,,,<lpbktype>;

Where:

<tid> is the target identifier.

<aid> indicates the interface on which the loopback is being created. Valid values are WAVEETHERPHY-slot-subcard and TENGIGETHERPHY-slot-subcard.

<lpbktype> indicates the type of loopback that is being created. Valid values are as follows:

FACILITY - The signal from the receive input is looped back to the transmit output.

TERMINAL - The signal bound for transmit output is looped back to the receive input. This is an internal loopback used for hardware debug and diagnostics.

Input Example

To create a facility loopback on the waveetherphy interface in slot 2, subcard 0, use the following:

OPR-LPBK-GBE10:ons155xx:WAVEETHERPHY-2-0:123::,,,FACILITY;

Errors

Errors are listed in Table 2-15.


3.42  OPR-LPBK-OCH: Operate Loopback OCH

Use this command to operate a specific type of loopback on the port specified by the AID.

Section
OPR-LPBK-OCH Description 

Category

Transparent interface configuration

Security

Maintenance

Related Messages

RLS-LPBK-OCH: Release Loopback OCH

Input Format

OPR-LPBK-OCH:[<tid>]:<aid>:<ctag>::,,,<lpbktype>;

Where:

<tid> is the target identifier.

<aid> indicates the interface on which the loopback is being created. Valid values are TRANSPARENT-slot-subcard-0 and WAVE-slot-subcard.

<ctag> is the correlation tag.

<lpbktype> indicates the type of loopback that is being created. Valid values are as follows:

FACILITY - The signal from the receive input is looped back to the transmit output.

TERMINAL - The signal bound for the transmit output is looped back to the receive input. This is an internal loopback used for hardware debug and diagnostics.

Input Example

To create a facility loopback on the transparent interface in slot 2, subcard 0, use the following:

OPR-LPBK-OCH:ons155xx:TRANSPARENT-2-0-0:123::,,,FACILITY;

Errors

Errors are listed in Table 2-15.


3.43  OPR-PROTNSW-OCH: Operate Protection Switch OCH

Use this command to enable the NE to perform a protection switch or a lockout.

Section
OPR-PROTNSW-OCH Description 

Category

APS

Security

Maintenance

Related Messages

RLS-PROTNSW-OCH: Release Protection Switch OCH

Input Format

OPR-PROTNSW-OCH:[<tid>]:<aid>:<ctag>:<sc>

Where:

<aid> is the working or protection port AID to which a switch request is directed. Valid values are TRANSPARENT-slot-subcard-0, WAVEPATCH-slot-subcard-port, or TENGIGETHERPHY-slot-subcard. If the AID identifies the working line, then service is switched from working to protection. If the AID identifies the protection line, then service is switched back to the working line.

<sc> is the switch command. Valid values are as follows:

MAN - Switch from working or back to working is done based on the AID specified unless a request of equal or higher priority is in effect.

FRCD - Switch from working or back to working is done based on the AID specified unless a request of equal or higher priority is in effect.

LOCKOUT - Lockout all switchovers to the protection facility. If the protection facility is currently active, then the lockout request is denied.

The lockout request has the highest priority and takes effect regardless of signal condition. The forced switch command is the next highest priority.

The manual switchover request has the lowest priority and only completes if there is no protection path lockout or forced switchover is in effect, or the signal has failed or degraded.

Input Example

To enable the NE to perform a protection switch or a lockout, use the following:

OPR-PROTNSW-OCH:ons155xx:WAVEPATCH-2-0-1:123::FRCD;

Errors

Errors are listed in Table 2-15.


3.44  RLS-LPBK-GBE10: Release Loopback on the 10-GE

Use this command to release a specific type of loopback on the port specified by the AID.

Section
RLS-LPBK-GBE10 Description 

Category

10-GE interface configuration

Security

Maintenance

Related Messages

RTRV-GBE10: Retrieve 10-GE Interfaces

Input Format

RLS-LPBK-GBE10:[<tid>]:<aid>:<ctag>::,,,<lpbktype>;

Where:

<tid> is the target identifier.

<aid> indicates the interface on which the loopback is being released. Valid values are WAVEETHERPHY-slot-subcard and TENGIGETHERPHY-slot-subcard.

<ctag> is the correlation tag.

<lpbktype> indicates the type of loopback that is being released. Valid values are as follows:

FACILITY - The signal from the receive input loops back to the transmit output.

TERMINAL - The signal to the transmit output loops back to the receive input. This is an internal loopback used for hardware debugging and diagnostics

Input Example

To release a facility loopback on the waveetherphy interface in slot 2, subcard0, use the following:

RLS-LPBK-GBE10:ons155xx:WAVEETHERPHY-2-0:123::,,,FACILITY;

Errors

Errors are listed in Table 2-15.


3.45  RLS-LPBK-OCH: Release Loopback OCH

Use this command to release a specific type of loopback on the port specified by the AID.

Section
RLS-LPBK-OCH Description 

Category

Transparent interface configuration

Security

Maintenance

Related Messages

OPR-LPBK-OCH: Operate Loopback OCH

Input Format

RLS-LPBK-OCH:[<tid>]:<aid>:<ctag>::,,,<lpbktype>;

Where:

<tid> is the target identifier.

<aid> indicates the interface on which the loopback is being released. Valid values are TRANSPARENT-slot-subcard-0 and WAVE-slot-subcard.

<ctag> is the correlation tag.

<lpbktype> indicates the type of loopback that is being released. FACILITY is the valid value, where the signal from the receive input is looped back to the transmit output.

Input Example

To release a facility loopback on the transparent interface in slot 2, subcard 0, use

RLS-LPBK-OCH:ons155xx:TRANSPARENT-2-0-0:123::,,,FACILITY;

Errors

Errors are listed in Table 2-15.


3.46  RLS-PROTNSW-OCH: Release Protection Switch OCH

Use this command to clear the previous switchover request.


Note A lockout or a forced or manual switchover request stays in effect until the system reboots.

Section
RLS-PROTNSW-OCH Description 

Category

APS

Security

Maintenance

Related Messages

OPR-PROTNSW-OCH: Operate Protection Switch OCH

Input Format

RLS-PROTNSW-OCH:[<tid>]:<aid>:<ctag>::;

Where:

<tid> is the target identifier.

<aid> is the port AID to which the switch request is directed. Valid values are TRANSPARENT-slot-subcard-0, WAVEPATCH-slot-subcard-port, or TENGIGETHERPHY-slot-subcard.

Input Example

To clear the previous request, use the following:

RLS-PROTNSW-OCH:ons155xx:WAVEPATCH-2-0-1:123;

Errors

Errors are listed in Table 2-15.



3.47  RST-MEM: Restore Memory

Use this command to recover a file that was previously deleted, but not erased, using the DLT-MEM command.


Note A deleted file cannot be recovered if a valid one with the same name exists. The existing file needs to be deleted before the already deleted one can be recovered. If two files with the same name were deleted, the index is used to uniquely identify the file to be recovered.

Section
RST-MEM Description 

Category

Memory Management

Security

Retrieve

Related Messages

CPY-MEM: Copy Memory

FORMAT-MEM: Format Memory

RTRV-MEM: Retrieve Memory

Input Format

RST-MEM:[<tid>]:<aid>:<ctag>:::INDEX=<index>;

Where:

<tid> is the target identifier.

<aid> indicates the memory device from which the file is being recovered. Valid values are BOOTFLASH, DISK-[0-1], PCMCIA-[0-1], SBY-BOOTFLASH, SBY-DISK-[0-1], or SBY-PCMCIA-[0-1].

<ctag> is the correlation tag.

<index> specifies the index number associated with the deleted file. This is an integer value and can be obtained by using the RTRV-MEM command.

Input Example

To recover a file that was previously deleted, but not erased, using the DLT-MEM command, use the following:

RST-MEM:ons155xx:BOOTFLASH:123::INDEX=4;

Errors

Errors are listed in Table 2-15.



3.48  RST-NE-CDP: Restore Global CDP Attributes

Use this command to restore all global CDP attribute settings to their default values.

Section
RST-NE-CDP Description 

Category

CDP

Security

Maintenance

Related Messages

ED-NE-CDP: Edit Network Element CDP

RTRV-NE-CDP: Retrieve Network Element CDP

Input Format

RST-NE-CDP:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Input Example

To restore all global CDP attribute settings to their default values, use the following:

RST-NE-CDP:ons155xx::123;

Errors

Errors are listed in Table 2-15.


3.49  RTRV-ALM-ALL: Retrieve Alarms All

Use this command to retrieve alarms for a given facility, card, or module.


Note Only alarms with severities critical, major, or minor can be retrieved using this command.

Section
RTRV-ALM-ALL Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

ALW-MSG-ALL: Allow Message All

Input Format

RTRV-ALM-ALL:[<tid>]:[<aid>]:<ctag>::[<ntfcncde>];

Where:

<tid> is the target identifier.

<aid> is the access identifier. Valid values are SLOT-slot and SLOT-slot-subcard.

<ctag> is the correlation tag.

<ntfcncde> indicates the type of notification generated on the NE when a threshold is exceeded or cleared. Valid values are CR, MJ, or MN.

Input Example

To retrieve alarms for the module in slot 2, subcard 0, use the following:

RTRV-ALM-ALL:ons155xx:SLOT-2-0:123::MJ;

To retrieve alarms for the client port in slot 2, subcard 0, use the following:

RTRV-ALM-ALL:ons155xx:TRANSPARENT-2-0-0:123::MJ;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<severity>,<alarm>,SA,,,,,:\"<text>\""
;

Output Example

The output if no alarm condition exists:

      SID DATE TIME
M 123 COMPLD
;

The output if a matching alarm condition exists:

      SID DATE TIME
M 123 COMPLD
      "TRANSPARENT-2-0-0:MJ,LOF,SA,,,,,:\"Loss Of Frame\""
;

Errors

Errors are listed in Table 2-15.



3.50  RTRV-ALM-ENV: Retrieve Alarms Environmental

Use this command to retrieve environmental alarms on the system.

Section
RTRV-ALM-ENV Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

RTRV-ALM-ALL: Retrieve Alarms All

Input Format

RTRV-ALM-ENV:[<tid>]:[<aid>]:<ctag>::[<ntfcncde>];

Where:

<tid> is the target identifier.

<aid> is the access identifier.

<ctag> is the correlation tag.

<ntfcncde> indicates the type of notification generated on the NE when a threshold is exceeded or cleared. Valid values are CR, MJ, or MN.

Input Example

To retrieve major environmental alarms, use the following:

RTRV-ALM-ENV:ons155xx::123::MJ;

Output Format

      SID DATE TIME
M CTAG COMPLD
      ":<severity>,<alarm>,,,\"<text>\""
;

Output Example

The output if a matching alarm condition exists:

      SID DATE TIME
M 123 COMPLD
      "Chassis:MJ,HITEMP,,,\"Chassis temperature too high\""
;

Errors

Errors are listed in Table 2-15.


3.51  RTRV-ATTR-rr: Retrieve Attributes

Use this command to retrieve the severity levels assigned to the threshold values configured on the wavepatch and waveetherphy interfaces interfaces.

Section
RTRV-ATTR-rr Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

RST-NE-CDP: Restore Global CDP Attributes

SET-ATTR-rr: Set Attributes

Input Format

RTRV-ATTR-rr [<tid>]:[<aid>]:<ctag>::[<ntfcncde>],[<condtype>],, [<dirn>];

Where:

rr is OCH.

<tid> is the target identifier.

<aid> indicates wavepatch and waveetherphy interfaces on which the threshold is to be set. Valid values are WAVEPATCH-slot-subcard-port or WAVEETHERPHY-slot-subcard.

<ctag> is the correlation tag.

<ntfcncde> indicates the type of notification generated on the NE when a threshold is exceeded or cleared. Valid values are CR, MJ, or MN.

<condtype> is the monitored condition type. Valid values are as follows:

OPRHA - Receive optical power level corresponding to the high alarm threshold. If the optical power level is greater than the threshold associated with this parameter, an alarm is generated.

OPRLA - Receive optical power level corresponding to the low alarm threshold. If the optical power level is less than the threshold associated with this parameter, an alarm is generated.

OPRHW - Receive optical power level corresponding to the high warning threshold. If the optical power level is greater than the threshold associated with this parameter, a warning is generated that may be reported using REPT EVT.

OPRLW - Receive optical power level corresponding to the low warning threshold. If the optical power level is less than the threshold associated with this parameter, a warning is generated that may be reported using REPT EVT.

<dirn> is the direction associated with the information. Valid values are RCV or TRMT. The default is both directions.

Input Example

To retrieve the severity levels assigned to the threshold values configured on wavepatch interfaces on the transponder cards, use the following:

RTRV-ATTR-OCH:ons155xx:WAVEPATCH-8-0-0:123::,OPRHA;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<severity>,<condtype>,,<dirn>"
;

Output Example

The output for wavepatch interfaces:

      SID DATE TIME
M 123 COMPLD
      "WAVEPATCH-8-0-0:MJ,OPRHA,,RCV"
;

Errors

Errors are listed in Table 2-15.


3.52  RTRV-CDPNBR-OCH: Retrieve CDP Neighbor OCH

Use this command to retrieve neighbor information discovered by CDP on a specific port in the NE or on all ports of the NE.

Section
RTRV-CDPNBR-OCH Description 

Category

CDP

Security

Retrieve

Related Messages

DLT-NBR: Delete Neighbor

ENT-NBR: Enter Neighbor

RTRV-NBR: Retrieve Neighbor

Input Format

RTRV-CDPNBR-OCH:[<tid>]:[<aid>]:<ctag>;

Where:

<tid> is the target identifier.

<aid> specifies the port AID to retrieve information for the neighbor on that port only. NULL retrieves information on all neighbors.

<ctag> is the correlation tag.

Input Example

To retrieve neighbor information discovered by CDP on a specific port in the NE or on all ports of the NE, use the following:

RTRV-CDPNBR-OCH:ons155xx::123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:NBRNAME=<nbrname>,NBRPORT=<nbrport>,
       CAPABILITY=<capability>,TTL=<ttl>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "WAVE-1-0:NBRNAME=Switch2,NBRPORT=PORT-0,CAPABILITY=S,        TTL=158"
;

Where:

<NBRNAME> shows the name of the neighboring device, typically, the SID of that device. The maximum size is 255 characters.

<NBRPORT> is the name of the neighboring port. Typically, the AID of that port.

<CAPABILITY> indicates the capability of the neighboring device. It is a string formed by the concatenation of one or more of the following values:

R - Router,

T - Trans bridge

B - Source route bridge

S - Switch

H - Host

I - IGMP

r - Repeater

<TTL> Time To Live value. This is the amount of time in seconds before this neighbor information is discarded unless the NE receives another packet on this port with the same information.

Errors

Errors are listed in Table 2-15.


3.53  RTRV-COND-ALL: Retrieve Condition All

Use this command to retrieve current standing conditions associated with specified equipment or facility. This command retrieves conditions with all severities.

Section
RTRV-COND-ALL Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

RTRV-ALM-ALL: Retrieve Alarms All

RTRV-ALM-ENV: Retrieve Alarms Environmental

Input Format

RTRV-COND-ALL:[<tid>]:[<aid>]:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier.

<ctag> is the correlation tag.

Input Example

To retrieve current standing conditions associated with specified equipment or facility, use the following:

RTRV-COND-ALL:ons155xx:TRANSPARENT-8-0-0:123::;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>,<encap>:<severity>,<condtype>,NSA,,,,,\"<text>\""
;

Output Example

The output for conditions on the transparent interface:

      SID DATE TIME
M 123 COMPLD
      "TRANSPARENT-8-0-0,OC3:MN,CVS,NSA, ,,,,\"Code Violation- Section -         Exceed Degrade\""
;

Errors

Errors are listed in Table 2-15.


3.54  RTRV-EQPT: Retrieve Equipment

Use this command to retrieve the redundancy configurations. It also retrieves inventory information for the specified module.

The PST and SST values in the last position defined block also indicate the redundancy states, when the AID specified in this command is SLOT-6 or SLOT-7. The values of PST-PSTQ and SST are reported under different operating conditions.

Active processor card states are as follows:

For normal active, PST=IS-NR.

For active processor card in fault state, PST=IS-ANR, SST=FLT,ACT.

Standby processor card states are as follows:

If standby peer has hardware state missing, PST=OOS-AU, SST=UEQ.

If standby peer has hardware state non-participant, PST=OOS-AU, SST=AINS.

If standby peer has hardware state of standby, PST=IS-ANR, SST=STBYC.

If standby is in fault state, PST=IS-ANR, SST=FLT, STBYC or STBYH (depending on software redundancy state.)

If the standby is normal and in hot standby state, PST=IS-NR, SST=STBYH.

Under maintenance mode (when an INH-SWDX command has been issued for a standby processor card):

If hardware state is missing, PST=OOS-AUMA, SST=UEQ,STBYI.

If hardware state is non-participant and software redundancy state is disabled, PST=OOS-AURST, SST=AINS,STBYI.

For all other software redundancy states such as unknown, negotiating, or standby cold, PST=IS-RST, SST=STBYI.

In addition to these values, two SST values indicate the synchronization status on the running and startup configurations.

NRCSYNC - Running config is not in sync

NSCSYNC - Startup config is not in sync

Section
RTRV-EQPT Description 

Category

Redundancy configuration

Security

Retrieve

Related Messages

INH-SWDX-EQPT: Inhibit Switch Duplex Equipment

SW-DX-EQPT: Switch Duplex Equipment

Input Format

RTRV-EQPT:[<tid>]:[<aid>]:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. The value is SLOT-slot. The default is all AIDs.

<ctag> is the correlation tag.

Input Example

To retrieve inventory information for the CPU switch module in slot 6, use the following:

RTRV-EQPT:ons155xx:SLOT-6:123;

To retrieve inventory information for modules in card in slot 8, use the following:

RTRV-EQPT:ons155xx:SLOT-8:123;

Output Format

Output format for processor cards:

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<clei>:PN=<pn>,SN=<sn>,OPN=<opn>,HWVER=<hwver>,
       SWVER=<swver>,FWVER=<fwver>,BOOTLDR=<bootldr>,
       ROMMONVER=<rommonver>,HWREDSTATE=<hwredstate>,
        SWREDSTATE=<swredstate>,,:<pst>,<sst>,<sst>";

Output format for 2.5-Gbps transponder modules:

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<clei>:PN=<pn>,SN=<sn>,OPN=<opn>,HWVER=<hwver>,,
       FSWVER=<fwver>,,,,,LASERFREQLOW=<laserfreqlow>,       LASERFREQHIGH=<laserfreqhigh>:<pst>,<sst>,<sst>"
;

Output format for10-GE transponder modules:

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<clei>:PN=<pn>,SN=<sn>,OPN=<opn>,HWVER=<hwver>,,
       FSWVER=<fwver>,,,,,LASERFREQ=<laserfreq>:<pst>,<sst>,<sst>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "SLOT-5:CLIE:PN=73-5656-03,SN=CAB0516HK2,OPN=N/A,                        HWVER=2.0,SWVER=12.1,FWVER=1.24,                        BOOTLDR=12.1(7a)EY2,ROMMONVER=12.1(7r)EY,                      HWREDSTATE=ACT,SWREDSTATE=ACT
                     :IS-NR,NRCSYNC,NSCSYNC"
;

Where:

PN is a string that shows part number, maximum length is 32 characters.

SN is a string that shows serial number, maximum length is 32 characters.

OPN is a string that shows the orderable product number, maximum length is 32 characters.

HWVER is a string that shows the hardware version number, maximum length is 32 characters.

SWVER is a string that shows the image version running on this processor card, maximum length is 32 characters

FWVER is a string that shows functional software image version running on this module, maximum length is 32 characters.

BOOTLDR is a string that shows the bootloader image version, maximum length is 32 characters. This parameter is applicable to processor card only.

ROMMONVER is a string that shows the ROMMON version and has a maximum length of 32 characters. This parameter is applicable to processor cards only.

SWREDSTATE shows software redundancy state. This parameter is applicable to processor cards only. Valid values are as follows:

NK - Not known

DSBL - Disabled

INIT - Initialization

SBYC - StandbyCold

SBYCC - StandbyColdConfig

SBYCF - StandbyColdFileSys

SBYCB - StandbyColdBulk

SBYH - StandbyHot

ACTF - ActiveFast

ACTD - ActiveDrain

ACTPR - ActivePreConfig

ACTPS - ActivePostConfig

ACT - Active

Output Example (continued)

HWREDSTATE shows the hardware redundancy state. This parameter is applicable to processor cards only. Valid values are as follows:

NP - Nonparticipant

ACT - Active

SBY - Standby

MISS - Missing

ERR - Errored

To retrieve inventory information for a 2.5-Gbps transponder module in slot 8:

      SID DATE TIME
M 123 COMPLD
      "SLOT-8:CLEI:PN=73-5656-03,SN=CAB0516HK2,OPN=N/A,HWVER=2.0,
                     SWVER=12.1,FWVER=1.89,LASERFREQLOW=194500,
                     LASERFREQHIGH=198500:IS-NR,,"
;

Where:

LASERFREQLOW indicates the lower ITU grid laser frequency that this card is capable of generating. This parameter applies only to transponder cards that are capable of generating one or more laser frequencies.

LASERFREQHIGH indicates the higher ITU grid laser frequency that this card is capable of generating. This parameter applies only to transponder cards that are capable of generating one or more laser frequencies.

Errors

Errors are listed in Table 2-15.


3.55  RTRV-FFP-OCH: Retrieve Facility Protection OCH

Use this command to retrieve optical facility protection information.

Section
RTRV-FFP-OCH Description 

Category

APS

Security

Retrieve

Related Messages

DLT-FFP-OCH: Delete Facility Protection OCH

ED-FFP-OCH: Edit Facility Protection

ENT-FFP-OCH: Enter Optical Protection

Input Format

RTRV-FFP-OCH:[<tid>]:[<wkg_aid>],[<prot_aid>]:<ctag>:::[PROTID=<protid>];

Where:

<tid> is the target identifier.

<wkg_aid> is the working access identifier. Valid values are WAVEPATCH-slot-subcard-port, TRANSPARENT-slot-subcard-0, TENGIGETHERPHY-slot-subcard, or WDMSPLIT-slot-subcard-port.

<prot_aid> is the protection access identifier. Valid values are WAVEPATCH-slot-subcard-port, TRANSPARENT-slot-subcard-0, TENGIGETHERPHY-slot-subcard, or WDMSPLIT-slot-subcard-port.

<ctag> is the correlation tag.

<protid> is the protection group identifier. It is a case-sensitive string and can have a maximum of 32 characters.

Input Example

To retrieve optical facility protection information, use the following:

RTRV-FFP-OCH:ons155xx:WAVEPATCH-2-0-0,WAVEPATCH-2-0-1:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<wkg_aid>,<prot_aid>:ACTIVE=<active>,STANDBY=<standby>,        PROTID=<protid>, PSDIRN=<psdirn>,RVRTV=<rvrtv>,RVRTM=<rvrtm>,
       ENSWOTM=<enswotm>,SRCHUPMIN=<srchupmin>,
       SRCHUPMAX=<srchupmax>,FENDDIRN=<fenddirn>,MSGCH=<msgch>,        MSGCHCUR=<msgchcur>,MSGHOLDTM=<msgholdtm>,
       MSGCHST=<msgchst>,MSGHOLDCOUNT=<msgholdcount>,
       MSGMAXTM=<msgmaxtm>:<pst>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "WAVEPATCH-2-0-0,WAVEPATCH-2-0-1:ACTIVE=WAVEPATCH-2-0-0,        STANDBY=WAVEPATCH-2-0-1,PROTID=switch1-aps,PSDIRN=BI,        RVRTV=Y,RVRTM=300,ENSWOTM=10,SRCHUPMIN=2,        SRCHUPMAX=32,FENDDIRN=UNI,MSGCH=AUTO,MSGCHCUR=DCC,        MSGHOLDTM=1500,MSGCHST=IS,MSGHOLDCOUNT=2,        MSGMAXTM=15:IS"
;

Where:

ACTIVE indicates the AID of the currently active interface.

STANDBY indicates the AID of the interface in standby.

FENDDIRN indicates the switching mode of the remote facility. Valid values are as follows:

UNI - Unidirectional

BI - Bidirectional

UNKNOWN - Unknown


Note If switching mode of this (near end) facility, that is PSDIRN is configured as UNI, then its active switching mode will always be UNI. If PSDIRN is configured as BI, then the active switching mode is BI only if the FENDDIRN is BI. If FENDDIRN is UNI, then the active switching mode becomes UNI.


MSGCHCUR indicates the currently used message channel. This parameter applies only when MSGCH is set to AUTO.

MSGCHST indicates if the message channel is up or down. Valid values are as follows:

IS - in service

OOS - out-of-service

Errors

Errors are listed in Table 2-15.


3.56  RTRV-FILE: Retrieve File

Use this command to retrieve the contents of the configuration files.

Section
RTRV-FILE Description 

Category

Memory Management

Security

Retrieve

Related Messages

RTRV-LOG: Retrieve Log

SET-ATTR-rr: Set Attributes

Input Format

RTRV-FILE:[<tid>]:<aid>:<ctag>:::FILENAME=<filename>,[LINES=<lines>], [OFFSET=<offset>];

Where:

<tid> is the target identifier.

<aid> indicates the memory device from which the file is to be retrieved. Valid values are BOOTFLASH, DISK-[0-1], PCMCIA-[0-1], NVRAM, SBY-NVRAM, SBY-BOOTFLASH, SBY-DISK-[0-1], or SBY-PCMCIA-[0-1].

<ctag> is the correlation tag.

<filename> is a string that shows the name of the configuration file whose contents are to be retrieved. The maximum string length is 255 characters.

<lines> is an optional parameter. It is an integer value that indicates the number of lines to retrieve at a time. If this parameter is not configured, the entire file is retrieved as is.

<offset> is an optional parameter. It is an integer value that indicates the offset within a file. The contents of the file starting at this offset is retrieved. The default value is zero, which means that the contents from the beginning of the file are retrieved.

Input Example

To retrieve the contents of the configuration files, use the following:

RTRV-FILE:ons155xx::123:::FILENAME=running-config,LINES=24;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<text>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "version 12.1
      no service pad
      service timestamps debug uptime
      service timestamps log uptime
      no service password-encryption
      service internal
      service compress-config
      !
      hostname snmp-man
      !
      boot system bootflash:ons15540-i-mz.tirth
      redundancy
      keepalive-threshold 12
      associate group bb
      associate group aa
      aps working Transparent8/0/0
      aps protection Transparent8/1/0
      aps y-cable
      aps enable
      aps timer switchover min-interval 20
      enable password lab
      !
      !
      threshold-list abc"
;

Errors

Errors are listed in Table 2-15.


3.57  RTRV-GBE10: Retrieve 10-GE Interfaces

Use this command to retrieve the CDL related information for the given interface.

The PST and SST values in the last position defined block indicate the current status of the interface. The values of PST-PSTQ and SST, under different conditions, are listed as follows:

If the interface is administratively shut down by using the ENT-GBE10 command, values returned is PST=OOS-MA, SST=MT.

If the interface is administratively shut down and the laser is shut as well, values returned are PST=OOS-MA, SST=LASERSHUT.

If the interface is down because of alarms on the link, such as Loss of Signal, Loss of Frame, or Loss of Light, values returned are PST=OOS-AU and SST=FAF.

If the interface is down because of Loss of Signal or Loss of Light, and safety protocols such as LSC, FLC, or OFC are enabled on the interface, causing the transmit laser to shut down, values returned are PST=OOS-AU and SST=LASERSHUT.

If the interface is down because of alarms and is also administratively shut down, values returned are PST=OOS-AUMA, SST=FAF, MT.

If there is an entity failure on the NE because the interface is down, values returned are PST=OOS-AU, SST= SGEO.

If the transmit laser fails at an interface, values returned are PST=OOS-AU, SST=FLT, LASERFAIL.

If only thresholds are being exceeded on the interface, values returned are PST=IS-ANR.

Under normal operating conditions, values returned are PST=IS-NR.

Section
RTRV-GBE10 Description 

Category

10-GE interface configuration

Security

Retrieve

Related Messages

ED-GBE10: Edit 10-GE

INIT-REG-GBE10: Initialize Register 10-GE

OPR-LPBK-GBE10: Operate Loopback on the 10-GE

RLS-LPBK-GBE10: Release Loopback on the 10-GE

Input Format

RTRV-GBE10:[<tid>]:[<aid>]:<ctag>;

where:

<tid> is the target identifier.

<aid> identifies the interfaces and can be one of the following:

WAVEETHERPHY-slot-subcard

WAVEPATCH-slot-subcard-port

TENGIGETHERPHY-slot-subcard

<ctag> is the correlation tag.

Input Example

To retrieve the CDL information from the waveetherphy interface in slot 9, subcard 0, use the following:

RTRV-GBE10:ons155xx:WAVEETHERPHY-9-0:123;

Output Format

     SID DATE TIME
M CTAG COMPLD
      "<aid>:THRLISTNAME=<thrlistname>,FRCENDHOP=<frcendhop>,
        NODEBEHAVIOUR=<nodebehaviour>,LPBKTYPE=<lpbktype>:<pst>"
;

Output Example

      SID DATE TIME
M 123 COMPLD       "WAVEETHERPHY-9-0:THRLISTNAME=cdl_thresh,FRCENDHOP=N,        NODEBEHAVIOUR=ENDOFPATH, LPBKTYPE=FACILITY:IS-NR"
;

Where:

<NODEBEHAVIOUR> indicates whether the interface is end-of-path or end-of-hop. Any OAM information associated with a path or hop is terminated on this interface.

<LPBKTYPE> indicates the type of loopback on the interface. Valid values are as follows:

FACILITY - where the signal from the receive input is looped back to the transmit output

TERMINAL - where the signal bound for transmit output is looped back to the receive input. This is an internal loopback and it is used for hardware debug and diagnostics.

Errors

Errors are listed in Table 2-15.


3.58  RTRV-HDR: Retrieve Header

Use this command to request that an NE simply reply with a normal response indicating COMPLD.

The information of interest in the reply is the reply itself, along with information that the NE has about itself, specifically <source_identifier>, <date>, and <time>.

Section
RTRV-HDR Description 

Category

Generic NE configuration

Security

Retrieve

Related Messages

ED-DAT: Edit Date

RTRV-TOD: Retrieve Time of Day

Input Format

RTRV-HDR:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Output Format

      SID DATE TIME
M CTAG COMPLD
;

Errors

Errors are listed in Table 2-15.


3.59  RTRV-IP: Retrieve IP

Use this command to retrieve IP configurations.

Section
RTRV-IP Description 

Category

IP configuration

Security

Retrieve

Related Messages

DLT-IP: Delete IP

DLT-IPROUTE-STATIC: Delete IP Route Static

ED-IP: Edit IP

ENT-IP: Enter IP

RTRV-IPROUTE: Retrieve IP Route

Input Format

RTRV-IP:[<tid>]:[<aid>]:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier.

<ctag> is the correlation tag.

Input Example

To retrieve IP configurations, use the following:

RTRV-IP:ons155xx:FE-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:IPADDRTYPE=<ipaddrtype>,IPADDR=<ipaddr>,
       IPMASK=<ipmask>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "FE-0:IPADDRTYPE=ADDR,IPADDR=172.16.42.110,       IPMASK=255.255.255.0"
;

Errors

Errors are listed in Table 2-15.


3.60  RTRV-IPROUTE: Retrieve IP Route

Use this command to retrieve IP routing information.

Section
RTRV-IPROUTE Description 

Category

IP configuration

Security

Retrieve

Related Messages

DLT-IPROUTE-STATIC: Delete IP Route Static

ED-IP: Edit IP

ENT-IP: Enter IP

Input Format

RTRV-IPROUTE:[<tid>]::<ctag>:::ROUTETYPE=<routetype>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<routetype> indicates if the route is a static route or is learned dynamically from a routing protocol. Valid values are STATIC and DYNAMIC. The only value currently supported is STATIC.

Input Example

To retrieve IP routing information, use the following:

RTRV-IPROUTE:ons155xx::123:::ROUTETYPE=STATIC;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "ROUTETYPE=<routetype>,PREFIXADDR=<prefixaddr>,
       PREFIXMASK=<prefixmask>,ROUTEIF=<routeif>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "ROUTETYPE=STATIC,PREFIXADDR=10.1.0.0,
       PREFIXMASK=255.255.0.0, ROUTEIF=WAVE-0-0"
;

Errors

Errors are listed in Table 2-15.


3.61  RTRV-LOG: Retrieve Log

Use this command to retrieve the console buffer log on the NE.

Section
RTRV-LOG Description 

Category

Alarms and faults

Security

Retrieve

Related Messages

ALW-MSG-ALL: Allow Message All

ALW-SWDX-EQPT: Allow Switch Duplex Equipment

INH-MSG-ALL: Inhibit Message All

INH-SWDX-EQPT: Inhibit Switch Duplex Equipment

RTRV-ALM-ALL: Retrieve Alarms All

RTRV-ALM-ENV: Retrieve Alarms Environmental

Input Format

RTRV-LOG:[<tid>]::<ctag>::[<lognm>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<lognm> specifies the name of the log to be retrieved. Only the value SYSLOG is currently supported. The default is SYSLOG.

Input Example

To retrieve the console buffer log on the NE, use the following:

RTRV-LOG:ons155xx::123::;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<text>"
;

/* RTRV-LOG */

Output Example

      SID DATE TIME
M 123 COMPLD
      "SYSLOG::00:00:23: %LINK-3-UPDOWN: Interface Transparent7/0/0,        changed state to down"
      "SYSLOG::00:00:24: %LINEPROTO-5-UPDOWN: Line protocol on Interface        Transparent7/0/0, changed state to down"
      "SYSLOG::00:00:38: %LCMDC-3-MIB_ICDRLK_ALM: Ingress CDR        Locking error CLEAR MAJOR Tran7/0/0"
;
/* RTRV-LOG */

Errors

Errors are listed in Table 2-15.


3.62  RTRV-MEM: Retrieve Memory

Use this command to retrieve information on all the files that are present on the Flash device.

Section
RTRV-MEM Description 

Category

Memory Management

Security

Retrieve

Related Messages

DLT-MEM: Delete Memory

CPY-MEM: Copy Memory

RST-MEM: Restore Memory

SQUEEZE-MEM: Squeeze Memory

Input Format

RTRV-MEM:[<tid>]:[<aid>]:<ctag>:::[FILENAME=<file>],[STATUS=<status>];

Where:

<tid> is the target identifier.

<aid> indicates the memory device from which the file is being retrieved. Valid values are BOOTFLASH, DISK-[0-1], PCMCIA-[0-1], NVRAM, SBY-NVRAM, SBY-BOOTFLASH, SBY-DISK-[0-1], or SBY-PCMCIA-[0-1].

<ctag> is the correlation tag.

<file> specifies a filename. This is a string with a maximum of 255 characters.

<status> filters the files that are retrieved. Valid values are ACTIVE, DELETED, or ALL. ACTIVE refers to all the files that are currently undeleted. DELETED refers to files that have been marked deleted. ALL is used to retrieves all files. The default value is ALL.

Input Example

To retrieve information on all the files that are present on the Flash device, use the following:

RTRV-MEM:ons155xx:DISK-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:INDEX=<index>,ACCESS=<access>,SIZE=<size>,DATE=<date>,
       TIME=<time>,FILENAME=<filename>,STATUS=<status>"
;

Output Example

      SID DATE TIME
M 123 COMPLD       "BOOTFLASH:INDEX=1,ACCESS=RW,SIZE=145678,DATE=12-115.01,        TIME=10-22-00,FILENAME=ons15540-i-mz,STATUS=ACTIVE"       "BOOTFLASH:INDEX=2,ACCESS=RW,SIZE=146140,DATE=12-115.01,        TIME=13-10-00,FILENAME=ons15540-i-mz.temp,STATUS=DELETED"
;

Where:

INDEX shows the index number associated with the deleted file.

ACCESS shows the permissions on that file. Valid values are RW (read/write) and RO (read-only).

SIZE shows the size of the file in bytes.

DATE is the string that shows the date of the file. The format is MM-DD-YY.

TIME is the string that shows the time on the file. The format is HH-MM-SS.

NAME is the string that shows the name of the file. The maximum length is 255 characters.

Errors

Errors are listed in Table 2-15.


3.63  RTRV-NBR: Retrieve Neighbor

Use this command to retrieve the neighbor information on port(s).

If the AID value is not provided, then information about all the neighbors discovered (for all of the ports) is retrieved.

Section
RTRV-NBR Description 

Category

Topology neighbor configuration

Security

Retrieve

Related Messages

DLT-NBR: Delete Neighbor

ENT-NBR: Enter Neighbor

Input Format

RTRV-NBR:[<tid>]:[<aid>]:<ctag>;

<tid> is the target identifier.

<aid> identifies the interface and can be one of the following:

TRANSPARENT-slot-subcard-0

TENGIGETHERPHY-slot-subcard

WDM-slot-subcard

<ctag> is the correlation tag.

Input Example

To retrieve the neighbor information on ports, use the following:

RTRV-NBR:ons155xx:WDM-0-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:DSCVRY=<dscrvy>,LINKDIRN=<linkdirn>,NBRNAME=<nbrname>,
       NBRPORT=<nbrport>,NBRAGENTIP=<nbragentip>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "WDM-0-0:DSCVRY=MANUAL,LINKDIRN=RX,
        NBRNAME=shelf2,NBRPORT=WDM-0-0, NBRAGENTIP=172.16.20.1"
      "WDM-0-0:DSCVRY=MANUAL,LINKDIRN=TX,
        NBRNAME=edfa_box1,NBRPORT=in_port, NBRAGENTIP=172.16.20.9"
;

Errors

Errors are listed in Table 2-15.


3.64  RTRV-NE-CDP: Retrieve Network Element CDP

Use this command to retrieve global CDP information.

Section
RTRV-NE-CDP Description 

Category

CDP

Security

Retrieve

Related Messages

ED-NE-CDP: Edit Network Element CDP

Input Format

RTRV-NE-CDP:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Input Example

To retrieve global CDP information, use the following:

RTRV-NE-CDP:ons155xx::123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "CDP=<cdp>,UPDATETIME=<updatetime>,HOLDTIME=<holdtime>,
       SENDVER=<sendver>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "CDP=Y,UPDATETIME=60,HOLDTIME=180,SENDVER=2"
;

Errors

Errors are listed in Table 2-15.


3.65  RTRV-NE-GEN: Retrieve Generic NE Configuration Values

Use this command to retrieve generic NE configuration values.

Section
RTRV-NE-GEN Description 

Category

Generic NE configuration

Security

Retrieve

Related Messages

ED-NE-GEN: Edit Network Element General

Input Format

RTRV-NE-GEN:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Input Example

To retrieve generic NE configuration values, use the following:

RTRV-NE-GEN:ons155xx::123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "CURCFGREG=<curcfgreg>,NEWCFGREG=<newcfgreg>,
       SWVER=<swver>,SWNAME=<swname>,SYSFILE=<sysfile>,
       CMPLTIME=<cmpltime>,CMPLBY=<cmplby>,BOOTLDR=<bootldr>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "CURCFGREG=0x0,NEWCFGREG=0x2,SWVER=12.1,
        SWNAME=ONS15540-I-M, SYSFILE=bootflash:ons15540-i-mz,
       CMPLTIME=01-10-11-19-33,CMPLBY=hqluong"
;

Where:

CURCFGREG shows the current configuration register setting in hexadecimal.

NEWCFGREG shows the new (the value that takes effect on next reload) configuration register setting in hexadecimal.

SWVER indicates the software version; the maximum length is 32 characters.

SWNAME indicates the name of the software image; the maximum length is 64 characters.

SYSFILE indicates the system image file; the maximum length is 255 characters.

CMPLTIME indicates the compiled time. The format of this string is YY-MM-DD-HH-MM.

CMPLBY indicates the username of person who compiled this software image; maximum length is 8 characters.

Errors

Errors are listed in Table 2-15.


3.66  RTRV-NE-OSCP: Retrieve Network Element OSCP

Use this command to retrieve the configurations for OSCP.

Section
RTRV-NE-OSCP Description 

Category

OSCP

Security

Retrieve

Related Messages

ED-NE-OSCP: Edit Network Element OSCP

Input Format

RTRV-NE-OSCP:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Input Example

To retrieve the configurations for OSCP, use the following:

RTRV-NE-OSCP:ons155xx::123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "HELLOINTV=<hellointv>,HELLOHLDWN=<hellohldwn>,
        INACTFCTR=<inactfctr>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "HELLOINTV=500,HELLOHLDWN=200,INACTFCTR=10"
;

Errors

Errors are listed in Table 2-15.


3.67  RTRV-NTP: Retrieve NTP

Use this command to retrieve the NTP status parameters for the system.

Section
RTRV-NTP Description 

Category

NTP

Security

Retrieve

Related Messages

DLT-NTPASSOC: Delete NTP Associations

ENT-NTPASSOC: Enter NTP Associations

Input Format

RTRV-NTP:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Output Format

      SID DATE TIME
M CTAG COMPLD
      "SYNCSTATE=<syncstate>,STRATUM=<stratum>,
        REFIPADDR=<refipaddr>,NOMFREQ=<nomfreq>,ACTFREQ=<actfreq>,
        PRECISION=<precision>,REFTIME=<reftime>,CLKOFFSET=<clkoffset>,
        ROOTDELAY=<rootdelay>,ROOTDISP=<rootdisp>,PEERDISP=<peerdisp>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "SYNCSTATE=Y,STRATUM=4,REFIPADDR=172.16.246.1,NOMFREQ=250,
       ACTFREQ=249.9999,PRECISION=24,
       REFTIME=09:09:38.885PSTSunDec302001,
       CLKOFFSET=7.7674,ROOTDELAY=113.39,ROOTDISP=386.72,
       PEERDISP=1.57"
;

Where:

SYNCSTATE indicates whether clock is synchronized. Valid values are Y or N.

STRATUM indicates the stratum of the reference clock. This is an integer value from 1 to 16.

REFIPADDR indicates the IP address of the peer/server from where the reference clock is being derived.

NOMFREQ shows the nominal frequency in Hz.

ACTFREQ shows the actual frequency in Hz.

PRECISION indicates the precision of the derived clock. If the value specified here is x, the actual precision is in the form 2x.

REFTIME indicates the clock reference time.

CLKOFFSET shows the clock offset in milliseconds.

ROOTDELAY shows a string value that shows the root delay in milliseconds.

ROOTDISP shows the root dispersion in milliseconds.

PEERDISP shows the peer dispersion in milliseconds.

Errors

Errors are listed in Table 2-15.


3.68  RTRV-NTPASSOC: Retrieve NTP Associations

Use this command to retrieve the NTP parameters for each association that is created.

Section
RTRV-NTPASSOC Description 

Category

NTP

Security

Retrieve

Related Messages

DLT-NTPASSOC: Delete NTP Associations

ENT-NTPASSOC: Enter NTP Associations

RTRV-NTP: Retrieve NTP

Input Format

RTRV-NTPASSOC:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Output Format

      SID DATE TIME
M CTAG COMPLD
      "ASSOCTYPE=<assoctype>,ASSOCIPADDR=<associpaddr>,
        ASSOCSTRATUM=<assocstratum>,ASSOCREFID=<assocrefid>,
        ASSOCPOLL=<assocpoll>,ASSOCREACH=<assocreach>,
        ASSOCDELAY=<assocdelay>,ASSOCOFFSET=<assocoffset>,
        ASSOCDISP=<assocdisp>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "ASSOCTYPE=SERVER,ASSOCIPADDR=172.16.246.1,
       ASSOCSTRATUM=2,ASSOCREFID=172.16.10.80,ASSOCPOLL=64,
       ASSOCREACH=377,ASSOCDELAY=1.4,ASSOCOFFSET=-23005,
       ASSOCDISP=4925"
;

Where:

ASSOCTYPE shows the association type. The values are SERVER and PEER.

ASSOCIPADDR shows the IP address of the server or peer.

ASSOCSTRATUM shows the stratum of the peer's clock. It has an integer value from 1 to 16.

ASSOCREFID indicates the reference ID of the peer is an IP address.

ASSOCPOLL indicates the interval at which the local host polls the peer. This is an integer value in seconds.

ASSOCREACH indicates the reachability status of the peer. This is an integer value from 0 to 255.

ASSOCDELAY shows the estimated round-trip delay of the peer clock with reference to the local clock, in seconds.

ASSOCOFFSET shows the estimated offset of the peer clock with reference to the local clock, in seconds.

ASSOCDISP shows the estimated error between the peer clock and the local clock, in seconds.

Errors

Errors are listed in Table 2-15.


3.69  RTRV-OCH: Retrieve Optical Channel

Use this command to retrieve interface configuration information.

The PST and SST values in the last position defined block indicate the current status of the interface. The values of PST-PSTQ and SST, under different conditions, are listed as follows:

If the interface is administratively shut down by using the ENT-OCH command, values returned are PST=OOS-MA, SST=MT.

If the interface and the laser are shut down administratively, values returned are PST=OOS_MA, SST=MT, LASER.

If the interface is down because of alarms on the link, such as Loss of Signal/Loss of Frame, Loss of Light, values returned are PST=OOS-AU, SST=FAF.

If the interface is down because of alarms and is also administratively shut down, values returned are PST=OOS-AUMA, SST=FAF, MT.

If there is an entity failure on the NE because the interface is down, values returned are PST=OOS-AU, SST= SGEO.

If the transmit laser fails at an interface, values returned is PST=OOS-AU, SST=FLT.

If only thresholds are exceeded on the interface, values returned are PST=IS-ANR. For wavepatch interfaces only, the SST value also indicates the current state with respect to APS of the interface.

If the wavepatch is currently active, the SST value of ACT is returned.

If the wavepatch is currently standby, the value of STBYH is returned.

Under normal operating conditions, values returned are PST=IS-NR.

Section
RTRV-OCH Description 

Category

Transparent interface configuration

Security

Retrieve

Related Messages

ED-OCH: Edit Optical Channel

OPR-LPBK-OCH: Operate Loopback OCH

RTRV-OCH: Retrieve Optical Channel

RTRV-OCH: Retrieve Optical Channel

Input Format

RTRV-OCH:[<tid>]:[<aid>]:<ctag>

Where:

<tid> is the target identifier.

<AID> indicates the interface that is being configured. Valid values are TRANSPARENT-slot-subcard-0, WAVE-slot-subcard, WAVEPATCH-slot-subcard-port, or ETHERDCC-slot-subcard-port.

<ctag> is the correlation tag.

Input Example

To retrieve interface configuration information, use the following:

RTRV-OCH:ons155xx:TRANSPARENT-10-0-0:123;
RTRV-OCH:ons155xx:WAVE-8-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:THRLISTNAME=<thrlistname>,FLC=<flc>,LSC=<lsc>,
        LASERFREQ=<laserfreq>,LPBKTYPE=<lpbktype>:<pst>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "TRANSPARENT-10-0-0:ENCAP=OC3,THRLISTNAME=sonet-cvs,
        FLC=N,LPBKTYPE=FACILITY:IS-NR"
;

      SID DATE TIME
M 123 COMPLD
      "WAVE-8-0:THRLISTNAME=sonet-cvs,FLC=N,LSC=Y,
        LASERFREQ=159800, LPBKTYPE=FACILITY:IS-NR"
;

Where:

LASERFREQ can be retrieved only on the AID WAVE-slot-subcard.

LPBKTYPE indicates the type of loopback on the interface. Valid values are as follows:

FACILITY - where the signal from the receive input is looped back to the transmit output.

TERMINAL - where the signal bound for transmit output is looped back to the receive input. This is an internal loopback and it is used for hardware debug and diagnostics.

Errors

Errors are listed in Table 2-15.


3.70  RTRV-PATCH: Retrieve Patch

Use this command to retrieve the patch configuration.

Section
RTRV-PATCH Description 

Category

Patch configuration

Security

Retrieve

Related Messages

DLT-PATCH: Delete Patch

ENT-PATCH: Enter Patch

Input Format

RTRV-PATCH:[<tid>]:[<from_aid>],[<to_aid>]:<ctag>;

Where:

<tid> is the target identifier.

<from_aid> identifies the port patched to the port identified by <to_aid>. Valid values for <from_aid> are as follows:

FILTER-slot-subcard-0

OSCFILTER-slot-subcard

THRU-slot-subcard

WAVE-slot

WAVEPATCH-slot-subcard-port

WDM-slot-subcard

<to_aid> identifies the port patched from the port identified by <from_aid>. Valid values for <to_aid> are as follows:

FILTER-slot-subcard-0

OSCFILTER-slot-subcard

THRU-slot-subcard

WAVE-slot

WAVEPATCH-slot-subcard-port

WDM-slot-subcard

<ctag> is the correlation tag.


Note If the AID value is not provided, then information for all the patches is retrieved. If both the AIDs are specified, all the patches associated with the specified AIDs is retrieved.


Input Example

To retrieve the patch configuration, use the following:

RTRV-PATCH:ons155xx::123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<from_aid>,<to_aid>:<dirn>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "WAVEPATCH-2-0-0,FILTER-0-0-0:2WAY"
      "WDM-0-0,THRU-0-0:2WAY"
;

Errors

Errors are listed in Table 2-15.


3.71  RTRV-PM-ENCAP: Retrieve Performance Encapsulation

Use this command to retrieve the performance monitoring parameters related to error counters for transponder and OSC wave interfaces specified by the AID. The parameter is specified by <montype> and the <tmper> specifies the accumulation time period.

Section
RTRV-PM-ENCAP Description 

Category

Transparent interface configuration

Security

Retrieve

Related Messages

ED-OCH: Edit Optical Channel

Input Format

RTRV-PM-ENCAP:[<tid>]:[<aid>]:<ctag>::[<montype>],,,,[<tmper>], [<mondat>],[<montm>];

Where:

<tid> is the target identifier.

<aid> indicates transparent interface or wave interface for which performance monitor data is being retrieved. Valid values are TRANSPARENT-slot-subcard-0, WAVE-slot-subcard, or WAVE-slot.

<ctag> is the correlation tag.

<montype> is the monitored parameter type. Valid values are as follows:

FC - Indicates the number of times signal failure threshold was exceeded on an interface.

DC - Indicates the number of times signal degrade threshold was exceeded on an interface.

PSC - Shows protection switch count (for APS) on the AID.

ESS - Errored second count (section).

SEFS-S - Severely errored framing seconds count.

SESS - Severely errored second count.

CVRD - Coding violations and running disparity errors.

CDLHEC - CDL header error count. This parameter applies to the OSC WAVE-slot AIDs only.

The default is all montypes.

<tmper> is the time period for the counts. Valid values are 15-MIN, 24-HR, or TOTAL. The 15-MIN and 24-HR counts are reported only for the SONET-related counters CVS, ESS, SEFS-S, and SESS. For all other counters, only TOTAL counts are reported.

<mond> is the day the AID was monitored. The format is YY-MM-DD.

<montm> is the time the AID was monitored. The format is HH:SS.

Input Example

To retrieve the performance monitoring parameters for the transparent interface in slot 2, subcard 0, use the following:

RTRV-PM-ENCAP:ons155xx:TRANSPARENT-2-0-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<error>,<count>,COMPL,,,<interval>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "TRANSPARENT-2-0-0,OC3:CVS,153,COMPL,,,15-MIN"
      "TRANSPARENT-2-0-0,OC3:FC,0,COMPL,,,TOTAL"
      "TRANSPARENT-2-0-0,OC3:DC,5,COMPL,,,TOTAL"
      "TRANSPARENT-2-0-0,OC3:PSC,6,COMPL,,,TOTAL"
;

Where:

FC is the number of times signal failure threshold was exceeded on an interface.

DC is the number of times signal degrade threshold was exceeded on an interface.

PSC is the protection switch count (for APS) on the interface.


Note Valid values for the time period for this command include 15-MIN, 24-HR and TOTAL. The 15-MIN and 24-HR counts are reported only for SONET related counters. That is CVS, ESS, SEFS-S, SESS. For all other counters, only TOTAL counts is reported.


Errors

Errors are listed in Table 2-15.


3.72  RTRV-PM-EQPT: Retrieve Performance Monitoring Equipment

Use this command to retrieve performance monitoring data for a processor card.

Section
RTRV-PM-EQPT Description 

Category

Redundancy Configuration

Security

Retrieve

Related Messages

INIT-REG-ETH: Initialize Register Ethernet

Input Format

RTRV-PM-EQPT:[<tid>]:[<aid>]:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. Valid values are SLOT-6 or SLOT-7.

<ctag> is the correlation tag.

Input Example

To retrieve performance monitoring parameters for the processor card in slot 6, use the following:

RTRV-PM-EQPT:ons155xx:SLOT-6:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<montype>,<date>,,,,<interval>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "SLOT-6:SWCT,1,,,,"
      "SLOT-6:SWTM,0,,,,01-10-11-19-33"
      "SLOT-6:AVAILUPTM,0,,,,00-00-03-04-35"
      "SLOT-6:INITM,0,,,,00-00-00-22-33"
      "SLOT-6:RCSYNCTM,0,,,,00-00-00-02-18"       "SLOT-6:SCSYNCTM,0,,,,00-00-00-06-01"
;
/* RTRV-PM-EQPT */

Where:

SWCT is an integer and shows switchover counts.

SWTM is a string and shows the last switchover time in YY-MM-DD-HH-MM.

AVAILUPTM shows available uptime such as time since the last event when the entire system was down. The format is YY-MM-DD-HH-MM.

INITM shows the time since this module was initialized. The format is YY-MM-DD-HH-MM.

RCSYNCTM shows the time since the last running-config sync. The format is YY-MM-DD-HH-MM.

SCSYNCTM shows the time since the last startup-config sync. The format is YY-MM-DD-HH-MM.

Errors

Errors are listed in Table 2-15.


3.73  RTRV-PM-GBE10: Retrieve Performance Monitoring on 10-GE

Use this command to retrieve the performance monitoring parameters on the 10-GE transponder module interfaces.

Section
RTRV-PM-GBE10 Description 

Category

10-GE interface configuration

Security

Retrieve

Related Messages

RTRV-PM-rr: Retrieve Performance Monitoring

Input Format

RTRV-PM-GBE10:[<tid>]:[<aid>]:<ctag>::[<montype>],,,, [<tmper>],[<mondat>],[<montm>];

Where:

<tid> is the target identifier.

<aid> identifies the interface and can be one of the following:

WAVEETHERPHY-slot-subcard

TENGIGETHERPHY-slot-subcard

<ctag> is the correlation tag.

<montype> specifies the performance monitor parameter.Valid values are as follows:

CVRD specifies coding violations and running disparity errors count.

CRC specifies cyclic redundancy checksum errors.

<tmper> is the time period for the counts. Valid values are 15-MIN, 24-HR, or TOTAL. The 15-MIN and 24-HR counts are reported only for the SONET-related counters CVS, ESS, SEFS-S, and SESS. For all other counters, only TOTAL counts are reported.

<mond> is the day the AID was monitored. The format is YY-MM-DD.

<montm> is the time the AID was monitored. The format is HH:SS.

Input Example

To retrieve the performance monitor information related to error counters from waveetherphy interface in slot 9, subcard 0, use the following:

RTRV-PM-GBE10:ons155xx:WAVEETHERPHY-9-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<error>,<count>,COMPL,,,,<interval>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "WAVEETHERPHY-9-0:CRC,50,COMPL,,,TOTAL"
      "WAVEETHERPHY-9-0:CVRD,60,COMPL,,,TOTAL"
      "WAVEETHERPHY-9-0:CDLHEC,500,COMPL,,,TOTAL"
      "WAVEETHERPHY-9-0:INVALIDFLOWID,10000,COMPL,,,TOTAL"
      "WAVEETHERPHY-9-0:NONCDLPAK,15.0,COMPL,,,TOTAL";

Where:

CDLHEC shows CRC error counts in the CDL header.

INVALIDFLOWID shows the count associated with the CDL flow identifier lookup errors encountered in the receive direction.

NONCDLPAK shows the count associated with the number of packets received without a CDL header in the receive direction. This counter is incremented only when CDL is enabled on the interface.

Errors

Errors are listed in Table 2-15.


3.74  RTRV-PMMODE-OCH: Retrieve Performance Mode OCH

Use this command to retrieve the configuration for performance monitoring.

Section
RTRV-PMMODE-OCH Description 

Category

Transparent interface configuration

Security

Retrieve

Related Messages

SET-PMMODE-OCH: Set Performance Mode OCH

Input Format

RTRV-PMMODE-OCH:[<tid>]:[<aid>]:<ctag>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. The value is TRANSPARENT-slot-subcard-0.

<ctag> is the correlation tag.

Input Example

To retrieve the configuration for performance monitoring, use the following:

RTRV-PMMODE-OCH:ons155xx:TRANSPARENT-10-0-0:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:,,<pmmode>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "TRANSPARENT-10-0-0:,,ON"
;

Errors

Errors are listed in Table 2-15.


3.75  RTRV-PM-rr: Retrieve Performance Monitoring

Use this command to retrieve the performance monitoring information for optical parameters on a transponder module interface specified by the AID. The parameter is specified by <montype> and <tmper> specifies the accumulation time period.


Note The value returned for all optical power related montype parameters is in the range of -40 to 25 dBm. The value returned for all laser bias current related montype parameters is in hundreds of microamperes and has a range from 0 to 10000.The value returned for all laser temperature related montype parameters is in tenths of degrees centigrade and has a range from -500 to 850.

Section
RTRV-PM-rr Description 

Category

Optical parameter monitoring

Security

Retrieve

Related Messages

RTRV-PM-EQPT: Retrieve Performance Monitoring Equipment

RTRV-PM-ENCAP: Retrieve Performance Encapsulation

Input Format

RTRV-PM-rr:[<tid>]:[<aid>]:<ctag>::[<montype>],[<monlev>],,[<dirn>], [<tmper>],[<mondat>],[<montm>];

Where:

rr is OCH.

<tid> is the target identifier.

<aid > is the access identifier. The value of AID can be WAVE-slot-subcard, WAVEETHERPHY-slot-subcard, or WAVEPATCH-slot-subcard-port.

<ctag> is the correlation tag.

<montype> is the performance monitoring parameter. Valid values are as follows:

OPR indicates the current value of the received optical power level.

OPRMIN indicates the minimum value of the received optical power level during a particular interval.

OPRMAX indicates the maximum value of the received optical power level during a particular interval.

OPRAVG indicates the average value of the received optical power level during a particular interval.

<monlev> is the level for the performance monitoring parameter. Valid values are n-UP and n-DN, where n is a decimal number indicating the number of levels in the desired direction.

<dirn> is the direction. Valid values are RCV or TRMT.

<tmper> is the time period for the counts. Valid values are 15-MIN, 24-HR, or TOTAL. The 15-MIN and 24-HR counts are reported only for the SONET-related counters CVS, ESS, SEFS-S, and SESS. For all other counters, only TOTAL counts are reported.

<mond> is the day the AID was monitored. The format is YY-MM-DD.

<montm> is the time the AID was monitored. The format is HH:SS.

Input Example

To retrieve the performance monitor information for the optical parameters monitored on the wavepatch interface in slot 8, subcard 0, port 0, use the following:

RTRV-PM-OCH:ons155xx:WAVEPATCH-8-0-0:123;

Output Format

     SID DATE TIME
M CTAG COMPLD
      "<aid>:<montype>,<value>,COMPL,,<dirn>,<interval>,<date>,<time>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "WAVEPATCH-8-0-0:OPR,11.0,COMPL,,RCV,CURRENT"
      "WAVEPATCH-8-0-0:OPRMIN,5.0,COMPL,,RCV,15-MIN,05-09,22-45"
      "WAVEPATCH-8-0-0:OPRMAX,15.0,COMPL,,RCV,15-MIN,05-09,22-45"
      "WAVEPATCH-8-0-0:OPRAVG,10.0,COMPL,,RCV,15-MIN,05-09,22-45"
;

Where:

OPR indicates the current value of the received optical power level.

OPRMIN indicates the minimum value of the received optical power level during a particular interval.

OPRMAX indicates the maximum value of the received optical power level during a particular interval.

OPRAVG indicates the average value of the received optical power level during a particular interval.

Errors

Errors are listed in Table 2-15.



3.76  RTRV-THR-OCH: Retrieve Thresholds OCH

Use this command to retrieve the configurations for thresholds. The complete threshold list or specific thresholds within the list can be retrieved.


Note When retrieving a particular threshold from a list, both the ERRTYPE and THRTYPE parameters, along with the THRLISTNAME, must be specified.

Section
RTRV-THR-OCH Description 

Category

Threshold list configuration

Security

Retrieve

Related Messages

DLT-THR-OCH: Delete Threshold OCH

ENT-THR-OCH: Enter Thresholds OCH

RTRV-TH-rr: Retrieve Threshold

SET-TH-rr: Set Optical Threshold

Input Format

RTRV-THR-OCH:[<tid>]:[<thrlistname>]:<ctag>:::[ERRTYPE=<errtype>, THRTYPE=<thrtype>];

Where:

<tid> is the target identifier.

<thrlistname> specifies the threshold list.

<ctag> is the correlation tag.

<errtype> indicates the type of error counter to which the threshold applies. Valid values are as follows:

CVS - SONET/SDH section CV errors

CVRD - 8B/10B code violations and running disparity errors

CDLHEC - CDL HEC errors

CRC - Cyclic redundancy check errors

<thrtype> indicates the threshold type. Valid values are as follows:

DEGR - Indicates that a signal degrade condition has been reached. Use this threshold type only when <errtype> is CVS.

FAIL - Indicates that a ignal failure condition has been reached. Use this threshold type only when <errtype> is CVS.

EVTTHR - Indicates that a non-service affecting condition has been reached. Use this threshold type only when <errtype> is not CVS.

ALMTHR - Iindicates that a service affecting condition has been reached. Use this threshold type only when <errtype> is not CVS.

Input Example

To retrieve the configurations for thresholds, use the following:

RTRV-THR-OCH:ons155xx:sonet-cvs:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<thrlistname>:ERRTYPE=<errtype>,THRTYPE=<thrtype>,VALUE=<value>,
       INDEX=<index>,TRGAPS=<trgaps>,DESCR=<descr>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "sonet-cvs:ERRTYPE=CVS,THRTYPE=DEGR,VALUE=7,INDEX=1,
                       TRGAPS=Y,DESCR=xxx"
;

Errors

Errors are listed in Table 2-15.



3.77  RTRV-TH-rr: Retrieve Threshold

Use this command to retrieve the optical power threshold values configured on the wavepatch interfaces and waveetherphy interfaces interfaces.

Section
RTRV-TH-rr Description 

Category

Optical Parameter Monitoring

Security

Retrieve

Related Messages

ED-THR-OCH: Edit Thresholds OCH

SET-TH-rr: Set Optical Threshold

Input Format

RTRV-TH-rr:[<tid>]:[<aid>]:<ctag>::[<montype>];

Where:

rr is OCH.

<tid> is the target identifier.

<aid> indicates wavepatch or waveetherphy interfaces on which the threshold is to be set. Valid values are WAVEPATCH-slot-subcard-port or WAVEETHERPHY-slot-subcard.

<ctag> is the correlation tag.

<montype> is the performance monitoring parameter. Valid values are as follows:

OPR indicates the current value of the received optical power level.

OPRMIN indicates the minimum value of the received optical power level during a particular interval.

OPRMAX indicates the maximum value of the received optical power level during a particular interval.

OPRAVG indicates the average value of the received optical power level during a particular interval.

Input Example

To retrieve the threshold values configured on the wavepatch interfaces, use the following:

RTRV-TH-OCH:ons155xx:WAVEPATCH-8-0-0:123::OPRHA;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<aid>:<montype>,,<dirn>,<value>"
;

Output Example

      SID DATE TIME
M 123 COMPLD
       "WAVEPATCH-8-0-0:OPRHA,,RCV,200"
;

Errors

Errors are listed in Table 2-15.


3.78  RTRV-TOD: Retrieve Time of Day

Use this command to retrieve time-of-day (TOD) information for the NE.

Section
RTRV-TOD Description 

Category

Generic NE configuration

Security

Retrieve

Related Messages

ED-DAT: Edit Date

Input Format

RTRV-TOD:[<tid>]::<ctag>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

Input Example

To retrieve TOD information for the NE, use the following:

RTRV-TOD:ons155xx::123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<year>,<month>,<day>,<hour>,<minute>,
       <second>.<thousandths-of-second>,<timezone>"
;

Output Example

      SID 2003-02-11 13:30:51
M 123 COMPLD
      "2003,2,11,13,30,51.879,UTC"
;

Errors

Errors are listed in Table 2-15.


3.79  RTRV-USER-SECU: Retrieve User Security

Use this command to retrieve the security parameters associated with a user, except for the password.

Section
RTRV-USER-SECU Description 

Category

Security

Security

Retrieve

Related Messages

ACT-USER: Activate User

CANC-USER: Cancel User

DLT-USER-SECU: Delete User Security

ED-USER-SECU: Edit User Security

ENT-USER-SECU: Enter User Security

Input Format

RTRV-USER-SECU:[<tid>]:<uid>:<ctag>;

Where:

<tid> is the target identifier.

<uid> is the user identifier.

<ctag> is the correlation tag.

Input Example

To retrieve the security parameters associated with a user, use the following:

RTRV-USER-SECU:ons155xx:admin:123;

Output Format

      SID DATE TIME
M CTAG COMPLD
      "<uid>:,<security>:"
;

Output Example

      SID DATE TIME
M 123 COMPLD
      "admin:,PROV:"
;

Errors

Errors are listed in Table 2-15.


3.80  SET-ATTR-rr: Set Attributes

Use this command to set the severity associated with the thresholds configured using the SET-TH-rr command described in the "SET-TH-rr: Set Optical Threshold" section.

Section
SET-ATTR-rr Description 

Category

Optical Parameter Monitoring

Security

Retrieve

Related Messages

RTRV-OCH: Retrieve Optical Channel

RTRV-TH-rr: Retrieve Threshold

RTRV-THR-OCH: Retrieve Thresholds OCH

SET-TH-rr: Set Optical Threshold

Input Format

SET-ATTR-rr:[<tid>]:<aid>:<ctag>::[<ntfcncde>],[<condtype>],,[<dirn>];

Where:

rr is OCH.

<tid> is the target identifier.

<aid> is the access identifier. The value of AID is WAVEPATCH-slot-subcard-port.

<ctag> is the correlation tag.

<ntfcncde> indicates the type of notification generated on the NE when a threshold is exceeded or cleared. When the condtyp parameter corresponds to the high alarm or the low alarm conditions, the notification code can have values CR (critical) or MJ (major) only. The condition is reported through REPT ALM service affect flag is set to SA. When the condtyp parameter corresponds to the high warning or low warning conditions, the notification code can have values MN (minor), NA (not alarmed) or NR (not reported). When the notification code is set to MN, the condition is reported through REPT ALM and the service affect flag is NSA. When the notification code is set to NA, the condition is reported through REPT EVT and the condeff flag is set to SC. When the notification code is set to NR, the condition will not be reported (the information can be retrieved from the NE) and the condeff flag is set to SC.

<condtype> is the monitored condition type. Valid values are as follows:

OPRHA - Receive optical power level corresponding to the high alarm threshold. If the optical power level is greater than the threshold associated with this parameter, an alarm is generated.

OPRLA - Receive optical power level corresponding to the low alarm threshold. If the optical power level is less than the threshold associated with this parameter, an alarm is generated.

OPRHW - Receive optical power level corresponding to the high warning threshold. If the optical power level is greater than the threshold associated with this parameter, a warning is generated that may be reported using REPT EVT.

OPRLW - Receive optical power level corresponding to the low warning threshold. If the optical power level is less than the threshold associated with this parameter, a warning is generated that may be reported using the REPT EVT.

<dirn> is the direction associated with the information. Valid values are RCV or TRMT. The default is both directions.

Input Example

To configure a severity of MJ on the high alarm threshold on the received optical power, at the wavepatch interface in slot 8, subcard 0, port 0, use the following:

SET-ATTR-OCH:ons155xx:WAVEPATCH-8-0-0:123::MJ,OPRHA,,RCV;

Errors

Errors are listed in Table 2-15.


3.81  SET-NTP: Set NTP

Use this command to configure NTP attributes on the entire system.

Section
SET-NTP Description 

Category

NTP

Security

Maintenance

Related Messages

RTRV-NTP: Retrieve NTP

Input Format

SET-NTP:[<tid>]::<ctag>:::[MASTER=<master>],[MSTRATUM=<mstatum>], [MAXASSOC=<maxassoc>], [CLKPERIOD=<clkperiod>],[UPDCAL=<updcal>];

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<master> enables or disables this NE to act as NTP master clock.Valid values are Y or N. The default is N.

<mstratum> indicates stratum value to use while acting as NTP master clock.

<maxassoc> sets the maximum number of NTP associations allowed. Valid values are 0 to 4294967295 .

<clkperiod> sets the length of hardware clock tick in 2-32 seconds. Valid values are 0 to 4294967295.

<updcal> indicates whether the NE should update its internal hardware clock with clock value obtained from NTP. Valid values are Y or N. The default is N.

Errors

Errors are listed in Table 2-15.


3.82  SET-PMMODE-OCH: Set Performance Mode OCH

Use this command to enable and disable performance monitoring on a transparent interface. The <locn> and <modetype> parameters in this command do not apply and are set to NULL.

Section
SET-PMMODE-OCH Description 

Category

Transparent interface configuration

Security

Maintenance

Related Messages

RTRV-PMMODE-OCH: Retrieve Performance Mode OCH

Input Format

SET-PMMODE-OCH:[<tid>]:<aid>:<ctag>::,,<pmstate>;

Where:

<tid> is the target identifier.

<aid> is the access identifier. The value is TRANSPARENT-slot-subcard-0.

<ctag> is the correlation tag.

<pmstate> is the performance monitoring state. Valid values are ON or OFF. The default value is OFF.

Input Example

To enable monitoring on the transparent interface in slot 2, subcard 0, use the following:

SET-PMMODE-OCH:ons155xx:TRANSPARENT-2-0-0:123::,,ON;

Errors

Errors are listed in Table 2-15.


3.83  SET-SID: Set System Identification

Use this command to change the NE system identification code to a specific value. The hostname on the device is changed to this value.

Section
SET-SID Description 

Category

Generic NE configuration

Security

Retrieve

Related Messages

INIT-SYS: Initialize System

Input Format

SET-SID:[<tid>]::<ctag>::<SID>;

Where:

<tid> is the target identifier.

<ctag> is the correlation tag.

<sid> is the system identifier.

Input Example

To change the NE system identification code to a specific value, use the following:

SET-SID:ons155xx::123::ons155xx-tl1;

Errors

Errors are listed in Table 2-15.


3.84  SET-TH-rr: Set Optical Threshold

Use this command to set a threshold level on the monitored optical parameters. Each monitored parameter has a default threshold value assigned to it.

When this command is used with no attributes specified, it restores the default values.

Section
SET-TH-rr Description 

Category

Optical parameter monitoring

Security

Retrieve

Related Messages

RTRV-TH-rr: Retrieve Threshold

RTRV-THR-OCH: Retrieve Thresholds OCH

ENT-THR-OCH: Enter Thresholds OCH

Input Format

SET-TH-rr:[<tid>]:[<aid>]:<ctag>::[<montype>],[<thlev>],,[<dirn>];

Where:

rr is OCH.

<tid> is the target identifier.

<aid> indicates wavepatch or waveetherphy interfaces on which the threshold is to be set. When the second modifier is set to OCH, valid values are WAVEPATCH-slot-subcard-port or WAVEETHERPHY-slot-subcard. Thresholds for Ex parameters can be configured only on the WAVEPATCH-slot-subcard-port interfaces. Thresholds for the transmit parameters can be configured only on the WAVEETHERPHY-slot-subcard interfaces.

<montype> specifies one of the following threshold types:

OPRHA - Receive optical power level corresponding to the high alarm threshold. If the optical power level is greater than the threshold associated with this parameter, an alarm is generated.

OPRLA - Receive optical power level corresponding to the low alarm threshold. If the optical power level is less than the threshold associated with this parameter, an alarm is generated.

OPRHW - Receive optical power level corresponding to the high warning threshold. If the optical power level is greater than the threshold associated with this parameter, a warning is generated that may be reported using REPT EVT.

OPRLW - Receive optical power level corresponding to the low warning threshold. If the optical power level is less than the threshold associated with this parameter, a warning is generated that may be reported using the REPT EVT.

Input Example

To configure a high alarm threshold of 20.0 dBm on the received optical power at the wavepatch interface in slot 8, port 0, use the following:

SET-TH-OCH:ons155xx:WAVEPATCH-8-0-0:123::OPRHA,200,,RCV;

Errors

Errors are listed in Table 2-15.


3.85  SQUEEZE-MEM: Squeeze Memory

Use this command to permanently delete files and defragment the file system on a Flash memory device.

Section
SQUEEZE-MEM Description 

Category

Memory Management

Security

Retrieve

Related Messages

CPY-MEM: Copy Memory

FORMAT-MEM: Format Memory

RST-MEM: Restore Memory

RTRV-MEM: Retrieve Memory

Input Format

SQUEEZE-MEM:[<tid>]:<aid>:<ctag>;

Where:

<tid> is the target identifier.

<aid> indicates the memory device that is being defragmented. Valid values are BOOTFLASH, DDISK-[0-1], PCMCIA-[0-1], SBY-BOOTFLASH, SBY-DISK-[0-1], or SBY-PCMCIA-[0-1].

<ctag> is the correlation tag.

Input Example

To delete files and defragment the file system on a Flash memory device, use the following:

SQUEEZE-MEM:ons155xx:BOOTFLASH:123;

Errors

Errors are listed in Table 2-15.


3.86  SW-DX-EQPT: Switch Duplex Equipment

Use this command to switch activity from the active to the standby processor card.

Section
SW-DX-EQPT Description 

Category

Redundancy configuration

Security

Maintenance

Related Messages

ALW-SWDX-EQPT: Allow Switch Duplex Equipment

INH-SWDX-EQPT: Inhibit Switch Duplex Equipment

Input Format

SW-DX-EQPT:[<tid>]:<aid>:<ctag>::[<mode>];

Where:

<tid> is the target identifier.

<aid> indicates the active processor card. Valid values are SLOT-6 or SLOT-7.

<ctag> is the correlation tag.

<mode> indicates the mode of operation. Valid values are FRCD and NORMAL. The default mode is NORMAL.

Input Example

To forcibly make the active processor card in slot 6 switch to standby mode, use the following:

SW-DX-EQPT:ons155xx:SLOT-6:123::FRCD;

Errors

Errors are listed in Table 2-15.



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Posted: Wed Jan 12 10:06:33 PST 2005
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