- About this Manual
- Chapter 1, Shelf Assembly Hardware
- Chapter 2, Card Reference
- Chapter 3, Node Reference
- Chapter 4, Network Reference
- Chapter 5, Cisco Transport Controller Operation
- Chapter 6, Security Reference
- Chapter 7, Timing Reference
- Chapter 8, Manage Network Connectivity
- Chapter 9, Alarm and TCA Monitoring and Management
- Chapter 10, Performance Monitoring
- Chapter 11, SNMP
- Appendix A, Hardware Specifications
- Appendix B, Administrative and Service States
- Appendix C, Network Element Defaults
- B.1 Service States
- B.2 Administrative States
- B.3 Service State Transitions
- B.3.1 DWDM Shelf Service State Transitions
- B.3.2 DWDM Card Service State Transitions
- B.3.3 Optical Payload Port Service State Transitions
- B.3.4 OSC Port Service State Transitions
- B.3.5 OCHNC Service State Transitions
- B.3.6 Transponder/Muxponder Card Service State Transitions
- B.3.7 Transponder/Muxponder Port Service State Transitions
Administrative and Service States
This appendix describes the administrative and service states for Cisco ONS 15454 dense wavelength division multiplexing (DWDM) cards, optical payload ports, out-of-band optical service channel (OSC) ports, optical channel network connections (OCHNCs), and transponder/muxponder cards and ports. States for Software Release 5.0 and later are based on the generic state model defined in Telcordia GR-1093-Core, Issue 2 and ITU-T X.731.
B.1 Service States
Service states include a Primary State (PST), a Primary State Qualifier (PSTQ), and one or more Secondary States (SST). Table B-1 lists the ANSI and ETSI service state PSTs and PSTQs supported by the ONS 15454.
Table B-2 defines the ANSI and ETSI SSTs supported by the ONS 15454.
B.2 Administrative States
Administrative states are used to manage service states. Administrative states consist of a PST and an SST. Table B-3 lists the ANSI and ETSI administrative states supported by the ONS 15454. See Table B-2 for SST definitions.
Note A change in the administrative state of an entity does not change the service state of supporting or supported entities.
The administrative state of a port immediately transitions to IS when these three conditions exist:
•The port state is changed from OOS,DSBLD to IS,AINS.
•The AINS Soak timer is set to 0.
•The port receives a bad signal (for example, signal loss, fiber cut and so on).
This is applicable to all the cards.
B.3 Service State Transitions
This section describes the transition from one service state to the next state for DWDM shelves, cards, optical payload ports, OSC ports, OCHNCs, and transponder/muxponder cards and ports. A service state transition is based on the action performed on the entity and any autonomous activity.
Note When an entity is put in the OOS,MT administrative state, the ONS node suppresses all standing alarms on that entity. All alarms and events appear on the Conditions tab. You can change this behavior for the LPBKFACILITY and LPBKTERMINAL alarms. To display these alarms on the Alarms tab, set the NODE.general.ReportLoopbackConditionsOnOOS-MTPorts (ANSI) or NODE.general.ReportLoopbackConditionsOnPortsInLocked,Maintenance (ETSI) to TRUE on the NE Defaults tab.
B.3.1 DWDM Shelf Service State Transitions
Table B-4 lists ANSI and ETSI service state transitions for shelf entities.
B.3.2 DWDM Card Service State Transitions
Table B-5 lists ANSI and ETSI service state transitions for AD-1B-xx.x, AD-4B-xx.x, AD-1C-xx.x, AD-2C-xx.x, AD-4C-xx.x, OSC-CSM, OSCM, OPT-BST, OPT-BST-E, OPT-BST-L, OPT-AMP-L, OPT-PRE, 4MD-xx.x, 32WSS, 32WSS-L, 32MUX-O, 32DMX, 32DMX-L, and 32DMX-O cards.
B.3.3 Optical Payload Port Service State Transitions
Table B-6 lists the ANSI and ETSI optical payload port service state transitions.
B.3.4 OSC Port Service State Transitions
Table B-7 lists the ANSI and ETSI OSC port service state transitions.
B.3.5 OCHNC Service State Transitions
Table B-8 lists the ANSI and ETSI OCHNC service state transitions.
B.3.6 Transponder/Muxponder Card Service State Transitions
Table B-9 lists ANSI and ETSI transponder and muxponder card service state transitions.
B.3.7 Transponder/Muxponder Port Service State Transitions
Table B-10 lists the ANSI and ETSI transponder and muxponder port service state transitions.
|
|
|
---|---|---|
IS-NR (ANSI) Unlocked-enabled (ETSI) |
Put the port in the OOS,MT (ANSI) or Locked,maintenance (ETSI) administrative state. |
OOS-MA,MT (ANSI) Locked-enabled,maintenance (ETSI) |
Put the port in the OOS,DSBLD (ANSI) or Locked,disabled (ETSI) administrative state. |
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
|
Put the port in the IS,AINS (ANSI) or Unlocked,automaticInService (ETSI) administrative state. |
OOS-AU,AINS (ANSI) Unlocked-disabled,automaticInService (ETSI) |
|
Alarm/condition is raised. |
OOS-AU,FLT (ANSI) Unlocked-disabled,failed (ETSI) |
|
OOS-AU,AINS (ANSI) Unlocked-disabled,automaticInService (ETSI) |
Put the port in the IS (ANSI) or Unlocked (ETSI) administrative state. |
IS-NR1 (ANSI) Unlocked-enabled (ETSI) |
Put the port in the OOS,MT (ANSI) or Locked,maintenance (ETSI) administrative state. |
OOS-MA,MT (ANSI) Locked-enabled,maintenance (ETSI) |
|
Put the port in the OOS,DSBLD (ANSI) or Locked,disabled (ETSI) administrative state. |
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
|
Alarm/condition is raised. |
OOS-AU,AINS & FLT (ANSI) Unlocked-disabled,automaticInService & failed (ETSI) |
|
OOS-AU,AINS & FLT (ANSI) Unlocked-disabled,automaticInService & failed (ETSI) |
Alarm/condition is cleared. |
OOS-AU,AINS (ANSI) Unlocked-disabled,automaticInService (ETSI) |
Put the port in the IS (ANSI) or Unlocked (ETSI) administrative state. |
OOS-AU,FLT (ANSI) Unlocked-disabled,failed (ETSI) |
|
Put the port in the OOS,DSBLD (ANSI) or Locked,disabled (ETSI) administrative state. |
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
|
Put the port in the OOS,MT (ANSI) or Locked,maintenance (ETSI) administrative state. |
OOS-AUMA,FLT & MT (ANSI) Locked-disabled,failed & maintenance (ETSI) |
|
OOS-AU,FLT (ANSI) Unlocked-disabled,failed (ETSI) |
Alarm/condition is cleared. |
IS-NR (ANSI) Unlocked-enabled (ETSI) |
Put the port in the IS,AINS (ANSI) or Unlocked,automaticInService (ETSI) administrative state. |
OOS-AU,AINS & FLT (ANSI) Unlocked-disabled,automaticInService & failed (ETSI) |
|
Put the port in the OOS,DSBLD (ANSI) or Locked,disabled (ETSI) administrative state. |
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
|
Put the port in the OOS,MT (ANSI) or Locked,maintenance (ETSI) administrative state. |
OOS-AUMA,FLT & MT (ANSI) Locked-disabled,failed & maintenance (ETSI) |
|
OOS-AUMA,FLT & LPBK & MT (ANSI) Locked-disabled,failed & loopback & maintenance (ETSI) |
Release the loopback. |
OOS-AUMA,FLT & MT (ANSI) Locked-disabled,failed & maintenance (ETSI) |
Alarm/condition is cleared. |
OOS-MA,LPBK & MT (ANSI) Locked-enabled,loopback & maintenance (ETSI) |
|
OOS-AUMA,FLT & MT (ANSI) Locked-disabled,failed & maintenance (ETSI) |
Alarm/condition is cleared. |
OOS-MA,MT (ANSI) Locked-enabled,maintenance (ETSI) |
Put the port in the IS (ANSI) or Unlocked-enabled (ETSI) administrative state. |
OOS-AU,FLT (ANSI) Unlocked-disabled,failed (ETSI) |
|
Put the port in the IS,AINS (ANSI) or Unlocked,automaticInService (ETSI) administrative state. |
OOS-AU,AINS & FLT (ANSI) Unlocked-disabled,automaticInService & failed (ETSI) |
|
Put the port in the OOS,DSBLD (ANSI) or Locked,disabled (ETSI) administrative state. |
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
|
Put the port in a loopback. |
OOS-AUMA,FLT & LPBK & MT (ANSI) Locked-disabled,failed & loopback & maintenance (ETSI) |
|
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
Put the port in the IS (ANSI) or Unlocked (ETSI) administrative state. |
IS-NR1 (ANSI) Unlocked-enabled (ETSI) |
Put the port in the IS,AINS (ANSI) or Unlocked,automaticInService (ETSI) administrative state. |
OOS-AU,AINS (ANSI) Unlocked-disabled,automaticInService (ETSI) |
|
Put the port in the OOS,MT (ANSI) or Locked,maintenance (ETSI) administrative state. |
OOS-MA,MT (ANSI) Locked-enabled,maintenance (ETSI) |
|
OOS-MA,LPBK & MT (ANSI) Locked-enabled,loopback & maintenance (ETSI) |
Release the loopback. |
OOS-MA,MT (ANSI) Locked-enabled,maintenance (ETSI) |
OOS-MA,MT (ANSI) Locked-enabled,maintenance (ETSI) |
Put the port in the IS (ANSI) or Unlocked (ETSI) administrative state. |
IS-NR1 Unlocked-enabled (ETSI) |
Put the port in the IS,AINS (ANSI) or Unlocked,automaticInService (ETSI) administrative state. |
OOS-AU,AINS (ANSI) Unlocked-disabled,automaticInService (ETSI) |
|
Put the port in the OOS,DSBLD (ANSI) or Locked,disabled (ETSI) administrative state. |
OOS-MA,DSBLD (ANSI) Locked-enabled,disabled (ETSI) |
|
Put the port in loopback. |
Locked-enabled,loopback & maintenance (ETSI) |
|
Alarm/condition is raised. |
OOS-AUMA,FLT & MT (ANSI) Locked-disabled,failed & maintenance (ETSI) |
1 The transponder and muxponder cards have both client and trunk ports. To bring up service, it is not necessary for both the client side and trunk side to be in the IS-NR (ANSI)/Unlocked-enabled (ETSI) service state. 2 In a client-side facility loopback, the client port is in the OOS-MA,LPBK & MT (ANSI)/Locked-enabled,loopback and maintenance (ETSI) service state and the remaining client and trunk ports can be in any other service state. In a client-side terminal loopback on transponder cards, the client port is in the OOS-MA,LPBK & MT service state and the trunk ports are in IS-NR (ANSI)/Unlocked-enabled (ETSI). For client-side terminal loopbacks on muxponder cards, the client port is in the OOS-MA,LPBK & MT service state and the remaining client and trunk ports can be in any service state. 3 In a trunk-side facility loopback, the trunk port is in the OOS-MA,LPBK & MT (ANSI)/Locked-enabled,loopback and maintenance (ETSI) service state and the remaining client and trunk ports can be in any other service state. In a trunk-side terminal loopback, the trunk port is in the OOS-MA,LPBK & MT (ANSI)/Locked-enabled,loopback and maintenance (ETSI) service state and the client ports are in IS-NR (ANSI)/Unlocked-enabled (ETSI) for complete loopback functionality. This type of loopback affects all client ports because it is performed on the aggregate signal. |