Table Of Contents
Turn Up Node
Before You Begin
NTP-A24 Verify Card Installation
NTP-A30 Create Users and Assign Security
NTP-A25 Set Up Name, Date, Time, and Contact Information
NTP-A261 Set Power Monitor Thresholds
NTP-A169 Set Up CTC Network Access
NTP-A27 Set Up the ONS 15454 for Firewall Access
NTP-A28 Set Up Timing
NTP-A170 Create Protection Groups
NTP-A256 Set Up SNMP
Turn Up Node
This chapter explains how to provision a single Cisco ONS 15454 node and turn it up for service, including assigning a node name, date and time, timing references, network attributes such as IP address and default router, users and user security, and card protection groups.
Before You Begin
Complete the procedures applicable to your site plan from the following chapters:
•
Chapter 1, "Install the Shelf and Backplane Cable"
• Chapter 2, "Install Cards and Fiber-Optic Cable"
• "Connect the PC and Log into the GUI"
This section lists the chapter procedures (NTPs). Turn to a procedure for applicable tasks (DLPs).
1. A24 Verify Card Installation—Complete this procedure first.
2. A30 Create Users and Assign Security—Complete this procedure to create Cisco Transport Controller (CTC) users and assign their security levels.
3. A25 Set Up Name, Date, Time, and Contact Information—Continue with this procedure to set the node name, date, time, location, and contact information.
4. A261 Set Power Monitor Thresholds—Continue with this procedure to set the node battery power thresholds.
5. A169 Set Up CTC Network Access—Continue with this procedure to provision the IP address, default router, subnet mask, and network configuration settings.
6. A27 Set Up the ONS 15454 for Firewall Access—Continue with this procedure if the ONS 15454 will be accessed behind firewalls.
7. A28 Set Up Timing—Continue with this procedure to set up the node's SONET timing references.
8. A170 Create Protection Groups—Complete this procedure, as needed, to set up 1:1, 1:N, 1+1, or Y-cable protection groups for ONS 15454 electrical and optical cards.
9. A256 Set Up SNMP—Complete this procedure if Simple Network Management Protocol (SNMP) will be used for network monitoring.
NTP-A24 Verify Card Installation
Step 1 Verify that two TCC2/TCC2P cards are installed in Slots 7 and 11.
Step 2 Verify that the green ACT (active) LED is illuminated on one TCC2/TCC2P card and the amber STBY (standby) LED is illuminated on the second TCC2/TCC2P card.
Note If the TCC2/TCC2P cards are not installed, or if their LEDs are not operating as described, do not proceed. Repeat the "DLP-A36 Install the TCC2/TCC2P Cards" task on page 17-42, or refer to the Cisco ONS 15454 Troubleshooting Guide to resolve installation problems before proceeding to Step 3.
Step 3 Verify that cross-connect cards (XCVT or XC10G) are installed in Slots 8 and 10. The cross-connect cards must be the same type.
Step 4 Verify that the green ACT (active) LED is illuminated on one cross-connect card and the amber STBY (standby) LED is illuminated on the second cross-connect card.
Note If the cross-connect cards are not installed, or if their LEDs are not operating as described, do not proceed. Repeat the "DLP-A37 Install the XCVT or XC10G Cards" task on page 17-45, or refer to the Cisco ONS 15454 Troubleshooting Guide to resolve installation problems before proceeding to Step 5.
Step 5 If your site plan requires an Alarm Interface Controller (AIC) or Alarm Interface Controller-International (AIC-I) card, verify that the AIC/AIC-I card is installed in Slot 9 and its ACT (active) LED displays a solid green light.
Step 6 Verify that electrical cards (DS-1, DS-3, EC-1, and DS3XM) are installed in Slots 1 to 6 or 12 to 17 as designated by your installation plan.
Step 7 If your site plan requires an Ethernet card, verify that the Ethernet card is installed in the specified slot and its ACT (active) LED displays a solid green light:
•The E100T-12, E100T-12-G, E1000-2, and E1000-2-G cards are installed in Slots 1 to 6 or 12 to 17
•The G1000-4 cards are installed in Slots 1 to 4 or 14 to 17.
•The G1K-4, ML1000-2, and ML100T-12 cards can be installed in Slots 1 to 6 or 12 to 17 if an XC10G cross-connect is installed. However, they must be installed in Slots 5, 6, 12, or 13 if XC or XCVT cards are installed.
Step 8 If Ethernet cards are installed, verify that the correct cross-connect cards are installed in Slots 8 and 10:
•E100T-12-G, E1000-2-G, and G1000-4 cards require XC10G cards.
•G1K-4, ML1000-2, and ML100T-12 cards require XC10G cards if they are installed in Slots 1 to 4 or 14 to 17.
Step 9 If an E1000-2, E1000-2-G, G1000-4, or ML1000-2 Ethernet card is installed, verify that it has a Gigabit Interface Converter (GBIC) or Small Form-factor Pluggable (SFP) installed. If not, see the "DLP-A469 Install GBIC or SFP Connectors" task on page 21-24.
Step 10 Verify that the OC-N cards (OC-3, OC-3-8, OC-12, OC-12-4, OC-48, OC-48 any slot [AS], and OC-192) are installed in the slots designated by your site plan.
•OC-3, OC-12, and OC-48 AS cards can be installed in Slots 1 to 6 or 12 to 17.
•OC-3-8 and OC-12-4 cards can be installed in Slots 1 to 4 and 14 to 17.
•OC-48 and OC-192 cards can be installed in Slots 5, 6, 12, or 13.
Step 11 Verify that the correct cross-connect cards are installed in Slots 8 and 10:
•If an OC-192, OC-12-4, or OC-3-8 card is installed, an XC10G card must be installed.
•If an OC-48 AS card is installed in Slots 1 to 4 or 14 to 17, an XC10G card must be installed. If XC or XCVT cards are installed, the OC-48 AS can be installed only in Slots 5, 6, 12, or 13.
Step 12 Verify that all installed OC-N cards display a solid amber STBY LED.
Step 13 If transponder or muxponder cards are installed (TXP_MR_10G, TXP_MR_2.5G, TXPP_MR_2.5G, MXP_MR_2.5G, MXPP_MR_2.5G, MXP_2.5G_10G, TXP_MR_10E, and MXP_2.5G_10E), verify that they are installed in Slots 1 to 6 or 12 to 17 and have GBIC or SFP connectors are installed. If GBICs or SFP connectors are not installed, complete the "DLP-A469 Install GBIC or SFP Connectors" task on page 21-24. For more information about TXP and MXP cards, refer to the Cisco ONS 15454 DWDM Installation and Operations Guide.
Step 14 If Fibre Channel cards (FC-MR-4) are installed, verify one of the following:
•If XC10G cross-connect cards are installed, the FC-MR-4 is installed in Slots 1 to 6 or 12 to 17 and displays a solid green ACT (Active) LED.
•If XCVT cross-connect cards are installed, the FC-MR-4 is installed in Slots 5 to 6 or 12 to 13 and displays a solid green ACT (Active) LED.
Step 15 Verify that fiber-optic cables (fiber) are installed and connected to the locations indicated in the site plan. If the fiber is not installed, complete the "NTP-A247 Install Fiber-Optic Cables on OC-N Cards" procedure on page 2-14.
Step 16 Verify that fiber is routed correctly in the shelf assembly and fiber boots are installed properly. If the fiber is not routed on the shelf assembly, complete the "NTP-A245 Route Fiber-Optic Cables" procedure on page 2-17. If the fiber boots are not installed, complete the "DLP-A45 Install the Fiber Boot" task on page 17-54.
Step 17 Verify that the software release shown on the LCD matches the software release indicated in your site plan. If the release does not match, perform one of the following procedures:
•Perform a software upgrade using a Cisco ONS 15454 software CD. Refer to the release-specific software upgrade document for instructions.
•Replace the TCC2/TCC2P cards with cards containing the correct release. Refer to the Cisco ONS 15454 Troubleshooting Guide.
Stop. You have completed this procedure.
NTP-A30 Create Users and Assign Security
Purpose
|
This procedure creates ONS 15454 users and assigns their security levels.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Superuser
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66 at the node where you need to create users. If you are already logged in, continue with Step 2.
Note You must log in as a Superuser to create additional users. The CISCO15 user provided with each ONS 15454 can be used to set up other ONS 15454 users. You can add up to 500 users to one ONS 15454.
Step 2 Complete the "DLP-A74 Create a New User on a Single Node" task on page 17-82 or the "DLP-A75 Create a New User on Multiple Nodes" task on page 17-83 as needed.
Note You must add the same user name and password to each node a user will access.
Step 3 If you want to modify the security policy settings, including password aging and idle user timeout policies, complete the "A205 Modify Users and Change Security" procedure.
Stop. You have completed this procedure.
NTP-A25 Set Up Name, Date, Time, and Contact Information
Purpose
|
This procedure provisions identification information for the node, including the node name, a contact name and phone number, the location of the node, and the date, time, and time zone.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66 for the node you will turn up. If you are already logged in, continue with Step 2.
Step 2 Click the Provisioning > General tabs.
Step 3 Enter the following information in the fields listed:
•Node Name—Type a name for the node. For TL1 compliance, names must begin with an alpha character and have no more than 20 alphanumeric (a-z, A-Z, 0-9) characters.
•Contact—Type the name of the node contact person and the phone number, up to 255 characters (optional).
•Latitude—Enter the node latitude: N (North) or S (South), degrees, and minutes (optional).
•Longitude—Enter the node longitude: E (East) or W (West), degrees, and minutes (optional).
Tip You can also position nodes manually on the network view map. Press Ctrl while you drag and drop the node icon. To create the same network map visible for all ONS 15454 users, complete the "A172 Create a Logical Network Map" procedure.
CTC uses the latitude and longitude to position ONS 15454 icons on the network view map. To convert a coordinate in degrees to degrees and minutes, multiply the number after the decimal by 60. For example, the latitude 38.250739 converts to 38 degrees, 15 minutes (0.250739 x 60 = 15.0443, rounded to the nearest whole number).
•Description—Type a description of the node. The description can be a maximum of 255 characters.
•Use NTP/SNTP Server—When checked, CTC uses a Network Time Protocol (NTP) or Simple Network Time Protocol (SNTP) server to set the date and time of the node.
If you do not use an SNTP or NTP server, complete the Date and Time fields. The ONS 15454 will use these fields for alarm dates and times. By default, CTC displays all alarms in the CTC computer time zone for consistency. To change the display to the node time zone, complete the "DLP-A112 Display Alarms and Conditions Using Time Zone" task.
Note Using an NTP or SNTP server ensures that all ONS 15454 network nodes use the same date and time reference. The server synchronizes the node's time after power outages or software upgrades.
If you check the Use NTP/SNTP Server check box, type the IP address of one of the following:
–An NTP/SNTP server connected to the ONS 15454
–Another ONS 15454 with NTP/SNTP enabled that is connected to the ONS 15454
If you check gateway network element (GNE) for the ONS 15454 SOCKS proxy server (see "DLP-A249 Provision IP Settings" task on page 19-30), external ONS 15454s must reference the gateway ONS 15454 for NTP/SNTP timing. For more information about the ONS 15454 gateway settings, refer to the "CTC Network Connectivity" chapter in the Cisco ONS 15454 Reference Manual.
Caution If you reference another ONS 15454 for the NTP/SNTP server, make sure the second ONS 15454 references an NTP/SNTP server and not the first ONS 15454 (that is, do not create an NTP/SNTP timing loop by having two ONS 15454s reference each other).
•Date—If Use NTP/SNTP Server is not checked, type the current date (mm/dd/yyyy, for example, September 24, 2002 is 09/24/2002).
•Time—If Use NTP/SNTP Server is not checked, type the current time in the format hh:mm:ss, for example, 11:24:58. The ONS 15454 uses a 24-hour clock, so 10:00 PM is entered as 22:00:00.
•Time Zone—Click the field and choose a city within your time zone from the drop-down list. The menu displays the 80 World Time Zones from -11 through 0 (GMT) to +14. Continental United States time zones are GMT-05:00 (Eastern), GMT-06:00 (Central), GMT-07:00 (Mountain), and GMT-08:00 (Pacific).
•Use Daylight Savings Time—Check this check box if the time zone that you chose is using Daylight Savings Time.
•Insert AIS-V on STS-1 SD-P—Check this check box if you want Alarm Indication Signal Virtual Tributary (AIS-V) conditions inserted on VT circuits carried by STS-1s when the STS-1 crosses its Signal Degrade Path (SD-P) bit error rate (BER) threshold. On protected circuits, traffic will be switched. If the switch cannot be performed, or if circuits are not protected, traffic will be dropped when the STS-1 SD-P BER threshold is reached.
•SD-P BER—If you selected Insert AIS-V, you can choose the SD-P BER level from the SD-P BER drop-down list.
Step 4 Click Apply.
Step 5 In the confirmation dialog box, click Yes.
Step 6 Review the node information. If you need to make corrections, repeat Steps 3 through 5 to enter the corrections. If the information is correct, continue with the "A261 Set Power Monitor Thresholds" procedure.
Stop. You have completed this procedure.
NTP-A261 Set Power Monitor Thresholds
Purpose
|
This procedure provisions extreme high, high, extreme low, and low input battery power thresholds within a -48 volts direct current (VDC) environment. When the thresholds are crossed, the TCC2/TCC2P generates warning alarms in CTC.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
Required
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66 for the node you will set up. If you are already logged in, continue with Step 2.
Step 2 In node view, click the Provisioning > General > Power Monitor tabs.
Step 3 To change the extreme low battery voltage threshold in 0.5 VDC increments, choose a voltage from the ELWBATVGVdc drop-down list.
Step 4 To change the low battery voltage threshold in 0.5 VDC increments, choose a voltage from the LWBATVGVdc drop-down list.
Step 5 To change the high battery voltage threshold in 0.5 VDC increments, choose a voltage from the HIBATVGVdc drop-down list.
Step 6 To change the extreme high battery voltage threshold in 0.5 VDC increments, choose a voltage from the EHIBATVGVdc drop-down list.
Step 7 Click Apply.
Stop. You have completed this procedure.
NTP-A169 Set Up CTC Network Access
Purpose
|
This procedure provisions network access for a node, including its subnet mask, default router, Dynamic Host Configuration Protocol (DHCP) server, IIOP (Internet Inter-Orb Protocol) listener port, SOCKS proxy server settings, static routes, Open Shortest Path First (OSPF) protocol, and Routing Information Protocol (RIP).
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
Required
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Superuser
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66. If you are already logged in, continue with Step 2.
Step 2 Complete the "DLP-A249 Provision IP Settings" task on page 19-30 to provision the ONS 15454 IP address, subnet mask, default router, DHCP server, IIOP listener port, and SOCKS proxy server settings.
Tip If you cannot log into the node, you can change its IP address, default router, and network mask by using the LCD on the ONS 15454 fan-tray assembly (unless LCD provisioning is suppressed). See the "DLP-A64 Set the IP Address, Default Router, and Network Mask Using the LCD" task on page 17-71 for instructions. However, you cannot use the LCD to provision any other network settings.
Step 3 If you want to turn on the ONS 15454 secure mode, which allows two IP addresses to be provisioned for the node if TCC2P cards are installed, complete the "DLP-A433 Enable Node Security Mode" task on page 21-11.
Step 4 If static routes are needed, complete the "DLP-A65 Create a Static Route" task on page 17-73. Refer to the "CTC Network Connectivity" chapter in the Cisco ONS 15454 Reference Manual for further information about static routes.
Step 5 If the ONS 15454 is connected to a LAN or WAN that uses OSPF and you want to share routing information between the LAN/WAN and the ONS network, complete the "DLP-A250 Set Up or Change Open Shortest Path First Protocol" task on page 19-34.
Step 6 If the ONS 15454 is connected to a LAN or WAN that uses RIP, complete the "DLP-A251 Set Up or Change Routing Information Protocol" task on page 19-36.
Stop. You have completed this procedure.
NTP-A27 Set Up the ONS 15454 for Firewall Access
Purpose
|
This procedure provisions ONS 15454s and CTC computers for access through firewalls.
|
Tools/Equipment
|
IIOP listener port number provided by your LAN or firewall administrator
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Log into a node that is behind the firewall. See the "DLP-A60 Log into CTC" task on page 17-66 for instructions. If you are already logged in, continue with Step 2.
Step 2 Complete the "DLP-A67 Provision the IIOP Listener Port on the ONS 15454" task on page 17-74.
Figure 4-1 shows an ONS 15454 in a protected network and the CTC computer in an external network. For the computer to access the ONS 15454s, you must provision the IIOP listener port specified by your firewall administrator on the ONS 15454.
Figure 4-1 Nodes Behind a Firewall
Step 3 If the CTC computer resides behind a firewall, complete the "DLP-A68 Provision the IIOP Listener Port on the CTC Computer" task on page 17-74.
Figure 4-2 shows a CTC computer and ONS 15454 behind firewalls. For the computer to access the ONS 15454, you must provision the IIOP port on the CTC computer and on the ONS 15454.
Figure 4-2 CTC Computer and ONS 15454s Residing Behind Firewalls
Stop. You have completed this procedure.
NTP-A28 Set Up Timing
Purpose
|
This procedure provisions the ONS 15454 timing.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
Required
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66 at the node where you will set up timing. If you are already logged in, continue with Step 2.
Step 2 Complete the "DLP-A69 Set Up External or Line Timing" task on page 17-75 if an external building integrated timing supply (BITS) source is available. This is the common SONET timing setup procedure.
Step 3 If you cannot complete Step 2 (an external BITS source is not available), complete the "DLP-A70 Set Up Internal Timing" task on page 17-77. This task can only provide Stratum 3 timing.
Note For information about SONET timing, refer to the "Security and Timing" chapter in the Cisco ONS 15454 Reference Manual or Telcordia GR-253-CORE.
Stop. You have completed this procedure.
NTP-A170 Create Protection Groups
Purpose
|
This procedure creates ONS 15454 card protection groups.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66 at the node where you want to create the protection group. If you are already logged in, continue with Step 2.
Step 2 Complete one or more of the following tasks depending on the protection groups you want to create:
• DLP-A71 Create a 1:1 Protection Group, page 17-78
• DLP-A72 Create a 1:N Protection Group, page 17-80
• DLP-A73 Create a 1+1 Protection Group, page 17-81
• DLP-A34 Create an Optimized 1+1 Protection Group, page 17-40
Note To create Y-cable protection groups for TXP and MXP cards, refer to the Cisco ONS 15454 DWDM Installation and Operations Guide.
Table 4-1 describes the protection types available on the ONS 15454.
Table 4-1 Protection Types
Type
|
Cards
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Description and Installation Requirements
|
1:1
|
DS1-14
DS3-12
DS3-12E
EC1-12
DS3XM-6
DS3XM-12
DS3/EC1-48
|
Pairs one working card with one protect card. The protect card should be installed in an odd-numbered slot and the working card in an even-numbered slot next to the protect slot towards the TCC2/TCC2P, for example: protect in Slot 1, working in Slot 2; protect in Slot 3, working in Slot 4; protect in Slot 15, working in Slot 14. 1:1 protection can be revertive or nonrevertive. For more information, refer to the "Card Protection" chapter in the Cisco ONS 15454 Reference Manual.
|
1:N
|
DS1N-14
DS3N-12
DS3N-12E
DS3XM-12
DS3/EC1-48
|
Assigns one protect card for several working cards. The maximum is 1:5. Protect cards must be installed in Slot 3 or 15 and the cards they protect must be on the same side of the shelf. Protect cards must match the cards they protect. For example, a DS1N-14 can only protect DS1-14 or DS1N-14 cards. If a failure clears, traffic reverts to the working card after the reversion time has elapsed. For more information, refer to the "Card Protection" chapter in the Cisco ONS 15454 Reference Manual.
|
1+1
|
Any OC-N
|
Pairs a working OC-N card/port with a protect OC-N card/port. For multiport OC-N cards, the protect port must match the working port on the working card. For example, Port 1 of an OC-3 card can only be protected by Port 1 of another OC-3 card. The ports on multiport cards must be either working or protect. You cannot mix working and protect ports on the same card. Cards do not need to be in adjoining slots. 1+1 protection can be revertive or nonrevertive, bidirectional or unidirectional.
|
Optimized 1+1
|
OC-3-4
OC-3-8
|
Ports must be provisioned to SDH. Optimized 1+1 protection is mainly used in networks that have linear 1+1 bidirectional protection schemes. Optimized 1+1 is a line-level protection scheme that includes two lines, working and protect. One of the two lines assumes the role of the primary channel, from which traffic gets selected, and the other port assumes the role of secondary channel and protects the primary channel. Traffic switches from the primary to the secondary channel based on either an external switching command or line conditions. After the line condition or the external switching command responsible for a switch clears, the roles of the two sides are reversed.
|
Y Cable
|
MXP_2.5_10G
MXP_2.5_10E
TXP_MR_10G
TXP_MR_10E
MXP_2.5G_10E
MXP_MR_2.5G
|
Pairs a working transponder or muxponder card/port with a protect transponder or muxponder card/port. The protect port must be on a different card than the working port and it must be the same card type as the working port. The working and protect port numbers must be the same, that is, Port 1 can only protect Port 1, Port 2 can only protect Port 2, etc. For more information, see the Cisco ONS 15454 DWDM Installation and Operations Guide.
|
Splitter
|
TXPP_MR_2.5G
MXPP_MR_2.5G
|
Splitter protection is automatically provided with the TXPP_MR_2.5G and MXPP_MR_2.5G cards. For more information, see the Cisco ONS 15454 DWDM Installation and Operations Guide.
|
Unprotected
|
Any
|
Unprotected cards can cause signal loss if a card fails or incurs a signal error. However, because no card slots are reserved for protection, unprotected schemes maximize the service available for use on the ONS 15454. Unprotected is the default protection type.
|
Stop. You have completed this procedure.
NTP-A256 Set Up SNMP
Purpose
|
This procedure provisions the SNMP parameters so that you can use SNMP management software with the ONS 15454.
|
Tools/Equipment
|
None
|
Prerequisite Procedures
|
A24 Verify Card Installation
|
Required/As Needed
|
Required if SNMP is used at your installation.
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Provisioning or higher
|
Step 1 Complete the "DLP-A60 Log into CTC" task on page 17-66 at the node where you want to set up SNMP. If you are already logged in, continue with Step 2.
Step 2 In node view, click the Provisioning > SNMP tabs.
Step 3 In the Trap Destinations area, click Create.
Step 4 Complete the following in the Create SNMP Trap Destination dialog box ( Figure 4-3):
•Destination IP Address—Type the IP address of your network management system. If the node you are logged into is an end network element (ENE), set the destination address to the GNE.
•Community—Type the SNMP community name. For a description of SNMP community names, refer to the "SNMP" chapter in the Cisco ONS 15454 Troubleshooting Guide.
Note The community name is a form of authentication and access control. The community name assigned to the ONS 15454 is case-sensitive and must match the community name of the network management system (NMS).
•UDP Port—The default User Datagram Protocol (UDP) port for SNMP is 162. If the node is has the SOCKS proxy server enabled and is provisioned as an ENE, the UDP port must be set to the GNE's SNMP relay port, which is 391.
•Trap Version—Choose either SNMPv1 or SNMPv2. Refer to your NMS documentation to determine whether to use SNMPv1 or SNMPv2.
Figure 4-3 Creating an SNMP Trap
Step 5 Click OK. The node IP address of the node where you provisioned the new trap destination appears in the Trap Destinations area.
Step 6 Click the node IP address in the Trap Destinations area. Verify the SNMP information that appears in the Selected Destination list.
Step 7 If you want the SNMP agent to accept SNMP SET requests on certain MIBs, click the Allow SNMP Sets check box. If this box is not checked, SET requests are rejected.
Step 8 If you want to set up the SNMP proxy feature to allow network management, message reporting, and performance statistic retrieval across ONS firewalls, click the Enable SNMP Proxy check box located on the SNMP tab.
Note The ONS firewall proxy feature only operates on nodes running Software Release 4.6 or later. Using this feature effectively breaches the ONS firewall to exchange management information.
For more information about the SNMP proxy feature, refer to the "SNMP" chapter in the Cisco ONS 15454 Troubleshooting Guide.
Step 9 Click Apply.
Step 10 If you are setting up SNMP proxies, for each trap destination address you can set up to three relays that send SNMP trap error counts back to NE:
a. Click the first trap destination IP address. The address and its community name appear in the Destination fields.
b. Enter up to three SNMP Proxy relay addresses and community names in the fields for Relay A, Relay B, and Relay C.
Note The community names specified for each relay node must match one of the provisioned SNMP community names in the NE.
Note The SNMP proxy directs SNMP traps from this node through IpA to IpB to IpC to the trap destination. Ensure that you enter the IP addresses in the correct order so that this sequence runs correctly.
Step 11 Click Apply.
Stop. You have completed this procedure.
