Table Of Contents
Create Channels and Circuits
Before You Begin
NTP-G58 Locate and View Optical Channel Network Connections
DLP-G100 Search for Optical Channel Network Connections
DLP-G101 View Optical Channel Network Connection Information
DLP-G102 Filter the Display of Optical Channel Network Connections
DLP-G103 View Optical Channel Network Connections on a Span
NTP-G59 Create and Delete Optical Channel Network Connections
DLP-G104 Assign a Name to a Port
DLP-G105 Provision DWDM Optical Channel Network Connections
DLP-G106 Delete Optical Channel Network Connections
NTP-G60 Create Overhead Circuits
DLP-G76 Provision GCC Terminations
DLP-G97 Provision a Proxy Tunnel
DLP-G98 Provision a Firewall Tunnel
DLP-G107 Create an IP-Encapsulated Tunnel
DLP-G108 Change the Service State for a Port
DLP-G109 Provision Orderwire
DLP-G110 Create a User Data Channel Circuit
NTP-G61 Modify and Delete Overhead Circuits
DLP-G111 Repair an IP Tunnel
DLP-G112 Delete Overhead Circuits
NTP-G62 Create a J0 Section Trace
Create Channels and Circuits
This chapter explains how to create Cisco ONS 15454 dense wavelength division multiplexing (DWDM) optical channel network connections (OCHNCs) and overhead circuits.
Note 
Unless otherwise specified, "ONS 15454" refers to both ANSI and ETSI shelf assemblies.
Before You Begin
Before performing any of the following procedures, investigate all alarms and clear any trouble conditions. Refer to the Cisco ONS 15454 Troubleshooting Guide and the Cisco ONS 15454 SDH Troubleshooting Guide as necessary.
This section lists the chapter procedures (NTPs). Turn to a procedure for applicable tasks (DLPs).
1. G58 Locate and View Optical Channel Network Connections—Complete as needed to find, view, and filter OCHNCs.
2. G59 Create and Delete Optical Channel Network Connections—Complete as needed.
3. G60 Create Overhead Circuits—Complete as needed to create IP-encapsulated tunnels, provision orderwire, or user data channel (UDC) circuits.
4. G61 Modify and Delete Overhead Circuits—Complete as needed to repair IP circuits and delete overhead circuits.
5. G62 Create a J0 Section Trace—Complete as needed to monitor interruptions or changes to traffic between two nodes.
NTP-G58 Locate and View Optical Channel Network Connections
Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at a node on the network where you want to view the circuits. If you are already logged in, continue with Step 2.
Note Do not check Disable Circuit Management in the Login dialog box. No circuits appear if this option is checked.
Step 2 As needed, complete the "DLP-G100 Search for Optical Channel Network Connections" task.
Step 3 As needed, complete the "DLP-G101 View Optical Channel Network Connection Information" task.
Step 4 As needed, complete the "DLP-G102 Filter the Display of Optical Channel Network Connections" task.
Step 5 As needed, complete the "DLP-G103 View Optical Channel Network Connections on a Span" task.
Stop. You have completed this procedure.
DLP-G100 Search for Optical Channel Network Connections
Purpose
|
This task searches for DWDM OCHNCs and ONS 15454 circuits at the network, node, or card level.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Retrieve or higher
|
Step 1 Navigate to the appropriate Cisco Transport Controller (CTC) view:
•To search the entire network, choose View > Go to Network View.
•To search for circuits that originate, terminate, or pass through a specific node, choose View > Go to Other Node, then choose the node you want to search and click OK.
•To search for circuits that originate, terminate, or pass through a specific card, double-click the card on the shelf graphic in node view to open the card in card view.
Step 2 Click the Circuits tab.
Step 3 If you are in node or card view, choose the scope for the search, Node or Network (All), in the Scope drop-down list located at the bottom right side of the screen. Choose Node to see all of the circuits on that node, or Network (All) to see all circuits in the network.
Step 4 Click Search if you need to search through the list of circuits.
Step 5 In the Circuit Name Search dialog box, complete the following:
•Find What—Enter the text of the circuit name you want to find.
•Match whole word only—Check this check box to instruct CTC to select circuits only if the entire word matches the text in the Find What field.
•Match case—Check this check box to instruct CTC to select circuits only when the capitalization matches the capitalization entered in the Find What field.
•Direction—Choose the direction for the search. Searches are conducted up or down from the currently selected circuit.
Step 6 Click Find Next. If a match is found the circuit will be highlighted. To contine the search, click Find Next again to find the next circuit.
Step 7 Repeat Steps 5 and 6 until you are finished, then click Cancel.
Step 8 Return to your originating procedure (NTP).
DLP-G101 View Optical Channel Network Connection Information
Purpose
|
This task provides information about DWDM OCHNCs and ONS 15454 circuits.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Retrieve or higher
|
Step 1 Navigate to the appropriate CTC view:
Note The following order is the default column sequence, the order may be different on your screen, depending on your individual CTC setup.
•To view circuits for an entire network, choose View > Go to Network View.
•To view circuits that originate, terminate, or pass through a specific node, choose View > Go to Other Node, then choose the node you want to search and click OK.
•To view circuits that originate, terminate, or pass through a specific card, in node view, double-click the card containing the circuits you want to view.
Note In node or card view, you can change the scope of the circuits that appear by choosing Card (in card view), Node, or Network from the Scope drop-down list in the bottom right corner of the Circuits window.
Step 2 Click the Circuits tab. The Circuits tab shows the following information:
•Circuit Name—Name of the circuit. The circuit name can be manually assigned or automatically generated.
•Type—Circuit types are OCHNC.
Note The following circuit types are not applicable to DWDM nodes: STS, VT, VTT (VT tunnel), VAP (VT aggregation point), STS-v (STS VCAT circuit), VT-v (VT VCAT circuit), HOP (high-order circuit), LOP (low-order circuit), VCT (VC low-order tunnel), VCA (VC LOP_v (low-order VCAT circuit)>
•Size—Circuit size. OCHNC sizes are Equipped not specific, Multi-rate, 2.5 Gbps No FEC (forward error correction), 2.5 Gbps FEC, 10 Gbps No FEC, and 10 Gbps FEC.
Note The following circuit types under the circuit size column are not applicable to DWDM nodes: STS, VT, VCAT, VC12, VC11, VC3, VC4.
•OCHNC Wlen—For OCHNCs, the wavelength provisioned for the optical channel network connection. See Table 7-3 for a list of channels and wavelengths.
•Direction—The circuit direction, either two-way or one-way.
•OCHNC Dir—The line direction of the OCHNC, either East to West or West to East. If the direction is West to East, the channel exits from the node through the LINE-TX port of the OSC-CSM-E or OPT-BST-E named the East Side Card by MetroPlanner (typically these cards are hosted by Slot 17). If the direction is East to West, the channel exits from the node through the LINE-TX port of OSC-CSM-W or OPT-BST-W named as West Side Card by MetroPlanner (typically these cards are hosted by Slot 1).
•Protection—The type of circuit protection. See Table 7-1 for a list of protection types.
•Status—The circuit status. Table 7-2 lists the circuit statuses that can appear.
•Source—The circuit source in the format: node/slot/port "port name" (if a port name has been assigned by the user, the name will appear in quotes).
Note The user can assign a specific "port name" to every port of any DWDM card after completing the "DLP-G104 Assign a Name to a Port" task.
•Destination—The circuit destination in same format as the circuit source. STSs, VTs, VCs, and tributary units are not applicable to DWDM nodes.
•# of VLANS—The number of VLANs used by an Ethernet circuit. VLANs are not applicable to DWDM nodes.
•# of Spans—The number of internode links that constitute the circuit.
•State—The circuit service state, which is an aggregate of its cross-connects. For ANSI, the service states are IS, OOS, or OOS-PARTIAL. For ETSI, the service states are Unlocked, Locked, or Locked-partial. For more information about ANSI and ETSI service states, see the Appendix C, "DWDM Administrative and Service States."
–IS/Unlocked—All cross-connects are in service and operational.
–OOS/Locked—All cross-connects are Out-of-Service and Management, Maintenance (OOS-MA,MT) and/or Out-of-Service and Management, Disabled (OOS-MA,DSBLD) for ANSI or Locked-enabled,maintenance and/or Locked-enabled,disabled for ETSI.
–OOS-PARTIAL/Locked-partial—At least one cross-connect is In-Service and Normal (IS-NR [ANSI]) or Unlocked-enabled (ETSI) and others are out-of-service.
Note Right-clicking a column title (Circuit name, Type, etc.) opens a menu that allows you to show or hide the desired circuit details.
Table 7-1 Circuit Protection Types
Protection Type
|
Description
|
Y-Cable
|
The circuit is protected by a transponder or muxponder card Y-cable protection group.
|
Splitter
|
The circuit is protected by the protect transponder splitter protection.
|
Unprot
|
A circuit with a source and destination on different nodes is not protected.
|
N/A
|
A circuit with connections on the same node is not protected.
|
Unknown
|
A circuit has a source and destination on different nodes and communication is down between the nodes. This protection type appears if not all circuit components are known.
|
Table 7-2 Cisco ONS 15454 Circuit Status
Status
|
Definition/Activity
|
CREATING
|
CTC is creating a circuit.
|
DISCOVERED
|
CTC created a circuit. All components are in place and a complete path exists from the circuit source to the circuit destination.
|
DELETING
|
CTC is deleting a circuit.
|
PARTIAL
|
A CTC-created circuit is missing a cross-connect or network span, a complete path from source to destination(s) does not exist, or an alarm interface panel (AIP) change occurred on one of the circuit nodes and the circuit is in need of repair. (AIPs store the node MAC address.)
In CTC, circuits are represented using cross-connects and network spans. If a network span is missing from a circuit, the circuit status is PARTIAL. However, a PARTIAL status does not necessarily mean a circuit traffic failure has occurred, because traffic might flow on a protect path.
Network spans are in one of two states: up or down. On CTC circuit and network maps, up spans are shown as green lines, and down spans are shown as gray lines. If a failure occurs on a network span during a CTC session, the span remains on the network map but its color changes to gray to indicate the span is down. If you restart your CTC session while the failure is active, the new CTC session cannot discover the span and its span line will not appear on the network map.
Subsequently, circuits routed on a network span that goes down will appear as DISCOVERED during the current CTC session, but they will appear as PARTIAL to users who log in after the span failure.
The PARTIAL status does not appear for OCHNC circuit types.
|
DISCOVERED_TL1
|
A TL1-created circuit or a TL1-like CTC-created circuit is complete. A complete path from source to destination(s) exists.
This status does not appear for OCHNC circuit types.
|
PARTIAL_TL1
|
A TL1-created circuit or a TL1-like CTC-created circuit is missing a cross-connect, and a complete path from source to destination(s) does not exist.
This status does not appear for OCHNC circuit types.
|
Step 3 Return to your originating procedure (NTP).
DLP-G102 Filter the Display of Optical Channel Network Connections
Purpose
|
This task filters the display of OCHNCs and circuits in the Circuits window. You can filter the circuits in network, node, or card view based on circuit or OCHNC name, size, type, direction, and other attributes.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Retrieve or higher
|
Step 1 Navigate to the appropriate CTC view:
•To filter network circuits, choose View > Go to Network View.
•To filter circuits that originate, terminate, or pass through a specific node, choose View > Go to Other Node, then choose the node you want to search and click OK.
•To filter circuits that originate, terminate, or pass through a specific card, double-click the card on the shelf graphic in node view to open the card in card view.
Step 2 Click the Circuits tab.
Step 3 Set the attributes for filtering the circuit display:
a. Click the Filter button.
b. In the Circuit Filter dialog box, set the filter attributes by choosing one or more of the following:
•Name—Enter a complete or partial circuit name to filter circuits based on the circuit name; otherwise leave the field blank.
•Direction—Choose one: Any (direction not used to filter circuits), 1-way (display only one-way circuits), or 2-way (display only two-way circuits).
•OCHNC Dir—(DWDM optical channel network connections only.) Choose one: East to West (displays only east-to-west circuits); West to East (displays only west-to-east circuits).
•OCHNC Wlen—(DWDM optical channel network connections only.) Choose an OCHNC wavelength to filter the circuits. For example, choosing 1530.33 will display channels provisioned on the 1530.33-nm wavelength.
•Status—Choose one: Any (status not used to filter circuits) or Discovered (display only discovered circuits). Other statuses do not apply to OCHNCs.
•State—Choose one: OOS (ANSI) or Locked (ETSI) to display only out-of-service circuits; IS (ANSI) or Unlocked (ETSI) to display only in-service circuits (optical channel network connections have IS/Unlocked states only); or OOS-PARTIAL (ANSI) or Locked-partial (ETSI) to display only circuits with cross-connects in mixed service states.
•Slot—Enter a slot number to filter circuits based on the source or destination slot; otherwise leave the field blank.
•Port—Enter a port number to filter circuits based on the source or destination port; otherwise leave the field blank.
•Type—Choose one: Any (type not used to filter circuits) or OCHNC (displays only optical channel network connections).
Note The following circuit types are not applicable to DWDM nodes: STS (displays only STS circuits), VT (displays only VT circuits), VT Tunnel (displays only VT tunnels), STS-V (displays STS VCAT circuits), VT-V (displays VT VCAT circuits), and VT Aggregation Point (displays only VT aggregation points), VC_HO_PATH_CIRCUIT (displays VC4 and VC4-Nc circuits), VC_LO_PATH_CIRCUIT (displays only VC3 and VC12 circuits), VC_LO_PATH_TUNNEL (displays only low-order tunnels), VC_LO_PATH_AGGREGATION (displays only log-order aggregation points), VC_HO_PATH_VCAT_CIRCUIT (displays high-order VCAT circuits), VC_LO_PATH_VCAT_CIRCUIT (displays low-order VCAT circuits).
•Size—Click the appropriate check boxes to filter circuits based on size: Multi-rate, Equipment non specific, 2.5 Gbps FEC, 2.5 Gbps No FEC, 10 Gbps FEC, or 10 Gbps No FEC.
VT1.5, STS-1, STS3c, STS-6c, STS-9c, STS-12c, STS-24c, STS-48c, and STS-192c are not applicable to ANSI DWDM nodes. VC12, VC3, VC4, VC4-2c, VC4-3c, VC4-4c, VC4-6c, VC4-8c, VC4-9c, VC4-16c, and VC4-64 are not applicable to ETSI DWDM nodes.
The check boxes shown depend on the Type field selection. If you chose Any, all sizes are available. If you chose OCHNC as the circuit type, Multi-rate, Equipment non specific, 2.5 Gbps FEC, 2.5 Gbps No FEC, 10 Gbps FEC, and 10 Gbps No FEC appear.
Step 4 Click OK. Circuits matching the attributes in the Filter Circuits dialog box appear in the Circuits window.
Step 5 To turn filtering off, click the Filter icon in the lower right corner of the Circuits window. Click the icon again to turn filtering on, and click the Filter button to change the filter attributes.
Step 6 Return to your originating procedure (NTP).
DLP-G103 View Optical Channel Network Connections on a Span
Step 1 In node view, choose View > Go to Network View. If you are already in network view, continue with Step 2.
Step 2 Right-click the green line containing the circuits you want to view and choose Circuits to view DWDM OCHNCs or unprotected circuits on the span.
In the Circuits on Span dialog box, you can view information about the circuits that traverse the span. The information that appears depends on the circuit type. For DWDM OCHNCs, the following information appears:
•OCHNC Wavelength—The wavelength provisioned for the OCHNC.
•DIR—2-way, or 1-way
•OCHNC Dir—The direction provisioned for the OCHNC, either east-to-west or west-to-east.
•Circuit—The OCHNC circuit name.
Step 3 Return to your originating procedure (NTP).
NTP-G59 Create and Delete Optical Channel Network Connections
Purpose
|
This procedure creates and deletes DWDM OCHNCs.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
Chapter 3, "Turn Up a Node"
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at a node on the network where you want to create and delete OCHNCs. If you are already logged in, continue with Step 2.
Step 2 If you want to assign a name to the OCHNC source and destination ports before you create the circuit, complete the "DLP-G104 Assign a Name to a Port" task. If not, continue with the next step.
Step 3 Complete the "DLP-G105 Provision DWDM Optical Channel Network Connections" task as needed.
Step 4 Complete the "DLP-G106 Delete Optical Channel Network Connections" task as needed.
Stop. You have completed this procedure.
DLP-G104 Assign a Name to a Port
Purpose
|
This task assigns a name to a port on any ONS 15454 card.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Double-click the card that has the port you want to provision. This can be any port on a traffic carring card.
Step 2 Click the Provisioning tab.
Step 3 Click the Port Name column for the port number to which you are assigning a name.
Step 4 Type the port name.
The port name can be up to 32 alphanumeric/special characters. The field is blank by default.
Step 5 Click Apply.
Step 6 Return to your originating procedure (NTP).
DLP-G105 Provision DWDM Optical Channel Network Connections
Step 1 Choose View > Go to Network View.
Step 2 Click the Circuits tab, then click Create.
Step 3 In the Circuit Creation dialog box, choose OCHNC from the Circuit Type list.
Step 4 Click Next.
Step 5 Define the circuit attributes:
•Name—Assign a name to the OCHNC. The name can be alphanumeric and up to 48 characters (including spaces). Circuit names should be 44 characters or less if you want the ability to create monitor circuits. If you leave the field blank, CTC assigns a default name to the circuit.
•Size—Equipped non specific is the default. You cannot change it.
•OCHNC Channel—Choose the wavelength you want to provision. Table 7-3 lists the thirty-two available wavelengths.
Table 7-3 OCHNC Channels
Channel No.
|
Channel ID
|
Frequency (GHz)
|
Wavelength (nm)
|
1
|
30.3
|
195.9
|
1530.33
|
2
|
31.2
|
195.8
|
1531.12
|
3
|
31.9
|
195.7
|
1531.90
|
4
|
32.6
|
195.6
|
1532.68
|
5
|
34.2
|
195.4
|
1534.25
|
6
|
35.0
|
195.3
|
1535.04
|
7
|
35.8
|
195.2
|
1535.82
|
8
|
36.6
|
195.1
|
1536.61
|
9
|
38.1
|
194.9
|
1538.19
|
10
|
38.9
|
194.8
|
1538.98
|
11
|
39.7
|
194.7
|
1539.77
|
12
|
40.5
|
194.6
|
1540.56
|
13
|
42.1
|
194.4
|
1542.14
|
14
|
42.9
|
194.3
|
1542.94
|
15
|
43.7
|
194.2
|
1543.73
|
16
|
44.5
|
194.1
|
1544.53
|
17
|
46.1
|
193.9
|
1546.12
|
18
|
46.9
|
193.8
|
1546.92
|
19
|
47.7
|
193.7
|
1547.72
|
20
|
48.5
|
193.6
|
1548.51
|
21
|
50.1
|
193.4
|
1550.12
|
22
|
50.9
|
193.3
|
1550.92
|
23
|
51.7
|
193.2
|
1551.72
|
24
|
52.5
|
193.1
|
1552.52
|
25
|
54.1
|
192.9
|
1554.13
|
26
|
54.9
|
192.8
|
1544.94
|
27
|
55.7
|
192.7
|
1555.75
|
28
|
56.5
|
192.6
|
1556.55
|
29
|
58.1
|
192.4
|
1558.17
|
30
|
58.9
|
192.3
|
1558.98
|
31
|
59.7
|
192.2
|
1559.79
|
32
|
60.6
|
192.1
|
1560.61
|
•OCHNC Direction—Choose the OCHNC direction, either East to West or West to East. If you choose West to East, the channel will exit the node through the LINE-TX port of the OSC-CSM-E or OPT-BST-E named as East Side Card by MetroPlanner (typically these cards are hosted by Slot 17). If you choose East to West, the channel will exit the node through the LINE-TX port of the OSC-CSM-W or OPT-BST-W named as West Side Card by MetroPlanner (typically these cards are hosted by Slot 1).
•Bidirectional—Check this check box to create a bidirectional OCHNC; uncheck it to create a unidirectional OCHNC.
Step 6 Click Next.
Step 7 In the Circuit Source area, choose the source node from the Node drop-down list.
Step 8 Click Next.
Step 9 In the Circuit Destination area, choose the destination node from the Node drop-down list.
Step 10 Click Finish. The circuit may take a few minutes to come up, depending on the size of the network. If problems persist, refer to the Cisco ONS 15454 DWDM Troubleshooting Guideas necessary.
Step 11 Return to your originating procedure (NTP).
DLP-G106 Delete Optical Channel Network Connections
Purpose
|
This task deletes circuits and DWDM OCHNCs.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "NTP-G103 Back Up the Database" procedure on page 12-2, or record the circuit information if it will be recreated.
Step 2 Consult your network operations center, or other appropriate personel, to verify that the OCHNC can be safely deleted.
Step 3 Investigate all network alarms and resolve any problems that might be affected by the OCHNC deletion.
Step 4 Choose View > Go to Network View.
Step 5 Click the Circuits tab.
Step 6 Choose the OCHNCs you want to delete, then click Delete.
Step 7 In the Delete Circuits confirmation dialog box, check Notify when completed, as needed.
If checked, the CTC Alerts confirmation dialog box indicates when the OCHNC is deleted. During this time, you cannot perform other CTC functions. If you are deleting many OCHNCs, waiting for confirmation might take a few minutes. Circuits are deleted whether or not this check box is checked.
Note The CTC Alerts dialog box will not automatically open to show a deletion error unless you checked All alerts or Error alerts only in the CTC Alerts dialog box. For more information, see the "DLP-G53 Configure the CTC Alerts Dialog Box for Automatic Popup" task on page 2-32. If the CTC Alerts dialog box is not set to open automatically with a notification, the red triangle inside the CTC Alerts toolbar icon indicates that a notification exists.
Step 8 Complete one of the following:
•If you checked "Notify when completed," the CTC Alerts dialog box appears. If you want to save the information, continue with Step 9. If you do not want to save the information, continue with Step 10.
•If you did not check "Notify when completed," the Circuits window appears. Continue with Step 11.
Step 9 If you want to save the information in the CTC Alerts dialog box, complete the following steps. If you do not want to save it, continue with Step 10.
a. Click Save.
b. Click Browse and navigate to the directory where you want to save the file.
c. Type the file name using a .txt file extension, and click OK.
Step 10 Click Close to close the CTC Alerts dialog box.
Step 11 Complete the "NTP-G103 Back Up the Database" procedure on page 12-2 if you require a backup of your changes.
Step 12 Return to your originating procedure (NTP).
NTP-G60 Create Overhead Circuits
Purpose
|
This procedure creates overhead circuits on an ONS 15454 network. Overhead circuits include GCC, IP-encapsulated tunnels, the Alarm Interface Controller (AIC) and Alarm Interface Controller-International (AIC-I) card orderwire, and the AIC-I card user data channel (UDC).
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
None
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at the node where you will create the overhead circuit. If you are already logged in, continue with Step 2.
Step 2 Choose View > Go to Network View.
Step 3 Complete the "DLP-G76 Provision GCC Terminations" task.
Step 4 Complete the "DLP-G97 Provision a Proxy Tunnel" task.
Step 5 Complete the "DLP-G98 Provision a Firewall Tunnel" task.
Step 6 As needed, complete the "DLP-G107 Create an IP-Encapsulated Tunnel" task, then continue with the next step.
Step 7 After creating an IP-encapsulated tunnel, put the ports that are hosting the IP-encapsulated tunnel in service. See the "DLP-G108 Change the Service State for a Port" task.
Step 8 As needed, complete the "DLP-G109 Provision Orderwire" task.
Step 9 As needed, complete the "DLP-G110 Create a User Data Channel Circuit" task.
Stop. You have completed this procedure.
DLP-G76 Provision GCC Terminations
Purpose
|
This task creates the DWDM GCC terminations required for network setup when using the TXP_MR_10G, TXP_MR_2.5G, TXPP_MR_2.5G, and MXP_2.5G_10G cards. Perform this task before you create circuits for these cards. In this task, you can also set up the node so that it has direct IP access to a far-end non-ONS node over the GCC network.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 In node view click the Provisioning > Comm Channels > GCC tabs.
Step 2 In the GCC Terminations pane, click Create.
Step 3 In the Create optical transport network (OTN) GCC Terminations dialog box, click the ports where you want to create the GCC termination. To select more than one port, press the Shift key or the Ctrl key.
Note GCC refers to the general communications channel, which is used for ONS 15454 transponders and muxponders in DWDM applications.
Step 4 (Optional) From the GCC Rate drop-down list, choose from two options:
•192k is the line rate of Section DCC (SDCC)—This is the default option.
•576k is the line rate of Line DCC (LDCC)—This option will be supported in a future software release.
Step 5 Click Set to IS if you want to put ports in service.
Step 6 If the SDCC termination is to include a non-ONS node, check the Far End is Foreign check box. This automatically sets the far-end node IP address to 0.0.0.0, which means that any address can be specified by the far end. To change the default to a specific the IP address, see the "DLP-G184 Change a GCC Termination" task on page 10-29.
Step 7 Select Disable OSPF on link to turn off OSPF.
Step 8 Click OK. Until the Far End GCC terminations are created and the ports are in service, GCC-EOC alarms appear.
Step 9 Return to your originating procedure (NTP).
DLP-G97 Provision a Proxy Tunnel
Purpose
|
This task sets up a proxy tunnel to communicate with a non-ONS far-end node. Proxy tunnels are only necessary when the proxy server is enabled and a foreign GCC termination exists, or if static routes exist so that the GCC network is used to access remote networks or devices. You can provision a maximum of 12 proxy server tunnels.
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Tools/Equipment
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None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
G76 Provision GCC Terminations
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Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Superuser
|
Note If the proxy server is disabled, you cannot set up a proxy tunnel.
Note This task does not apply if secure mode is enabled.
Step 1 In Node view, click the Provisioning > Network > Proxy subtabs.
Step 2 Click Create.
Step 3 In the Create Tunnel dialog box, complete the following:
•Source Address—Type the IP address of the source node (32 bit length) or source subnet (any other length).
•Length—Choose the length of the source subnet mask.
•Destination Address—Type the IP address of the destination node (32 bit length) or destination subnet (any other length).
•Length—Choose the length of the destination subnet mask.
Step 4 Click OK.
Step 5 Continue with your originating procedure (NTP).
DLP-G98 Provision a Firewall Tunnel
Purpose
|
This task provisions destinations that will not be blocked by the firewall. Firewall tunnels are only necessary when the proxy server is enabled and a foreign GCC termination exists, or if static routes exist so that the GCC network is used to access remote networks or devices. You can provision a maximum of 12 firewall tunnels.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
G76 Provision GCC Terminations
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Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Superuser
|
Note If the proxy server is configured as proxy-only or is disabled, you cannot set up a firewall tunnel.
Note This task does not apply if secure mode is enabled.
Step 1 In Node view, click the Provisioning > Network > Firewall subtabs.
Step 2 Click Create.
Step 3 In the Create Tunnel dialog box, complete the following:
•Source Address—Type the IP address of the source node (32 bit length) or source subnet (any other length).
•Length—Choose the length of the source subnet mask.
•Destination Address—Type the IP address of the destination node (32 bit length) or destination subnet (any other length).
•Length—Choose the length of the destination subnet mask.
Step 4 Click OK.
Step 5 Continue with your originating procedure (NTP).
DLP-G107 Create an IP-Encapsulated Tunnel
Purpose
|
This task creates an IP-encapsulated tunnel to transport traffic from third-party SONET/SDH equipment across ONS 15454 networks. IP-encapsulated tunnels are created on the Section DCC channel (D1-D3) (if not used by the ONS 15454 as a terminated data communications channel [DCC]).
|
Tools/Equipment
|
An OSCM, OSC-CSM, MXP_2.5_10E, MXP_2.5_10G, MXPP_MR_2.5G, or MXP_MR_2.5G card must be installed.
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
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Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Note Each ONS 15454 can have up to ten IP-encapsulated tunnel connections. Terminated Section DCCs (SDCCs) used by the ONS 15454 cannot be used as a tunnel endpoint, and an SDCC that is used as a tunnel endpoint cannot be terminated. All tunnel connections are bidirectional.
Step 1 Verify that IP addresses are provisioned at both the source and destination nodes of the planned tunnel. For more information, see the "DLP-G56 Provision IP Settings" task on page 3-11.
Step 2 In network view, click the Provisioning > Overhead Circuits tabs.
Step 3 Click Create.
Step 4 In the Overhead Circuit Creation dialog box, complete the following in the Circuit Attributes area:
•Name—Type the tunnel name.
•Type—Choose IP Tunnel-D1-D3.
•Maximum Bandwidth—Type the percentage of total SDCC bandwidth used in the IP tunnel (the minimum percentage is 10 percent).
Step 5 Click Next.
Step 6 In the Circuit Source area, complete the following:
•Node—Choose the source node.
•Slot—Choose the source slot.
•Port—If applicable, choose the source port.
•Channel—Displays IPT (D1-D3).
Step 7 Click Next.
Step 8 In the Circuit Destination area, complete the following:
•Node—Choose the destination node.
•Slot—Choose the destination slot.
•Port—If applicable, choose the destination port.
•Channel—Displays IPT (D1-D3).
Step 9 Click Finish.
Step 10 Return to your originating procedure (NTP).
DLP-G108 Change the Service State for a Port
Purpose
|
This task puts a port in service or removes a port from service. After creating an IP-encapsulated tunnel, put the ports that are hosting the IP-encapsulated tunnel in service.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 In node view on the shelf graphic, double-click the card with the port(s) you want to put in or out of service. The card view appears.
Step 2 Click the Provisioning > Line tabs.
Step 3 In the Admin State column for the desired port, choose one of the following from the drop-down list:
•IS (ANSI) or Unlocked (ETSI)—Puts the port in the IS-NR (ANSI) or Unlocked-enabled (ETSI) service state.
•OOS,DSBLD (ANSI) or Locked,disabled (ETSI)—Puts the port in the OOS-MA,DSBLD (ANSI) or Locked-enabled,disabled (ETSI) service state.
For ANSI nodes, traffic is not passed on the port until the service state is changed to IS-NR; OOS-MA,MT; or Out-of-Service and Autonomous, Automatic In-Service (OOS-AU,AINS). For ETSI nodes, traffic is not passed on the port until the service state is changed to Unlocked-enabled; Locked-enabled,maintenance; or Unlocked-disabled,automaticInService.
•OOS,MT (ANSI) or Locked,maintenance (ETSI)—Puts the port in the OOS-MA,MT/Locked-enabled,maintenance service state. This service state does not interrupt traffic flow, but alarm reporting is suppressed and loopbacks are allowed. Raised fault conditions, whether or not their alarms are reported, can be retrieved on the CTC Conditions tab or by using the TL1 RTRV-COND command. Use the OOS-MA,MT/Locked-enabled,maintenance service state for testing or to suppress alarms temporarily. Change to the IS-NR/Unlocked-enabled or OOS-AU,AINS/Unlocked-disabled,automaticInService service states when testing is complete.
•IS,AINS (ANSI) or Unlocked,automaticInService (ETSI)—Puts the port in the OOS-AU,AINS/Unlocked-enabled,automaticInService service state. In this service state, alarm reporting is suppressed, but traffic is carried and loopbacks are allowed. After the soak period passes, the port changes to IS-NR/Unlocked-enabled. Raised fault conditions, whether their alarms are reported or not, can be retrieved on the CTC Conditions tab or by using the TL1 RTRV-COND command.
For more information about service states, see Appendix C, "DWDM Administrative and Service States."
Step 4 If you set the Admin State to IS-AINS/Unlocked, automaticInService, set the soak period time in the AINS Soak field. This is the amount of time that the port will stay in the OOS-AU,AINS/Unlocked-enabled,automaticInService service state after a signal is continuously received. When the soak period elapses, the port changes to the IS-NR/Unlocked-enabled service state.
Step 5 Click Apply. The new port service state appears in the Service State column.
Step 6 As needed, repeat this task for each port.
Step 7 Return to your originating procedure (NTP).
DLP-G109 Provision Orderwire
Purpose
|
This task provisions orderwire on the AIC or the AIC-I card.
|
Tools/Equipment
|
An AIC or AIC-I card must be installed in Slot 9.
An OSCM, OSC-CSM, MXP_2.5_10E, MXP_2.5_10G, MXPP_MR_2.5G, or MXP_MR_2.5G card must be installed.
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 In the network view, click the Provisioning > Overhead Circuits tabs.
Step 2 Click Create.
Step 3 In the Overhead Circuit Creation dialog box, complete the following fields in the Circuit Attributes area:
•Name—Assign a name to the circuit. The name can be alphanumeric and up to 48 characters (including spaces).
•Circuit Type—Choose either Local Orderwire or Express Orderwire depending on the orderwire path that you want to create. If regenerators are not used between ONS 15454 nodes, you can use either local or express orderwire channels. If regenerators exist, use the express orderwire channel. You can provision up to four ONS 15454 OC-N ports for each orderwire path.
•PCM—Choose the Pulse Code Modulation voice coding and companding standard, either Mu_Law (North America, Japan) or A_Law (Europe). The provisioning procedures are the same for both types of orderwire.
Caution When provisioning orderwire for ONS 15454s residing in a ring, do not provision a complete orderwire loop. For example, a four-node ring typically has east and west ports provisioned at all four nodes. However, to prevent orderwire loops, provision two orderwire ports (east and west) at all but one of the ring nodes.
Step 4 Click Next.
Step 5 In the Circuit Source area, complete the following:
•Node—Choose the source node.
•Slot—Choose the source slot.
•Port—If applicable, choose the source port.
Step 6 Click Next.
Step 7 In the Circuit Destination area, complete the following:
•Node—Choose the destination node.
•Slot—Choose the destination slot.
•Port—If applicable, choose the destination port.
Step 8 Click Finish.
Step 9 Return to your originating procedure (NTP).
DLP-G110 Create a User Data Channel Circuit
Purpose
|
This task creates a user data channel (UDC) circuit on the ONS 15454. A UDC circuit allows you to create a dedicated data channel between nodes.
|
Tools/Equipment
|
OSCM, OSC-CSM, MXPP_MR_2.5G, or MXP_MR_2.5G must be installed.
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 In network view, click the Provisioning > Overhead Circuits tabs.
Step 2 Click Create.
Step 3 In the Overhead Circuit Creation dialog box, complete the following fields in the Circuit Attributes area:
•Name—Assign a name to the circuit. The name can be alphanumeric and up to 48 characters (including spaces).
•Type—Choose either User Data-F1 or User Data D-4-D-12 from the drop-down list. (User Data D-4-D-12 is not available if the ONS 15454 is provisioned for DWDM.)
Step 4 Click Next.
Step 5 In the Circuit Source area, complete the following:
•Node—Choose the source node.
•Slot—Choose the source slot.
•Port—If applicable, choose the source port.
Step 6 Click Next.
Step 7 In the Circuit Destination area, complete the following:
•Node—Choose the destination node.
•Slot—Choose the destination slot.
•Port—If applicable, choose the destination port.
Step 8 Click Finish.
Step 9 Return to your originating procedure (NTP).
NTP-G61 Modify and Delete Overhead Circuits
Purpose
|
This procedure repairs IP circuits and deletes overhead circuits.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
G60 Create Overhead Circuits
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Caution Deleting circuits can be service affecting and should be performed during a maintenance window.
Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 for a node on the network where you want to repair or delete a circuit. If you are already logged in, continue with Step 2.
Step 2 As needed, complete the "DLP-G111 Repair an IP Tunnel" task.
Step 3 As needed, complete the "DLP-G112 Delete Overhead Circuits" task.
Stop. You have completed this procedure.
DLP-G111 Repair an IP Tunnel
Purpose
|
This task repairs circuits that have a PARTIAL status as a result of node IP address changes.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
G107 Create an IP-Encapsulated Tunnel
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Obtain the original IP address of the node in question.
Step 2 From the View menu, choose Go to Network View.
Step 3 From the Tools menu, choose Overhead Circuits > Repair IP Circuits.
Step 4 Review the text in the IP Repair wizard and click Next.
Step 5 In the Node IP address area, complete the following:
•Node—Choose the node that has a PARTIAL circuit.
•Old IP Address—Type the node's original IP address.
Step 6 Click Next.
Step 7 Click Finish.
Step 8 Return to your originating procedure (NTP).
DLP-G112 Delete Overhead Circuits
Purpose
|
This task deletes overhead circuits. Overhead circuits include IP-encapsulated tunnels, AIC and AIC-I card orderwire, and user data channels.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
DLP-G46 Log into CTC, page 2-24
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 From the View menu, choose Go to Network View.
Step 2 Click the Provisioning > Overhead Circuits tabs.
Step 3 Click the overhead circuit that you want to delete: local or express orderwire, user data, IP-encapsulated tunnel, or DCC tunnel.
Step 4 Click Delete.
Step 5 In the confirmation dialog box, click Yes to continue.
Step 6 Return to your originating procedure (NTP).
NTP-G62 Create a J0 Section Trace
Purpose
|
This procedure creates a repeated, fixed-length string of characters used to monitor interruptions or changes to traffic between nodes.
|
Tools/Equipment
|
At least one of the following cards must be installed: MXP_MR_2.5G, MXPP_MR_2.5G, TXP_MR_2.5G, TXPP_MR_2.5G, MXP_2.5G_10E, TXP_MR_10E, MXP_2.5G_10G, or TXP_MR_10G.
|
Prerequisite Procedures
|
None
|
Required/As Needed
|
As needed (optional if path trace is set)
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at a node on the network where you will create the section trace. If you are already logged in, continue with Step 2.
Step 2 In node view, double-click the MXP_MR_2.5G, MXPP_MR_2.5G, TXP_MR_2.5G, TXPP_MR_2.5G, MXP_2.5G_10E, TXP_MR_10E, MXP_2.5G_10G, or TXP_MR_10G card.
Step 3 Click the Provisioning > Line > Section Trace tabs.
Step 4 From the Port drop-down list, choose the port for the section trace.
Step 5 From the Trace Mode drop-down list, enable the section trace expected string by choosing Manual:
•Off/None
•Manual—The string entered in the Current Expected String field is the baseline. An alarm is raised when a string that differs from the Current Expected String is received.
Step 6 In the Section Trace String Size area, click 1 byte, or 16 byte . The 1 byte option allows you to enter one character; the 16 byte option allows a 15 character string.
Step 7 In the New Transmit String field, enter the string that you want to transmit. Enter a string that makes the destination port easy to identify, such as the node IP address, node name, or another string. If the New Transmit String field is left blank, the J0 transmits a string of null characters.
Step 8 If you set the Section Trace Mode field to Manual, enter the string that the destination port should receive from the source port in the New Expected String field. If you set Section Trace Mode to Auto, skip this step.
Step 9 Click the Disable AIS/RDI on TIM-S is detected check box if you want to suppress the alarm indication signal (AIS) and remote defect indication (RDI) when the STS Section Trace Identifier Mismatch Path (TIM-S) alarm appears. Refer to the Cisco ONS 15454 Troubleshooting Guide and the Cisco ONS 15454 SDH Troubleshooting Guide for descriptions of alarms and conditions.
Step 10 Click Apply.
Step 11 After you set up the section trace, the received string appears in the Received field. The following options are available:
•Click Hex Mode to display section trace in hexadecimal format. The button name changes to ASCII Mode. Click it to return the section trace to ASCII format.
•Click the Reset button to reread values from the port.
•Click Default to return to the section trace default settings (Section Trace Mode is set to Off and the New Transmit and New Expected Strings are null).
Caution Clicking Default will generate alarms if the port on the other end is provisioned with a different string.
The expect and receive strings are updated every few seconds if the Section Trace Mode field is set to Auto or Manual.
Stop. You have completed this procedure.
