Cisco 12000/10700 v3.1.1 Router Manager User Guide Software Release 3.1.1 Corporate Headquarters Cisco Systems, Inc. 170 West Tasman Drive San Jose, CA 95134-1706 USA http://www.cisco.
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C O N T E N T S About This Guide xxv Document Audience xxv Document Organization xxvi Conventions xxviii Command Conventions xxviii Example Conventions xxviii Document Conventions xxix Obtaining Documentation xxix Cisco.com xxix Documentation CD-ROM xxx Ordering Documentation xxx Documentation Feedback xxx Obtaining Technical Assistance xxxi Cisco.
Contents OSI Mappings 2-10 Views 2-11 Component Managed View Layer 3 QoS View 2-12 Network View 2-12 Physical View 2-12 VLAN View 2-12 2-11 Cisco 12000/10720 Router Manager Object States Decommissioned State 2-14 Normal State 2-14 Errored 2-14 Performance Logging On 2-14 Lost Comms 2-15 Discovery Lost Comms 2-15 Mismatched 2-15 Transient Object States 2-15 CHAPTER 3 Getting Started 2-13 3-1 Cisco 12000/10720 Router Manager Workflow 3-1 Starting Cisco EMF and Cisco 12000/10720 Router Manager Sta
Contents Commissioning a Chassis 3-27 Decommissioning a Chassis 3-30 Object States 3-30 Manually Deploying Modules 3-30 User Named vs.
Contents Trap Generation 4-17 Chassis Inventory 4-17 Viewing the Chassis Inventory Window 4-17 Chassis Inventory Window—Detailed Description General Tab 4-18 Asset Tracking Tab 4-19 4-18 Chassis Fault Management 4-20 Viewing the Chassis Fault Management Window 4-20 Changing Column Width 4-24 Chassis Fault Management Window—Detailed Description General Tab 4-25 Power Supply Tab 4-25 Temperature Tab 4-26 Fan Tab 4-26 Command Log 4-27 Viewing the Command Log Window 4-27 Command Log Window—Detailed Descrip
Contents Viewing the RPR Configuration Window 4-38 RPR Configuration Window—Detailed Description Configuration Tab 4-39 Switch Over Tab 4-40 RPR Status 4-40 Viewing the RPR Status Window 4-40 RPR Status Window—Detailed Description RP Status 4-41 LC Status 4-42 4-41 IP Routing Status 4-42 Viewing the IP Routing Status window 4-42 IP Routing Status Window—Detailed Description Classless Inter-Domain Routing Tab 4-43 TCP Status 4-44 Viewing the TCP Status Window 4-45 TCP Status Window—Detailed Description TC
Contents Starting or Stopping Performance Logging 5-10 Module Performance Window—Detailed Description CPU Usage 5-11 Performance Logging 5-11 Module Inventory 5-12 Viewing the Module Inventory Window 5-12 Module Inventory Window—Detailed Description General 5-13 Asset Tracking 5-14 CHAPTER 6 Managing Interfaces 5-11 5-13 6-1 Cisco 12000/10720 Router Manager Interface Naming Conventions CHAPTER 7 Interface Profiles 6-1 7-1 Interface Profile Types 7-2 Launching the Interface Profile Windows 7
Contents CHAPTER 8 Interface Configuration 8-1 Interfaces and Related Technology-Specific Windows Launching the Interface Configuration Windows 8-1 8-2 Generic Interface Configuration 8-3 Viewing the Generic Interface Configuration Window 8-4 Configuring and Commissioning a Generic Interface 8-4 Decommissioning an Interface 8-5 Generic Interface Configuration Window—Detailed Description Configuration Tab 8-5 ATM Interface Configuration 8-6 Viewing the ATM Interface Configuration Window 8-6 Configuri
Contents APS Interface 8-21 SRP Interface Configuration 8-22 Viewing the SRP Interface Configuration Attributes 8-22 Configuring a SRP Interface 8-23 SRP Interface Configuration Window—Detailed Description General 8-23 IPS 8-23 8-23 SRP Interface Side Configuration 8-24 Viewing the SRP Interface Side Configuration Attributes 8-24 Configuring a SRP Side 8-25 SRP Interface Side Configuration Window—Detailed Description General Tab 8-26 Alarms Tab 8-27 CHAPTER 9 Interface Status 8-26 9-1 Interfaces
Contents SONET Interface Status 9-12 Viewing the SONET Interface Status Window 9-12 SONET Status Window—Detailed Description 9-16 Medium 9-16 Section 9-16 Line 9-16 Path 9-16 Virtual Tributary 9-17 SRP Interface Status 9-17 Viewing the SRP Interface Status Attributes 9-17 SRP Interface Status Window—Detailed Description Interface Tab 9-18 Side A Frame 9-18 Side B Frame 9-18 SRP Side IPS Status 9-19 Viewing the IPS Status Attributes 9-19 IPS Status Window—Detailed Description IPS Status 9-20 Remote Node 9-2
Contents Line Tab 10-14 Path Tab 10-15 Virtual Tributary Tab 10-15 DS3/E3 Interface Performance 10-15 Viewing the DS3/E3 Interface Performance Window 10-15 DS3/E3 Interface Performance Window—Detailed Description DS3 Performance Tab 10-17 E3 Performance Tab 10-18 Ethernet Interface Performance 10-19 Viewing the Ethernet Interface Performance Window 10-19 Ethernet Interface Performance Window—Detailed Description General Statistics 10-20 Collision Statistics 10-20 SRP Performance 10-21 Viewing the SRP Per
Contents CAR Policy Configuration 11-6 Per Interface Rate Control (PIRC) Support 11-6 Limited Support for Engine 4 11-7 Creating a CAR Policy 11-7 Applying an Access List to a CAR Policy 11-8 CAR Policy Configuration Window—Detailed Description CAR Policy Configuration Tab 11-9 Exceed Action 11-10 Access List Configuration 11-10 Creating Access Lists 11-10 Access List Configuration Window—Detailed Description General Tab 11-12 IP Standard Tab 11-13 IP Precedence Tab 11-14 MAC 11-15 IP Extended Tab 11-16 CA
Contents WRED ToFab Configuration 11-32 Creating a ToFab Policy 11-32 Editing an Existing ToFab policy 11-33 Deleting an Existing ToFab policy 11-34 WRED ToFab Policy Configuration Window—Detailed Description ToFab Policy Configuration tab 11-35 Slot Table Parameters 11-35 Actions 11-35 Slot-CosQ Groups 11-35 WRED Rx Configuration 11-36 Associating a ToFab Policy to a Line card 11-36 Disassociating a ToFab Policy from a Line card 11-37 Changing the Association of a ToFab Policy 11-37 WRED Rx Configuration
Contents Creating ATM QoS Profiles 12-12 Editing an ATM QoS Profile 12-14 Deleting an ATM QoS Profile 12-15 ATM QoS Profiles Configuration Window—Detailed Description Profile Tab 12-17 RxTx Parameters Tab 12-17 12-17 Deploying ATM Connection Objects 12-18 Deploying a PVC Object 12-18 Deploying an SVC Object 12-22 Applying an ATM QoS Profile to an ATM Connection 12-28 ATM PVC Configuration 12-30 Viewing the ATM VCL Configuration Window 12-30 Connecting or Disconnecting a PVC 12-31 Decommissioning or Re-
Contents Decommissioning a VLAN 13-16 Start Performance Logging 13-17 Stop Performance Logging 13-18 VLAN Configuration Window—Detailed Description Configuration Tab 13-19 VLAN Performance 13-19 Viewing the VLAN Performance Window 13-20 VLAN Performance Window—Detailed Description Reparenting VLANs and VLAN Sub-Interfaces Deleting VLAN Objects CHAPTER 14 Routing 13-19 13-21 13-21 13-22 14-1 Launching the Routing Windows BGP Management 14-1 14-2 BGP Configuration 14-3 Viewing the BGP Details Tab
Contents BGP Redistribution Information 14-16 BGP Redistribute Configuration 14-16 BGP Redistribute Configuration—Detailed Description Action 14-17 BGP Status 14-18 Viewing the BGP Status Window 14-18 BGP Status Window—Detailed Description BGP-Details 14-21 Network 14-22 Neighbor 14-22 Redistribution 14-23 14-17 14-21 BGP Address-Family Synchronization 14-23 BGP Address-Family Synchronization—Detailed Description Synchronization Tab 14-26 14-26 BGP Address Family Configuration 14-26 Viewing the AF-Gen
Contents Redistribute Information 14-39 BGP Address Family—Redistribute Configuration 14-40 BGP Address Family-Configure Redistribute Protocol—Detailed Description Add/Remove Redistribution Information 14-41 BGP Address-Family Status 14-41 Viewing the BGP Address-Family Status window 14-41 BGP Address-Family Status Window—Detailed Description AF-General 14-45 AF-Network 14-46 AF-Neighbor 14-46 AF-Redistribute 14-46 OSPF Management 14-41 14-45 14-47 OSPF Configuration 14-47 Viewing the OSPF Configuratio
Contents MPLS Forwarding Information 15-4 Viewing the MPLS Forwarding Information Window 15-4 MPLS Forwarding Information Window—Detailed Description MPLS Forwarding Information Tab 15-5 15-5 Fault Management for MPLS LSR Interfaces 15-6 MPLS Interface Status 15-6 Viewing the MPLS Interface Status Window 15-6 MPLS Interface Status Window—Detailed Description 15-7 MPLS Interface Information 15-8 Viewing the MPLS Interface Information Window 15-8 MPLS Interface Information Window—Detailed Description 15-9
Contents Adding a Routing Target to a Selected Chassis 16-10 Deleting a Routing Target from a Selected Chassis 16-10 VRF Configuration Window—Detailed Description 16-11 VRF Configuration Tab 16-11 Associating a VRF Policy with an Interface 16-12 Associating VRF Policies 16-13 Removing a VRF Policy from a Selected Interface VRF Association Window—Detailed Description VRF Tab 16-14 16-14 16-14 VRF Fault Management 16-15 VRF Status 16-15 Viewing the VRF Status Window 16-15 VRF Status Window—Detailed Descrip
Contents CHAPTER 17 MPLS Trap Management 17-1 MPLS Traps Supported by the C12000/10720 Router Manager 17-1 Enabling/Disabling Traps on the Device 17-3 MPLS Trap Configuration Window—Detailed Description Traps Tab 17-4 17-4 MPLS CLI Troubleshooting Services 17-5 Launching the MPLS CLI Troubleshooting Services Windows Verify Routing Protocols 17-6 Verify Routing Tables 17-7 Verify CEF Switching 17-8 Verify CEF Switching Summary 17-9 Verify MPLS Interfaces 17-10 Verify Label Distribution 17-11 Verify
Contents Viewing Performance Statistics 20-4 Viewing a Chart 20-5 Printing a Performance File 20-6 Saving Performance Data to a File 20-6 Archiving 20-6 Exporting A Performance File 20-7 Performance Manager Window—Detailed Description Monitored Attributes 20-7 Time Period 20-8 Summary 20-8 Refresh 20-9 Line Chart Tab 20-9 Table Display Tab 20-9 CHAPTER 21 Troubleshooting and FAQs 21-1 Administration 21-1 What Version is the Software? 21-1 What Dialogs Use the IOS CLI Instead of SNMP? Configuration 21-
Contents Running Configs CE1 C-4 PE1 C-5 P C-7 PE2 C-11 CE2 C-12 C-4 INDEX Cisco 12000/10700 v3.1.
Contents Cisco 12000/10700 v3.1.
About This Guide This guide provides information on using the Cisco 12000/10720 Router Manager application. The Cisco 12000/10720 Router Manager uses the Cisco Element Management Framework (Cisco EMF), which provides element management to simplify the day-to-day tasks of an operator. These tasks can include equipment provisioning, fault monitoring, interface configuration, and gathering and displaying interface performance statistics.
About This Guide Document Organization Document Organization This guide is organized as follows: Table 1 Document Organization Chapter Number Chapter Title Content Chapter 1 Overview This chapter provides a basic overview of the Cisco 12000/10720 Routers and the Cisco 12000/10720 Router Manager application. Chapter 2 Concepts This chapter describes Cisco 12000/10720 Router Manager basic concepts.
About This Guide Document Organization Table 1 Document Organization (continued) Chapter Number Chapter Title Content Chapter 13 Managing VLANs This chapter describes the VLAN functionality supported by the Cisco 12000/10720 Router Manager application and guides you through the process of creating and configuring VLAN objects. Chapter 14 Routing This chapter describes the Border Gateway Protocol (BGP) and the Open Shortest Path First Routing Protocol (OSPF).
About This Guide Conventions Conventions Conventions are presented in the following sections: • Command Conventions • Example Conventions • Document Conventions Command Conventions Commands use these conventions: Table 2 Command Conventions Format Description Example Boldface font Commands, keywords, and user entries in text /usr/bin Italic font Arguments for which users supply values CEMF_ROOT Square brackets ([ ]) Optional keywords or arguments [?] Braces ({ }) Alternative but requir
About This Guide Obtaining Documentation Document Conventions This guide uses these conventions: Table 4 Document Conventions Format Description Example Boldface font Menu options, button names, and names of keys on keyboards Exit Italic font Directories, filenames, and titles Cisco Element Management Framework User Guide Release 3.2 (78-12536-01) Notes and cautionary statements use these conventions: Note Caution Means reader take note.
About This Guide Obtaining Documentation Documentation CD-ROM Cisco documentation and additional literature are available in a Cisco Documentation CD-ROM package, which may have shipped with your product. The Documentation CD-ROM is updated regularly and may be more current than printed documentation. The CD-ROM package is available as a single unit or through an annual or quarterly subscription. Registered Cisco.
About This Guide Obtaining Technical Assistance Obtaining Technical Assistance Cisco provides Cisco.com, which includes the Cisco Technical Assistance Center (TAC) website, as a starting point for all technical assistance. Customers and partners can obtain online documentation, troubleshooting tips, and sample configurations from the Cisco TAC website. Cisco.com registered users have complete access to the technical support resources on the Cisco TAC website, including TAC tools and utilities. Cisco.
About This Guide Obtaining Additional Publications and Information Cisco TAC Website The Cisco TAC website provides online documents and tools to help troubleshoot and resolve technical issues with Cisco products and technologies. To access the Cisco TAC website, go to this URL: http://www.cisco.com/tac All customers, partners, and resellers who have a valid Cisco service contract have complete access to the technical support resources on the Cisco TAC website.
About This Guide Obtaining Additional Publications and Information • Packet magazine is the Cisco quarterly publication that provides the latest networking trends, technology breakthroughs, and Cisco products and solutions to help industry professionals get the most from their networking investment. Included are networking deployment and troubleshooting tips, configuration examples, customer case studies, tutorials and training, certification information, and links to numerous in-depth online resources.
About This Guide Obtaining Additional Publications and Information Cisco 12000/10700 v3.1.
1 C H A P T E R Overview This chapter provides an overview of the Cisco 12000/10720 Routers and the Cisco 12000/10720 Router Manager application. The Cisco 12000 Series Routers are part of Cisco’s premier routing product family and play an integral part in the network architecture. The Cisco 12000 Series Routers were designed and developed for the core of service provider and enterprise IP backbones. The Cisco 10720 Router provides IP services to users at optical speeds at the edge of their networks.
Chapter 1 Overview Cisco Element Manager Framework (Cisco EMF) Software This chapter describes the following information: • Cisco Element Manager Framework (Cisco EMF) Software • Cisco 12000/10720 Router Manager Software • Key Features of the Cisco 12000/10720 Router Manager Software • Accessing Online Help Cisco Element Manager Framework (Cisco EMF) Software Cisco EMF is an open carrier class management system, designed to integrate with third party products and proprietary operational support s
Chapter 1 Overview Key Features of the Cisco 12000/10720 Router Manager Software • Cisco 12000/10720 Router Manager deployment—Eases deployment of large networks by enabling template-based element configuration, operations, administration, and maintenance – Pre-deployment of chassis, GRP and line cards – AutoDiscovery—Automatically discovers existing Cisco 12000/10720 routers • Comprehensive fault management system—For chassis, line cards and interfaces • Configuration Backup/Restore using RME—Uses R
Chapter 1 Overview Accessing Online Help Accessing Online Help Each window has the option to click the Help icon, or to select Help from the menu bar. A list of help topics is displayed. Cisco 12000/10700 v3.1.
C H A P T E R 2 Concepts This chapter describes Cisco 12000/10720 Router Manager concepts and covers the following information: • Cisco 12000/10720 Router Manager Objects and Interfaces • Views • Cisco 12000/10720 Router Manager Object States Cisco 12000/10720 Router Manager Objects and Interfaces Cisco 12000/10720 Router Manager manages both physical and logical objects, as follows: • Physical—Represents tangible components and devices such as the chassis (hardware frame), line cards, and interfac
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces Physical Objects Table 2-1 lists all physical objects created in Cisco 12000/10720 Router Manager and the management functions that can be performed on each object. Table 2-1 Physical Objects and Management Functions Cisco 12000/10720 Router Manager Physical Object Management Functions Chassis—The hardware frame of the Cisco 12000/10720 Router, which houses all subchassis objects (modules).
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces See the “Views” section on page 2-11 for further details on hierarchies within Cisco EMF and Cisco 12000/10720 Router Manager. Tip Physical objects contained within a chassis are often referred to as subchassis objects or modules.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces Figure 2-1 Cisco 12016 Chassis PWR OK Power shelf and power supplies PWR OK FAULT PWR OK FAULT TEMP FAULT TEMP I LIM TEMP I LIM I LIM Upper blower module CDHNT CDHNT RA RA LOOP DOWN LOOP DOWN CD CD LA LA Upper cable management bracket TX TX 0 0 RX RX TX TX 0 1 1 RX RX TX TX 2 2 E IER T TIV RR PK AC CA RX CT EJE RX RX 3 TX TX E IER LL TIV RR CE AC CA RX 4 4 RX RX E IER T TIV RR PK AC
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces • Lower card cage, which contains the following: – 1 Non-configurable alarm card in far right slot – 1 Optional GRP in far left slot – Up to 8 line cards Supporting Modules Cisco 12000/10720 Router Manager supports five types of supporting modules within a Cisco 12000 Series Router chassis. Some modules only apply to certain chassis types.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces Tip The technologies supported by an interface are exposed within FCAP-based management windows. It is important to understand the relationship of physical interfaces to technologies in order to properly manage an interface. Table 2-2 outlines each physical interface and the technologies it supports. Also included are the different FCAP-based windows that are applicable to each physical interface and technology.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces • VLAN—Domain, VLAN, sub-interface objects. VLAN sub-interfaces can be configured on Ethernet interfaces. Table 2-3 describes the management functions for Layer 3 QoS logical configurations. Table 2-3 Layer 3 QoS Logical Objects Logical Object Management Functions WRED: CoS queue groups Create, configure, apply, modify, delete and remove CosQ groups, WRED ToFab and CAR objects.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces Sample Telecom Graphical Object Event unacknowledged count and state (color). The color of the object balloon shows the most severe unacknowledged event status. Event severities are by a letter in the balloon (for example, the letter C signifies a Critical alarm.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces Figure 2-3 Sample Cisco 12000 Chassis Showing Telecom Graphical Objects Refer to the Cisco Element Management Framework User Guide Release 3.2 for further information on the type of TGO objects that can appear in the Cisco 12000/10720 Router Manager. Cisco 12000/10700 v3.1.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Objects and Interfaces OSI Mappings Table 2-6 gives the complete list of OSI mappings for all combinations of the Admin and Operational status.
Chapter 2 Concepts Views Views Cisco 12000/10720 Router Manager views can be accessed by clicking on the Viewer icon in the Cisco EMF launchpad. These views appear in the frame at the left of the window when you open the Map Viewer window (see Figure 2-4 on page 2-11). Cisco 12000/10720 Router Manager views model hierarchical relationships between objects, both physical and logical. Objects are organized into different views and can exist in multiple views simultaneously by reference.
Chapter 2 Concepts Views Layer 3 QoS View The Layer 3 QoS view displays only Layer 3 QoS objects within Cisco 12000/10720 Router Manager, such as the following: • Access Lists • CAR objects • WRED objects You can work within this view to create and configure Access Lists or CAR or WRED objects by accessing the respective Cisco 12000/10720 Router Manager menus. Network View This view displays all network devices within their relevant networks and subnets.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Object States be any other user maintained VLAN grouping. There can be mulitple domains in the VLAN view and each domain can contain mulitple VLAN objects. The same VLAN id can be duplicated across different domains. Each VLAN object can have multiple sub-interface objects. Note The sub-interface objects are shown only under the VLAN objects and in the component managed view. Only Ethernet sub-interfaces are displayed.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Object States Decommissioned State The decommissioned state indicates that an object is not managed. When you manually deploy an object, it is normally placed into a decommissioned state. Tip Initially deployed objects are decommissioned to leave you with the option of managing the object or not. If you want to manage the object, you need to commission the object.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Object States Heartbeat polling is performed on an object in the performance logging on state. If the object moves into the errored state, it is returned to the performance logging on state when the error is rectified. For example, if a line card is in the performance logging on state and it goes down in the device, the EM moves the line card into the errored state.
Chapter 2 Concepts Cisco 12000/10720 Router Manager Object States Cisco 12000/10700 v3.1.
C H A P T E R 3 Getting Started This chapter describes the typical tasks you should complete to start using the Cisco 12000/10720 Router Manager application. See Figure 3-1 on page 3-2 for further details.
Chapter 3 Getting Started Cisco 12000/10720 Router Manager Workflow Figure 3-1 Workflow for Cisco 12000/10720 Router Manager Install Cisco EMF software Install C12000/10720M software Start CEMF Start a Cisco EMF session Deploy objects Enter username and password Perform Subchassis discovery Review deployment and check for alarms Module Management Fault Management Change Management Interface Management ATM Connections VLAN Sub-interface 84835 Chassis Management Layer 3 QoS Cisco 12000/10700 v3.
Chapter 3 Getting Started Starting Cisco EMF and Cisco 12000/10720 Router Manager Starting Cisco EMF and Cisco 12000/10720 Router Manager The Cisco 12000/10720 Router Manager application is viewed through the Cisco Element Management Framework (Cisco EMF). It is important to understand how Cisco EMF works before you use the Cisco 12000/10720 Router Manager application (refer to the Cisco Element Management Framework User Guide for further details).
Chapter 3 Getting Started Starting Cisco EMF and Cisco 12000/10720 Router Manager The Login window (see Figure 3-2) appears. Figure 3-2 Login Window Step 2 Enter a valid user name and password. Step 3 Click Ok to proceed. When an unknown user name or password is entered, an error is displayed. Click Ok, then enter a valid user name and password. Note You have three attempts to enter a valid user name and password.
Chapter 3 Getting Started Starting Cisco EMF and Cisco 12000/10720 Router Manager Launchpad The icons displayed in the CEMF Manager and Event Manager panels on the Launchpad represent the applications provided by this Cisco EMF installation. Extra icons may appear when additional packages are installed. The icons (see Figure 3-3) represent the standard Cisco EMF tools.
Chapter 3 Getting Started Starting Cisco EMF and Cisco 12000/10720 Router Manager Map Viewer (Viewer) MapViewer allows complete flexibility in viewing, building, and monitoring your network using graphical representations of network elements. MapViewer is the primary entry point into the Cisco 12000/10720 Router Manager. When the MapViewer application is launched, a window appears corresponding to the highlighted map icon in the hierarchy pane.
Chapter 3 Getting Started Starting Cisco EMF and Cisco 12000/10720 Router Manager Notification Profiles An important aspect of a monitoring system which captures and reacts to events on the network is when and how a network operator is informed of these events. The Event Manager uses notifications for this.
Chapter 3 Getting Started Deployment PreFilter Event pre-filtering allows any event generated by the network which matches the criteria established in the filter to be “filtered out”, and thus not saved into the database. Pre-filtering offers you the capability to eliminate unwanted or undesired events from entering the management system altogether. Pre-filtering is managed through the PreFilter application or from the Event Browser.
Chapter 3 Getting Started Deployment You can also deploy either of the following logical objects: Tip • SVC—See “Deploying an SVC Object” section on page 12-22 • PVC—See “Deploying a PVC Object” section on page 12-18 • VLAN Domain, VLAN and VLAN sub-interface—See “Deploying VLAN objects” section on page 13-4 WRED (Weighted Random Early Detection) and CAR (Committed Access Rate) objects are not created using the deployment wizard.
Chapter 3 Getting Started Deployment Figure 3-4 Deployment Process Workflow IP Auto-discovery of Cisco 12000/10720 series chassis Stage 1: Manually deploy a generic object Stage 2: Chassis level deployment OR Manual deployment of the Cisco 12000/10720 series chassis Stage 3: Sub-chassis level deployment Sub-chassis Discovery Manually deploy Sub-chassis objects AND/OR 84836 Optional 1. The first deployment stage is to manually deploy a Generic (Site) object.
Chapter 3 Getting Started Deployment Table 3-1 Generic Object Deployment Templates Object to be Deployed Deployment Templates Available Generic Bay IP Device Region SNMP Agent SNMP MIB-2 Agent SNMP Proxied Device Site This section provided an example that shows how to deploy a Site object. The deployment process differs slightly for other types of generic object.
Chapter 3 Getting Started Deployment Figure 3-6 Deployment Wizard - Templates Window Step 4 Select the generic object that you wish to deploy from the list supplied. In this example (shown in Figure 3-6) shows the deployment profile for a Site object is selected. The Deployment Wizard steps through a series of windows that prompt you for the information required to deploy the Site object. Step 5 Click Forward. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment The Deployment Wizard - Object Parameters window appears (see Figure 3-7). Figure 3-7 Deployment Wizard - Object Parameters Window (1 of 2) Step 6 Enter the number of Sites required. A single site was entered in this example. Step 7 Click Forward. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-8 Deployment Wizard - Object Parameters Window (2 of 2) Step 8 Enter a Site name. Each Site must have a unique name. In this example the site is called Site-srp. Step 9 Click Forward. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment The Deployment Wizard - Views window appears. Figure 3-9 Step 10 Deployment Wizard—Views Window Click Select, to select a physical view. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment The Object Selector Window appears. Figure 3-10 Object Selector Step 11 Select the object where you wish to place the Site object. Step 12 Click Apply. The Deployment Wizard - Views window re-appears with the selection displayed. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-11 Deployment Wizard—Views Window Step 13 Click Forward. Note You are prompted to repeat Steps 8 to 13 if you are deploying more than one Site. The Deployment - Wizard Summary window appears. The Summary window provides details of the object you are about to deploy. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-12 Deployment Wizard—Summary Window Step 14 Click Finish (when the Deployment Summary information is correct) to complete deployment and close the Deployment Wizard - Summary window. The new Site object (that is, Site-srp) is created and displayed in the Map Viewer window. Figure 3-13 Example Showing the Newly Deployed Site-srp Object Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Note This deployment procedure can be applied to the deployment of any of the generic objects although all of the steps may not apply to the particular generic object that you are deploying. IP Auto Discovery of the Cisco Chassis Auto discovery is the application that discovers existing Cisco 12000/10720 Routers, saving time and effort. The auto discovery window can be opened from the Viewer or Discovery icon in the Launchpad.
Chapter 3 Getting Started Deployment Figure 3-14 Example of Auto Discovery Manually Deploying a Cisco 12000/10720 Chassis Tip It is recommended that you ping the Cisco 12000/10720 Router you intend to deploy to ensure the device can be contacted.
Chapter 3 Getting Started Deployment Figure 3-15 Deployment Wizard—Object Parameters (1 of 3) Step 2 Enter the number of chassis objects you want to deploy. Click Forward. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-16 Deployment Wizard—Object Parameters Window (3 of 3) Step 3 Enter the following information: 12000 Chassis Name—Type in a name (including prefix and suffix) for the chassis you are deploying. A default prefix appears (for example, “12008”). You can delete this prefix and use your own, or you can keep it and add your own suffix. This name must be unique. IP Address—Type in the IP address for the chassis you are deploying.
Chapter 3 Getting Started Deployment Figure 3-17 Deployment Wizard—Views Step 5 Click on Select. The Object Selector window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-18 Object Selector Window Step 6 Choose the site under which you want to deploy the chassis. Click Apply. The Deployment Wizard-Views window is displayed with the selected Site object. Figure 3-19 Deployment Wizard—Views Step 7 Click Forward. A Deployment Wizard Summary window is displayed. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-20 Deployment Wizard Summary Step 8 The Deployment Summary details appear in the Deployment Summary Screen. If the Deployment Summary information is correct, click Finish. If the Deployment Summary information is incorrect, click Cancel to stop deployment.
Chapter 3 Getting Started Deployment Commissioning and Subchassis Discovery After you deploy a chassis, the next step in creating a manageable system is to commission the chassis (which begins the process of subchassis discovery). Figure 3-21 shows a Cisco 12008 chassis map in the Physical view before subchassis discovery. Subchassis discovery discovers all physical objects (that is, modules and interfaces) within the chassis and places them onto the chassis map.
Chapter 3 Getting Started Deployment Because the chassis is the highest-level object, all objects under the chassis are commissioned as well when you commission the chassis. One level down, if you commission a GRP, you commission all physical objects underneath that level. If you commission a line card, you commission all interfaces on that line card, and so on. However, note that before you can commission any module within a chassis, the chassis object itself must be commissioned.
Chapter 3 Getting Started Deployment Figure 3-22 Chassis Configuration Window Step 2 Choose the Chassis you want to commission from the list box at left of the window. Cisco 12000/10720 Router Manager allows you to select and commission multiple chassis simultaneously. Note Step 3 Configure the parameters displayed on the Configuration and Additional Description tabs, as required.
Chapter 3 Getting Started Deployment The chassis and all objects contained within are commissioned. A status report appears in the Commission Status area displaying whether the commission action succeeded or failed. Figure 3-23 shows a Cisco 12008 chassis map in the Physical view after successful subchassis discovery. Modules and interfaces are automatically deployed within the chassis and enter the commissioned state. However, icons representing the physical objects appear in the Component Managed view.
Chapter 3 Getting Started Deployment Decommissioning a Chassis Decommissioning a chassis, decommissions all the objects within the chassis, and active management (such as polling) stops on the chassis and on all objects within the chassis. To decommission a chassis, proceed as follows: Step 1 Right click on the chassis you want to decommission, then choose Cisco 12000/10720 Manager>Configuration>Chassis>Configuration. The Chassis Configuration window appears (see Figure 3-22).
Chapter 3 Getting Started Deployment User Named vs. Auto Named Module Deployment When you deploy a module, you have two initial options: • To deploy an auto-named module • To deploy a user-named module The user-named option allows you to name the module as you like. For example, if you have a specific naming scheme you want to use, then select the user-named option. The auto-named option assigns an auto-generated name to the module, with the slot number appended to the name.
Chapter 3 Getting Started Deployment Figure 3-24 Deployment Wizard—Templates Step 2 Choose one of the Template Choices from the list displayed (either auto-named or user-named deployment). Ensure that your choice is highlighted before continuing. See “User Named vs. Auto Named Module Deployment” section on page 3-31 for further information on auto vs. user named deployment. Step 3 Click Forward. The Deployment Wizard - Object Parameters window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-25 Deployment Wizard—Object Parameters Step 4 Enter the Number of GRP objects you wish to deploy. Enter in the slot number where you want the GRP to be deployed. If you are deploying two GRPs, the primary GRP must be placed in a slot with a lower number than the secondary GRP. Caution If you deploy a module in a slot that is already occupied, deployment will fail at the Finish point.
Chapter 3 Getting Started Deployment Figure 3-26 Deployment Wizard—Views Step 6 Click Select. The Object Selector window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-27 Object Selector Window Step 7 Navigate through the hierarchy and choose the chassis that the GRP will be deployed within. Grayed out objects are not available for selection. Step 8 Click Apply. The Deployment Wizard - Views window re-appears with the location where the object will be placed. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-28 Deployment Wizard—Views Step 9 Repeat Steps 6 to 8 to place the chassis object in each of the Physical and ComponentManaged views. Note Step 10 You are prompted to repeat steps 6 to 8 if you are deploying more than one GRP card. Click Forward. The Deployment Wizard-Summary window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-29 Deployment Wizard—Summary Step 11 The deployment summary details appear in the Deployment Summary window. If the deployment summary information is correct, click Finish. If the deployment summary information is incorrect, click Cancel to stop deployment. Note Two objects are deployed when deploying each GRP card: the GRP module object itself, and the Ethernet interface object, representing the Ethernet interface on the GRP. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Manually Deploying Line Cards The Cisco 12000 Series Router chassis supports six types of technology specific line cards (ATM, POS, Ethernet, SRP, DS-3 and Modular Ethernet). See Table 3-2 to Table 3-7 for further details. Line Cards Supported by Cisco 12000 Series Routers Table 3-2 displays a list of the ATM line cards supported by Cisco 12000 Series Routers.
Chapter 3 Getting Started Deployment Table 3-3 POS Line Cards Supported by Cisco 12000 Series Routers (continued) POS Card Type Cisco 12000/10720 Router Manager Menu Option Card Description pos-8oc3-mm POS > OC-3 8 Port > E4 MM 8 Port OC3 Multimode POS pos-8oc3-ir POS > OC-3 8 Port > E4 SM 8 Port OC3 SM Intermediate Reach POS pos-8oc3-lr POS > OC-3 8 Port > E4 SM-LR 8 port OC3 SM Long Reach POS gsr-e48-pos-8oc3-mm-sr-mtrj POS > OC-3 8 Port > E4+ MM-SR 8 Port POS OC 3 multi MOde Short Reach
Chapter 3 Getting Started Deployment Table 3-3 POS Line Cards Supported by Cisco 12000 Series Routers (continued) POS Cisco 12000/10720 Router Manager Menu Option Card Description pos-en-qoc48-sm-lr-sc POS > Enhanced OC-48 4 > E4 LR-SC 4 Port (Quad) Enhanced OC-48 Long Reach SC Connector Line Card pos-en-qoc48-sm-lr-fc POS > Enhanced OC-48 4 > E4 LR-FC 4 Port (Quad) Enhanced OC-48 Long Reach FC Connector Line Card gsr-e-qoc48-sm-sr-sc POS > Enhanced OC-48 4 > E4+ SR-SC 4 Port Enhanced OC 48 S
Chapter 3 Getting Started Deployment Table 3-3 POS Line Cards Supported by Cisco 12000 Series Routers (continued) POS Card Type Cisco 12000/10720 Router Manager Menu Option Card Description pos-16oc3-ir POS > OC-3 16 > E4 SM 16 Port OC3 SM Intermediate Reach POS pos-16oc3-mm POS > OC-3 16 > E4 MM 16 Port OC3 Multi Mode POS gsr-e48-pos-16oc3-mm-sr-mtrj POS> OC-3 16 > E4+ MM-SR 16 Port OC3 Multi Mode Short Reach POS gsr-e48-pos-16oc3-sm-ir-lc POS > ISE > OC-3 16 > IR 16 Port OC3 SM Intermedi
Chapter 3 Getting Started Deployment Table 3-5 displays a list of the DS-3 line cards supported by Cisco 12000 Series Routers. Table 3-5 DS-3 Line Cards Supported by Cisco 12000 Series Routers Card Type Cisco 12000/10720 Router Manager Menu Option Card Description copper-6ds3 DS3 > 6 Port 6 Port Copper DS3 Interface Line Card copper-12ds3 DS3 > 12 Port 12 Port Copper DS3 Interface Line Card Table 3-6 displays a list of the E3 line cards supported by Cisco 12000 Series Routers.
Chapter 3 Getting Started Deployment Line Cards Supported by Cisco 10720 Routers Table 3-8 displays a list of the SRP line cards supported by Cisco 10720 Routers.
Chapter 3 Getting Started Deployment To deploy a line card of any type, proceed as follows: Step 1 Right click on the chassis object under which you want to deploy the line card, then choose Deployment>Cisco 12000/10720 Manager>Module>ATM or POS or Ethernet or DS-3, then choose the exact type of line card to be deployed (for example, OC-3 4 Port or OC12 1 Port). Now, choose the exact variant (for example, SM, or MM) if applicable. The Deployment Wizard appears.
Chapter 3 Getting Started Deployment Figure 3-31 Deployment Wizard—Object Parameters Step 4 Enter the number of line card objects you want to deploy. Step 5 Enter the slot number where the card will be deployed. Note Step 6 Deployment will fail (at the Finish point later on) if you try to deploy a module in a slot that is already occupied. Click Forward. The Deployment Wizard - Views window appears.
Chapter 3 Getting Started Deployment Figure 3-32 Deployment Wizard—Views Step 7 Click Select to choose where you wish to place the object within the view. The Object Selector window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-33 Object Selector Window Step 8 Choose the chassis you want to place the ATM line card under. Objects which are not available for selection are greyed out. Click on the + sign to expand the view. Select the chassis under which you want to deploy the line card. Step 9 Once you have highlighted your selection, click Apply. The Deployment Wizard - Views window re-appears with the location where the object will be placed. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-34 Deployment Wizard—Views Step 10 Repeat Steps 7 to 9 to place the object in each of the Physical and ComponentManaged views. Step 11 Click Forward. Note You are prompted to repeat steps 4 through 11 if you are deploying multiple line cards. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment The Deployment Wizard—Summary window appears. Figure 3-35 Deployment Wizard—Summary Step 12 The deployment summary details appear in the Deployment Summary window. If the information is correct, click Finish. Click Cancel if the information is incorrect, and the deployment process stops. Note The number of objects deployed reflects the line card object plus the number of ports or interfaces on the line card.
Chapter 3 Getting Started Deployment Manually Deploying Supporting Modules The Cisco 12000 Series Router chassis support the following supporting modules: Note • Clock Scheduler Cards (CSCs) • Switch Fabric Cards (SFCs) • AC Power supply modules • Fan tray modules • Blower modules The AC power supply, fan tray and blower modules can only be discovered during subchassis discovery (that is, they cannot be manually deployed).
Chapter 3 Getting Started Deployment Figure 3-36 Deployment Wizard—Views Step 2 Click Select to choose where you wish to place the object within the view. Click on the + sign to expand the view if required. The Object Selector window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-37 Object Selector Window Step 3 Navigate through the hierarchy and choose where you wish to place the object within the view. Click on the + sign to expand the view if required. Step 4 Click Apply. The Deployment Wizard - Views window re-appears with the location where the object will be placed. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-38 Deployment Wizard—Views Step 5 Click Forward. The Deployment Wizard—Summary window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-39 Deployment Wizard—Summary Step 6 The deployment summary details appear in the Deployment Summary window. If the information is correct, click Finish. If the information is incorrect, click Cancel to stop deployment. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Deploying a Switch Fabric Card To deploy a switch fabric card (SFC), proceed as follows: Step 1 Right click on the chassis you want to deploy the switch fabric card under, then choose the correct SFC card from the service menu Deployment>Cisco 12000/10720 Manager>12008>Module>SFC. The Deployment Wizard—Views window appears. Figure 3-40 Deployment Wizard—Views Step 2 Click Select to choose where you wish to place the object within the view.
Chapter 3 Getting Started Deployment Figure 3-41 Object Selector Window Step 3 Choose where you wish to place the object within the view. Click on the + sign to expand the view if required. Step 4 Click Apply. The Deployment Wizard - Views window re-appears with the location where the object will be placed. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-42 Deployment Wizard—Views Step 5 Repeat Steps 2 to 4 to place the object in each of the Physical and ComponentManaged views. Step 6 Click Forward. The Deployment Wizard—Summary window appears. Cisco 12000/10700 v3.1.
Chapter 3 Getting Started Deployment Figure 3-43 Deployment Wizard—Summary Step 7 The deployment summary details appear in the Deployment Summary window. If the information is correct, click Finish. If the information is incorrect, click Cancel to stop deployment. Pre-deployment Cisco 12000/10720 Router Manager objects can be manually pre-deployed before the equipment arrives on-site.
Chapter 3 Getting Started Deployment Performing Pre-deployment Say that you are expecting the following hardware: • Cisco 12016 chassis and GRP(s) • ATM and POS line cards (with respective interfaces) To perform both manual pre-deployment and offline configuration, proceed as follows: Step 1 Manually deploy a site object. See “Manually Deploying a Generic Site Object” section on page 3-10 for further details. Step 2 Manually deploy the Cisco 12000 Series Router chassis under a site.
Chapter 3 Getting Started Deployment Cisco 12000/10700 v3.1.
C H A P T E R 4 Managing Chassis This chapter describes the various chassis management tasks that can be performed using the Cisco 12000/10720 Router Manager application.
Chapter 4 Managing Chassis Launching the Chassis Management Windows Launching the Chassis Management Windows Table 4-1 displays the Cisco 12000/10720 Router Manager Chassis Management windows that can be launched from each object type. For example, the Management Information window can be launched from a Site, or Chassis object, but cannot be launched from a Module or an Interface object. Note Table 4-1 Table 4-1 lists the menu options to launch the chassis management dialogs from the site level.
Chapter 4 Managing Chassis Management Information Table 4-1 Launching the Chassis Management Windows (continued) Cisco 12000/10720 Router Objects (that can be selected) to Open the Manager Window/Task Window Menu Options to Select to Open Window Site Chassis Chassis Module 12000 10720 Series Interface Initiating a Telnet Service No Yes Yes Yes Yes Technology Specific Tools>Initiate Telnet Service Configuration Editor No Yes No No No Technology Specific Tools>Open Configuration Editor
Chapter 4 Managing Chassis Management Information Figure 4-1 Step 2 Management Information Window—Configuration Tab Choose an IOS Host from the list box displayed at the left of the window. System Configuration To configure the fields within the Configuration tab, proceed as follows: Step 1 Open the Management Information window. See “Viewing the Management Information Window” section on page 4-3 for further details. Step 2 Choose a chassis from the list box displayed at the left of the window.
Chapter 4 Managing Chassis Management Information Entering or Changing IOS CLI Username and Passwords In Cisco 12000/10720 v3.1.1 Router Manager some dialogs use the IOS CLI to retrieve or configure information. When a dialog uses the IOS CLI, the IOS password must be set up. For details of which dialogs use the IOS CLI, see What Dialogs Use the IOS CLI Instead of SNMP?, page 21-2. To enter or change the IOS CLI username or passwords, proceed as follows: Step 1 Open the Management Information window.
Chapter 4 Managing Chassis Management Information Management Information Window—Detailed Description The Management Information window displays two tabs: Configuration and IOS/Command Line Security. Configuration Tab The Configuration tab (see Figure 4-1 on page 4-4) displays a single System Configuration area. System Configuration The System Configuration area displays the following fields: IP Address—Allows you to enter the IP address of the system.
Chapter 4 Managing Chassis Chassis Configuration Chassis Configuration The Chassis Configuration window allows you to view and configure parameters, commission or decommission, and switch global performance logging on or off for the selected chassis. The Chassis Configuration (Additional Descriptions tab) allows you to specify additional description information for a selected chassis.
Chapter 4 Managing Chassis Chassis Configuration Figure 4-3 Chassis Configuration Window—Configuration Tab Not applicable for Cisco 12000/10720 Router Manager Step 2 Choose a chassis from the list displayed at the left of the window. Commissioning a Chassis See “Commissioning a Chassis” section on page 3-27 for further details. Decommissioning a Chassis See “Decommissioning a Chassis” section on page 3-30 for further details. Cisco 12000/10700 v3.1.
Chapter 4 Managing Chassis Chassis Configuration Starting Global Performance Logging Global performance logging, when set, collects performance information on GRPs and interfaces on a specified chassis. Performance data can then be viewed through performance menus or through the Performance Manager. Note Performance logging can also be started on a per module (GRP) or physical interface basis.
Chapter 4 Managing Chassis Chassis Configuration The Action Report window (see Figure 4-4) informs you whether the performance logging “on” action was successful or not. Step 4 Click Close to close the Action Report window. Stopping Global Performance Logging Note Performance logging can also be stopped on a per module (GRP) or physical interface basis. For details on how to stop performance logging for a selected module (GRP), see “Module Performance” section on page 5-9.
Chapter 4 Managing Chassis Chassis Configuration Entering Additional Descriptions for a Selected Chassis Note Entering additional descriptions for a chassis is optional. To enter additional descriptions for a selected chassis, proceed as follows: Step 1 Open the Chassis Configuration window. See“Viewing the Chassis Configuration Window” section on page 4-7 for further details.
Chapter 4 Managing Chassis Chassis Configuration Note Step 5 You can enter any information you wish into the Description 1 and Description 2 data entry fields. For example, you might wish to record additional text descriptions for identification purposes, such as CLLI codes. Click Save to save your changes. Device Management Tab in Configuration Window To view the Device Management tab in the configuration window, proceed as follows: Step 1 Open the Chassis Configuration window.
Chapter 4 Managing Chassis Chassis Configuration Note The Synchronize action is not applicable to Cisco 12000/10720 Router Manager When Write Mem is invoked, the running configuration information is copied to the startup configuration on the device. Chassis Configuration Window—Detailed Description The Chassis Configuration window displays three tabs: Configuration, Additional Descriptions and Device Management.
Chapter 4 Managing Chassis SNMP Management Global Performance Logging The Global Performance Logging area allows you to start or stop global performance logging. Start—Click Start to begin global performance logging. Stop—Click Stop to stop global performance logging. Commission Status The Commission Status area displays the result of the last commission, either Succeeded or Failed.
Chapter 4 Managing Chassis SNMP Management Viewing the SNMP Management Window To view the SNMP Management window, proceed as follows: Step 1 Right click on the chassis object and select the Configuration>SNMP Management option. See Table 4-1 on page 4-2 for information on which objects allow you to launch the SNMP Management window.
Chapter 4 Managing Chassis SNMP Management Step 3 Choose the SNMP version to be used. Note that Cisco 12000/10720 Router Manager release 3.0 does not support SNMPv3, and when using version 2 of SNMP, complete the community names for V2 read and V2 write. Step 4 Save your changes by clicking the Save icon on the toolbar. Enabling or Disabling Trap Generation Traps can be sent by the device to the Cisco 12000/10720 Router Manager application when trap generation is enabled.
Chapter 4 Managing Chassis Chassis Inventory Version Displays the SNMP version. SNMP Version—Allows you to choose the SNMP version. Note that Cisco 12000/10720 Router Manager release 3.0 does not support SNMPv3. Trap Generation Enable—Click Enable to enable trap generation for the selected chassis. Traps generated by the selected chassis are sent to Cisco 12000/10720 Router Manager which is configured in the Cisco 12000 Series Router device.
Chapter 4 Managing Chassis Chassis Inventory Figure 4-9 Chassis Inventory Window—General Tab Not applicable for Cisco 12000/10720 Router Manager Step 2 Choose a Chassis from the list box displayed at the left of the window. See “Chassis Inventory Window—Detailed Description” section on page 4-18 for further details on the fields displayed. Chassis Inventory Window—Detailed Description The Chassis Inventory window contains two tabs: General and Asset Tracking.
Chapter 4 Managing Chassis Chassis Inventory Chassis Details The Chassis Details area displays the following information: Serial Number—Not applicable to Cisco 12000/10720 Router Manager. Number of Slots—Displays the number of slots in the chassis. Backplane Type—Not applicable to Cisco 12000/10720 Router Manager. Type—Displays the chassis type. Environmental Monitor Type—Displays the type of environmental monitor located in the chassis.
Chapter 4 Managing Chassis Chassis Fault Management Chassis Fault Management The Chassis Fault Management window displays general chassis availability details, Power Supply information, Temperature information, and Fan information. You cannot configure any parameters in the Chassis Fault Management window, it is a read only window. The EM, for the chassis object, provides fault management of the overall management connectivity and the environmental aspects of the router.
Chapter 4 Managing Chassis Chassis Fault Management Figure 4-10 Chassis Fault Management Window—General Tab Not applicable for Cisco 12000/10720 Router Manager Step 2 Choose a Chassis from the list box displayed at the left of the window. General fault management details are displayed. Step 3 Choose the Power Supply tab. The power supply and voltage details for the selected chassis appear.
Chapter 4 Managing Chassis Chassis Fault Management Figure 4-11 Chassis Fault Management Window—Power Supply Tab Not applicable for Cisco 12000/10720 Router Manager Step 4 Choose the Temperature Supply tab. The temperature details for the selected chassis appear. For further information on the fields displayed in this window, see “Chassis Fault Management Window—Detailed Description” section on page 4-25. Note You can alter the width of the columns displayed in the table(s).
Chapter 4 Managing Chassis Chassis Fault Management Figure 4-12 Chassis Fault Management Window—Temperature Tab Not applicable for Cisco 12000/10720 Router Manager Step 5 Choose the Fan tab. The fan details for the selected chassis appear in the tab. For further information on the fields displayed in this window, see “Chassis Fault Management Window—Detailed Description” section on page 4-25. Note You can alter the width of the columns displayed in the table(s).
Chapter 4 Managing Chassis Chassis Fault Management Figure 4-13 Chassis Fault Management Window—Fan Tab Not applicable for Cisco 12000/10720 Router Manager Changing Column Width The Chassis Fault Management window displays four tabs: General, Power Supply, Temperature, and Fan. The Power Supply, Temperature, and Fan tabs display tables. Text wider than the column width, displayed in these tables is truncated.
Chapter 4 Managing Chassis Chassis Fault Management Chassis Fault Management Window—Detailed Description The Chassis Fault Management window displays four tabs: General, Power Supply, Temperature, and Fan. General Tab The General tab (see Figure 4-10 on page 4-21) displays three areas: Chassis Availability, LED Status, and Cisco Contact Details.
Chapter 4 Managing Chassis Chassis Fault Management Voltage The Voltage area displays the following: Description—Textual information on voltage. Status Value—Current status of the voltage for the selected chassis. Minimum Threshold—Lowest status value assigned before a shutdown is initiated and notifications generated. Maximum Threshold—Highest status value assigned before a shutdown is initiated and notifications generated. Last Shutdown—Last shutdown initiated. State—Current voltage state.
Chapter 4 Managing Chassis Command Log Command Log The Command Log window maintains a record of all the user-initiated configuration changes on the selected device (chassis). The Command Log section covers the following areas: • Viewing the Command Log Window • Command Log Window—Detailed Description Viewing the Command Log Window To view the Command Log window, proceed as follows: Step 1 Right click on the chassis object and select the Accounting>Command Log option.
Chapter 4 Managing Chassis Command Log Step 3 Scroll through the list of event commands, using the arrow bars, until the relevant event command appears. Note You can alter the width of the columns displayed in the table. See “Changing Column Width” section on page 4-24 for further details. The More (arrow) button is not applicable in this window. Command Log Window—Detailed Description The Command Log window displays a single Command Log Details tab.
Chapter 4 Managing Chassis System Log File—When the config source field or the config destination field is set to network tftp or network rcp, the configuration filename at the storage file server appears. RCP User—When the config source field or the config destination field is set to network rcp, the remote user name appears.
Chapter 4 Managing Chassis System Log Figure 4-15 Sys Log Messages Window Step 2 Choose an IOS Host from the list box displayed at the left of the window. The SysLog Message information appears for the selected chassis. For further information, see “System Log Window—Detailed Description” section on page 4-30 Step 3 Scroll through the list of system messages, using the arrow keys, until you find the information you want. You can view all the entries by using the horizontal scroll bar.
Chapter 4 Managing Chassis Using RME for Chassis Management Tasks SysLog Messages Area The Sys Log Messages area displays the following information: Index—Arbitrary integer value to uniquely identify the listed messages. When it reaches the maximum value the agent flushes the area and wraps the value back to 1. Facility—Name of the facility that generated the facility message. Severity—Displays the severity of the message. Message Name—Textual identification for the message type.
Chapter 4 Managing Chassis APS Status Configuration Backup/Restore Using RME You should use Cisco IOS Configuration Archiving in RME for Configuration backup and restore. For more information about configuration backup and restore in RME, refer to User Guide for Resource Manager Essentials. http://www.cisco.com/en/US/products/sw/cscowork/ps2073/products_user_guide_book09186a008017 ac58.html. IOS Image Download Using RME You should use Cisco IOS Image Management in RME for IOS Image Download.
Chapter 4 Managing Chassis APS Status Figure 4-16 APS Status Window Step 2 Choose a Chassis from the list displayed at the left of the window. For further information on the fields displayed in this window, see “APS Status Window—Detailed Description” section on page 4-34. A list of all APS circuits set up on the selected chassis appear in the APS Circuits area.
Chapter 4 Managing Chassis Initiating a Telnet Service APS Status Window—Detailed Description The APS Status window displays a single APS Circuits area. APS Circuits Area The APS Circuits area displays a table with the following headings: Group—Group number of the APS circuit or interface. Working Slot/Port—Slot/port number of the working interface. For a circuit, if the working interface is part of another chassis, “remote” is displayed instead of the slot/port number.
Chapter 4 Managing Chassis Launching the Web Console Launching the Web Console Another way to retrieve information from a device is through a web browser using the Web Console application. To launch the Web Console application, proceed as follows: Step 1 Right click on the chassis object and select the Technology Specific Tools>Launch Web Console option. See Table 4-1 on page 4-2 for information on which objects allow you to launch the Web Console application. A security window appears.
Chapter 4 Managing Chassis Configuration Editor Figure 4-18 Configuration Editor Window Step 2 Choose a Chassis from the list displayed at the left of the window. For further information on the fields displayed in this window, see “Configuration Editor Window—Detailed Description” section on page 4-37.
Chapter 4 Managing Chassis Configuration Editor Note If you receive an error message after clicking Upload, you might need to make sure the tftpboot server is running on the workstation that Cisco 12000/10720 Router Manager is running on. The tftpboot server must be running before you can upload the running configuration. Make sure that the IOS username and password are set correctly in the Management Information.
Chapter 4 Managing Chassis RPR Configuration Operations Done Locally Add—Click Add to move the text string (displayed in the search criteria data entry box) into the criteria name list. Then click Upload to commence your search. Delete—Click Delete to remove any selected text string from the criteria name list.
Chapter 4 Managing Chassis RPR Configuration Figure 4-19 RPR Configuration Window Step 2 Choose a Chassis from the list displayed at the left side of the window. For further information on the fields displayed in this window, see RPR Configuration Window—Detailed Description for further details.
Chapter 4 Managing Chassis RPR Status Switch Over Tab Active RP—Displays the slot number of the active Route Processor. Actions Switch Over—Choose Switch Over to force a RP from standby to active. Note A user can forcefully switchover and make the standby RP to an Active one, by clicking on “Switch Over”. RPR Status Note This feature is not available with the Cisco 10720 Routers.
Chapter 4 Managing Chassis RPR Status Figure 4-20 RPR Configuration Window Step 2 Choose a Chassis from the list displayed at the left side of the window. For further information on the fields displayed in this window, see RPR Status Window—Detailed Description for further details. RPR Status Window—Detailed Description The RPR Status window displays two tabs: RP Status and LC Status. RP Status Redundancy Mode—Displays the current redundancy mode in the chassis.
Chapter 4 Managing Chassis IP Routing Status LC Status This area displays the status of all the Line cards for the selected chassis. It displays a table that lists the potential slot numbers and the corresponding supported redundancy mode. Note The slots identified by the slot numbers in the table, may not contain an RP or CSC or SFC. Slot No—Displays the slot number of the available modules of the chassis. RPR Mode—Displays the redundancy mode of the slot identified by the slot number.
Chapter 4 Managing Chassis IP Routing Status Figure 4-21 IP Routing Status Window Step 2 Choose the chassis from the left side of the window. IP Routing Status Window—Detailed Description The IP Routing Status dialog displays a single tab: Classless Inter-Domain Routing Classless Inter-Domain Routing Tab This tab contains the CIDR Info area that displays the following fields. CIDR Info No. of CIDR Routes—The number of current IPCIDRRouteTable entries that are not invalid.
Chapter 4 Managing Chassis TCP Status IP TOS—The Policy specifier applied to the route. The IP TOS with 0 indicates default path if no specific policy applies. Routing Type—The type of the route. The possible values of the Routing Type field are other, reject, local, remote. Route Info—Reference to the MIB definitions specific to the particular routing protocol which is responsible for this route. Next Hop AS—The Autonomous System Number of the Next hop.
Chapter 4 Managing Chassis TCP Status Viewing the TCP Status Window To view the TCP Status window for a chassis, proceed as follows: Step 1 Right click on the chassis object and select the Cisco 12000/10720 Manager>Fault>TCP Status option. See Table 4-1 on page 4-2 for information on which objects allow you to launch the TCP Status window. Figure 4-22 TCP Status Window Step 2 Choose the TCP Connections tab, if required. Cisco 12000/10700 v3.1.
Chapter 4 Managing Chassis TCP Status Figure 4-23 TCP Status Window—TCP ConnectionsTab TCP Status Window—Detailed Description The TCP Status dialog displays two tabs: TCP Status and TCP Connections. TCP Status Tab The TCP Status tab displays the following fields: TCP Status Current Establishment—The number of TCP connections for which the current state is ESTABLISHED or CLOSE-WAIT. Retransmitting Algorithm—The Algorithm used to determine the timeout value used for retransmitting unacknowledged octets.
Chapter 4 Managing Chassis TCP Status Active Opens—The number of times TCP connections have made a direct transition to the SYN-SENT state from the CLOSED state. Establishment Resets—The number of times TCP connections have made a direct transition to the CLOSED state from either the ESTABLISHED state or the CLOSE-WAIT state. Input Segments—The total number of segments received, including those received in error. This count includes segments received on currently established connections.
Chapter 4 Managing Chassis UDP Status UDP Status UDP is a connectionless, unacknowledged, and unreliable protocol that is defined at the Transport layer of the OSI reference model. Although UDP is responsible for transmitting messages, no software checking for segment delivery is provided at this layer. UDP depends on upper-layer protocols for verification. The UDP Status dialog provides general details of all UDP connections established on the device.
Chapter 4 Managing Chassis UDP Status Figure 4-24 UDP Status Window Step 2 Choose the chassis from the left side of the window. UDP Status Window—Detailed Description The UDP Status dialog displays a single tab: Status Status This Tab displays an area, UDP and a table, UDP Port Information. The UDP area displays the following fields: UDP Incoming Datagrams—This displays the total number of UDP datagrams delivered to UDP users.
Chapter 4 Managing Chassis UDP Status UDP Port Information The table UDP Table Information, displays the UDP Listener Information and it displays the following fields: Local Port—The local port number for this UDP listener. Local Address—This displays the local IP address for this UDP listener. If the UDP listener that is willing to accept datagrams for any IP interface associated with this node, then the value 0.0.0.0 is set and displayed. Cisco 12000/10700 v3.1.
C H A P T E R 5 Managing Modules This chapter describes the management tasks that can be performed on the modules in the Cisco 12000/10720 Router being managed using the Cisco 12000/10720 Router Manager application.
Chapter 5 Managing Modules Launching the Module Management Windows Table 5-1 Abbreviated Module Names (continued) Module Cisco 12000/10720 Router Manager Abbreviation Gigabit Ethernet GE SRP S Unrecognized Modules* GM (Generic Module) GRP RP CSC C SFC SF Lower Blower LBM Upper Blower UBM Power Supply PSM Alarm ALR *Note that basic module management services are provided for any non-standard Cisco 12000/10720 Router Manager modules.
Chapter 5 Managing Modules Module Configuration Note Cisco 12000/10720 Router Manager windows cannot be opened when multiple objects are selected (the menu options to open the Cisco 12000/10720 Router Manager windows are grayed out). Available menu options can be launched from a site object containing the required objects, when needed. Module Configuration The Configuration window allows you to commission or decommission any module.
Chapter 5 Managing Modules Module Configuration Figure 5-1 Step 2 Configuration Window Choose a Chassis and Module from the list boxes displayed at the left of the window. Commissioning a Selected Module Commissioning any card also commissions all the interfaces under the card. Note You can select multiple Modules (from the Module object selector list) which allows you to commission all of the selected modules simultaneously.
Chapter 5 Managing Modules Module Configuration Step 4 Click Commission to commission the selected module. An Action Report window appears confirming that the commissioning action was completed successfully. Figure 5-2 Step 5 Action Report Window Click Close to close the Action Report window. The selected module is now commissioned.
Chapter 5 Managing Modules Module Configuration To decommission a module, proceed as follows: Step 1 Open the Configuration window. See “Viewing the Configuration Window” section on page 5-3 for further details. Step 2 Choose a Chassis and Module from the list boxes displayed at the left of the window. Step 3 Click Decommission to decommission the selected module. An Action Report window appears confirming that the decommissioning action was completed successfully.
Chapter 5 Managing Modules Module Fault Management Module Configuration Window—Detailed Description The Module Configuration window displays a single Configuration tab. Configuration Tab The Configuration tab (see Figure 5-1 on page 5-4) displays three areas: Additional Descriptions Actions, and Commission Status. Additional Descriptions The Descriptions 1 and Descriptions 2 fields (optional) allow you to specify additional description information for the selected module (if required).
Chapter 5 Managing Modules Module Fault Management Figure 5-4 Step 2 Module Fault Management Window Choose a Chassis and Module from the list boxes at the left of the window. The fault management information for the selected module appears. For detailed information on the areas within this tab, see “Module Fault Management Window—Detailed Description” section on page 5-8. Module Fault Management Window—Detailed Description The Module Fault Management window displays a single Fault Management tab.
Chapter 5 Managing Modules Module Performance • Last Authentication Failure Address—Displays the last authorization failure IP address for the selected module. • Operational Status—Displays the current operational status of the selected GRP module. Possible values are: – Up—Module is recognized by the device and is operational. – Down—Module is not recognized by the device or not enabled for operation. – Standby—Module is enabled and is acting as standby.
Chapter 5 Managing Modules Module Performance Viewing the Module Performance Window Note The Module performance window can be launched from the chassis level. Please note that this window cannot be launched from the module level. To view the Module Performance window, proceed as follows: Step 1 Right click on the chassis object and select the Performance>Module>Performance option. See Table 5-2 on page 5-2 for information on which objects allow you to launch the Module Performance window.
Chapter 5 Managing Modules Module Performance To Start/Stop performance logging for a selected module, proceed as follows: Step 1 Open the Module Performance window. See “Viewing the Module Performance Window” section on page 5-10 for further details. Step 2 Choose a Chassis and Module(s) from the list boxes displayed at the left of the window. The performance information for the selected GRP module is displayed. You can select multiple Modules from the Module object selector list.
Chapter 5 Managing Modules Module Inventory Module Inventory The Module Inventory section provides the following information: • Viewing the Module Inventory Window • Module Inventory Window—Detailed Description Viewing the Module Inventory Window To view the Module Inventory window for a selected module, proceed as follows: Step 1 Right click on the module and select the Cisco 12000/10720 Manager>Accounting>Module Inventory option.
Chapter 5 Managing Modules Module Inventory Step 2 Choose a Chassis and Module from the list boxes at the left of the window. The inventory information for the selected module appears. Note The Module Inventory window is read-only. Module Inventory Window—Detailed Description The Module Inventory window has two tabs: General and Asset Tracking. Only the General tab is applicable to Cisco 12000/10720 Router Manager. The Asset Tracking tab is not applicable to Cisco 12000/10720 Router Manager.
Chapter 5 Managing Modules Module Inventory Slot & Ports The Slot & Ports area contains the following fields: Slot Number—Slot position the module occupies in the chassis. Max Supported Ports—Maximum number of ports supported on this module. Sub Slot Number—Not applicable to Cisco 12000/10720 Router Manager. Number of Working Ports—Not applicable to Cisco 12000/10720 Router Manager. Asset Tracking The Asset Tracking tab is not applicable to Cisco 12000/10720 Router Manager. Cisco 12000/10700 v3.1.
C H A P T E R 6 Managing Interfaces This chapter describes the management tasks that can be performed on the interfaces of the Cisco 12000 Series and the Cisco 10720 Router being managed using the Cisco 12000/10720 Router Manager application. A number of interface topics (and the order in which they should be carried out) are identified in Figure 6-1.
Chapter 6 Managing Interfaces Cisco 12000/10720 Router Manager Interface Naming Conventions Table 6-1 Abbreviated Interface Names Interface Cisco 12000/10720 Router Manager Abbreviation POS POS 2-0 Fast Ethernet FastEthernet 2-0 Gigabit Ethernet GigabitEthernet 3-0 SRP SRP 4-0 DS3 Serial 6-0 Ethernet (GRP) Ethernet 0-0 ATM ATM 7-0 The following chapters describe the interface management topics: • Chapter 7, “Interface Profiles” • Chapter 8, “Interface Configuration” • Chapter 9, “I
C H A P T E R 7 Interface Profiles This chapter describes how to create interface profiles using the Cisco 12000/10720 Router Manager application. Cisco 12000/10720 Router Manager allows you to create and apply profiles to interfaces (see Figure 7-1). Figure 7-1 Interface Profiles Workflow Create interface profile(s) when required. Profiles allow you to apply a set of existing parameters to a number of similar type objects.
Chapter 7 Interface Profiles Interface Profile Types This chapter contains the following information: • “Interface Profile Types” section on page 7-2 • “Launching the Interface Profile Windows” section on page 7-2 • “Creating an ATM Interface Profile” section on page 7-3 • “Creating a POS Interface Profile” section on page 7-12 • “Creating an HSRP Profile” section on page 7-9 • “Creating a SRP Side Profile” section on page 7-17 Interface Profile Types Table 7-1 outlines the profile types avai
Chapter 7 Interface Profiles Creating an ATM Interface Profile Note Cisco 12000/10720 Router Manager windows cannot be opened when multiple objects are selected (the menu options to open the Cisco 12000/10720 Router Manager windows are grayed out). Available menu options can be launched from a site object containing the required objects, when required. Creating an ATM Interface Profile Note The ATM Interface Profile is not supported on the 10720 chassis.
Chapter 7 Interface Profiles Creating an ATM Interface Profile Figure 7-2 ATM Interface Configuration Profile Window (Configuration (1) Tab) Not applicable for Cisco 12000/10720 Router Manager See “ATM Interface Configuration Profile Window—Detailed Description” section on page 7-7 for further information on the parameters displayed in this window. Step 2 Click Create Profile. A Prompt window appears (see Figure 7-3) for you to enter a name for the new profile.
Chapter 7 Interface Profiles Creating an ATM Interface Profile Figure 7-3 Prompt Window Step 3 Enter a name for the new profile in the Enter profile name data entry box. Step 4 Click Ok. The ATM Interface Configuration Profile window reappears with the new profile name displayed in the ATM Profile list at the left of the window. Note Step 5 Choose the Copy and Copy Page Configuration options in the Edit menu to cut and paste between different profiles.
Chapter 7 Interface Profiles Creating an ATM Interface Profile Editing an Existing ATM Interface Profile To edit an existing ATM Interface profile, proceed as follows: Step 1 Choose the Cisco 12000/10720 Manager>Configuration>ATM>Configuration Profile option from an ATM interface object. See Table 7-2 on page 7-2 for information on which objects allow you to launch the ATM Interface Configuration Profile window.
Chapter 7 Interface Profiles Creating an ATM Interface Profile ATM Interface Configuration Profile Window—Detailed Description The ATM Interface Configuration Profile window displays two tabs: Configuration (1) and Configuration (2). Configuration (1) Tab The Configuration (1) tab (see Figure 7-2) displays two areas: ATM Configuration, and ILMI Configuration.
Chapter 7 Interface Profiles Creating an ATM Interface Profile NSAP (Network Service Access Point) Address-Specify the NSAP address. Not applicable for Cisco 12000/10720 Router Manager. Maximum Active VCI Bits—Not applicable for Cisco 12000/10720 Router Manager. Clock Source—Source of the clock. ILMI Configuration The ILMI Configuration area contains the following fields: Keepalive Time—The amount of time that should elapse between successive ILMI keepalive messages sent on this interface.
Chapter 7 Interface Profiles Creating an HSRP Profile Creating an HSRP Profile To create an HSRP profile, proceed as follows: Step 1 Choose the Cisco 12000/10720 Manager>Configuration>IP>HSRP Configuration Profile option from an Ethernet interface object. See Table 7-2 on page 7-2 for information on which objects allow you to launch the HSRP Profile window.
Chapter 7 Interface Profiles Creating an HSRP Profile Step 3 Enter a name for the new profile in the Enter profile name data entry box. Note Step 4 Click Ok. The HSRP Profile window reappears with the new profile name displayed in the HSRP Profile list at left of the window. Note Step 5 Each profile must have a unique name. When you choose a profile name, it is highly recommended to use a naming convention that describes the profile type. For example, an HSRP profile could be HSRP1.
Chapter 7 Interface Profiles Creating an HSRP Profile Deleting an Existing HSRP Interface Profile To delete an existing HSRP Interface profile, proceed as follows: Step 1 Choose the Cisco 12000/10720 Manager>Configuration>IP>HSRP Configuration Profile option from an Ethernet interface object. See Table 7-2 on page 7-2 for information on which objects allow you to launch the HSRP Profile window. Step 2 Choose Edit > Delete Profile. Choose the profile you wish to delete from the list displayed.
Chapter 7 Interface Profiles Creating a POS Interface Profile Standby Preempt—Allows you to set the standby preempt. The standby router waits for the set time and takes over as the active router if the current router fails or does not respond to the packets sent. IP Address—Enables HSRP and sets the virtual ip address. Priority [0-255]—Allows you to set the priority value that prioritizes a potential Hot Standby router. The allowable range is 0 to 255.
Chapter 7 Interface Profiles Creating a POS Interface Profile Figure 7-8 POS Profile Dialog —POS Config Tab See “POS Profile Window—Detailed Description” section on page 7-15 for further information on the parameters displayed in this window. Step 2 Click Create Profile. A Prompt window appears (see Figure 7-9) for you to enter a name for the new profile. Figure 7-9 Step 3 Prompt Window Enter a name for the new profile in the Enter profile name data entry box.
Chapter 7 Interface Profiles Creating a POS Interface Profile Step 4 Click Ok. The POS Profile window reappears with the new profile name displayed in the POS Profile list at left of the window. Note Step 5 Choose the Edit > Copy and Edit > Copy Page Configuration to copy and paste between different profiles. This is useful when you wish to copy configuration information from one profile to the next.
Chapter 7 Interface Profiles Creating a POS Interface Profile Deleting an Existing POS Interface Profile To delete an existing POS Interface profile, proceed as follows: Step 1 Choose the Cisco 12000/10720 Manager>Configuration>POS>Configuration Profile option from a POS interface object. See Table 7-2 on page 7-2 for information on which objects allow you to launch the POS Profile Dialog window. Step 2 Choose Edit > Delete Profile. Choose the profile you wish to delete from the list displayed.
Chapter 7 Interface Profiles Creating a POS Interface Profile Encapsulation—Allows you to select HDLC, PPP or FRAME RELAY encapsulation type. The default value is HDLC. Cyclic Redundancy Check—Allows you to select an option for cyclic redundancy check. Cyclic redundancy check basically consists of 16 or 32 bit verification code which has to be same at the both the transmitting and receiving to ensure the packets sent are received in full without loss of data. By default it is 32 bit code.
Chapter 7 Interface Profiles Creating a SRP Side Profile LAIS on Interface Shutdown—Allows you to enable or disable the LAIS on interface shutdown alarm messages. Section Loss of Frame Errors—Allows you to enable or disable the section loss of frame errors alarm messages. Path Loss of Pointer Errors—Allows you to enable or disable the path loss of pointer errors alarm messages. Action Create Profile—Choose Create Profile to create a new profile.
Chapter 7 Interface Profiles Creating a SRP Side Profile Step 2 Click Create Profile. A Prompt window appears (see Figure 7-13) for you to enter a name for the profile. Step 3 Click on the Alarms tab, if required. Figure 7-12 SRP Side Profile Window—Alarms tab Figure 7-13 Prompt Window Step 4 Enter a name for the new profile in the Enter Profile Name data entry box. Cisco 12000/10700 v3.1.
Chapter 7 Interface Profiles Creating a SRP Side Profile Step 5 Click OK. The SRP Side Profile window reappears with the new profile name displayed in the SRP Side Profile list at left of the window. Note Step 6 Each profile must have a unique name. Do not insert spaces into a profile name. A profile with a null value cannot be created. When you choose a profile name, it is highly recommended to use a naming convention that describes the profile type.
Chapter 7 Interface Profiles Creating a SRP Side Profile Figure 7-14 Deletion Prompt Window Step 3 Click Yes to delete the selected profile or click No to close the window without deleting the profile. Figure 7-15 Information window When a profile is deleted it disappears from the list of existing profiles displayed in the SRP Side Profile list at the left of the window.
Chapter 7 Interface Profiles Creating a SRP Side Profile SONET Overhead Path Signal Identifier—Allow you to set the path signal identifier. The permissible values range from 0 to 255. Section Trace Byte—Allows you to set the section trace byte. The permissible values are from 0 to 255. Note If the device has pre-defined default values for the Path Signal Identifier and Section Trace Byte parameters, the same values are displayed in this area when the profile is created.
Chapter 7 Interface Profiles Creating a SRP Side Profile Reporting Section Loss of Frame Errors—Allows you to enable/disable the loss of frame errors alarm messages. Section Loss of Signal Errors—Allows you to enable/disable the loss of signal errors alarm messages. Line Alarm Indication Signal Errors—Allows you to enable/disable the line alarm indication signal errors alarm messages.
C H A P T E R 8 Interface Configuration This chapter describes how to configure or set up the interfaces associated with each line card. You can configure or set up any interface through the Interface Configuration windows associated with each line card.
Chapter 8 Interface Configuration Launching the Interface Configuration Windows Table 8-1 Note Interfaces and Configuration Windows Interfaces Technology-Specific Configuration Windows POS Generic, POS and IP ATM Generic, ATM and IP Ethernet Generic, Ethernet and IP SRP Generic, IP and SRP SRP Side SRP Side Layer 3 QoS configuration, which includes CAR and WRED, is applicable to all types of interfaces on the 12000 Series Router chassis.
Chapter 8 Interface Configuration Generic Interface Configuration Table 8-2 Launching the Interface Configuration Windows (continued) Cisco 12000/10720 Router Manager Window/Task Objects (that can be selected) to Open the Window Menu Options to Select to Open Window Site Chassis 12000 Series Chassis 10720 Module Interface APS Interface Configuration Yes Yes Yes Yes POS Cisco 12000/10720 Manager>Interface> POS>APS Configuration SRP Interface Configuration Yes Yes Yes Yes SRP Cisco 1200
Chapter 8 Interface Configuration Generic Interface Configuration Viewing the Generic Interface Configuration Window To view the Interface Configuration window, proceed as follows: Step 1 Right click on the interface object and select the Cisco 12000/10720 Manager>Configuration> Generic>Configuration option. See Table 8-1 on page 8-2 for information on which objects allow you to launch the Interface Configuration window. The Interface Configuration window appears with the Configuration tab displayed.
Chapter 8 Interface Configuration Generic Interface Configuration To configure and commission a selected interface, follow these steps: Step 1 Open the Generic Interface Configuration window. See “Viewing the Generic Interface Configuration Window” section on page 8-4 for further details. Step 2 Choose a Chassis, Module and Interface from the lists displayed at the left of the window. Step 3 Configure the parameters displayed in the Configuration tab, as required.
Chapter 8 Interface Configuration ATM Interface Configuration Administration Status—Allows you to enable or disable the interface. Link Up/Down Trap Enable—Allows you to choose whether link up/down traps should be generated for this interface. Supplementary Information—Any additional information. Actions The Actions area allows you to commission or decommission a selected interface. Commission—Click Commission to commission the selected interface.
Chapter 8 Interface Configuration ATM Interface Configuration The ATM Interface Configuration window appears: Figure 8-2 ATM Interface Configuration Window—Configuration 1 Tab Not applicable to Cisco 12000/10720 Router Manager Step 2 Choose a Chassis, Module, and ATM Interface from the lists displayed at the left of the window. Configuring an ATM Interface To configure an ATM Interface, follow these steps: Step 1 Open the ATM Interface Configuration window.
Chapter 8 Interface Configuration ATM Interface Configuration Step 3 Choose Edit > Apply Profile and then choose the profile you wish to apply from the list displayed (if you are applying a profile). When a profile is applied, the attributes applied from the profile appear in blue. Step 4 Edit the parameters displayed in the Configuration (1) tab, as required. See “ATM Interface Configuration Window—Detailed Description” section on page 8-8 for further details.
Chapter 8 Interface Configuration Ethernet Interface Configuration Maximum VCCs—Maximum number of VCCs (PVCs and SVCs) supported at this interface. Maximum Active VCI Bits—Not applicable to Cisco 12000/10720 Router Manager. Number of VCs per VP—Set the number of virtual channels per virtual path. Clock Source—Source of the clock. NSAP (Network Service Access Point) Address—Specify the NSAP address.
Chapter 8 Interface Configuration Ethernet Interface Configuration Viewing the Ethernet Interface Configuration Window To view the Ethernet Interface Configuration window, proceed as follows: Step 1 Right-click on a selected Ethernet line card or an Ethernet interface, then choose Cisco 12000/10720 Manager>Configuration>Ethernet>Configuration.
Chapter 8 Interface Configuration Ethernet Interface Configuration Configuring an Ethernet Interface To configure an Ethernet Interface, follow these steps: Step 1 Open the Ethernet Interface Configuration window. See “Viewing the Ethernet Interface Configuration Window” section on page 8-10 for further details. Step 2 Choose a Chassis, Module, and Ethernet Interface from the lists displayed at the left of the window. Step 3 Edit the parameters displayed in the Configuration tab, as required.
Chapter 8 Interface Configuration Ethernet Interface Configuration Step 6 Configure the fields in the HSRP Parameters tab, as required. For further information on the fields displayed in this window, see “Ethernet Interface Configuration Window—Detailed Description” section on page 8-12. Step 7 Click Save to save your configuration changes. Step 8 Choose File > Close to close the window.
Chapter 8 Interface Configuration IP Configuration HSRP Parameters The HSRP Parameters area contains the following fields: Group Number—Group number on the interface for which HSRP is being activated. The default is zero. Standby Priority—Enable or disable the priority for the HSRP interface. Possible values are as follows: Enabled—When the current interface fails, it automatically switches to the standby interface. Disabled—When the current interface fails, it does not switch to a standby interface.
Chapter 8 Interface Configuration IP Configuration Viewing the IP Configuration Window To view the IP Configuration window, proceed as follows: Step 1 Right-click a selected IP line card or IP interface, then choose Cisco 12000/10720 Manager> Configuration>IP>Configuration. The IP Configuration window appears, with the Generic Parameters tab displayed.
Chapter 8 Interface Configuration POS Interface Configuration Step 4 Click Save to save your configuration changes. Step 5 Choose File > Close to close the window. IP Configuration Window—Detailed Description The IP Configuration window (see Figure 8-1) contains one tab: Generic Parameters Generic Parameters Tab The Generic Parameters tab contains a single Generic Parameters area.
Chapter 8 Interface Configuration POS Interface Configuration Figure 8-6 Step 2 POS Interface Configuration Window—POS Config Tab Choose a Chassis, Module, and POS Interface from the lists displayed at the left of the window. Configuring a POS Interface To configure a POS Interface, follow these steps: Step 1 Open the POS Interface Configuration window. See “Viewing the POS Interface Configuration Window” section on page 8-15 for further details.
Chapter 8 Interface Configuration POS Interface Configuration POS Interface Configuration Window—Detailed Description The POS Interface Configuration window contains one tab, POS Config. POS Config Tab The POS Config tab (see Figure 8-6) contains four areas: General, SONET Overhead, Alarm Reporting and Threshold, and Alarm Reporting. General The General area contains the following fields: POS SPE Scrambling—Enable or disable POS SPE scrambling. Scrambling is similar to encrypting.
Chapter 8 Interface Configuration APS Interface Configuration B2 BER Threshold Crossing Alarm (TCA)—Set threshold limits for the system to prompt appropriate B2 BER TCA threshold alarm messages. The field beside this value displays the threshold for the B2 BER TCA. B3 BER Threshold Crossing Alarm (TCA)—Set threshold limits for the system to prompt appropriate B3 BER TCA threshold alarm messages. The field beside this value displays the threshold for the B3 BER TCA.
Chapter 8 Interface Configuration APS Interface Configuration Viewing the APS Configuration Window To view the APS Configuration window, proceed as follows: Step 1 Right-click on a selected POS line card or POS interface, then choose Cisco 12000/10720 Manager>Configuration>POS>APS Configuration. The APS Configuration window appears: Figure 8-7 Step 2 APS Configuration Window—APS Tab Choose a Chassis, Module, and POS Interface from the lists displayed at the left of the window.
Chapter 8 Interface Configuration APS Interface Configuration Adding a Working Interface To add a working interface, proceed as follows: Step 1 Choose a Chassis, Module, and POS Interface from the list boxes at the left of the window. Step 2 Click Working. Step 3 Enter appropriate text in the Authentication and Group fields (for details on these fields, see “APS Configuration Window—Detailed Description” section on page 8-21). Step 4 Click Save.
Chapter 8 Interface Configuration APS Interface Configuration APS Configuration Window—Detailed Description The APS Configuration window displays a single APS tab. APS Tab The APS tab (see Figure 8-7 on page 8-19) displays a single APS Interface area. APS Interface The APS Interface area contains the following buttons and fields: Working—Select this button to establish a working interface. Protect—Select this button to establish a protected interface.
Chapter 8 Interface Configuration SRP Interface Configuration SRP Interface Configuration The SRP Interface Configuration window allows you to configure a selected SRP Interface.
Chapter 8 Interface Configuration SRP Interface Configuration Configuring a SRP Interface To configure a SRP Interface, proceed as follows: Step 1 Launch the SRP Interface Configuration window. Refer to Table 8-2 on page 8-2 for information on which objects allow you to launch the SRP Interface Configuration window. Step 2 Choose a Chassis, Module, and SRP Interface from the lists displayed at the left side of the window.
Chapter 8 Interface Configuration SRP Interface Side Configuration SRP Interface Side Configuration The SRP Side Configuration window allows you to configure a selected SRP Side.
Chapter 8 Interface Configuration SRP Interface Side Configuration Step 3 Click on the Alarms tab, if required. Figure 8-10 SRP Side Configuration window—Alarms tab Configuring a SRP Side To configure a SRP Side, proceed as follows: Step 1 Launch the SRP Interface Side Configuration window. Refer to Table 8-2 on page 8-2 for information on which objects allow you to launch the SRP Interface Side Configuration window.
Chapter 8 Interface Configuration SRP Interface Side Configuration SRP Interface Side Configuration Window—Detailed Description The SRP Interface Side Configuration window has two tabs namely: General, and Alarms General Tab The General tab displays three areas: General, SONET Overhead and IPS SONET. General The General area allows you to configure the following information: Clock Source—Allows you to configure the clock source from available options.
Chapter 8 Interface Configuration SRP Interface Side Configuration Alarms Tab The Alarms tab displays two areas: Reporting & Threshold, and Reporting Reporting and Threshold The Reporting & Threshold area allows you to configure the following information: B1 BER Threshold Crossing Alarm—Allows you to enable/disable threshold limits for the system to prompt appropriate B1 BER Threshold alarm messages.
Chapter 8 Interface Configuration SRP Interface Side Configuration Cisco 12000/10700 v3.1.
C H A P T E R 9 Interface Status This chapter describes how to view status information for each of the interfaces on the Cisco device being managed using the Cisco 12000/10720 Router Manager application.
Chapter 9 Interface Status Launching the Interface Status Windows Table 9-1 Interface Types and Status Windows (continued) Interface Type Technology-Specific Status Window SRP Generic, SRP and SRP Side SRP Side SRP Side and SONET Launching the Interface Status Windows Table 9-2 displays the Interface Status windows that can be launched from each object type. For example, the Generic Interface Status window can be launched from a Site, Chassis, Module, or Generic Interface object only.
Chapter 9 Interface Status Generic Interface Status Generic Interface Status The Generic Interface Status section covers the following areas: • Viewing the Generic Interface Status Window • Generic Interface Status Window—Detailed Description Viewing the Generic Interface Status Window To view the Generic Interface Status window for any type of interface, proceed as follows: Step 1 Right click on the interface object and choose Cisco 12000/10720 Manager>Fault>Interface> Generic>Status.
Chapter 9 Interface Status Generic Interface Status Generic Interface Status Window—Detailed Description The Generic Interface Status tab has three areas: Interface Details, Last Change Details, and Transmission Details. Interface Details The Interface Details area displays the following fields: Type—Type of interface. Description—Information about the interface. Generally contains the interface name. Operational Status—Current operational status of the interface.
Chapter 9 Interface Status ATM Interface Status ATM Interface Status The ATM Interface Status section covers the following areas: Note • Viewing the ATM Interface Status Window • ATM Interface Status Window—Detailed Description The ATM Interface Status dialog is not supported by the Cisco 10720 chassis.
Chapter 9 Interface Status ATM Interface Status Figure 9-2 ATM Interface Status Window Not applicable to Cisco 12000/10720 Router Manager Step 2 Choose a Chassis, Module, and ATM Interface from the lists displayed at the left of the window. ATM Interface Status Window—Detailed Description The Status tab displays five areas: ATM Transmit Status, ATM Receive Status, Physical Layer Status, ATM Port Status, and Action.
Chapter 9 Interface Status ATM Interface Status ATM Receive Status The ATM Receive Status area is not applicable to Cisco 12000/10720 Router Manager. Physical Layer Status The Physical Layer Status area contains the following fields: Physical Interface Status—Not applicable to Cisco 12000/10720 Router Manager. Clock Source Status—Not applicable to Cisco 12000/10720 Router Manager. Physical Port Type—Type of physical layer medium on this interface.
Chapter 9 Interface Status ATM Interface Faults ATM Interface Faults The ATM Interface Faults section covers the following areas: • Viewing the ATM Interface Faults Window • ATM Interface Faults Window—Detailed Description Viewing the ATM Interface Faults Window To view the ATM Interface Faults window, proceed as follows: Step 1 Right-click on a selected ATM interface, then choose Cisco 12000/10720 Manager>Fault> Interface>ATM>Fault.
Chapter 9 Interface Status DS3/E3 Interface Status Step 2 Choose a Chassis, Module, and ATM Interface from the lists displayed at the left of the window. The fault information is displayed for the selected ATM interface. ATM Interface Faults Window—Detailed Description The ATM Interface Faults window displays a single Fault tab. Fault Tab The Fault tab (see Figure 9-3) displays three areas: General Errors, SONET Frame Errors, and DS1/E1/DS3/E3 Errors.
Chapter 9 Interface Status DS3/E3 Interface Status The DS3/E3 Interface Status window appears with the Status tab displayed. Figure 9-4 Step 2 DS3/E3 Interface Status Window Choose a Chassis, Module, and DS3/E3 Interface from the lists displayed at the left of the window. DS3/E3 Interface Status Window—Detailed Description The DS3/E3 Interface Status window has a single Status tab. Status Tab The Status tab displays two areas: DS3/E3 Status, and Far End DS3/E3 Status. Cisco 12000/10700 v3.1.
Chapter 9 Interface Status DS3/E3 Interface Status DS3/E3 Status The DS3/E3 Status area displays the following fields: Send Code—Type of code that is being sent across the DS-3 interface by the device. Valid Intervals—Number of previous near end intervals for which data was collected. Time Elapsed—Number of seconds that have elapsed after the beginning of the near end current error measurement period started. Line Coding—Zero code suppression used in this interface.
Chapter 9 Interface Status SONET Interface Status SONET Interface Status The SONET Interface Status section covers the following areas: • Viewing the SONET Interface Status Window • SONET Status Window—Detailed Description Viewing the SONET Interface Status Window To view the SONET Interface Status window, proceed as follows: Step 1 Right click (on a relevant object icon in the Map Viewer window or from an object pick list) and choose Cisco 12000/10720 Manager>Fault>Interface>SONET>Status.
Chapter 9 Interface Status SONET Interface Status Step 2 Choose a Chassis, Module, and SONET Interface from the list boxes displayed at the left of the window. The details for the selected interface appear. Step 3 Choose the Section tab, if required (see Figure 9-6 on page 9-13). Figure 9-6 SONET Interface Status—Section Tab Cisco 12000/10700 v3.1.
Chapter 9 Interface Status SONET Interface Status Step 4 Choose the Line tab, if required (see Figure 9-7). Figure 9-7 SONET Interface Status—Line Tab Cisco 12000/10700 v3.1.
Chapter 9 Interface Status SONET Interface Status Step 5 Choose the Path tab, if required (see Figure 9-8). Figure 9-8 Note SONET Interface Status—Path Tab The Virtual Tributary tab is not applicable to Cisco 12000/10720 Router Manager. Cisco 12000/10700 v3.1.
Chapter 9 Interface Status SONET Interface Status SONET Status Window—Detailed Description The Sonet Status Window displays five tabs: Medium, Section, Line, Path, and Virtual Tributary (not applicable to Cisco 12000/10720 Router Manager). Medium The Medium tab (see Figure 9-5 on page 9-12) displays the following fields: Type—Displays if the signal used across this interface is SONET or SDH. Line Coding—Type of line coding used in the interface.
Chapter 9 Interface Status SRP Interface Status Virtual Tributary The Virtual Tributary tab is not applicable to Cisco 12000/10720 Router Manager.
Chapter 9 Interface Status SRP Interface Status Step 2 Choose a Chassis, Module and SRP Interface from the list boxes displayed on the left side of the window. SRP Interface Status Window—Detailed Description The SRP Interface Status window displays the Interface tab. Interface Tab MAC Address—Displays the node MAC address MAC Passthrough—Displays the status of the MAC Passthrough. If set, the path for the data is available even if the node is not operational.
Chapter 9 Interface Status SRP Side IPS Status SRP Side IPS Status The Side IPS Status section covers the following: • Viewing the IPS Status Attributes • IPS Status Window—Detailed Description Viewing the IPS Status Attributes This dialog displays the Intelligent Protection Switching (IPS) status of the selected side interface. To view the IPS Status window, proceed as follows: Step 1 Right click a SRP side interface and choose Cisco 12000/10720 Manager>Fault>SRP>Side>IPS Status.
Chapter 9 Interface Status SRP Topology Map IPS Status Window—Detailed Description The IPS Status window displays two areas: IPS Status and Remote Node.
Chapter 9 Interface Status SRP Topology Map Figure 9-11 SRP Topology Map Step 2 Choose a Chassis, Module and SRP Interface from the list boxes displayed on the left side of the window. The topology details of the selected SRP interface appears in the table on the right side of the window. SRP Topology Map—Detailed Description The SRP Topology Map window displays the Topology Map area. Topology Map Hops—Displays either 0 or a positive integer.
Chapter 9 Interface Status SRP Topology Map Cisco 12000/10700 v3.1.
C H A P T E R 10 Interface Performance This chapter describes how to view performance information for each of the interfaces on the Cisco 12000/10720 Routers you are managing, using the Cisco 12000/10720 Router Manager application. There are two performance options in Cisco 12000/10720 Router Manager: the Interface Performance windows and the Performance Manager application.
Chapter 10 Interface Performance Launching the Interface Performance Windows Table 10-1 details which technology-specific performance windows apply to each interface type.
Chapter 10 Interface Performance Generic Interface Performance Generic Interface Performance The Generic Interface Performance section covers the following areas: • Viewing the Generic Interface Performance Window • Starting Performance Logging for a Selected Interface • Stopping Performance Logging for a Selected Interface • Generic Interface Performance Window—Detailed Description Viewing the Generic Interface Performance Window To view the Interface Performance window, proceed as follows: Step
Chapter 10 Interface Performance Generic Interface Performance Step 2 Choose a Chassis, Module, and Interface from the list boxes displayed at the left of the window. The interface performance information for the selected interface appears in the tabs at right. Note Step 3 Transmitted/Received Bandwidth Utilization will not be calculated and displayed until after a performance logging poll (15 minutes), and only if performance logging is active for the interface.
Chapter 10 Interface Performance Generic Interface Performance Figure 10-3 Interface Performance Window—Performance (3) Tab The Packets/Octets statistics for the selected interface appear. Starting Performance Logging for a Selected Interface Note Performance logging can also be started/stopped on a global basis for a selected chassis. See “Starting Global Performance Logging” section on page 4-9. Performance logging can also be started on a per module (GRP) basis.
Chapter 10 Interface Performance Generic Interface Performance To start performance logging for a selected interface, proceed as follows: Step 1 Open the Interface Performance window. See “Viewing the Generic Interface Performance Window” section on page 10-3 for further details. Step 2 Choose a Chassis, Module, and Interface from the lists displayed at the left of the window. Step 3 Click Start to begin performance logging for the selected interface.
Chapter 10 Interface Performance Generic Interface Performance Stopping Performance Logging for a Selected Interface To stop performance logging for a selected interface, proceed as follows: Step 1 Open the Interface Performance window. See “Viewing the Generic Interface Performance Window” section on page 10-3 for further details. Step 2 Choose a Chassis, Module, and Interface from the lists displayed at the left of the window.
Chapter 10 Interface Performance Generic Interface Performance Generic Interface Performance Window—Detailed Description The Interface Performance window contains three tabs: Performance (1), Performance (2) and Performance (3). Performance (1) Tab The Performance (1) tab (see Figure 10-1) contains three areas: General Information, Packets/Octets Statistics, and Performance Logging.
Chapter 10 Interface Performance Generic Interface Performance Performance Logging The performance Logging area displays Start and Stop buttons. Start—Click Start to begin performance logging for the selected interface. Stop—Click Stop to stop performance logging for the selected interface. Note The VLAN sub-interfaces do not support the fields, In Bits/sec, In Packets/sec, Out Bits/sec, Out Packets/sec, displayed in the Packets/Octets Statistics area in the Performance (1) tab.
Chapter 10 Interface Performance SONET Interface Performance Performance (3) Tab The Performance (3) tab (see Figure 10-3) displays a single Packets/Octets Statistics (High Capacity) area.
Chapter 10 Interface Performance SONET Interface Performance Figure 10-8 SONET Interface Performance—Section Tab Step 2 Choose a Chassis, Module, and SONET Interface from the list boxes at the left of the window. The performance information for the selected interface appears (see Figure 10-8). Step 3 Choose the Line tab, if required. Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance SONET Interface Performance Figure 10-9 SONET Interface Performance—Line Tab Step 4 Choose the Path tab, if required. Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance SONET Interface Performance Figure 10-10 SONET Interface Performance—Path Tab Note The Virtual Tributary tab is not applicable to Cisco 12000/10720 Router Manager. Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance SONET Interface Performance SONET Performance Window—Detailed Description The SONET Performance window displays four tabs: Section, Line, Path, and Virtual Tributary (not applicable to Cisco 12000/10720 Router Manager). Section Tab The Section tab (see Figure 10-8 on page 10-11) displays a single Section area containing the following fields: Errored Seconds—Total number of errored seconds encountered by the SONET interface in the current 15 minute interval.
Chapter 10 Interface Performance DS3/E3 Interface Performance Path Tab The Path tab (see Figure 10-10 on page 10-13) displays two areas: Path and Far End Path. Path The Path area displays the following fields: Errored Seconds—Total number of errored seconds encountered by the SONET path. Severely Errored Seconds—Number of severely errored seconds encountered by the SONET path. Unavailable Seconds—Total number of unavailable seconds encountered by SONET path.
Chapter 10 Interface Performance DS3/E3 Interface Performance Figure 10-11 DS3/E3 Interface Performance Window—DS3 Performance Tab Step 2 Choose a Chassis, Module, and DS3 Interface from the list boxes displayed at the left of the window. The DS3/E3 interface performance information for the selected interface appears. Step 3 Choose the E3 Performance tab, if required, to view the E3 Performance details (see Figure 10-12). Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance DS3/E3 Interface Performance Figure 10-12 DS3/E3 Interface Performance Window—E3 Performance Tab DS3/E3 Interface Performance Window—Detailed Description The DS3/E3 Interface Performance window displays two tabs: DS3 Performance and E3 Performance. DS3 Performance Tab The DS3 Performance tab (see Figure 10-11 on page 10-16) displays two areas: DS3 Statistics and Far End DS3 Statistics. Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance DS3/E3 Interface Performance DS3 Statistics The DS3/E3 Statistics area displays the following information: C-bit Coding Violations—Number of C-bit coding violations encountered by the interface. C-bit Errored Seconds—Number of C-bit errored seconds detected by the interface. C-bit Severely Errored Seconds—Number of times C-bit severely errored seconds detected by the interface. P-bit Coding Violations—Number of P-bit coding violations detected by the interface.
Chapter 10 Interface Performance Ethernet Interface Performance Ethernet Interface Performance The Ethernet Interface Performance section covers the following areas: • Viewing the Ethernet Interface Performance Window • Ethernet Interface Performance Window—Detailed Description Viewing the Ethernet Interface Performance Window To view the Ethernet Interface Performance window, proceed as follows: Step 1 Right click on the Ethernet interface object and choose Cisco 12000/10720 Manager> Performance>Eth
Chapter 10 Interface Performance Ethernet Interface Performance Step 2 Choose a Chassis, Module, and Ethernet Interface from the list boxes displayed at the left of the window. The performance information for the selected interface appears. Ethernet Interface Performance Window—Detailed Description The Ethernet Interface Performance tab (see Figure 10-13 on page 10-19) displays two areas: General Statistics and Collision Statistics.
Chapter 10 Interface Performance SRP Performance SRP Performance The SRP Performance section covers the following areas: • Viewing the SRP Performance Window • SRP Performance Window—Detailed Description Viewing the SRP Performance Window To view the SRP Performance window, proceed as follows: Step 1 Right click on the SRP interface object and choose Cisco 12000/10720 Manager>Performance> SRP>Performance.
Chapter 10 Interface Performance SRP Performance Figure 10-15 SRP Performance window—Outer Ring tab Step 4 Click on the Inner Ring tab, if required. Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance SRP Performance Figure 10-16 SRP Performance Window—Inner Ring Tab Step 5 Click on the Side tab, if required. Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance SRP Performance Figure 10-17 SRP Performance window—Side tab Note The performance windows are not applicable to the OC-12 line cards. SRP Performance Window—Detailed Description The SRP Performance window displays four tabs: Interface, Outer Ring, Inner Ring and Side Note All the counters that are mentioned in this dialog are subjected to the current 15 minutes interval on the device.
Chapter 10 Interface Performance SRP Performance Interface Tab The Interface tab displays three areas: Counters for last x seconds, Utilization and Data Traffic Counters for last x seconds Time Elapsed—Indicates the number of seconds which have elapsed in the current interval. The Time Elapsed value ranges between 0 to 900. When this value is 0, all the counters in the dialog are of value 0.
Chapter 10 Interface Performance SRP Performance Outer Ring Tab The Outer Ring tab displays three areas: Counters for last x seconds, Utilization and Data Traffic Counters for last x seconds Time Elapsed—Indicates the number of seconds that have elapsed in the current interval. The Time Elapsed value ranges between 0 to 900. When this value is 0, all the counters in the dialog are of value 0.
Chapter 10 Interface Performance SRP Performance Inner Ring Tab The Inner Ring tab displays three areas: Counters for last x seconds, Utilization and Data Traffic Counters for last x seconds Time Elapsed—Indicates the number of seconds that have elapsed in the current interval. The Time Elapsed value ranges between 0-900. When the Time Elapsed is of value 0, all the counters in the dialog are of value 0.
Chapter 10 Interface Performance SRP Side Performance Side Tab The Side tab displays three areas: Counters for last x seconds, Side A Data Traffic (Bytes) and Side B Data Traffic (Bytes). Counters for last x seconds Time Elapsed—Indicates the number of seconds that have elapsed in the current interval. The Time Elapsed value ranges between 0-900. When the Time Elapsed is of value 0, all the counters in the dialog are of value 0.
Chapter 10 Interface Performance SRP Side Performance Viewing the SRP Side Performance Window To view the SRP Side Performance window, proceed as follows: Step 1 Right click on a SRP Side interface object and choose Cisco 12000/10720 Manager> Performance>SRP>Side>Performance. See Table 10-2 on page 10-2 for information on which objects allow you to launch the SRP Side Performance window. The SRP Side Performance window appears, with the Ring tab displayed.
Chapter 10 Interface Performance SRP Side Performance Figure 10-19 SRP Side Performance window—Host tab Step 4 Click on the Errors tab, if required. Figure 10-20 SRP Side Performance window—Errors Tab Cisco 12000/10700 v3.1.
Chapter 10 Interface Performance SRP Side Performance Note The performance dialogs are not applicable to the OC-12 line cards SRP Side Performance Window—Detailed Description The SRP Side Performance window displays three tabs: Ring, Host and Errors. Note All the counters that are mentioned in this dialog are subjected to the current 15 minutes interval on the device. Ring Tab The Ring tab displays four areas: Packets In, Packets Out, Octets In and Octets Out.
Chapter 10 Interface Performance SRP Side Performance Low Priority Multicast—Displays the number of low priority multicast octets received from the physical layer. High Priority Multicast—Displays the number of high priority multicast octets received from the physical layer. Octets Out Low Priority Unicast—Displays the number of low priority unicast octets going to the physical layer. High Priority Unicast—Displays the number of high priority unicast octets going to the physical layer.
Chapter 10 Interface Performance SRP Side Performance Octets Out Low Priority Unicast—Displays the number of low priority unicast octets going to the higher layer. High Priority Unicast—Displays the number of high priority unicast octets going to the higher layer. Low Priority Multicast—Displays the number of low priority multicast octets going to the higher layer. High Priority Multicast—Displays the number of high priority multicast octets going to the higher layer.
Chapter 10 Interface Performance SRP Side Performance Cisco 12000/10700 v3.1.
C H A P T E R 11 Layer 3 QoS This chapter describes how to create and configure Layer 3 QoS (Quality of Service), Committed Access Rate (CAR) policies, Cos Queue groups and Weighted Random Early Detection To-Fabric (WRED ToFab) policies. The Layer 3 QoS dialogs are not available for the 10720 chassis.
Chapter 11 Layer 3 QoS Launching the Layer 3 QoS Windows Table 11-1 Launching the Layer 3 QoS Windows Objects (that can be selected) to Open the Window Layer 3 QoS Window/Task Site Chassis Chassis Module 12000 Series 10720 Interface CAR Access WRED Policy List MDRR CoS Queue Group Menu Options to Launch the Window CAR Policy Configuration Yes Yes No Yes Yes Yes Yes No No Cisco 12000/10720 Manager> Configuration>Interface>QoS> CAR Policy Configuration Access List Configuration Yes
Chapter 11 Layer 3 QoS CAR and WRED Overview CAR and WRED Overview Access Lists Access lists enhance the abilities of a CAR policy. For example, access lists allow you to specify certain types of traffic, or certain locations where the traffic is coming from. Committed Access Rate (CAR) CAR is a policing mechanism that allows you to partition your network into multiple priority levels or classes of service. You set the IP precedence for packets entering the network.
Chapter 11 Layer 3 QoS CAR and WRED Overview Towards the Fabric (ToFab) ToFab describes the receive side traffic queues from a line card to (towards) the Switch fabric.
Chapter 11 Layer 3 QoS CAR and WRED Overview Implications of Engine Type Engine type refers to different hardware architectures. From a management perspective, the engine type determines what functionality is available to the client. Currently, this only applies to Layer 3 QoS.
Chapter 11 Layer 3 QoS The Workflow for CAR The Workflow for CAR To begin working with CAR objects, proceed as follows: Step 1 Create and configure a CAR policy. Step 2 Create and configure an access list (optional). Step 3 Apply one or more access lists to the CAR policy. Step 4 Apply the created CAR policy to one or multiple interfaces.
Chapter 11 Layer 3 QoS CAR Policy Configuration • Available exceed-actions are: – drop (drop packet) – set-prec-transmit (rewrite packet precedence and send it) – transmit (transmit packet) If an attempt is made to apply a CAR policy to an engine 2 module, then the request will be refused and an appropriate error message is displayed, if an attempt is made to use CAR functionality other than that listed above. On engine 0 and 1 modules, the full range of CAR functions is supported.
Chapter 11 Layer 3 QoS CAR Policy Configuration Figure 11-1 CAR Policy Configuration Window Step 2 Choose Create CAR Policy. A popup window appears asking for you to enter a name for the CAR policy. Step 3 Enter a name for the CAR policy you are about to create, then choose Ok. A window appears, confirming if you were successful or not. The name of your new profile appears in the list box at the left of the window.
Chapter 11 Layer 3 QoS CAR Policy Configuration Step 4 In the Actions area, choose the right facing arrow to move the selected access list into the Required Access List. Step 5 Choose Save to save the changes. CAR Policy Configuration Window—Detailed Description The CAR Policy Configuration displays a single CAR Policy Configuration tab. CAR Policy Configuration Tab The CAR Policy Configuration tab displays four tabs: CAR Parameters, Access List Choice, Conform Action, and Exceed Action.
Chapter 11 Layer 3 QoS Access List Configuration Exceed Action The Exceed Action area contains the following fields: Continue—Evaluate the next rate-limit command. Drop—Choose to drop the packet or not. Transmit—Choose to transmit the packet or not. Set Prec. To Y and Continue—(numbers 0-7) Set precedence to an integer and continue. Set Prec To Y and Transmit—(numbers 0-7) Set precedence to an integer and transmit. Access List Configuration Access lists are supplemental to CAR policies.
Chapter 11 Layer 3 QoS Access List Configuration Figure 11-2 Access List Configuration—General Tab Step 2 Choose Create Access List. A popup window appears asking you to enter a name for the access list. Step 3 Enter a name for the access list you are about to create, then choose Ok. A window appears, confirming if the access list creation was successful or not. The name of your new access list appears in the list box at the left of the window.
Chapter 11 Layer 3 QoS Access List Configuration Access List Configuration Window—Detailed Description The Access List Configuration window contains one button, Create. The Create button is used to create an access list. When you choose Create, a new access list of type IP standard is created and the next available index is assigned. The access list type can be changed and saved if desired.
Chapter 11 Layer 3 QoS Access List Configuration IP Standard Tab The IP Standard tab displays a single IP Standard area: Figure 11-3 Access List Configuration—IP Standard Tab IP Standard The IP Standard area displays five fields: Access Action—Action to be taken if the conditions are matched. This value will be either deny or permit. Host Type—Host type indicates the hosts for which the access action are available.
Chapter 11 Layer 3 QoS Access List Configuration IP Address—IP address of the host (or source of the packet) for which the access action is applicable. Wild Card—If the access action is applicable for more than one host, then this field should be used as a mask. For example, the wild card 255.255.255.255 effectively represents any. IP Precedence Tab The IP Precedence tab appears as follows: Figure 11-4 Access List Configuration—IP Precedence Tab The IP Precedence tab contains one area: IP Precedence.
Chapter 11 Layer 3 QoS Access List Configuration MAC The MAC tab appears as follows: Figure 11-5 Access List Configuration—MAC Tab The MAC tab contains one area: MAC. MAC The MAC area contains one field: MAC Address—Type in the MAC address for the packets to be classified. Cisco 12000/10700 v3.1.
Chapter 11 Layer 3 QoS Access List Configuration IP Extended Tab The IP Extended tab displays a single IP Extended area. The IP Extended area is further split into three sub-areas: Dynamic List, Source, and Destination. Figure 11-6 Access List Configuration Window—IP Extended Tab IP Extended The IP Extended area contains two fields: Access Action—Action to be taken if the conditions are matched. Possible actions are deny and permit. Protocol Name—Name or number of an IP protocol.
Chapter 11 Layer 3 QoS Access List Configuration Dynamic—Defines the selected access list to be dynamic. Dynamic access lists grant access per user to a specific source or destination host through a user authentication process. You can allow user access through a firewall dynamically, without compromising security restrictions. Dynamic List Name—Defines a name for the dynamic list (only available if Dynamic button is selected).
Chapter 11 Layer 3 QoS CAR Policy Apply CAR Policy Apply The CAR Policy Apply section covers the following areas: • Applying a CAR Policy to an Interface • Removing a CAR Policy from an Interface • Editing or Deleting a CAR Policy • CAR Policy Apply Window—Detailed Description Applying a CAR Policy to an Interface To apply a CAR policy to an interface, proceed as follows: Step 1 Choose Cisco 12000/10720 Manager>Configuration>Interface>QoS>CAR Policy Apply from a relevant object icon (in the Map
Chapter 11 Layer 3 QoS CAR Policy Apply Step 4 When you have moved the CAR policy choose Apply. Note If a CAR policy fails to be applied to an interface the Apply Status area on the CAR Policy Apply window (see Figure 11-7) is updated accordingly. If the interface is being managed, the selected CAR policy is downloaded to the device. For more details on the fields within this tab, see “CAR Policy Apply Window—Detailed Description” section on page 11-20.
Chapter 11 Layer 3 QoS CAR Policy Apply Figure 11-8 Deployment Wizard—Summary Step 3 Choose Finish, and the CAR policy is deleted. If deletion fails, another interface might be currently using the CAR policy, therefore you cannot delete the object. CAR Policy Apply Window—Detailed Description The CAR Policy Apply window has one tab, CAR Policy Apply. CAR Policy Apply Tab The CAR Policy Apply tab contains two list boxes and two areas, Actions and Apply Status.
Chapter 11 Layer 3 QoS CAR Policy Status Left arrow button (<<)—Allows you to move CAR policies from the Required Order list to the Available Policies list. Apply button—Allows you to apply the CAR policies listed in the Required Order list to the selected interface. Apply Status The Apply Status area contains one field, as follows: Status of Last Apply—Status of the last CAR policy applied to an interface. This value can be either succeeded or failed.
Chapter 11 Layer 3 QoS The Workflow for WRED/DRR Figure 11-9 CAR Policy Status Window Step 2 Choose the correct Chassis, Module, and IP Interface from the list boxes at the left of the window. The Workflow for WRED/DRR To begin working with WRED objects, the first step is to create and configure a CoS queue group (which includes DRR, or Distributed Round Robin). You can then apply the created CoS queue group to one or multiple interfaces.
Chapter 11 Layer 3 QoS CoS Queue Group Configuration CoS Queue Group Configuration The CoS Queue Group Configuration section covers the following areas: • Creating a CoS Queue Group Under WRED • Editing an Existing CoS Queue Group • Deleting an Existing CoS Queue Group • CoS Queue Group Configuration Window—Detailed Description Creating a CoS Queue Group Under WRED To create a CoS queue group under WRED, proceed as follows: Step 1 Choose Cisco 12000/10720 Manager>Configuration>Interface>QoS>CoS Q
Chapter 11 Layer 3 QoS CoS Queue Group Configuration Step 2 Choose Create. Step 3 Enter the CoS queue group name, then choose Ok. A window appears, confirming if the CosQ group creation was successful or not. If successful, the name of your new CoS queue group appears in the list box at the left of the window. Step 4 Modify the parameters in both tabs, as required. See “CoS Queue Group Configuration Window—Detailed Description” section on page 11-25 for further details.
Chapter 11 Layer 3 QoS CoS Queue Group Configuration Figure 11-11 Step 3 Deployment Wizard—Summary Click Finish, and the CoS queue group is deleted. If deletion fails, another interface might be currently using the CoS queue group; therefore, you cannot delete the object. CoS Queue Group Configuration Window—Detailed Description The CoS Queue Group Configuration window has two tabs: CoS Queue Group and DRR (Deficit Round Robin).
Chapter 11 Layer 3 QoS CoS Queue Group Configuration IP Precedence The IP Precedence area contains a table with two headings: IP Precedence and Drop Label. IP Precedence—This column allows the user to map packets that have a particular IP precedence to a WRED profile in this CoS queue group. You can map several or all precedences to the same WRED profile if you wish. By default, precedence values are mapped so that they are not dropped due to WRED.
Chapter 11 Layer 3 QoS CoS Queue Group Configuration DRR Tab The DRR tab appears as follows: Figure 11-12 CoS Queue Group Configuration Window—DRR Tab The DRR tab has two areas: DRR Mapping and DRR Queue. There is also a Low-latency field. DRR Mapping The DRR Mapping area allows you to map a particular IP precedence to a regular DRR queue (values 0-6 or low-latency). DRR Queue The DRR Queue area allows you to give a relative weight to each DRR queue. Low-latency—Only applicable for MDRR.
Chapter 11 Layer 3 QoS WRED Tx Configuration WRED Tx Configuration The WRED Tx Configuration section covers the following areas: • Applying a CoS Queue Group to an Interface • Removing a CoS Queue Group from an Interface • Changing the Association of a CoS Queue Group • WRED Tx Configuration Window—Detailed Description Applying a CoS Queue Group to an Interface To apply a CoS Queue Group to an interface, proceed as follows: Step 1 Choose Cisco 12000/10720 Manager>Configuration>Interface>QoS>WRED
Chapter 11 Layer 3 QoS WRED Tx Configuration Figure 11-13 WRED Tx Configuration Window Step 2 Choose the Chassis, Module and Interface to apply the CoS queue group to from the list boxes displayed at the left of the window. More than one Chassis, Module or Interface can be selected at a time. Step 3 Choose the correct CoS queue group and highlight it in the Available CoS Queue Group list. Step 4 Choose Apply.
Chapter 11 Layer 3 QoS WRED Tx Configuration Removing a CoS Queue Group from an Interface To remove an applied CoS queue group from an interface, proceed as follows: Step 1 In the Layer 3 QoS view, right-click on the desired CoS queue group, then choose Cisco 12000/10720 Manager>Configuration>QoS>WRED Tx Configuration. The WRED Tx Configuration window appears (see Figure 11-13 on page 11-29).
Chapter 11 Layer 3 QoS WRED Tx Configuration WRED Tx Configuration Window—Detailed Description The WRED Tx Configuration window displays a single Tx Config tab. Tx Config Tab The Tx Config tab displays three areas: Available COS Queue Group, Associated COS Queue Group Information, and Apply Status. Available COS Queue Group The Available CoS Queue Group area displays the following fields: Available COS Queue Group—This list box displays all the available CoS queue groups.
Chapter 11 Layer 3 QoS WRED ToFab Configuration WRED ToFab Configuration The WRED ToFab section covers the following areas: • Creating a ToFab Policy • Editing an Existing ToFab policy • Deleting an Existing ToFab policy • WRED ToFab Policy Configuration Window—Detailed Description Creating a ToFab Policy A user can create a WRED ToFab policy and associate the policy to line cards across devices.
Chapter 11 Layer 3 QoS WRED ToFab Configuration Figure 11-14 ToFab Configuration Window—ToFab Policy Configuration Tab Step 2 Click Create. Step 3 Enter the WRED ToFab policy name, and then choose Ok. A window appears, confirming if you were successful or not. The name of your new ToFab policy appears in the list box at the left side of the window. Step 4 Modify the parameters as required. See “WRED ToFab Policy Configuration Window—Detailed Description” section for further details.
Chapter 11 Layer 3 QoS WRED ToFab Configuration Step 3 Modify the parameters in the ToFab Configuration tab, as required. See WRED ToFab Policy Configuration Window—Detailed Description for further details. Step 4 Click Save to save the changes. Deleting an Existing ToFab policy A ToFab policy can be deleted only if it is not currently associated to any line cards. If a policy is associated to a line card, it cannot be deleted unless it is disassociated from the line card.
Chapter 11 Layer 3 QoS WRED ToFab Configuration Step 4 Click Finish, and the ToFab policy is deleted. Note If deletion fails, another module/line card might be currently using the ToFab policy; therefore, you cannot delete the object. WRED ToFab Policy Configuration Window—Detailed Description The WRED ToFab Policy Configuration window displays a single ToFab Policy Configuration tab.
Chapter 11 Layer 3 QoS WRED Rx Configuration WRED Rx Configuration The WRED Rx Configuration section covers the following areas: • Associating a ToFab Policy to a Line card • Disassociating a ToFab Policy from a Line card • Changing the Association of a ToFab Policy • WRED Rx Configuration Window—Detailed Description Associating a ToFab Policy to a Line card To associate a ToFab policy to a line card, proceed as follows: Step 1 Launch the Map Viewer, and choose the Layer3QoSView.
Chapter 11 Layer 3 QoS WRED Rx Configuration Step 2 Choose the Chassis and Module to associate the ToFab policy from the list box displayed at the left of the window. More than one Chassis or Module can be selected at a time. Step 3 Choose the ToFab policy in the available ToFab policy list. Step 4 Click Associate Disassociating a ToFab Policy from a Line card To disassociate a ToFab policy from a line card, proceed as follows: Step 1 Launch the Map Viewer, choose the Layer3QoSView.
Chapter 11 Layer 3 QoS WRED Rx Configuration WRED Rx Configuration Window—Detailed Description The WRED Rx Configuration window displays a single Rx Configuration Tab. Rx Configuration Tab Policy Name—The user can choose the ToFab policy from this list. This list contains all the ToFab policies. Actions Associate—Highlight the ToFab Policy in the ToFab list, click Associate to apply it to the selected modules.
C H A P T E R 12 Managing ATM Connections This chapter describes the ATM connections supported by the Cisco 12000/10720 Router Manager application and guides you through the creation and configuration of these connections. Note The features described in this chapter are not applicable to the Cisco 10720 Routers. The Cisco 12000 Series Routers use both terminating Permanent Virtual Circuits (PVCs) and Switched Virtual Circuits (SVCs).
Chapter 12 Managing ATM Connections ATM Connections Supported by Cisco 12000/10720 Router Manager ATM Connections Supported by Cisco 12000/10720 Router Manager ATM connections are modeled in Cisco 12000/10720 Router Manager as objects that are deployed beneath an ATM interface. Cisco 12000/10720 Router Manager supports two types of ATM Connection: Terminating Permanent Virtual Circuits (PVCs), and Switched Virtual Circuits (SVCs).
Chapter 12 Managing ATM Connections ATM Connections Supported by Cisco 12000/10720 Router Manager SVC Connections An SVC is modeled in Cisco 12000/10720 Router Manager as an object deployed beneath two interfaces (see Figure 12-2). The remote endpoint can be a non-Cisco EMF endpoint (that is, outside Cisco EMF)) or a Cisco EMF-endpoint (that is, within Cisco EMF).
Chapter 12 Managing ATM Connections Launching the ATM Connections Windows Launching the ATM Connections Windows Table 12-1 displays each object type that can be used to open the Cisco 12000/10720 Router Manager windows that allow you to upload, create and configure ATM connections. Note Table 12-1 lists the menu options to launch the ATM Connections dialogs from the site level. For example, the ATM QoS Profiles Configuration window can be launched from a Site, Chassis, Module and interface object.
Chapter 12 Managing ATM Connections ATM Connection Synchronization • Data has been provisioned onto the device via Cisco 12000/10720 Router Manager but a Write Mem has not been performed. The device then reboots. The newly provisioned data is modeled in Cisco 12000/10720 Router Manager but not on the device. • Auto synchronization is initiated automatically every 30 minutes on the device. The policies that are available for ATM connection synchronization are described in the Table 12-2.
Chapter 12 Managing ATM Connections ATM Connection Synchronization Table 12-3 DeviceIsMaster Policy (continued) VCL in Cisco EMF VCL State VCL on Device Behavior Present Decommission Not Present Remove from Cisco EMF Present Normal Present Do not do anything Present Decommission Present Change state to Normal Not Present N/A Present Create in Cisco EMF Not Present N/A Not Present N/A Normal Policy This setting specifies that the Cisco device is the reference point for PVC creatio
Chapter 12 Managing ATM Connections Creating ATM Connections Table 12-5 CemfIsMasterAfterFirstSync Policy (continued) VCL in Cisco EMF VCL State VCL on Device Behavior Not Present N/A Present Remove it from device Not Present N/A Not Present N/A Creating ATM Connections To create a PVC or SVC, proceed as follows: 1.
Chapter 12 Managing ATM Connections Uploading Existing ATM Connections and QoS Profiles Naming Convention for the Uploaded Connection Objects The ATM Connection Upload queries the device for the VPI and VCI values of the PVCs through the MIBs and simultaneously, it telnets to the device to query the names of the PVCs for creating the connection objects in the EM. Hence, if the management passwords are not configured in the EM, then the names for the connection objects cannot be retrieved by the EM.
Chapter 12 Managing ATM Connections Uploading Existing ATM Connections and QoS Profiles • Viewing the ATM Connection Upload Window • Uploading Existing ATM Connections and ATM QoS Profiles • ATM Connection Upload Window—Detailed Description Viewing the ATM Connection Upload Window To open the ATM Connection Upload window, proceed as follows: Step 1 Right-click a chassis object, then choose Cisco 12000/10720 Manager>Configuration>Chassis>Upload ATM Connections.
Chapter 12 Managing ATM Connections Uploading Existing ATM Connections and QoS Profiles Uploading Existing ATM Connections and ATM QoS Profiles Note Only PVC connections can be uploaded (SVC upload is not available). ATM connections (PVC only) and ATM QoS profiles can be uploaded using the ATM Connection Upload window. When you upload, existing ATM connections are discovered and placed into the Normal state.
Chapter 12 Managing ATM Connections Uploading Existing ATM Connections and QoS Profiles Figure 12-6 ATM Connection Upload Window (After Upload) Uploaded ATM connections and ATM QoS profiles are named according to the following formats: • ATM connections—PVC - ("VCL_index_VPI.VCI", for example VCL_10.20) or Named PVC. • ATM QoS Profiles—QoSProfile_(assigned number). Step 5 Choose Save from the File menu to save your changes. Step 6 Choose Close from the File menu to close the window.
Chapter 12 Managing ATM Connections Managing ATM QoS Profiles Upload Status—Upload status messages for the first selected chassis. Upload—Choose one or more chassis and choose Upload to initiate the upload of the ATM connections and QoS profiles from all the selected chassis. Managing ATM QoS Profiles The ATM QoS Profile Configuration window allows you to create and save ATM QoS profiles.
Chapter 12 Managing ATM Connections Managing ATM QoS Profiles Figure 12-7 ATM QoS Profiles Configuration Window—Profile Tab See “ATM QoS Profiles Configuration Window—Detailed Description” section on page 12-17 for further details. Note Step 2 To create a profile based on an existing profile, click the profile you want to model from the profile list box at the left of the window. Choose Create Profile. A Prompt window appears for you to enter the name of your new profile.
Chapter 12 Managing ATM Connections Managing ATM QoS Profiles Step 4 Click Ok.. The ATM QoS Profiles Configuration window reappears with the new profile name displayed in the QoS Profiles list at left-hand-side of the window. Step 5 Complete the fields in the Profile tab as required. Step 6 Choose the RxTx Parameters tab and configure the fields as applicable. Figure 12-9 ATM QoS Profiles Configuration Window—RxTx Parameters Tab Not applicable for PVCs Step 7 Click Save to save your changes.
Chapter 12 Managing ATM Connections Managing ATM QoS Profiles To edit an existing ATM QoS Profile, proceed as follows: Step 1 Right-click on an interface, then choose Cisco 12000/10720 Manager>Configuration>Interface> QoS> ATM QoS Profile Configuration. See Table 12-6 on page 12-18 for information on the objects that allow you to launch the ATM QoS Profiles window. Step 2 Choose the profile you wish to edit from the list of existing profiles displayed in the list at the left of the window.
Chapter 12 Managing ATM Connections Managing ATM QoS Profiles Figure 12-10 Deployment Wizard—Summary Window Step 4 Click Finish to delete the selected profile. An Information window appears to confirm that the profile has been deleted. Figure 12-11 Information Window Step 5 Click Ok. When a profile is deleted it disappears from the list of existing profiles displayed in the QoS Profiles list. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections Managing ATM QoS Profiles ATM QoS Profiles Configuration Window—Detailed Description The ATM QoS Profiles Configuration window displays two tabs: Profile and RxTx Parameters. Profile Tab The Profile tab contains the following fields: Profile Type—Enter the type of profile you are creating. This is the level of service, for example, gold service or bronze service. Profile Description—Enter a description for this profile.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Deploying ATM Connection Objects This section describes how to deploy ATM connection objects (that is, PVC and SVC objects).
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-12 Deployment Wizard—Templates Step 2 Choose the template you wish to use, either: Cisco PVC under ATM EndPoint or Cisco PVC under ATM EndPoint on Sub Interface, and choose either auto named or user named (for details on auto vs. user named, see “Manually Deploying Modules” section on page 3-30). Make sure your selection is highlighted before clicking Forward.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Step 6 Enter the VPI and VCI values for the PVC object. Step 7 Enter either 0 or 1to disable or enable the Auto Allocate Source for the PVC object. Step 8 Enter either 0 (no) or 1 (yes) to auto connect the PVC object to the device. Step 9 Enter the start number for the PVC object. This number is included in the PVC name. Step 10 Click Forward to proceed. Figure 12-14 Deployment Wizard—Object Parameters Step 11 Choose Select.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-15 Object Selector Window Step 12 Navigate down the hierarchy until you find the interface you wish to deploy the PVC under. Click on the object to select, then click Apply. You are returned to the window (Figure 12-14 on page 12-20). Figure 12-16 Deployment Wizard—Summary Step 13 Click Finish if the deployment summary information is correct.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Deploying an SVC Object To deploy a SVC object on a main interface, proceed as follows: Step 1 In the Map Viewer, within the Cisco 12000/10720 Router Manager view, right-click on a selected line card, then choose Deployment>Cisco 12000/10720 Manager>ATM Connections>SVC. The Deployment Wizard appears.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-18 Deployment Wizard—Object Parameters Step 3 Enter the number of SVC connections you want to deploy. Step 4 Enter the suffix start number. Step 5 Click Forward to proceed. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-19 Deployment Wizard—Object Parameters Step 6 Enter the profile name of the SVC object. Step 7 Enter the destination NSAP address for the SVC object. Step 8 Enter either 0 (no) or 1 (yes) to auto connect the SVC object to the device. Step 9 Click Forward to proceed. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-20 Step 10 Deployment Wizard—Views Choose Select to open the object selector window. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-21 Deployment Wizard—Object Selector Step 11 Navigate down the hierarchy until you find the interface which will be the local endpoint. Click on the object to select, then click Apply. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections Deploying ATM Connection Objects Figure 12-22 Deployment Wizard—Object Parameters Step 12 When you have selected the appropriate interfaces or sub-interfaces for both endpoints (if applicable), You are returned to the window above. If you have selected the Cisco EMF endpoint option, you need to repeat this process for the second interface (remote endpoint) by clicking the second Select button. Step 13 Click Forward to proceed. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections Applying an ATM QoS Profile to an ATM Connection Figure 12-23 Deployment Summary Step 14 Click Finish if the Deployment Summary information is correct. Click Cancel to stop the deployment. The Deployment Wizard closes and the object is created under the selected interface. Applying an ATM QoS Profile to an ATM Connection Now you can apply the ATM QoS Profile you created earlier to a PVC or an SVC.
Chapter 12 Managing ATM Connections Applying an ATM QoS Profile to an ATM Connection Figure 12-24 ATM QoS Profiles Management—Profile Tab Step 2 Choose a Chassis, Module, Interface, and Connections (PVC or SVC) from the list box at the left of the window. This connection should be the PVC or SVC that you want to apply the ATM QoS profile to. Any current ATM QoS profiles applied to the selected PVC or SVC appear in the tabs at right. Step 3 Choose Edit > Apply Profile.
Chapter 12 Managing ATM Connections ATM PVC Configuration ATM PVC Configuration The PVC Configuration section covers the following areas: • Viewing the ATM VCL Configuration Window • Connecting or Disconnecting a PVC • Decommissioning or Re-Commissioning a PVC • ATM OAM Ping • ATM VCL Configuration Window—Detailed Description Viewing the ATM VCL Configuration Window To view the ATM VCL Configuration window, proceed as follows: Step 1 Right-click on a selected interface, then choose Cisco 12000
Chapter 12 Managing ATM Connections ATM PVC Configuration Step 3 Configure the fields in both tabs, using the drop-down lists and data entry boxes. For a detailed description of the fields within both tabs, see “ATM VCL Configuration Window—Detailed Description” section on page 12-34. Step 4 Click the Save icon to save the changes made. Connecting or Disconnecting a PVC You can connect or disconnect a PVC in the Layer 3 Configuration tab.
Chapter 12 Managing ATM Connections ATM PVC Configuration Decommissioning or Re-Commissioning a PVC When you connect a PVC, it is automatically commissioned as well. Decommissioning does not disconnect the PVC. To decommission a connected PVC: • Make sure that the PVC you want to decommission is selected in the list boxes at the left of the window. You can choose multiple PVCs if desired. • Click the Decommission button in the Action area.
Chapter 12 Managing ATM Connections ATM PVC Configuration Figure 12-27 ATM VCL Configuration—OAM Ping tab Step 3 An action report summarizing the ping operation is displayed. Figure 12-28 Action Report Step 4 The status of the ping operation is also displayed in the Last Ping Status area in the OAM Ping tab. Cisco 12000/10700 v3.1.
Chapter 12 Managing ATM Connections ATM PVC Configuration Figure 12-29 OAM Ping Tab after Ping operation ATM VCL Configuration Window—Detailed Description The ATM VCL Configuration window (see Figure 12-25) contains three tabs: Configuration Layer 3 Configuration and OAM Ping. Configuration Tab The Configuration tab (see Figure 12-25) contains four areas: VPI/VCI, Traffic Information, Encapsulation Parameters, and OAM Information.
Chapter 12 Managing ATM Connections ATM PVC Configuration OAM Information The OAM Information area is not applicable to Cisco 12000/10720 Router Manager.
Chapter 12 Managing ATM Connections ATM PVC Configuration Subscriber The Subscriber area contains one field: Subscriber ID—Type in your subscriber ID. OAM Parameters The OAM Parameters area contains the following fields: Manage—If this value is set to yes, then the value in frequency will be considered. Frequency—Specify the frequency (in seconds) that end-to-end OAM loopback cells should be transmitted when a change in up or down state is being verified.
Chapter 12 Managing ATM Connections SVC Configuration Action Ping—Invokes the OAM ping operation.
Chapter 12 Managing ATM Connections SVC Configuration Step 2 Choose the Chassis, Module, Interface, and Connections (SVC) from the list boxes at the left of the window. Enter the relevant values in the tab, using the drop-down lists and data entry boxes. For a detailed description of the fields within this tab, see “SVC Configuration Window—Detailed Description” section on page 12-38. Step 3 Click the Save icon to save the changes made.
Chapter 12 Managing ATM Connections SVC Configuration SVC Parameters The SVC Parameters area allows you to configure the following fields: NSAP Address (Network Service Access Point)—ATM address you need to provide if you are configuring an SVC. VC Parameters The VC Parameters area allows you to configure the following fields: AAL5 Encapsulation—Configure the ATM adaptation layer (AAL) 5 encapsulation type.
Chapter 12 Managing ATM Connections PVC Status PVC Status Step 1 Right-click on a specified line card, then choose Cisco 12000/10720 Manager>Fault>Interface> ATM> Connections Status. The ATM VCL Status window appears. Figure 12-31 ATM VCL Status Window—Status Tab Not applicable to Cisco 12000/10720 Router Manager Step 2 Choose a Chassis, Module, Interface, and Cisco VCL (PVC) from the list boxes displayed at the left of the window. The status information for the selected PVC appears.
Chapter 12 Managing ATM Connections PVC Status Figure 12-32 ATM VCL Status Window—OAM Tab ATM VCL Status Window—Detailed Description The ATM VCL Status window displays two tabs: Status and OAM. Status tab The Status tab has four areas: PVC Status, Soft PVC Details, Characteristics, and OAM Details. PVC Status The PVC Status area has the following fields: Operational State—Not applicable to Cisco 12000/10720 Router Manager. Last Change—Time elapsed after the last status change.
Chapter 12 Managing ATM Connections PVC Status Characteristics The Characteristics area is not applicable to Cisco 12000/10720 Router Manager. OAM Details The OAM Details area is not applicable to Cisco 12000/10720 Router Manager. OAM tab The OAM tab has a single area: Auto Detect Statistics. Auto Detect Statistics Displays the state of the OAM cells when the ATM OAM traffic reduction is enabled. Table Table 12-7 on page 12-42 displays the various fields displayed in the Auto Detect Statistics area.
C H A P T E R 13 Managing VLANs This chapter describes the VLAN functionality supported by the Cisco 12000/10720 Router Manager application and guides you through the process of creating and configuring VLAN objects. VLANs support logical grouping of network nodes to reduce broadcast traffic and allow more control in implementing security policies. The main advantages of VLANs are efficient traffic separation and excellent bandwidth utilization.
Chapter 13 Managing VLANs VLAN Synchronization Table 13-1 Launching the VLAN Windows Cisco 12000/10720 Router Objects (that can be selected) to Open the Manager Window/Task Window Menu Options to Select to Open Window Site Chassis Chassis Module 12000 10720 Series Interface VLAN Performance Yes Yes Yes No No Cisco 12000/10720 Manager>Performance> VLAN Management>Performance VLAN Configuration Yes No No No No Cisco 12000/10720 Manager>Configuration> VLAN Management>Configuration VLAN S
Chapter 13 Managing VLANs VLAN Synchronization Figure 13-1 VLAN Synchronize Window Step 2 Click Synchronize to initiate the synchronization process. An Information window appears seeking confirmation whether to proceed with the synchronization or not Figure 13-2 VLAN Synchronize Step 3 Click Yes to continue with synchronization. Caution Choosing Yes, initiates the VLAN synchronization process and all the previous performance data and the information related to the VLAN objects is lost.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-3 VLAN Synchronize—Status Window Deploying VLAN objects Cisco 12000/10720 Router Manager provides deployment wizard dialogs to deploy a Domain, VLAN and a VLAN sub-interface. All the VLAN related objects are displayed in the VLAN view. Refer “VLAN View” section on page 2-12 for more details on VLAN view. A domain is deployed independent of any object.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-4 Deploying a VLAN object The Deployment Wizard - Templates window appears (see Figure 13-5) displaying a list of available VLAN object deployment profiles. Deployment profiles are templates that prompt you for the appropriate information required to deploy the selected object successfully. Figure 13-5 Deployment Wizard—Templates Window Step 3 Choose the deployment profile Template for VLAN domain to deploy a Domain (shown in Figure 13-6).
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-6 Deployment Wizard—Object Parameters Window Step 5 Enter the number of Domains required. A single domain was entered in this example. Step 6 Click Forward. Figure 13-7 Deployment Wizard—Object Parameters Window Step 7 Enter a Domain name. Each Domain must have a unique name. In this example the domain is called Domain-2. Step 8 Click Forward. The Deployment - Wizard Summary window appears.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-8 Deployment Wizard—Summary Step 9 Click Finish (when the Deployment Summary information is displayed) to complete deployment and close the Deployment Wizard - Summary window. The new domain object (that is, Domain-2) is created and displayed in the Map Viewer window under the VLAN view.
Chapter 13 Managing VLANs Deploying VLAN objects The Deployment Wizard - Templates window appears (see Figure 13-5) displaying a list of available VLAN object deployment profiles. Figure 13-10 Deployment Wizard—Templates Window Step 4 Choose the deployment profile VLAN and VLAN-SubInterface under VLAN Domain to deploy a VLAN object (shown in Figure 13-6). Note Step 5 You can deploy a sub-interface under a VLAN object by using the VLAN SubInterface under VLAN as shown in Figure 13-10 on page 13-8.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-11 Deployment Wizard—Object Parameters Window Step 6 Enter the number of VLAN objects required to be deployed. A single VLAN object was entered in this example. Step 7 Click Forward. Figure 13-12 Deployment Wizard—Object Parameters Window Step 8 Enter the VLAN number. The VLAN number should be in the range of 1 to 4095. Step 9 Enter the number of SubInterface objects that should be deployed under the VLAN object. Step 10 Click Forward.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-13 Deployment Wizard—Object Parameters Step 11 Enter the IP address of the sub-interface to be deployed under the VLAN object. Step 12 Enter the subnet mask of the sub-interface. Note These are optional fields. Step 13 Enter the sub-interface number. The number can range between 1 to 2147483647. Step 14 Click Forward. Cisco 12000/10700 v3.1.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-14 Deployment Wizard—Views Step 15 Choose Select. An Object Selector window appears. Cisco 12000/10700 v3.1.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-15 Object Selector Window Step 16 Navigate down the hierarchy until you find the interface you wish to deploy the VLAN object under. Click on the object, then click Apply. Step 17 The Deployment Wizard, Component Managed field appears. Cisco 12000/10700 v3.1.
Chapter 13 Managing VLANs Deploying VLAN objects Figure 13-16 Deployment Wizard—Views Step 18 Click Forward. The Deployment - Wizard Summary window appears. The Summary window provides details of the object you are about to deploy. Figure 13-17 Deployment Wizard—Summary Cisco 12000/10700 v3.1.
Chapter 13 Managing VLANs VLAN Configuration Step 19 Click Finish (when the Deployment Summary information is displayed) to complete deployment and close the Deployment Wizard - Summary window. The new VLAN object and the sub-interface object is created and displayed in the Map Viewer window. Note For managing sub-interface objects, use the same dialogs as those for the interfaces.
Chapter 13 Managing VLANs VLAN Configuration Figure 13-19 VLAN Configuration Window Step 2 Choose a Domain and VLAN from the list boxes displayed at the left of the window. . Commissioning a VLAN Note You can select multiple VLANs (from the VLAN object selector list) which allows you to commission all of the selected VLANs simultaneously. You can choose multiple VLANs in a list by holding down the Shift key and then selecting the first and last VLAN in the list.
Chapter 13 Managing VLANs VLAN Configuration Figure 13-20 Action Report Window Step 4 Click Close to close the Action Report window. Decommissioning a VLAN Note You can select multiple VLANs (from the VLAN object selector list) which allows you to decommission all of the selected VLANs simultaneously. You can choose multiple VLANs in a list by holding down the Shift key and then selecting the first and last VLAN in the list.
Chapter 13 Managing VLANs VLAN Configuration Figure 13-21 Action Report Window Step 4 Choose Close to close the Action Report window. Start Performance Logging Note You can select multiple VLANs (from the VLAN object selector list) which allows you to start performance logging on all the selected VLANs simultaneously. You can choose multiple VLANs in a list by holding down the Shift key and then selecting the first and last VLAN in the list.
Chapter 13 Managing VLANs VLAN Configuration Figure 13-22 Action Report Window Step 4 Choose Close to close the Action Report window. Stop Performance Logging Note You can select multiple VLANs (from the VLAN object selector list) which allows you to stop performance logging on all the selected VLANs simultaneously. You can choose multiple VLANs in a list by holding down the Shift key and then selecting the first and last VLAN in the list.
Chapter 13 Managing VLANs VLAN Performance Figure 13-23 Action Report Window Step 4 Choose Close to close the Action Report window. VLAN Configuration Window—Detailed Description The VLAN Configuration window displays a single Configuration tab. Configuration Tab The Configuration tab (see Figure 13-19 on page 13-15) displays two areas: Status and Performance Logging. Status The Status area contains two action buttons: Commission—Commissions the selected VLAN.
Chapter 13 Managing VLANs VLAN Performance The VLAN Performance section provides the following information: • Viewing the VLAN Performance Window • VLAN Performance Window—Detailed Description Viewing the VLAN Performance Window The VLAN performance data is available on a per chassis basis and the performance data is received directly from the device. The VLAN performance window displays the statistics for all the VLANs configured on a selected chassis.
Chapter 13 Managing VLANs Reparenting VLANs and VLAN Sub-Interfaces VLAN Performance Window—Detailed Description The VLAN Performance window (see Figure 13-24 on page 13-20) displays a single VLAN Performance tab. The VLAN Performance tab has a single tabular area with the following fields: VLAN Id—Identifier for the VLAN object. Packets transmitted—The number of packets transmitted by this VLAN. Packets Received—The number of packets received by this VLAN.
Chapter 13 Managing VLANs Deleting VLAN Objects Figure 13-25 VLAN—Reparent Objects Window Step 2 Select a parent object from the list of VLAN objects displayed under the specific domain in the VLAN view. Step 3 Choose Apply. Deleting VLAN Objects Note A VLAN or sub-interface object can be deleted only if it is in the decommissioned state. To decommission a sub-interface object, refer “Decommissioning an Interface” section on page 8-5.
Chapter 13 Managing VLANs Deleting VLAN Objects Figure 13-26 Deployment Wizard—Summary Step 3 Click Finish, and the VLAN object is deleted. If deletion fails, another interface might be currently using the VLAN object, therefore you cannot delete the object. Note Similarly, a domain can be deleted provided the VLAN and sub-interface objects are decommissioned. Cisco 12000/10700 v3.1.
Chapter 13 Managing VLANs Deleting VLAN Objects Cisco 12000/10700 v3.1.
C H A P T E R 14 Routing This chapter describes the Border Gateway Protocol and the Open Shortest Path First Routing Protocol. Border Gateway Protocol is an exterior gateway routing protocol that addresses the task of path determination. The Cisco 12000/10720 Router Manager supports Configuration and Fault Management of BGP routing processes and BGP address families. The Open Shortest Path First is a link-state, interior gateway routing protocol.
Chapter 14 Routing BGP Management Table 14-1 Launching the Routing Windows Objects (that can be selected) to Open the Window Menu Options to Select to Open Window Cisco 12000/10720 Router Manager Window/Task Site Chassis Chassis Module 12000 10720 Series Interface BGP Configuration Yes Yes Yes No No Cisco 12000/10720 Manager> Configuration>Chassis>BGP>BGP Configuration BGP Status Yes Yes Yes No No Cisco 12000/10720 Manager>Fault> Chassis>BGP>BGP Status BGP Address-Family Synchronizati
Chapter 14 Routing BGP Configuration BGP Configuration The BGP Configuration window allows the user to enable, modify and disable a BGP process in the device. The BGP Configuration window also allows the user to configure a BGP Network, BGP Neighbor and BGP Redistribute protocol.
Chapter 14 Routing BGP Configuration Figure 14-1 BGP Configuration Window—BGP Details Step 2 Choose the chassis from the left side of the window. BGP Details Tab—Detailed Description The BGP-Details tab displays two areas: BGP General and BGP Information BGP General Local Autonomous System—The id of the BGP process running in the device. If the value is 0 it means no BGP process is running on the device. Actions Enable—The Enable action button is active when there is no BGP running on the device.
Chapter 14 Routing BGP Configuration BGP Information BGP Identifier—It is the Router Identifier for the BGP speaking router. By default, BGP Identifier is set to IP address of the loopback interface if it is configured otherwise it is the highest IP address configured for a physical interface on that router. BGP Version— It displays the supported BGP version. BGP Synchronization—It displays whether BGP synchronization with IGP is enabled or disabled.
Chapter 14 Routing BGP Configuration Figure 14-2 Enable BGP Window Step 4 Choose the chassis from the left side of the window. Step 5 Enter a value for the BGP AS Number. Step 6 Choose the Enable BGP button. Enable BGP Window—Detailed Description Local Autonomous System—The id of the BGP process to be created on the device. Action Enable BGP—Clicking on the Enable BGP button creates the BGP process on the device. Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Configuration Modifying BGP on a Chassis The BGP Modify Window allows the user to modify the BGP Configurations on the device. To modify a BGP process, proceed as follows: Step 1 Open the BGP Configuration window. See “Viewing the BGP Details Tab on the BGP Configuration Window” section on page 14-3 for further details. Step 2 Choose a chassis from the left side of the window.
Chapter 14 Routing BGP Configuration Step 4 Choose the chassis from the left side of the window. Step 5 Modify the values of the fields and save the changes. BGP Modify Window—Detailed Description The BGP Modify window displays the following: Local AS—The Autonomous System number in the router. BGP Identifier—Used to configure the Router Identifier for the BGP speaking router. Note Peering sessions are reset if the router ID is changed.
Chapter 14 Routing BGP Configuration Figure 14-4 Disable BGP—Alert Step 4 Click Yes to disable BGP on the chassis. Step 5 Click No to abort the Disable BGP operation. Viewing the Network Tab on the BGP Configuration Window The Network tab displays the information about paths to destination networks from all the BGP4 Peers. The user can add or remove a BGP network on the device.
Chapter 14 Routing BGP Configuration Step 3 Choose the chassis from the left side of the window. Network Tab—Detailed Description The Network tab displays a single area, BGP Network Information. BGP Network Information Neighbor IP Address—The IP address of the peer where the path information was learnt. Network Mask—Length in bits of the IP address prefix in the Network Layer Reachability Information field. Network Address—An IP address prefix in the Network Layer Reachability Information field.
Chapter 14 Routing BGP Configuration BGP Network Configuration The BGP Network Configuration window allows the user to add or remove a network entry to be advertised through the BGP Network. To configure the BGP Network, proceed as follows: Step 1 Open the BGP Configuration window. See “Viewing the BGP Details Tab on the BGP Configuration Window” section on page 14-3 for further details. Click on the Network tab.
Chapter 14 Routing BGP Configuration Network Address—The is used to configure the IP address of a network to be advertised through BGP. Network Mask—This is used to configure the subnet mask of the network to be advertised Action Add Network Entry—Clicking on the Add Network Entry button, adds the network entry on the device. Thus, the user is able to add the networks associated with the BGP routing process.
Chapter 14 Routing BGP Configuration Neighbor Tab—Detailed Description The Neighbor tab displays a single area, BGP Neighbor Information. BGP Neighbor Information Neighbor IP Address—Specifies the IP address of the neighbor router. Neighbor ID—Indicates the BGP identifier of the BGP peer entry State—Specifies the state of the neighbor router that can be one of Idle, Active, Established, Opensent, Connect or Openconfirm.
Chapter 14 Routing BGP Configuration Step 3 Click on the Add/Remove Neighbor button. The BGP Neighbor Configuration window appears. Figure 14-8 BGP Neighbor Configuration Window Step 4 Edit the fields displayed in the window, as required. BGP Neighbor Configuration Window—Detailed Description The BGP Neighbor Configuration window displays the following: Local AS—The Autonomous System number in the router. Neighbor IP Address—This is used to configure the IP address of the neighbor router.
Chapter 14 Routing BGP Configuration Action Add Neighbor Entry—Clicking on the Add Neighbor Entry action button adds the neighbor entry in the device. Remove Neighbor Entry—Clicking on the Remove Neighbor Entry action button removes the neighbor entry from the device. Viewing the Redistribution Tab on the BGP Configuration Window The Redistribution tab displays the redistributed information from other routing protocols. The user can add or remove the redistributed protocol entries on the device.
Chapter 14 Routing BGP Configuration Redistribution Tab—Detailed Description The Redistribution tab displays a single area, BGP Redistribution Information BGP Redistribution Information Protocol—This displays the protocol whose routes are redistributed by BGP. The redistribute configuration causes the corresponding routes to be redistributed into BGP.
Chapter 14 Routing BGP Configuration Figure 14-10 BGP Redistribute Configuration Window Step 4 Edit the fields displayed in the window, as required. BGP Redistribute Configuration—Detailed Description The BGP Redistribute Configuration window displays the following: Local AS—The Autonomous System number in the router. Protocol—Specifies the protocol to be redistributed into BGP. Valid Protocol Names that can be redistributed are connected, static, ospf, isis, igrp, eigrp, egp, rip, mobile, odr, dvmrp.
Chapter 14 Routing BGP Status BGP Status The BGP Status window displays the BGP configurations existing on the device including basic BGP information, path information, peer information and redistribution information. The BGP Status section covers the following: • Viewing the BGP Status Window • BGP Status Window—Detailed Description Viewing the BGP Status Window To view the BGP Status window, proceed as follows: Step 1 Right click on the chassis and choose Fault>BGP>BGP Status.
Chapter 14 Routing BGP Status Figure 14-12 BGP Status—Network Tab Step 3 Choose the Neighbor tab, if required. The Neighbor tab displays the information about BGP Peers and it contains one entry per BGP Peer, information about the connections with BGP Peers. Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Status Figure 14-13 BGP Status—Neighbor Tab Step 4 Choose the Redistribution tab, if required. The Redistribution tab displays the redistributed information from other routing protocols. Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Status Figure 14-14 BGP Status—Redistribution Tab BGP Status Window—Detailed Description The BGP Status window displays four tabs: BGP-Details, Network, Neighbor and Redistribution. BGP-Details The BGP-Details tab displays two areas: BGP General and BGP Information BGP General Local Autonomous System—The id of the BGP process running in the device. If the value is 0 it means no BGP process is running on the device.
Chapter 14 Routing BGP Status BGP Auto-Summary—It displays whether Automatic network number summarization for BGP is enabled or disabled. BGP Log Neighbor-Changes—It displays whether logging of BGP neighbor resets is enabled or disabled. Default-Metric—It displays the default-metric value set for redistributed routes. BGP Default IPV4-Unicast—It displays whether the IP version 4 (IPv4) unicast for peers is enabled or disabled on the router.
Chapter 14 Routing BGP Address-Family Synchronization State—Specifies the state of the neighbor router that can be one of Idle, Active, Established, Opensent, Connect or Openconfirm. Negotiated Version—Specifies the negotiated version of BGP running between the two peers. Remote AS—Specifies the neighbor routers autonomous system number which can be from 1-65535. Received Update Messages—The number of BGP Update messages received on this connection.
Chapter 14 Routing BGP Address-Family Synchronization To synchronize the BGP address families, proceed as follows: Step 1 Right click on a chassis and choose Configuration>BGP>BGP Address-Family Synchronization. See Table 14-1 on page 14-2 for information on which objects allow you to launch the BGP Address-Family Synchronization window.
Chapter 14 Routing BGP Address-Family Synchronization Figure 14-16 Action Report Step 3 The status of the synchronization process is displayed in the Synchronization Status area in the BGP Address-Family Synchronization window. Figure 14-17 BGP Address-Family Synchronization—Status Report Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Address Family Configuration BGP Address-Family Synchronization—Detailed Description The BGP Address-Family Synchronization window displays a single tab: Synchronization. Synchronization Tab The Synchronization tab consists of a single area: BGP Address Family Synchronization. Synchronization Status—Displays the status of the synchronization process. Action Synchronize—Uploads the existing BGP address families in the device to the EM.
Chapter 14 Routing BGP Address Family Configuration Viewing the AF-General Tab on the BGP Address-Family Configuration Window The AF-General tab displays the BGP address family parameters. The user can create, remove or modify the BGP Address Family Parameters. To view the AF-General tab on the BGP Address Family Configuration window for a chassis, proceed as follows: Step 1 Right click on the chassis object and choose Configuration>BGP>BGP Address-Family Configuration.
Chapter 14 Routing BGP Address Family Configuration AF-General Tab—Detailed Description The AF-General tab displays two areas: BGP General and BGP Address Family Information. BGP General Local Autonomous System—The id of the BGP process running in the device. If the value is 0 it means no BGP process is running on the device. BGP Address Family Information Address Family—Unique identifier of the address family type. VRF Name—Identifier of the VRF Name if the address family type is ipv4 vrf.
Chapter 14 Routing BGP Address Family Configuration Figure 14-19 Configure Address Family Window Step 4 Choose the chassis from the Chassis list for which you want to configure the BGP address family. Step 5 Edit the fields displayed in the window, as required. Configure Address Family—Detailed Description The Configure Address Family window displays a single area: Add/Remove Address Family. Add Address Family Address Family—Unique identifier of the address family type.
Chapter 14 Routing BGP Address Family Configuration Note This attribute is configurable only for the ipv4 unicast and ipv4 vrf address families. Send Community—Specifies the community attribute sent in the route updates to a peer. The available options are: both, extended and standard. However, the default is not to send community attribute in route updates. Update Source—To enable or disable BGP sessions to use a specific operational interface for TCP connections.
Chapter 14 Routing BGP Address Family Configuration Figure 14-20 BGP Address Family—Modify Address Family Parameters Window Step 4 Choose the chassis from the Chassis list and the address family from the Address Family list for which you want to modify the BGP address family parameters. Step 5 Edit the fields displayed in the window, as required and save the changes.
Chapter 14 Routing BGP Address Family Configuration Default Metric—This is used to set the value for the redistributed routes for the address family. Note This attribute is not configurable only for the vpnv4 unicast address families. If this attribute is set to zero, then the default metric is removed from the device for that address family. Synchronization—This is used to enable/disable the BGP synchronization with IGP for the address family.
Chapter 14 Routing BGP Address Family Configuration Step 3 Choose the Chassis and the Address Family from the left side of the window. AF-Network Tab—Detailed Description The AF-Network tab displays a single area: Network Information Network Information Network Address—An IP address prefix in the Network Layer Reachability Information field. This object is an IP address containing the prefix with the length specified by the Prefix Len attribute.
Chapter 14 Routing BGP Address Family Configuration Figure 14-22 BGP Address Family—Network Configuration Window Step 4 Choose the chassis from the Chassis list and the address family from the Address Family List, for which you want to configure the Network path. Step 5 Edit the fields displayed in the window, as required. BGP Address Family-Network Configuration—Detailed Description The Configure Network window displays a list of Address Families and an area: Add/Remove Network.
Chapter 14 Routing BGP Address Family Configuration Action Add Network Entry—Clicking the “Add Network Entry” button, adds the network entry for the address family on the device. Remove Network Entry—Clicking the “Remove Network Entry” button, removes the network entry for the address family on the device. Viewing the AF-Neighbor Tab on the BGP Address-Family Configuration Window The AF-Neighbor tab displays the neighbor information (peer) for a BGP address family.
Chapter 14 Routing BGP Address Family Configuration AF-Neighbor Tab—Detailed Description The AF-Neighbor tab displays a single area: Neighbor Information. Neighbor Information Neighbor IP Address—Specifies the IP address of the neighbor router for the address family. Remote AS—Specifies the neighbor routers autonomous system number. This value can range from1 to 65535. Activate—Enables the neighbor to exchange prefixes for the specified family type with the local router.
Chapter 14 Routing BGP Address Family Configuration Figure 14-24 BGP Address Family—Neighbor Configuration Window Step 4 Choose the chassis from the Chassis list and the address family from the Address Family List, for which you want to configure the Neighbor. Step 5 Edit the fields displayed in the window, as required. BGP Address Family-Neighbor Configuration—Detailed Description The Configure Neighbor window displays a list of Address Families and an area: Add/Remove Neighbor.
Chapter 14 Routing BGP Address Family Configuration Send Community—This is used to select the community attribute sent in the route updates to a peer. The default is not to send community attribute in route updates. The available options are: both, extended and standard. Update Source—To enable or disable BGP sessions to use a specific operational interface for TCP connections. The available options are: No and Yes.
Chapter 14 Routing BGP Address Family Configuration Figure 14-25 BGP Address-Family Configuration Window—AF-Redistribute Tab Step 3 Choose the Chassis and the Address Family from the left side of the window. AF-Redistribute Tab—Detailed Description The AF-Redistribute tab displays a single area: Redistribute Information. Redistribute Information Protocol—Displays the protocol whose routes are redistributed by BGP.
Chapter 14 Routing BGP Address Family Configuration BGP Address Family—Redistribute Configuration The BGP Address Family - Redistribute Configuration window allows the user to add or remove redistribute configurations for BGP address families. To configure the Redistribute protocol for an address family, proceed as follows: Step 1 Open the BGP Address-Family Configuration window. See “Viewing the AF-General Tab on the BGP Address-Family Configuration Window” section on page 14-27 for further details.
Chapter 14 Routing BGP Address-Family Status BGP Address Family-Configure Redistribute Protocol—Detailed Description The BGP Address Family - Configure Redistribute Protocol window displays a list Address Families and an area: Add/Remove Redistribution Information. Address Family—Displays a list of the address families. Add/Remove Redistribution Information Address Family—Specifies the address family type.
Chapter 14 Routing BGP Address-Family Status Figure 14-27 BGP Address-Family Status Window Step 2 Choose a Chassis and the address family from the list box displayed on the left side of the window. Choose the AF-Network tab, if required. The AF-Network tab displays the network paths and the associated path information for the BGP address family. Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Address-Family Status Figure 14-28 BGP Status—AF-Network Tab Step 3 Choose the AF-Neighbor tab, if required. The AF-Neighbor tab displays the neighbor information (peer) for a BGP address family. Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Address-Family Status Figure 14-29 BGP Status—AF-Neighbor Tab Step 4 Choose the AF-Redistribute tab, if required. The AF-Redistribute tab displays the information about the redistribute protocols configured for a BGP address family. Cisco 12000/10700 v3.1.
Chapter 14 Routing BGP Address-Family Status Figure 14-30 BGP Status—AF-Redistribute Tab BGP Address-Family Status Window—Detailed Description The BGP Address-Family Status window displays four tabs: AF-General, AF-Network, AF-Neighbor and AF-Redistribute. AF-General The AF-General tab displays two areas: BGP General and BGP Address Family Information. BGP General Local Autonomous System—The id of the BGP process running in the device. If the value is 0 it means no BGP process is running on the device.
Chapter 14 Routing BGP Address-Family Status Synchronization—Displays whether the BGP synchronization with IGP is enabled/disabled for the address family. Default Metric—Displays the default metric value set for redistributed routes of the address family. AF-Network The AF—Network tab displays a single area: Network Information. Network Information Network Address—An IP address prefix in the Network Layer Reachability Information field.
Chapter 14 Routing OSPF Management AS/Tag—Indicates the Process ID of the redistributed protocol. A Positive Integer will indicate the process id of the redistributed protocol; a character string will indicate the ISO routing area tag. IS-IS Route Level—Specifies the routing level of ISIS Protocol. Redistribution Metric—Displays the metric used for redistributed routes for this address family. OSPF Management Open Shortest Path First (OSPF) is a TCP/IP internet routing protocol.
Chapter 14 Routing OSPF Configuration Figure 14-31 OSPF Configuration Window Step 2 Choose the chassis from the left side of the window. Config Tab—Detailed Description The Config tab displays two areas: Add OSPF, Remove OSPF and a listbox, OSPF Process. Config Process ID—The OSPF process ID of the selected chassis. OSPF Process—The OSPF processes currently configured for the selected chassis.
Chapter 14 Routing OSPF Configuration Adding an OSPF Process This section explains the procedure to add an OSPF process to the device. To add an OSPF process, proceed as follows: Step 1 Open the OSPF configuration window. See “Viewing the OSPF Configuration Window” section on page 14-47 for further details. Step 2 Enter an OSPF process id in the Process ID textbox. Step 3 Click on the Add OSPF Process button. An action report appears.
Chapter 14 Routing OSPF Configuration Removing an OSPF Process This section explains the procedure to remove an OSPF process from the device. To remove an OSPF process, proceed as follows: Step 1 Open the OSPF configuration window. See “Viewing the OSPF Configuration Window” section on page 14-47 for further details. Step 2 Choose the OSPF process from the OSPF Process list. Step 3 Click on the Remove OSPF Processes button. An action report appears.
Chapter 14 Routing OSPF Configuration Viewing the Network Tab on the OSPF Configuration Window The Network tab allows the use to view the network entries configured on the device. To view the Network tab on the OSPF Configuration window for a chassis, proceed as follows: Step 1 Right click on the chassis object and choose Configuration>OSPF>OSPF Configuration. See Table 14-1 on page 14-2 for information on which objects allow you to launch the OSPF Configuration window. Step 2 Click on the Network tab.
Chapter 14 Routing OSPF Configuration Network Mask—The Network Mask for corresponding Process ID of the selected chassis. Area ID—The Area ID for corresponding Process ID of the selected chassis. Action Configure Network—Opens another window Configure Network. Configuring a Network The Configure Network window allows the user to associate or disassociate a network entry (IP address of interfaces) to the areas. To configure a network, proceed as follows: Step 1 Open the OSPF configuration window.
Chapter 14 Routing OSPF Configuration Figure 14-37 Action Report Step 4 To remove a network, enter the values in the textboxes and click on the Remove Network button. An action report is displayed. Figure 14-38 Action Report Cisco 12000/10700 v3.1.
Chapter 14 Routing OSPF Status Configure Network—Detailed Description The Configure Network window displays a single area: Configure Network. Configure Network Process ID—The OSPF process ID of the selected chassis. Network Number—The Network Number for corresponding Process ID of the selected chassis. Network Mask—The Network Mask for corresponding Process ID of the selected chassis. Area ID—The Area ID for corresponding Process ID of the selected chassis.
Chapter 14 Routing OSPF Status Figure 14-39 OSPF Status Window Step 2 Choose the Process Information tab, if required. The Process Information tab displays Process Information tab displays two areas, Process Summary and Network Details. The Process Summary details all processes that exist on the device. This includes its Router id, number of areas configured, number of normal areas, number of stub areas, and number of nssa areas.
Chapter 14 Routing OSPF Status Figure 14-40 OSPF Status—Process Information Tab Step 3 Choose the Area tab, if required. The Area tab displays the complete information describing the configured parameters and cumulative statistics of one of the router's attached areas. Cisco 12000/10700 v3.1.
Chapter 14 Routing OSPF Status Figure 14-41 OSPF Status—Area Tab Step 4 Choose the Interface tab, if required. The Interface tab displays the complete information about the interfaces and their statistics. Cisco 12000/10700 v3.1.
Chapter 14 Routing OSPF Status Figure 14-42 OSPF Status—Interface Tab Step 5 Choose the Neighbor tab, if required. The Neighbor tab displays all the neighbors in the locality of the selected router. Cisco 12000/10700 v3.1.
Chapter 14 Routing OSPF Status Figure 14-43 OSPF Status—Neighbor Tab Step 6 Choose the Link State tab, if required. The Link State tab displays the Link State Advertisements from the areas that the device is attached to. Cisco 12000/10700 v3.1.
Chapter 14 Routing OSPF Status Figure 14-44 OSPF Status—Link State Tab Step 7 Choose the Host tab, if required. The Host tab displays hosts that are directly attached to the router, and their metrics and types of service advertised for them. Cisco 12000/10700 v3.1.
Chapter 14 Routing OSPF Status Figure 14-45 OSPF Status—Host Tab OSPF Status—Detailed Description The OSPF Status window displays seven tabs: General Group, Process information, Area, Interface, Neighbor, Link State and Host. General Group The General Group tab displays a single area, General. Router ID—Unique identifier of the router in the AS.
Chapter 14 Routing OSPF Status Received New LSA Count—The number of link-state advertisements received determined to be new instantiations. This number does not include newer instantiations of self-originated link-state advertisements. AS Border Router—A flag to indicate whether this router is an Autonomous System Border router. Area Border Router—A flag to indicate whether this router is an area border router.
Chapter 14 Routing OSPF Status Import AS Extern—The area's support for importing AS external link-state advertisements. SPF Runs—The number of times that the intra-area route table has been calculated using this area's link-state database. Area Border Router Count—The total number of area border routers reachable within this area. AS Border Router Count—The total number of Autonomous System border routers reachable within this area.
Chapter 14 Routing OSPF Status Transit Delay—The estimated number of seconds it takes to transmit a link- state update packet over this interface. Interface Retransmit Interval—The number of seconds between the link-state advertisement retransmissions, for adjacencies belonging to this interface. This value is also used when retransmitting database description and link-state request packets. Hello Interval—The time interval, in seconds, between the Hello packets that the router sends on the interface.
Chapter 14 Routing OSPF Status Vir Interface Events—The number of state changes or error events on this virtual link. Vir Interface Status—Displays the validity or invalidity of the entry. Setting it to 'invalid' has the effect of rendering it inoperative. Neighbor The Neighbor tab displays two areas: Neighbor and Virtual Neighbor. Neighbor Neighbor IP Address—The IP address of this Neighbor. Addressless Interface—Differentiates the addressless interfaces from the addressed interfaces.
Chapter 14 Routing OSPF Status Link State The Link State tab displays a single area namely, Lsdb Lsdb LSBD LSID—The Link State ID is an LS Type Specific field containing either a Router ID or an IP Address. LSDB RouterID—Displays the number that uniquely identifies the originating router in the Autonomous System. LSDB Type—The type of the link state advertisement. Each link state type has a separate advertisement format. LSDB Area ID—Unique identifier of the Area from which the LSA was received.
C H A P T E R 15 MPLS Management This chapter describes the Multi Protocol Label Switching (MPLS) management tasks that can be performed using the Cisco 12000/10720 Router Manager application.
Chapter 15 MPLS Management MPLS Management Workflow The significant difference between MPLS and traditional WAN technologies is the way labels are assigned and the capability to carry a stack of labels attached to a packet. The concept of a label stack enables new applications, such as Traffic Engineering (TE), Virtual Private Networks (VPN), fast rerouting around link and node failures, and so on.
Chapter 15 MPLS Management Launching the MPLS Management Windows Launching the MPLS Management Windows Table 15-1 displays the MPLS Management windows that can be launched from various object types. For example, the MPLS Forwarding Information window can be launched from a Site, or Chassis object, but cannot be launched from a Module or an Interface object. Note Table 15-1 lists the menu options to launch the MPLS Management dialogs from the site level.
Chapter 15 MPLS Management MPLS Forwarding Information MPLS Forwarding Information The MPLS Forwarding Information window allows the user to view the label forwarding information, for any packet, on a managed chassis configured as an MPLS Label Switch Router (LSR). Using this information the user can traverse the path of a LSP to view the exact forwarding path of a packet given its label. Note The MPLS Forwarding Information window uses IOSDrep for configuration and population of the attributes.
Chapter 15 MPLS Management MPLS Forwarding Information Figure 15-1 MPLS Forwarding Information Window—MPLS Forwarding Information Tab Step 2 Choose a Chassis from the list box displayed at the left of the window. The MPLS forwarding information for the selected chassis appears at the right hand side of the window. For further information, see the “MPLS Forwarding Information Window—Detailed Description” section on page 15-5.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Fault Management for MPLS LSR Interfaces This section describes Fault Management for MPLS LSR interfaces.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Figure 15-2 MPLS Interface Status Window—Interface Setup Tab Step 2 Choose a Chassis, Module and then Interface from the list box displayed at the left of the window. The MPLS Interface Status Details information for the selected interface appears. For further information, see the “MPLS Interface Status Window—Detailed Description” section on page 15-7.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces MPLS The MPLS area displays the following information: Min Label In—This is the minimum value of an MPLS label that this LSR is willing to receive on this interface. Max Label In—This is the maximum value of an MPLS label that this LSR is willing to receive on this interface. Available Buffer—This value reflects the total amount of buffer space available on this interface.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Figure 15-3 MPLS Interface Information Window—Interface Setup Tab Step 2 Choose a Chassis from the list displayed at the left side of the window. Step 3 Choose an MPLS Interface/Subinterface from the list displayed in the Select Interface area. For further details on the information displayed in this window, see the “MPLS Interface Information Window—Detailed Description” section on page 15-9.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Last Change—Displays the value of the sysUpTime at the time the interface entered its current operational status. Counter Discontinuity Time—Displays the value of the sysUpTime on the most recent occasion at which any one or more of this interfaces counters suffered a discontinuity. MPLS Setup Tab The MPLS Setup tab (see Figure 15-4) displays a single Select Interface area.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Available Buffer—This value reflects the total amount of buffer space available on this interface. This variable is not applicable when applied to the interface with index 0. Total Buffer—This value indicates the total amount of buffer space allocated for this interface. This variable is not applicable when applied to the interface with index 0.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Select Interface The Select Interface area displays the following information: MPLS Interface/Subinterface list—Lists all the MPLS enabled interfaces and MPLS enabled sub-interfaces on the selected chassis. In Octets—Displays the total number of octets received on the selected interface including framing characteristics. Out Octets—Displays the total number of octets transmitted from the interface including framing characteristics.
Chapter 15 MPLS Management Fault Management for MPLS LSR Interfaces Figure 15-6 MPLS Interface Information Window—MPLS Performance Tab Select Interface The Select Interface area displays the following information: MPLS Interface/Subinterface list—Lists all the MPLS enabled interfaces and MPLS enabled sub-interfaces on the selected chassis. In Labels Used—This value indicates the specific number of labels that are in use at this point in time on this interface in the incoming direction.
Chapter 15 MPLS Management Performance Management for MPLS LSR Interfaces Performance Management for MPLS LSR Interfaces This section describes performance management for MPLS LSR interfaces. MPLS Interface Performance The MPLS Interface Performance window provides information about MPLS performance attribute information for interfaces on a managed Chassis (Cisco 12000 and 10720 Series Routers).
Chapter 15 MPLS Management Performance Management for MPLS LSR Interfaces Figure 15-7 MPLS Interface Performance Window—General Performance Statistics Tab Step 2 Choose a Chassis, Module and Interface from the list box displayed at the left of the window. The MPLS interface performance information appears for the selected interface. For further information, see the “MPLS Interface Performance Window—Detailed Description” section on page 15-15.
Chapter 15 MPLS Management Performance Management for MPLS LSR Interfaces In Unicast Packets—Displays the number of packets delivered by this sub-layer to a higher sub-layer, which were not addressed to a multicast or broadcast address at this sub-layer. Out Unicast Packets—Displays the total number of packets that higher level protocols requested be transmitted and which were not addressed to a multicast or broadcast address at this sub-layer, including those that were discarded or not sent.
Chapter 15 MPLS Management Performance Management for MPLS LSR Interfaces Figure 15-8 MPLS Interface Performance Window—MPLS Performance Statistics Tab Failed Label Lookups—Displays the number of labeled packets that have been received on this interface and were discarded because there were no matching entries found for forwarding them.
Chapter 15 MPLS Management Fault Management for MPLS LDP Out Packets—Displays the number of labeled packets that have been transmitted on this interface. Out Fragments—Displays the number of outgoing MPLS packets that required fragmentation before transmission on this interface.
Chapter 15 MPLS Management Fault Management for MPLS LDP Figure 15-9 MPLS LDP Entity Status Window—Entity Tab Step 2 Choose a Chassis from the list box displayed at the left of the window. Information on LDP entities is displayed for the selected chassis. MPLS LDP Entity Status Window—Detailed Description The MPLS LDP Entity Status window displays five tabs: Entity, Entity Statistics, General Label Range, ATM Parameters, ATM Label Range.
Chapter 15 MPLS Management Fault Management for MPLS LDP • hopCountAndPathVector—Loop Detection is supported by both Hop Count And Path Vector. Since Loop Detection is determined during Session Initialization, an individual session may not be running with loop detection. This object simply gives an indication of whether or not the LSR has the ability to support Loop Detection and which types.
Chapter 15 MPLS Management Fault Management for MPLS LDP Target Peer Address—The value of the internetwork layer address used for the Extended Discovery. Optional Parameters—This attribute specifies whether or not the optional parameters for the LDP Initialization Message is set or not. Discontinuity Time—The value of sysUpTime on the most recent occasion at which any one or more of this entity’s counters suffered a discontinuity. Storage Type—The storage type for the LDP entry.
Chapter 15 MPLS Management Fault Management for MPLS LDP Session Rejected Ad Errors—A count of the Session Rejected/Parameters Advertisement Mode Error Notification Messages sent or received by this LDP Entity. Session Rejected Max PDU Errors—A count of the Session Rejected/Parameters Max PDU Length Error Notification Messages sent or received by this LDP Entity. Session Rejected LR Errors—A count of the Session Rejected/Parameters Label Range Notification Messages sent or received by this LDP Entity.
Chapter 15 MPLS Management Fault Management for MPLS LDP Figure 15-11 MPLS LDP Entity Status Window—General Label Range Tab General Label Range The General Label Range area displays the General Label Range table. This table specifies a contiguous range of generic labels, or a “label range” for LDP Entities. LDP Entities which use Generic Labels must have at least one entry in this table.
Chapter 15 MPLS Management Fault Management for MPLS LDP ATM Parameters Tab ATM parameters configuration is displayed in the ATM Parameters tab (see Figure 15-12) for LDP entities that use ATM as their underlying technology. The ATM Parameters tab displays a single ATM Parameters area. Figure 15-12 MPLS LDP Entity Status Window—ATM Parameters Tab ATM Parameters The table displays the following information: Local LDP Id—Displays the LDP identifier.
Chapter 15 MPLS Management Fault Management for MPLS LDP DefaultControl VCI—The default VCI value for a non-MPLS connection. The default value of this is 32 but other values may be configured. This object allows a different value to be configured. Unlab Traffic VPI—VPI value of the VCC supporting unlabeled traffic. This non-MPLS connection is used to carry unlabeled (IP) packets. The default value is the same as the default value of the DefaultControlVpi, however another value may be configured.
Chapter 15 MPLS Management Fault Management for MPLS LDP Label Range Min VCI—The minimum VCI number configured for this range. Label Range Max VPI—The maximum VPI number configured for this range. Label Range Max VCI—The maximum VCI number configured for this range. Storage Type—The storage type for this entry.
Chapter 15 MPLS Management Fault Management for MPLS LDP Figure 15-14 MPLS LDP Hello Adjacencies Window—Hello Adjacencies Tab Step 2 Choose a Chassis from the list box displayed at the left of the window. See the “MPLS LDP Hello Adjacencies Window—Detailed Description” section on page 15-27 for further details on the fields displayed. MPLS LDP Hello Adjacencies Window—Detailed Description The MPLS LDP Hello Adjacencies window (see Figure 15-14) displays a single Hello Adjacency tab.
Chapter 15 MPLS Management Fault Management for MPLS LDP Adjacency Type—This adjacency is the result of a “link” hello if the value of this object is link. Otherwise, it is a result of a “targeted” hello, targeted. MPLS LDP Peer Status The LDP Peer refers to a remote LDP entity (that is, a non local LSR). The MPLS LDP Peer Status window displays information about LDP peers known by the LDP entities on a router.
Chapter 15 MPLS Management Fault Management for MPLS LDP Choose an IOS Host from the box displayed at the left of the window. MPLS LDP Peer Status Window—Detailed Description The MPLS LDP Peer Status window (see Figure 15-15) displays four tabs: Peers, Sessions, Session Statistics, and ATM Sessions. Peers Tab The Peers tab displays information about the LDP peers known by the LDP entities on the selected router. The Peers tab displays a single LDP Peers area.
Chapter 15 MPLS Management Fault Management for MPLS LDP Figure 15-16 MPLS LDP Peer Status Window—Sessions Tab LDP Sessions The LDP Session area displays a table. An entry in this table represents information on a single session between an LDP Entity and LDP Peer. The information contained in a row is read-only. The LDP Sessions table displays the following information: Local LDP Id—Displays the LDP identifier. Index—This index is used as a secondary index to uniquely identify this row.
Chapter 15 MPLS Management Fault Management for MPLS LDP Session Statistics Tab The Session Statistics tab (see Figure 15-17) displays statistics for sessions between LDP entities and LDP peers. The Session Statistics tab displays a single LDP Session Statistics area. Figure 15-17 MPLS LDP Peer Status Window—Session Statistics Tab LDP Session Statistics The LDP Session Statistics area displays a table of statistics for sessions between LDP Entities and LDP Peers.
Chapter 15 MPLS Management Fault Management for MPLS LDP ATM Sessions Tab The ATM Sessions tab (see Figure 15-18) displays information about the label range intersection between an LDP entity and its LDP peer where the underlying medium is ATM. The ATM Sessions tab displays a single LDP ATM Session area. Figure 15-18 MPLS LDP Peer Status Window—ATM Sessions Tab LDP ATM Session The LDP ATM Session area displays a table that relates Sessions in the LDP Session Table and their label range intersections.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Fault Management for MPLS Traffic Engineering This section describes Fault Management for MPLS traffic engineering (TE). MPLS Tunnel Information The MPLS Tunnel Information window displays the status information about the MPLS tunnels configured on the managed chassis (Cisco 12000 and 10720 Series Routers). The MPLS Tunnel Information window uses the MPLS-TE-MIB to populate window.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Figure 15-19 MPLS Tunnel Information Window—Select Tunnel Tab Step 2 Choose an Chassis from the list displayed at the left of the window. For further information on the fields displayed in this window, see the “MPLS Tunnel Information Window—Detailed Description” section on page 15-34.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Select Tunnel The Select Tunnel area displays the following information: Tunnel Id—Displays the tunnel identification number. Instance—Displays the tunnel instance of the LSP. It is useful to identify multiple instances of tunnels for the purposes of backup and parallel tunnels. Ingress LSR—Displays the source IP address of the LSP. Egress LSR—Displays the egress LSR IP address.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Figure 15-20 MPLS Tunnel Information Window—Head Tunnel Setup Tab Note To view head tunnel setup information, select the head tunnel in the Select Tunnel area. Select Tunnel The Select Tunnel area displays the following information: Tunnel Id—Displays the tunnel identification number. Instance—Displays the tunnel instance of the LSP.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Storage Type—This variable indicates the storage type for this object. Creation Time—Specifies the value of SysUpTime when the first instance of this tunnel came into existence. Tunnel Status Admin Status—Displays the desired operational status of this tunnel. Possible values are up ready to pass packets, down, or testing in some test mode.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Include All Affinity—A link satisfies the include-all constraint if and only if the link contains all of the administrative groups specified in the constraint. Exclude All Affinity—A link satisfies the exclude-all constraint if and only if the link contains none of the administrative groups specified in the constraint. Path In Use—This value denotes the configured path that was chosen for this tunnel.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Select Tunnel The Select Tunnel area displays the following information: Tunnel Id—Displays the tunnel identification number. Instance—Displays the tunnel instance of the LSP. It is useful to identify multiple instances of tunnels for the purposes of backup and parallel tunnels. Ingress LSR—Displays the source IP address of the LSP. Egress LSR—Displays the egress LSR IP address.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Figure 15-22 MPLS Tunnel Information Window—LSP Setup Tab Select Tunnel The Select Tunnel area displays the following information: Tunnel Id—Displays the tunnel identification number. Instance—Displays the tunnel instance of the LSP. It is useful to identify multiple instances of tunnels for the purposes of backup and parallel tunnels. Ingress LSR—Displays the source IP address of the LSP.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Tunnel Status Admin Status—Displays the desired operational status of this tunnel. Possible values are up ready to pass packets, down, or testing in some test mode. Operational Status—Indicates the actual operational status of this tunnel, which is typically but not limited to, a function of the state of individual segments of this tunnel.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering LSP Hops Tab The LSP Hops tab (see Figure 15-23) displays the actual route hops and the computed hops for the selected chassis. This tabs fields are specific to LSPs. Note To view ARHop and CHop information for a LSP: 1) Choose LSP in the Select Tunnel Area. 2) Note the ARHopListIndex and CHop List Index, and 3) Choose AR Hop Table and CHop Table with the noted Hop List Index.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering AR Hop List Index—Displays the actual hops traversed by the tunnel. C Hop List Index—Displays the computed hops traversed by the tunnel. Actual Route HOP Table The Actual Route Hop Tunnel area displays the following information: Hop Index—The number of explicit route hops for a tunnel. Address Type—Displays the address type of this tunnel hop. Possible values are ipV4, ipV6, asNumber, or lspid.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering LSP Resource Tab The LSP Resource tab (see Figure 15-24) displays the resource information specific to LSPs. The LSP Resource tab displays the Select Tunnel and Resource Table areas. Note To view LSP Resource information, choose an LSP in the Select Tunnel area and a Resource Index in the Resource Table area. Information is displayed for the selected Resource index for the selected LSP.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Resource Table This table allows a manager to specify which resources are desired for an MPLS tunnel. This table also allows several tunnels to point to a single entry in this table, implying that these tunnels should share resources. The Resource Table area displays the following information: Resource Max Rate—The maximum rate in bits/second.
Chapter 15 MPLS Management Fault Management for MPLS Traffic Engineering Instance—Displays the tunnel instance of the LSP. It is useful to identify multiple instances of tunnels for the purposes of backup and parallel tunnels. Ingress LSR—Displays the source IP address of the LSP. Egress LSR—Displays the egress LSR IP address. Packets—Displays the number of packets forwarded by the tunnel. HC Packets—High capacity counter for the number of packets forwarded by the tunnel.
C H A P T E R 16 MPLS VRF Management This chapter describes the various MPLS VRF Management tasks that can be performed using the Cisco 12000/10720 Router Manager application.
Chapter 16 MPLS VRF Management VRF Management Workflows VRF Management Workflows This chapter describes the following workflows: • Creating VRF Objects in the EM, page 16-3 – Deploying VRF Objects, page 16-3 • Creating and Configuring the VRF Policy on a Device, page 16-8 – Configuring and Creating a VRF Policy on a Selected Chassis, page 16-8 – Removing a VRF Policy from a Selected Chassis, page 16-10 – Adding a Routing Target to a Selected Chassis, page 16-10 – Deleting a Routing Target from a Selec
Chapter 16 MPLS VRF Management Creating VRF Objects in the EM Table 16-1 Launching the MPLS VRF Management Windows (continued) Cisco 12000/10720 Router Manager Window/Task Objects (that can be selected) to Open the Window Site Chassis Chassis Module Interface Software VRF Folder Folder VRF Menu Options to Select to Open Window 12000 Series 10720 VRF Association Yes Window Yes Yes Yes Yes Yes Yes Yes Cisco 12000/10720 Manager> Configuration> Interface> MPLS> VRF Association VRF Status Wi
Chapter 16 MPLS VRF Management Creating VRF Objects in the EM Figure 16-1 Deploying a VRF Object The Deployment Wizard - Object Parameters window appears (see Figure 16-2): Figure 16-2 Deployment Wizard - Object Parameters Window Step 2 Enter the number of VRF Objects required. A single VRF object was entered in this example. Step 3 Choose Forward. Cisco 12000/10700 v3.1.
Chapter 16 MPLS VRF Management Creating VRF Objects in the EM Figure 16-3 Deployment Wizard - Object Parameters Window Step 4 Enter a VRF name. Each VRF must have a unique name. In this example the VRF is called VRF-1. Step 5 Choose Forward. The Deployment Wizard - Views window appears: Figure 16-4 Deployment Wizard - Views Step 6 Choose Select (for the ComponentManaged view). The Object Selector window appears: Cisco 12000/10700 v3.1.
Chapter 16 MPLS VRF Management Creating VRF Objects in the EM Figure 16-5 Object Selector Window Step 7 Navigate down the hierarchy until you find the VRF folder (Chassis> Software >VRF). You can only deploy a VRF object within the VRF folder. Click on the VRF folder to select it and then click Apply. Step 8 The Deployment Wizard - Views window re-appears with the selected object displayed (VRF in this example) in both the ComponentManaged and Physical fields. Cisco 12000/10700 v3.1.
Chapter 16 MPLS VRF Management Creating VRF Objects in the EM Figure 16-6 Deployment Wizard—Views Step 9 Choose Forward. Step 10 The Deployment Wizard - Summary window appears. The Summary window provides details of the object you are about to deploy. Figure 16-7 Deployment Wizard—Summary Cisco 12000/10700 v3.1.
Chapter 16 MPLS VRF Management Creating and Configuring the VRF Policy on a Device Step 11 Choose Finish (when the Deployment Summary information is displayed) to complete deployment and close the Deployment Wizard - Summary window. The new VRF object (that is, VRF-1) is created and displayed in the Map Viewer window beneath the Chassis object in the Software/VRF folder.
Chapter 16 MPLS VRF Management Creating and Configuring the VRF Policy on a Device To configure and create a VRF policy on a selected device, proceed as follows: Step 1 Right click on a chassis object and choose Configuration >MPLS> VRF Configuration. See Table 16-1 on page 16-2 for information on which objects allow you to launch the VRF Configuration window.
Chapter 16 MPLS VRF Management Creating and Configuring the VRF Policy on a Device Removing a VRF Policy from a Selected Chassis To remove a VRF policy from a selected device, proceed as follows: Step 1 Right click on the chassis object and choose Configuration> MPLS> VRF Configuration. See Table 16-1 on page 16-2 for information on which objects allow you to launch the VRF Configuration window.
Chapter 16 MPLS VRF Management Creating and Configuring the VRF Policy on a Device Step 4 Choose Delete (located in the Routing Target area) to delete the routing target from the selected chassis. An Action Report window appears only if the delete action fails. Step 5 Choose the Save icon on the toolbar to save your changes. VRF Configuration Window—Detailed Description Note You can only configure the attributes in the VRF Configuration window when the VRF is not present (uploaded) in to the chassis.
Chapter 16 MPLS VRF Management Associating a VRF Policy with an Interface Device Action The Device Action area displays the following information: Remove button—Choose Remove to remove (unload) the VRF policy from the chassis. You can only remove the policy from the device when the chassis object is in managed state and the VRF is already created (uploaded) into the device. Create button—Choose Create to create (upload) the VRF policy to the chassis.
Chapter 16 MPLS VRF Management Associating a VRF Policy with an Interface Associating VRF Policies To associate a the VRF policy with one or more selected interfaces, proceed as follows: Step 1 Right click on the chassis object and choose Configuration> Interface> MPLS> VRF Association. See Table 16-1 on page 16-2 for information on which objects allow you to launch the VRF Association window.
Chapter 16 MPLS VRF Management Associating a VRF Policy with an Interface Removing a VRF Policy from a Selected Interface It is possible to remove the VRF policies from selected interfaces, only when the interfaces are in a managed state and they are already associated with the VRF policy. To associate a VRF policy with one or more selected interfaces, proceed as follows: Step 1 Right click on the chassis object and choose Configuration> Interface> MPLS> VRF Association.
Chapter 16 MPLS VRF Management VRF Fault Management Apply Status The Apply Status area displays the following information: Status of Last Apply—Displays the result of the last (Apply/Remove) operation. VRF Fault Management The VRF Fault Management section covers the following areas: • VRF Status • Interface VRF Status • VPN Status • VRF Object Status VRF Status The VRF Status window displays basic information for all the VRFs on a selected chassis.
Chapter 16 MPLS VRF Management VRF Fault Management Figure 16-11 VRF Status Window Step 2 Select a Chassis from the list box displayed at the left of the window. The appropriate information appears for the selected chassis. Step 3 Select a VRF from the list of VRFs displayed in the VRF Details area. The appropriate information appears for the selected VRF. For further information, see “VRF Status Window—Detailed Description” section on page 16-16.
Chapter 16 MPLS VRF Management VRF Fault Management General The General area displays the following information: VRF Description—The description of this VRF. Oper Status—Denotes whether a VRF is operational or not. A VRF is up when at least one interface associated with the VRF, which interface operation status is up. A VRF is down when: • There does not exist at least one interface whose interface operation status is up. • There are no interfaces associated with the VRF.
Chapter 16 MPLS VRF Management VRF Fault Management Figure 16-12 VRF Status Window—Performance and Security Tab VRF Details The VRF Details area displays the following information: VRF List—List of VRFs configured in the device. Performance The Performance area displays the following information: No. of Current Routes—Displays the number of routes currently used by this VRF. No. of Routes Added—Displays the number of routes added to this VPN/VRF over the coarse of its lifetime. No.
Chapter 16 MPLS VRF Management VRF Fault Management Interface VRF Status The Interface VRF Status window displays the interfaces on a chassis which are associated with VRFs and their associated VRF information.
Chapter 16 MPLS VRF Management VRF Fault Management Interface VRF Status Window—Detailed Description The Interface VRF Status window provides information about every interface that is capable of supporting MPLS/BGP VPNs. The Interface VRF Status window displays a single Interface VRF Association tab. Interface VRF Association Tab The Interface VRF Association tab (see Figure 16-13) displays two areas, Interface VRF Association and Association Status.
Chapter 16 MPLS VRF Management VRF Fault Management Figure 16-14 VPN Status Window Step 2 Choose a Chassis from the list displayed at the left of the window. For further information on the fields displayed in this window, see the “VPN Status Window—Detailed Description” section on page 16-21. VPN Status Window—Detailed Description The VPN Status window displays four tabs: General, Routes, Route Targets, and BGP Neighbor. General Tab The General tab (see Figure 16-18) displays a single General area.
Chapter 16 MPLS VRF Management VRF Fault Management Routes Tab The Routes tab (see Figure 16-15) displays the route table information for VRFs in a single VRF Routes area. Figure 16-15 VPN Status Window—Routes Tab VRF Routes The VRF Routes area displays a table with the following information: VRF—Name of the VRF which is responsible for this route. Associated Interface Name—Name of the interface to which the VRF is associated. Destination—The destination IP address of this route.
Chapter 16 MPLS VRF Management VRF Fault Management Route Age—The number of seconds since this route was last updated or otherwise determined to be correct. Route Info—A reference to MIB definitions specific to the particular routing protocol which is responsible for this route, as determined by the value specified in the route's RouteProto value. Next Hop AS—The Autonomous System Number of the Next Hop.
Chapter 16 MPLS VRF Management VRF Fault Management Figure 16-16 VPN Status Window—Route Targets Tab VRF Route Targets The VRF Route Targets area displays a table. This table specifies per-VRF route target association. Each entry identifies a connectivity policy supported as part of a VPN. The VRF Route Targets table with the following information: VRF—Name of VRF which is responsible for VPN target communication. Route Target—Route target distribution policy.
Chapter 16 MPLS VRF Management VRF Fault Management BGP Neighbor Tab The BGP Neighbor tab (see Figure 16-22) displays per-interface MPLS/EBGP neighbor information in a single Interface MPLS/EBGP Neighbor area. Figure 16-17 VPN Status Window—BGP Neighbor Tab Interface MPLS/EBGP Neighbor The Interface MPLS/EBGP Neighbor area displays a table. Each entry in this table specifies a per-interface MPLS/EBGP neighbor. An entry in this table is created by an LSR for every VRF capable of supporting MPLS/BGP VPN.
Chapter 16 MPLS VRF Management VRF Fault Management VRF Object Status The VRF Object Status window displays information specifically for the VRF object from which the window was launched. This window displays values only for VRFs created in the device through the EM. Note The VRF Status, VPN Status and Interface VRF Status windows at chassis level display similar information for all the VRFs on that chassis.
Chapter 16 MPLS VRF Management VRF Fault Management Step 2 Choose a VRF from the list displayed at the left of the window. For further information on the fields displayed in this window, see the “VRF Object Status Window—Detailed Description” section on page 16-27. VRF Object Status Window—Detailed Description The VRF Object Status window displays five tabs: General, Routes, Route Targets, Interface Association and Performance.
Chapter 16 MPLS VRF Management VRF Fault Management Routes Tab The Routes tab (see Figure 16-21) displays the route table information for VRFs in a single Routes area. Figure 16-19 VRF Object Status Window—Routes Tab Routes The Routes area displays the following information: Destination—The destination IP address of this route. Associated Interface Name—Interface Name to which VRF is associated. Subnet Mask—The subnet mask of the Destination IP address.
Chapter 16 MPLS VRF Management VRF Fault Management Route Info—A reference to MIB definitions specific to the particular routing protocol which is responsible for this route, as determined by the value specified in the route's RouteProto value. Next Hop AS—The Autonomous System Number of the Next Hop. The semantics of this object are determined by the routing-protocol specified in the route’s RouteProto value. When this object is unknown or not relevant its value should be set to zero.
Chapter 16 MPLS VRF Management VRF Fault Management Figure 16-20 VRF Object Status Window—Route Targets Route Targets The Route Targets area displays the following information: Route Target—Route target distribution policy. Route Target Descr—Description of the route target. Route Target Type—The route target export distribution type. Route Target Index—Auxiliary index for Route Targets configured for a particular VRF. Cisco 12000/10700 v3.1.
Chapter 16 MPLS VRF Management VRF Fault Management Interface Association Tab The Interface Association tab (see Figure 16-22) displays all of the interfaces that the selected VRF is associated to, in a single Interface Association area. Figure 16-21 VRF Object Status Window—Interface Association Tab Interface Association The Interface Association area displays the following information: Associated Interface Name—Interface Name to which VRF is associated.
Chapter 16 MPLS VRF Management VRF Fault Management Performance Tab The Performance tab (see Figure 16-22) displays VRF performance statistics in a single Performance area. Figure 16-22 VRF Object Status Window—Performance Tab Performance The Performance area displays the following information: No. of Curr Routes—Displays the number of routes currently used by this VRF. No. of Routes Deleted—Displays the number of routes removed from this VPN/VRF. No.
C H A P T E R 17 MPLS Trap Management This chapter describes MPLS traps that can be configured using the Cisco 12000/10720 Router Manager application using the MPLS Trap Configuration window. The MPLS Trap Configuration window allows you to enable/disable MPLS related Traps on a managed Cisco 12000 Series Router or a 10720 Router.
Chapter 17 MPLS Trap Management MPLS Traps Supported by the C12000/10720 Router Manager Table 17-1 MPLS Traps/Alarms Raised (continued) Trap Alarm Description Severity Clears LdpPvlMismatch LDP Entity Number with Path Vector Limit does not match Peer LDP Entity's Path vector Limit of Warning LdpPvlMismatch LdpInitSesThresholdExceed LDP Entity Number exceeded threshold
Chapter 17 MPLS Trap Management Enabling/Disabling Traps on the Device Enabling/Disabling Traps on the Device To enable or disable MPLS trap generation on a selected chassis, proceed as follows: Step 1 Open the MPLS Trap Configuration window. Right click on an appropriate object and select the Cisco 12000/10720 Manager> Configuration> Chassis> MPLS> MPLS Trap Configuration option. See Table 17-2 for information on which objects allow you to launch the MPLS Trap Configuration window.
Chapter 17 MPLS Trap Management Enabling/Disabling Traps on the Device Note The MPLS Trap Configuration window uses IOSDrep for configuration and population of the attributes. The user needs to configure the management information for the chassis against which the MPLS Trap Configuration window is launched. Note Enabling the LDP traps through the MPLS Trap Configuration window enables all the MPLS LDP based traps on the managed device.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Traffic Engineering (TE) Traps—Allows you to choose whether to Enable/Disable Traffic Engineering based traps. The TE traps supported by the Cisco 12000/10720 Router Manager application are described in Table 17-1 on page 17-1. LDP Traps—Allows you to choose whether to Enable/Disable LDP based traps. The LDP traps supported by the Cisco 12000/10720 Router Manager application are described in Table 17-1 on page 17-1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Table 17-3 Launching the MPLS CLI Troubleshooting Services Windows (continued) Cisco 12000/10720 Router Manager Window/Task Objects (that can be selected) to Open the Window Verify Label Bindings Verify Interface CEF Switching Chassis Chassis Module 12000 10720 Series Interface Software Folder VRF Folder VRF Menu Options to Select to Open Window No Yes Yes No No No No No Fault> MPLS> CLI TroubleShooting> Verify Label Bind
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify Routing Tables To open the Verify Routing Tables window see Table 17-3. The Verify Routing Tables window (see Figure 17-3) displays the results of the show ip route command. Figure 17-3 Verify Routing Tables Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify CEF Switching To open the Verify CEF Switching window see Table 17-3. The Verify CEF Switching window (see Figure 17-4) displays the results of the show ip cef command. Figure 17-4 Verify CEF Switching Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify CEF Switching Summary To open the Verify CEF Switching Summary window see Table 17-3. The Verify CEF Switching Summary window (see Figure 17-5) displays the results of the show ip cef summary command. Figure 17-5 Verify CEF Switching Summary Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify MPLS Interfaces To open the Verify MPLS Interfaces window see Table 17-3. The Verify MPLS Interfaces window (see Figure 17-6) displays the results of the show mpls interfaces command. Figure 17-6 Verify MPLS Interfaces Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify Label Distribution To open the Verify Label Distribution window see Table 17-3. The Verify Label Distribution window (see Figure 17-7) displays the results of the show tag-switching tdp discovery command. Figure 17-7 Verify Label Distribution Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify Label Bindings To open the Verify Label Bindings window see Table 17-3. The Verify Label Bindings window (see Figure 17-8) displays the results of the show tag-switching tdp bindings command. Figure 17-8 Verify Label Bindings Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Verify Interface CEF Switching To open the Verify Interface CEF Switching window see Table 17-3. The Verify Interface CEF Switching window (see Figure 17-9) displays the results of the show ip cef command. Figure 17-9 Verify Interface CEF Switching Window Cisco 12000/10700 v3.1.
Chapter 17 MPLS Trap Management MPLS CLI Troubleshooting Services Cisco 12000/10700 v3.1.
C H A P T E R 18 Fault Management This chapter describes how to view appropriate fault information on the Cisco 12000/10720 Routers you are managing. The Cisco 12000/10720 Routers can be configured to send SNMP traps when various conditions are detected. This may be a fault, the correction/resolution of a previous condition or a status update. Traps are translated into Cisco EMF alarms and raised against the appropriate Cisco 12000/10720 Router Manager object.
Chapter 18 Fault Management Cisco 12000/10720 Router Trap Support propagation. The interface alarm would be propagated up the hierarchy to site level. This means that whatever level you are working at, you will see that an alarm has occurred. You can follow the path to discover where the alarm exists. Note Cisco 12000/10720 Router Manager is complimented by the Event Manager application.
Chapter 18 Fault Management Cisco 12000/10720 Router Trap Support • Informational • Normal Chassis Alarms Table 18-2 provides information on traps that result in alarms raised against the chassis object. Table 18-2 Monitored Attributes for a GRP Module Trap Alarm Description Severity Clears Cold start Cold Start: Agent reinitializing; configuration may have changed.
Chapter 18 Fault Management Cisco 12000/10720 Router Trap Support Table 18-2 Monitored Attributes for a GRP Module (continued) Trap Alarm Description Severity Clears Fan Normal Fan Tray 1, normal Normal Normal, Critical, Shutdown, Warning, NotPresent Fan Warning Fan Tray 1, warning Warning Critical, Shutdown, Warning, NotPresent Fan Critical Fan Tray 1, critical Critical Critical, Shutdown, Warning, NotPresent Fan Shutdown Fan Tray 1, shutdown Critical Critical, Shutdown, Warning, Not
Chapter 18 Fault Management Cisco 12000/10720 Router Trap Support Interface Alarms Table 18-3 provides information on traps that result in alarms raised against interface objects.
Chapter 18 Fault Management Cisco 12000/10720 Router Trap Support Table 18-5 Syslog to Cisco EMF Mappings Trap Alarm Description Emergency Critical Alert Critical Critical Critical Error Major Warning Minor Notification Minor Informational Informational Debug Informational Syslog alarms have a Description in the Event Browser application in the following format: “Asserted [] by facility [], Message name []” Where: clogHistMsgText is t
Chapter 18 Fault Management Heartbeat Polling An example Configuration Management Event Alarm Description is: “Config Change, Command Source: commandLine, Config Source: running, Config Destination: commandSource”. This would be received when a command was issued. Alarms are raised against the Chassis object with Informational Severity. Heartbeat Polling Heartbeat polling begins automatically when you commission a chassis.
Chapter 18 Fault Management Heartbeat Polling Performance Logging Heartbeat polling is unaffected if an object is in the performance logging state. Cisco 12000/10700 v3.1.
C H A P T E R 19 Change Management This chapter describes how to manage the insertion and removal of line cards (ATM, Ethernet, POS, DS-3, SRP, Modular Ethernet) in Cisco 12000/10720 Routers being managed by the Cisco 12000/10720 Router Manager application. This chapter contains the following information: • Inserting a Line Card • Mismatched State • Removing a Line Card Change management also deals with removal and insertion of other modules into a Cisco 12000/10720 Router.
Chapter 19 Change Management Inserting a Line Card Inserting a Line Card When a line card is inserted into a chassis being managed by Cisco 12000/10720 Router Manager, then the EMS detects that a line card has been inserted through the chassis heartbeat polling (which occurs every minute). Once the EMS detects that the line card is inserted, an informative alarm is raised against the respective chassis object in Cisco 12000/10720 Router Manager with a description The chassis configuration has changed.
Chapter 19 Change Management Mismatched State Two example scenarios during which a line card can be moved to mismatched state are described as follows: Example 19-1 Scenario 1 Scenario 1—The mismatched state appears if you insert an incorrect line card that does not correspond with the line card type that has been pre-deployed and managed in Cisco 12000/10720 Router Manager. This can occur during an Online Insertion removal process.
Chapter 19 Change Management Removing a Line Card Example 19-2 Scenario 2 Scenario 2—If a line card have been pre-deployed incorrectly in the Cisco 12000/10720 Router Manager and commissioned. This can occur if an incorrect line card type is pre-deployed and commissioned.
Chapter 19 Change Management Removing a Line Card This situation is rectified when the removed line card is re-inserted into the chassis. When the line card is re-inserted into the chassis, the chassis rediscovers itself and its child objects due to change in the hardware configuration. The re-inserted line card and its child objects will be placed in the appropriate state and the previously raised major alarm is cleared. Cisco 12000/10700 v3.1.
Chapter 19 Change Management Removing a Line Card Cisco 12000/10700 v3.1.
C H A P T E R 20 Performance Management and Historical Data An important component of efficient network management is the ability to collect and analyze performance information in a large network of many devices. This performance information can assist you to pro-actively manage your network elements, and troubleshoot network problems.
Chapter 20 Performance Management and Historical Data Performance Information Available Using Cisco 12000/10720 Router Manager This chapter describes the Performance Manager application and the various historical performance statistics available on the various objects within the Cisco 12000/10720 Router Manager. Note Further information on Performance Manager is available in the Cisco Element Management Framework User Guide, when required.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Note The Performance Manager window cannot be opened when multiple objects are selected (the menu options to open the Cisco 12000/10720 Router Manager windows are grayed out). Available menu options can be launched from a site object containing the required objects, when required. The Performance Manager window appears (see Figure 20-1).
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Step 2 Note • Print performance data to a printer. • Save/export performance data to a file, for subsequent analysis and processing, for example, using a spreadsheet application. Proceed to the “Viewing Performance Statistics” section on page 20-4 for details on viewing performance statistics. Cisco EMF provides a command line utility (history Admin) that allows mass export of performance history data.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Note Step 7 When you choose Raw, the bar chart view is sometimes not available, and the Summary Rule option is grayed out. Click Refresh Screen. The Refresh Screen button is grayed out when not available.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Printing a Performance File You can print performance statistics from the Performance Manager, either as a chart or as a table. A chart prints out the information which can be seen in the window, and a table prints out all of the performance statistics in a plain text format. The output is printed by the default printer set up on your network.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Note Cisco EMF contains a utility called historyAdmin. HistoryAdmin enables you to selectively export performance data for groups in an automated manner. Refer to the Cisco Element Management Framework User Guide for further details. Exporting A Performance File Performance data can be exported for use in other applications.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Time Period The Time Period area contains two sub-areas: Start and End. Start The Start area displays two fields: Date and Time. Date—Enter the date on which you want to begin viewing performance data. The format must be mm/dd/yyyy. Time—Enter the time you want the performance data to start. Set a Start time using the 24 hour clock notation. End The Start area displays three fields: Date, Time and Now.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window • Note LogicalOR—displays either 1 or 0. This is typically used for status flags. Some attributes may have only two potential values (such as, true or false; yes or no; 1 or 0). When summaries are generated from values such as these, and the logicalOR rule is used, the summarized value is 1 if any value in the summary interval is 1. If all values in the summary interval are 0, then the summarized value is 0.
Chapter 20 Performance Management and Historical Data Viewing the Performance Manager Window Cisco 12000/10700 v3.1.
C H A P T E R 21 Troubleshooting and FAQs The Troubleshooting and FAQs section details answers to some commonly asked questions or problems. Note Cisco 12000/10720 Router Manager also provides a debugging support tools and utilities package to assist in data gathering and problem analysis. Refer to the Cisco 12000/10720 v3.1.1 Installation and Configuration Guide for more information. Table 21-1 lists the questions and shows where you can find information.
Chapter 21 Troubleshooting and FAQs Administration What Dialogs Use the IOS CLI Instead of SNMP? Q. What dialogs are retrieving or configuring information using the IOS CLI instead of SNMP? A. In Cisco 12000/10720 v3.1.1 Router Manager some dialogs use only the IOS CLI, some use only SNMP, and some use both IOS CLI and SNMP. Table 21-2, Table 21-3, and Table 21-4 detail each instance. When a dialog uses the IOS CLI, the IOS password must be set up.
Chapter 21 Troubleshooting and FAQs Configuration Table 21-4 Dialogs launched from Interface objects Dialog uses IOS CLI (Need to set the Management Passwords on the EM) Dialog uses SNMP Dialog uses IOS CLI and SNMP (Need to set the Management Passwords on the EM) ATM Interface Configuration Generic Interface Configuration SRP Interface Configuration ATM Interface Faults Generic Interface Performance SRP Interface Status ATM Interface Status Generic Interface Status SRP Side Interface Configur
Chapter 21 Troubleshooting and FAQs Configuration To verify that SNMP and Traps are configured to be sent to the Cisco 12000/10720 Router Manager, in the CLI enter: show running-config | begin snmp This command will list all the SNMP configurations for the router. You should see the following statement defining the SNMP read community strings for the router.
Chapter 21 Troubleshooting and FAQs Configuration You will see the following entries related to the Syslog configuration: logging history size 10 logging history debugging logging trap debugging show logging history This provides summary information on the logging facilities, the number of messages sent/dropped, etc. Syslog can be configured from the Cisco 12000/10720 Router Manager. Right click on the chassis object and select the Fault > Syslog Messages option.
Chapter 21 Troubleshooting and FAQs Configuration Viewing ATM Physical Port Configurations? Q. How do I view the ATM physical port configurations? It looks like ATM Configuration GUIs are for configurations only. A. To view what is configured in the ATM physical port, use all the configuration windows provided by the Cisco 12000/10720 Router Manager. For IP (Layer3) information use the IP Configuration Window. For Interface Status: Use the Interface Configuration window, etc.
A P P E N D I X A SONET/SDH Conversion Chart The term Synchronous Optical NETwork (SONET) is used instead of Synchronous Digital Hierarchy (SDH) throughout this Guide. However, these two terms are somewhat interchangeable. The Cisco 12000/10720 Router Manager application handles both SDH and SONET in the same manner. The Cisco 12000 Series Routers support both SDH and SONET. SONET was defined by the American National Standards Institution (ANSI) and is used in North America.
Appendix A SONET/SDH Conversion Chart Cisco 12000/10700 v3.1.
A P P E N D I X B GUI Synchronization Details GUIs that Synchronize with the Device when Launched • MPLS Interface Status • MPLS Interface Performance • MPLS Interface Information • MPLS Forwarding Information • MPLS Tunnel Information • MPLS Trap Configuration • MPLS LDP Entity Status • MPLS LDP Hello Adjacencies • MPLS LDP Peer Status • VRF Status • Interface VRF Status • VRF Object Status • VPN Status • BGP Configuration • BGP Status • BGP Address-Family Configuration •
Appendix B GUI Synchronization Details GUIs that do not Synchronize with the Device when Launched GUIs that do not Synchronize with the Device when Launched • VRF Configuration • VRF Association • COSQGroup Configuration • WRED Tx Configuration • ToFab Configuration • WRED Rx Configuration • CAR Policy Configuration • Access List Configuration • CAR Policy Apply • CAR Policy Status Cisco 12000/10700 v3.1.
A P P E N D I X C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Network Diagram Figure C-1 Example Network Diagram 192.168.1.196/26 CE1 (cl-7505-1) CE2 (cl-7505-2) .1 .6 10.1.1.0/24 .2 .5 10.7.7.7 .2 .5 .7 PE1 (cl-7505-1) 10.6.6.0/24 10.5.5.5 .7 P (cl-12008-1) PE2 (cl-7505-3) 93226 10.2.2.2 10.10.10.0/24 Setup On a U10 running the Solaris 8 operating system, the following was installed: • Cisco EMF 3.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup • P—PE2 :Gigabit Ethernet • PE2—CE2 : POS Problem The problem is that the user is unable to ping from CE1 to CE2 (192.168.1.196). The reason for this is because we have manually created an LSP Blackhole between the P router, which in this case is the GSR, and PE2. This has been manually configured in the running-config for PE2 by specifying a loopback address for PE2 to be: • interface Loopback0 – ip address 10.5.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup The entry on the P router shows untagged, so label-switched packets for this destination will be sent out without any labels. Since the VPN label was lost, it will never be received by PE2, and PE2 will not have the correct information to forward the packet to the proper VPN destination.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup This shows that the out-going label is now a pop tag, and hence the packets are no longer sent out untagged. This means that the top label for the BGP next hop will be popped as the packets traverse the router, but the packets will still have the second VPN label. And more importantly, you can ping from CE1 to CE2. If you re-run the show Table C-2: Table C-2 Note mpls forwarding-table 10.5.5.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup interface Serial2/0/1 no ip address no ip directed-broadcast shutdown ! interface Serial2/0/2 no ip address no ip directed-broadcast shutdown ! interface Serial2/0/3 no ip address no ip directed-broadcast shutdown ! interface FastEthernet3/1/0 ip address 10.1.1.1 255.255.255.0 no ip directed-broadcast ! ip classless ip route 0.0.0.0 0.0.0.0 10.2.2.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup no mpls ldp logging neighbor-changes no mpls traffic-eng auto-bw timers frequency 0 ! ! ! interface Loopback0 ip address 10.2.2.2 255.255.255.255 no ip directed-broadcast no ip mroute-cache ! interface POS4/0/0 bandwidth 100000 ip address 192.168.1.37 255.255.255.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup ! router ospf 1 log-adjacency-changes network 0.0.0.0 255.255.255.255 area 0 ! router bgp 1 bgp log-neighbor-changes neighbor 10.5.5.5 remote-as 1 neighbor 10.5.5.5 update-source Loopback0 no auto-summary ! address-family ipv4 multicast no auto-summary exit-address-family ! address-family vpnv4 neighbor 10.5.5.5 activate neighbor 10.5.5.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup ! ! ! ip subnet-zero mpls label protocol ldp mpls ldp logging neighbor-changes no mpls traffic-eng auto-bw timers frequency 0 ! ! interface Loopback0 ip address 10.7.7.7 255.255.255.255 no ip directed-broadcast ! interface GigabitEthernet1/0 ip address 10.8.8.7 255.255.255.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup no ip directed-broadcast shutdown ! interface POS3/0 bandwidth 100000 ip address 192.168.1.14 255.255.255.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup ! pvc test6 254/6 ! pvc test4 254/10 ! ! interface ATM7/1 no ip address no ip directed-broadcast atm pvc 1000 80 800 ilmi 64000 32000 no atm enable-ilmi-trap no atm ilmi-keepalive pvc 10/100 oam-pvc manage 30 ! pvc 10/101 ! ! interface ATM7/2 no ip address no ip directed-broadcast no atm enable-ilmi-trap no atm ilmi-keepalive ! interface ATM7/2.100 point-to-point ip address 10.51.21.101 255.255.255.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup PE2 ! version 12.0 no service pad service timestamps debug uptime service timestamps log uptime no service password-encryption no service single-slot-reload-enable ! hostname cl-7505-3 ! boot system flash rsp-pv-mz.120-24.S.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup ! router rip version 2 ! address-family ipv4 vrf aqua version 2 network 10.0.0.0 no auto-summary exit-address-family ! router bgp 1 bgp log-neighbor-changes neighbor 10.2.2.2 remote-as 1 neighbor 10.2.2.2 update-source Loopback0 no auto-summary ! address-family ipv4 multicast no auto-summary exit-address-family ! address-family vpnv4 neighbor 10.2.2.2 activate neighbor 10.2.2.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup ! redundancy no keepalive-enable enable password atlantech ! ip subnet-zero no ip cef no mpls ldp logging neighbor-changes no mpls traffic-eng auto-bw timers frequency 0 ! ! ! interface Loopback0 ip address 192.168.1.196 255.255.255.192 no ip directed-broadcast ! interface POS0/0/0 bandwidth 100000 ip address 192.168.1.38 255.255.255.
Appendix C Investigating LSP Black Holes Using Cisco 12000 Series Router Manager Setup Cisco 12000/10700 v3.1.
I N D EX decommissioned A discovery about this guide 2-15 discovery lost comms conventions and terminology access lists 2-14 xxviii 11-5 download errored APS adding protected interfaces adding working interfaces 8-20 8-20 removing protected interfaces removing working interfaces 8-20 archiving 2-15 2-14 lost comms 2-15 mismatched 2-15 normal 8-20 2-14 performance logging on performance information 20-6 20-2 applying policies to interfaces ATM creating access lists configuration
Index Cisco EMF and C12kM subchassis discovery 3-3 Cisco EMF user session start CLLI supporting modules 3-26 3-50 to deploy a generic object 3-3 user named and auto named 4-12, 4-14 clock scheduler cards (CSCs) deployment 3-11 discovery lost comms state 2-5 DRR 3-50 3-31 2-15 11-27 commissioning chassis 3-26, 3-27, 3-30 modules E 5-4 CoS queue group applying creating editing 11-28 11-23 creating an existing ATM interface profile 7-6 an existing POS interface profile 7-14 edi
Index connectivity management 18-7 ATM 9-5 operational status polling 18-7 DS-3 9-9 HSRP IP interface deleting 7-11 HSRP IP interface profile editing generic 9-3 SONET 9-12 IOS image download IP configuration 7-10 I L icons launching Cisco EMF Launchpad 3-5 interface 4-32, 16-26 8-13 interface profile windows Performance Manager ATM 11-1 20-2 linecard configuration faults inserting new 8-6 removing 9-8 configuration 19-2 19-4 line cards 8-3 deployment ethernet conf
Index module stop polling events point commissioning configuration window 5-3 decommissioning deployment Summary Rule 5-4 performance 20-2 printing 20-6 physical interfaces and technologies 5-7 physical objects 5-9 monitored attributes 20-8 performance statistics 5-5 3-30 fault management 20-5 18-1, 18-3, 20-2 2-5 2-2 POS configuration 8-15, 8-18 POS interface profile N normal state creating 7-12 deleting 7-15 printing performance statistics 2-14 20-6 profiles creating
Index R U Refresh button - Performance Manager refresh screen button 20-9 user name - Cisco EMF login 3-4 user named and auto named deployment 20-5 3-31 user password Cisco EMF login S saving performance data to a file SONET/SDH conversion chart 20-6 V A-1 stopping viewing alarms performance logging interface/port views 2-11 layer 3 QoS view 3-26 subchassis modules deployment 18-2 component managed view 10-7 subchassis discovery 3-4 1 2-11 2-12 network view 2-12 physical vie
Index Cisco 12000/10700 v3.1.
