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CoreBuilder

9000

ATM Enterprise Switch

Management Guide

Software Release 3.0

Part No. DUA-C900-1FAA04

Published August

1999

Summary of content (460 pages)

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® CoreBuilder® 9000 ATM Enterprise Switch Management Guide Software Release 3.0 http://www.3com.com/ Part No.
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3Com Corporation 5400 Bayfront Plaza Santa Clara, California 95052-8145 Copyright © 1999, 3Com Corporation. All rights reserved. No part of this documentation may be reproduced in any form or by any means or used to make any derivative work (such as translation, transformation, or adaptation) without written permission from 3Com Corporation.
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CONTENTS ABOUT THIS GUIDE Conventions 16 Command Description 18 Related Documents 20 CoreBuilder 9000 Documents 20 World Wide Web Site Documents 22 3Com Facts Automated Fax Service Documents Year 2000 Compliance 23 1 23 OVERVIEW CoreBuilder 9000 ATM Enterprise Switch Characteristics The ATM Switch Fabric Module 25 Interfaces to ATM 26 Processors 27 Device Management 28 Traffic Management 28 ATM Networks 29 Software Release 3.
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Sicherheitsvorkehrungen 36 Sicherheitsinformationen für Elektrostatische Entladungen Vorkehrungen beim Umgang mit dem Modul 37 Installation 38 Installation Prerequisites 38 Installing the Daughter Cards 38 Installing the ATM Interface Module into the Chassis 38 3 INTEGRATED FAST SETUP CoreBuilder 9000 ATM Enterprise Switch Integrated Fast Setup Setup Procedure Sections 40 Entering Data 40 Navigation Aids 40 Integrated Fast Setup Operation 40 4 USING THE LOCAL MANAGEMENT APPLICATION Management Capabiliti
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Setting Up for Management 55 Display Current IP Configuration 56 Update IP Address 57 Display Current NMS IP Address 58 Update NMS Address 59 Display Current Default Gateway IP Address 60 Update Default Gateway IP Address 61 Display Current IP Subnet Mask 62 Update IP Subnet Mask 63 Display Current Read Community String 64 Update Read Community String 65 Display Current Write Community String 66 Update Write Community String 67 Display Ethernet Encapsulation Type 68 Update Ethernet Encapsulation Type 69 Set
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Set Port Clock Mode 97 Set Loop Mode 98 Reset Interface Card 99 Logging Out and Rebooting 100 Logout 100 Reboot 101 Configuration Flash Status 102 ATM Features and Software Versions 103 Display ATM Features 103 Display Software Versions 104 LECS ATM Address 105 Display LECS ATM Address 105 Update LECS ATM Address 106 Setting Up the Switch Clock Source 107 Get Clock Source Status 107 Set External Clock Source 1 108 Set External Clock Source 2 109 Set Clock Source to Internal 110 6 MANAGING NETWORK INTERFAC
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Delete All ATM Addresses at Port 132 Add ATM Address to Port 133 Delete ATM Address by Member ID 134 Get ATM Addresses at Port 135 Delete All Inactive Addresses 136 Network Prefix 137 Display Network Prefix 137 7 CONFIGURING VIRTUAL CHANNELS Display Call Routing 140 Display Call Routed to ATM Address 140 Display Port Connections 145 Display UME Address Port Connection 145 Display Static Address Port Connection 148 Display Inactive Address Port Connections 150 Create Permanent Virtual Channel (PVC) 151 Dis
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Display Call-Proceeding Enable Value 177 Update Call-Proceeding Enable Value 178 Reset Signaling Configuration 179 Signaling Timers 180 Display Protocol Timer Resolution 180 Update Protocol Timer Resolution 182 Display UNI Signaling Timers 183 Display QSAAL Signaling Timers and Protocol Configuration 8 VIEWING STATISTICS Physical Layer Statistics 189 Display Physical Layer Statistics 190 Reset Physical Layer Statistics 192 ATM-Layer Statistics 193 Display Total Calls in Switch 193 Display Counters Per Por
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Enable LECS 215 Disable LECS 216 LAN Emulation Redundancy Setup 217 Display LECS Redundancy 218 Add LECS to LECS-Order Database 219 Delete LECS from LECS-Order Database 220 Display LE Service Redundancy 221 Enable or Disable LE Servers Redundancy 222 Update Startup Delay 223 LANE Version of Switch 224 Get Switch LANE Version 224 Set Switch LANE Version 225 MPOA Devices Configuration 226 Display Current MPS Configuration 226 Set Keep-Alive Time 228 Set Keep-Alive Lifetime 229 Set Internetwork Layer Protocols
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Update ELAN Parameters in LECS Database 252 Display ELAN MAC Addresses 254 Delete ELAN MAC Address 255 Add ELAN MAC Address 256 Display ELAN ATM Addresses 257 Delete ELAN ATM Address 258 Add ELAN ATM Address 259 Add ELAN 260 Delete ELAN 262 Configure Segment ID 263 LECS Database Statistics 264 Reset LECS 266 Display LECS Maximum Connection Number 267 Update LECS Maximum Connection Number 268 LAN Emulation Redundancy 269 Assign Redundant LES to ELAN 270 Deassign Redundant LES from ELAN 271 Make Primary LES A
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Display LANE Multicast Forward Delay 299 Update LANE Multicast Forward Delay 300 LEC Operations 301 Display LEC Connection Info 301 Display LEC Address Info 304 LAN Emulation Statistics 306 Display LAN Emulation Statistics 306 Display LEC Statistics 308 Reset LAN Emulation Statistics 310 Display Multicast Addresses 311 Destroy Specific LEC 312 Restart ELAN 313 10 LEC ELAN ADMISSION SECURITY LEC Not in ELAN Security List 316 Display LEC ELAN Join Privilege 316 Update LEC ELAN Join Privilege for Current Ses
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Get Enhanced 164 Address Support State 335 Set & Save Enhanced E.
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Set SVCC Calling Integrity Time 373 Set SVCC Called Integrity Time 374 Set All Timers to Their Default Values 375 Setting Optimization Metrics 376 Get Optimization Metrics 377 Set Optimization for CBR 379 Set Optimization for RealTime-VBR 380 Set Optimization for NonRealTime-VBR 381 Set Optimization for ABR 382 Set Optimization for UBR 383 Set Optimization for All Classes to Default 384 Select Port for Interface Parameter Setting 385 Setting Interface Parameters 386 Set Aggregation Token 387 Set CBR Adminis
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Display PGL Election Information 419 Display Peer Group Neighbor Information Display Statistics Information 422 A 421 ATM SWITCH FABRIC MODULE SPECIFICATIONS Physical 423 Environmental 423 Safety 423 Electromagnetic Compatibility 424 Standards Supported 424 CoreBuilder Management and Interface LEDs 424 CoreBuilder Management and Interface Connectors B MENU INDEX C TECHNICAL SUPPORT Online Technical Services 441 World Wide Web Site 441 3Com Knowledgebase Web Services 441 3Com FTP Site 442 3Com Bulleti
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ABOUT THIS GUIDE The CoreBuilder 9000 ATM Enterprise Switch User Management Guide provides all the information that you need to configure and set up the CoreBuilder® 9000 ATM Enterprise Switch in ATM networking environments. It also provides information about how the CoreBuilder 9000 ATM Enterprise Switch operates in an ATM network.
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ABOUT THIS GUIDE Conventions Table 1 and Table 2 list conventions that are used throughout this guide.
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Conventions 17 Table 2 Text Conventions (continued) Convention Description Words in italics Italics are used to: Emphasize a point. Denote a new term at the place where it is defined in the text. Identify menu names, menu commands, and software button names. Examples: From the Help menu, select Contents. Click OK.
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ABOUT THIS GUIDE Command Description In Chapters 5 through 11 of this guide, all of the Local Management Application (LMA) commands are explained. For each command, a standard format describes the command.
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Conventions 19 Table 3 explains the command descriptions. Table 3 Command Description Sections Key Section Description A Menu sequence The menu options that you select to execute the command, including all the levels and sublevels. B Parameters The parameters to enter after the menu sequence and the format to use. If no parameters are necessary, this section does not appear in the command description.
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ABOUT THIS GUIDE Related Documents This section provides information about supporting documentation, including: CoreBuilder 9000 Documents World Wide Web Site Documents 3Com Facts Automated Fax Service Documents SM CoreBuilder 9000 Documents The following documents compose the CoreBuilder 9000 documentation set. Documents are available in three forms: Paper Documents The paper documents that are shipped with your system are listed on the next page.
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Related Documents 21 Paper Documents These documents are shipped with the CoreBuilder 9000 chassis: Chassis Quick Installation Guides Instructions for installing the 7-slot chassis, 8-slot chassis, and 16-slot chassis in a rack, on a table, or on a shelf, including prerequisites.
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ABOUT THIS GUIDE Documents on CD-ROM The Documentation CD-ROM contains online versions of the paper guides that are shipped with your chassis and other CoreBuilder 9000 documents in online format only, such as: CoreBuilder 9000 Enterprise Management Engine User Guide How to use the CoreBuilder 9000 Enterprise Management Engine (EME) to manage the chassis and the network modules in the chassis.
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Year 2000 Compliance 3Com Facts Automated Fax Service Documents 23 The 3Com FactsSM automated fax service provides technical articles, diagrams, and troubleshooting instructions on 3Com products 24 hours a day, 7 days a week. Call 3Com Facts using your Touch-Tone telephone: 1 408 727-7021 Year 2000 Compliance For information on the Year 2000 compliance and 3Com products, visit the 3Com Year 2000 Web page: http://www.3com.com/products/yr2000.
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ABOUT THIS GUIDE
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1 OVERVIEW This chapter provides an overview of the CoreBuilder® 9000 ATM Enterprise Switch. The following topics are covered: CoreBuilder 9000 ATM Enterprise Switch Characteristics Software Release 3.
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CHAPTER 1: OVERVIEW Figure 1 shows the front panel of the ATM Switch Fabric Module. Note that, in the figure, the Module is shown on its side; in the 16-slot chassis or the 8-slot chassis you install it vertically with the LEDs on top. Figure 1 Module Status LED ATM Switch Fabric Module Front Panel LAN PC Card Slots RS-232 Console Port The Module Status LED indicates the ATM Switch Fabric Module’s status.
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CoreBuilder 9000 ATM Enterprise Switch Characteristics 27 The OC-3c/STM-1 and OC-12c/STM-4 daughter cards are available in single-mode or multi-mode. An OC-3c/STM-1 card is available with three single-mode ports and one multi-mode port. You can install up to 11 ATM Interface Modules in the 16-slot chassis and up to 5 ATM Interface Modules in the 7-slot chassis and the 8-slot chassis.
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CHAPTER 1: OVERVIEW Device Management You can use the CoreBuilder 9000 ATM Enterprise Switch Local Management Application (LMA) or Transcend® Enterprise Manager (or other SNMP-based network management application) to manage your CoreBuilder 9000 ATM Enterprise Switch. The CoreBuilder 9000 ATM Enterprise Switch LMA is a character-oriented, menu-driven user interface for performing system-level administration.
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CoreBuilder 9000 ATM Enterprise Switch Characteristics 29 Mechanisms for Handling Congestion The following mechanisms are used to manage congestion in the CoreBuilder 9000 ATM Enterprise Switch Fabric Module: ATM Networks Back Pressure Partial Packet Drop (PPD) (Hardware ready) Early Packet Drop (EPD) (Hardware ready) Call Admission CLP-based Cell Discard.
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CHAPTER 1: OVERVIEW Software Release 3.
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Standards and Protocols Supported 31 MIBs Supported — MIB II, AToM MIB, RMON MIB, Interface Evolution MIB, NCDCHASS MIB (private) ATM Forum Standards Compliance Electromagnetic Compatibility — FCC Part 15, EN50081-1 (EN55022 Class B); EN50082-1 (IEC 801-2, IEC 801-3, IEC 801-4) Safety — EN60950, UL1950, CSA22.
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CHAPTER 1: OVERVIEW
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2 STARTING UP This chapter contains a description of the system states of the CoreBuilder® 9000 ATM Switch Fabric Module and its daughter cards. Topics covered in this chapter include: Safety Precautions Handling Precautions Précautions de Sécurité Précautions de Manipulation Sicherheitsvorkehrungen Vorkehrungen beim Umgang mit dem Modul Installation For information about installing the ATM Switch Fabric Module, see the CoreBuilder 9000 ATM Switch Fabric Module Getting Started Guide.
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CHAPTER 2: STARTING UP WARNING: When the CoreBuilder 9000 system is on, never insert metal objects, such as a screwdriver into open module slots and be sure to remove all hand-worn jewelry (such as watches and rings). When the system is on, do not touch any connections within the chassis with your fingers. Do not insert metal objects into the backplane. WARNING: Do not plug in, turn on, or attempt to operate an obviously damaged module.
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Précautions de Sécurité Précautions de Sécurité 35 Lorsque on manipule les éléments du système CoreBuilder 9000, il faut bien respecter les précautions de sécurité. Pour éviter des décharges électriques, des brûlures, des incendies ainsi que pour ne pas endommager l’équipement, veuillez bien lire et respecter les précautions suivantes: AVERTISSEMENT: Le système CoreBuilder 9000 contient énergie qui peut s’avérer dangereuse.
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CHAPTER 2: STARTING UP Précautions de Manipulation Respectez les précautions suivantes lorsque vous manipulez le Module de Switch Fabric ATM: Tenez le module par son panneau avant ou comme indiqueé dans le ATM Switch Fabric Module Getting Started Guide. Ne touchez pas les éléments, broches, branchements ou soudures. Avant d’insérer le module dans le châssis, assurez-vous que les poignées d’insertion/d’éjection sont ouvertes.
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Vorkehrungen beim Umgang mit dem Modul Sicherheitsinformationen für Elektrostatische Entladungen 37 Elektrostatische Entladungen (ESD) können einzelne Baugruppen oder das gesamte Modul beschädigen. ESD können vorkommen, wenn das Modul nicht richtig gehandhabt wird und können eine dauerhafte oder zeitweilige Fehlfunktion bewirken. VORSICHT: Zur Verhütung von Schäden durch ESD: Vergewissern Sie sich, daß Sie richtig geerdet sind.
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CHAPTER 2: STARTING UP Installation Installation Prerequisites This section describes installing the ATM Switch Fabric Module. Before you install the ATM Switch Fabric Module, ensure that you have met all of the following prerequisite conditions: 1 Complete the chassis unpacking and installation procedure as described in the Chassis Quick Installation Guides. You can install the chassis in a rack, on a shelf, or on a tabletop.
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3 INTEGRATED FAST SETUP This chapter describes how to use the Integrated Fast Setup procedure to configure the CoreBuilder ® 9000 ATM Enterprise Switch, allowing it to function in the network.
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CHAPTER 3: INTEGRATED FAST SETUP Setup Procedure Sections Entering Data Navigation Aids Table 6 lists the steps or sections of the Integrated Fast Setup.
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4 USING THE LOCAL MANAGEMENT APPLICATION This chapter describes how to use the CoreBuilder® 9000 ATM Enterprise Switch Local Management Application (LMA) to configure and administer the CoreBuilder 9000 ATM Enterprise Switch. A Menu Index shows the command structure of the LMA and refers to the command description for each menu command. You run the LMA from a terminal via a direct RS-232 connection or via Telnet.
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CHAPTER 4: USING THE LOCAL MANAGEMENT APPLICATION LMA Access Level The LMA has three levels of access: read access, write access, and administer access. Each level grants different access privileges and is suited to a different type of user. Table 8 lists the privileges granted for each access level. Table 8 Access Levels Logging In Access Level Privileges Read Read-only privilege Write Right to make local changes to LMA.
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Starting Up 43 To log in to the LMA: 1 Enter your access level (default is admin). 2 Enter your password. After a successful login, the Main Menu is displayed as shown in Figure 2.
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CHAPTER 4: USING THE LOCAL MANAGEMENT APPLICATION The LMA Menu System The LMA menu system is a set of command menus that are organized in a hierarchical, top-down fashion. Figure 3 shows the menu structure. Each command menu contains a numbered list of menu items. Each menu item has a three-letter mnemonic identifier and a short description of the item.
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The LMA Menu System Selecting Menu Options 45 To select a menu option, you enter its number or its mnemonic identifier at the prompt symbol (>) that is displayed below the menu item list. You need to enter the first unique characters of the mnemonic identifier. The hierarchical path from the Main Menu down to the currently displayed submenu option is displayed in front of the angle bracket prompt. This convention helps you orient yourself in the menu hierarchy.
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CHAPTER 4: USING THE LOCAL MANAGEMENT APPLICATION The Password Setup Menu is displayed as follows, followed by the path (1)SYS\(1)SET\(1)PAS and the (>) prompt. These menu items are all configuration commands; none of them have arrows to the right.
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The LMA Menu System Entering Multiple Parameters 47 When a command has more than one parameter, you can enter them all on the same command line with blanks in between or you can enter some or all of them on separate command lines. If you do not enter them all on one line, you are repeatedly prompted for the remaining parameters.
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CHAPTER 4: USING THE LOCAL MANAGEMENT APPLICATION Logging Out To log out of the LMA, enter 7 at the Main Menu prompt. Automatic Logout The CoreBuilder 9000 ATM Enterprise Switch has an automatic logout feature. If you do not use the keyboard for 15 minutes, the ATM Switch Fabric Module automatically logs you out. You cannot adjust the length of time or disable this feature.
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5 CONFIGURING THE PLATFORM This chapter describes how you configure common management tasks for the CoreBuilder® 9000 ATM Enterprise Switch platform. For a description of the login procedure, see “Logging In” on page 42.
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CHAPTER 5: CONFIGURING THE PLATFORM Password Setup You can set up the three levels of access passwords to the LMA, or reset all passwords to their factory defaults. CAUTION: 3Com strongly recommends that you change passwords for security reasons. Three access passwords are provided: read-access, write-access and admin-access. For normal administrative operation, use the admin-access password. For more information on access levels, see “LMA Access Level” on page 42.
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Password Setup Update Read-access Password 51 Update the read-access password. Enter the new password a second time. To accept the default password, press Enter. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (1) PAS: Password Setup (1) REA: Set Read-access Password Enter a parameter at the prompt Parameter Format or Range New password 0 to 8 alphanumeric characters New password confirmation Enter the password exactly as you did before.
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CHAPTER 5: CONFIGURING THE PLATFORM Update Write-access Password Update the write-access password. Enter the new password a second time to confirm your entry. To accept the default password, press Enter. Command Actions .
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Password Setup Update Admin-access Password 53 Update the admin-access password. Enter the new password a second time to confirm your entry. You are prompted for the existing password before you enter the new password. To accept the default password, press Enter. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (1) PAS: Password Setup (3) ADM: Set Admin Password Enter a parameter at the prompt Parameter Format or Range Old password Enter the old password.
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CHAPTER 5: CONFIGURING THE PLATFORM Set Password to Factory Default Reset the passwords to their factory default settings for the CoreBuilder 9000 ATM Enterprise Switch. These are, for each type of user: read access, write access, and administer access. For more information on access levels, see the CoreBuilder 9000 ATM Switch Fabric Module Getting Started Guide. To accept the default password, press Enter.
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Setting Up for Management Setting Up for Management 55 You can set up and display parameters for remotely managing the CoreBuilder 9000 ATM Enterprise Switch. The CoreBuilder 9000 ATM Enterprise Switch needs these parameters to communicate via the network.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Current IP Configuration Display the current IP address of the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (2) MNG: Management Setup (1) SIP: IP Setup (1) GIP: Get IP Address Direct access sequence: 1 1 2 1 1 Command Result System action taken: The current IP address is displayed.
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Setting Up for Management Update IP Address 57 Update the IP address of the CoreBuilder 9000 ATM Enterprise Switch. The default factory IP address is 0.0.0.0. The IP address is changed after the next reboot.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Current NMS IP Address Display the current NMS IP address where the CoreBuilder 9000 ATM Enterprise Switch sends event traps. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (2) MNG: Management Setup (2) NMS: NMS Setup (1) GNS: Get NMS Address Direct access sequence: 1 1 2 2 1 Command Result System action taken: Current NMS IP address is displayed.
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Setting Up for Management Update NMS Address 59 Update the NMS IP address where the CoreBuilder 9000 ATM Enterprise Switch sends the event traps. The factory default NMS address is 255.255.255.255.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Current Default Gateway IP Address Display the current Default Gateway IP address. The Default Gateway is used to locate the network management station (NMS) if the NMS is not found in the local IP subnetwork.
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Setting Up for Management Update Default Gateway IP Address 61 Update the Default Gateway address. The default factory Default Gateway IP address is 151.104.78.20. The default gateway IP address is changed after the next reboot.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Current IP Subnet Mask Display the current IP subnet mask of the CoreBuilder 9000 ATM Enterprise Switch. The IP subnet mask is used in conjunction with the IP address.
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Setting Up for Management Update IP Subnet Mask 63 Update the IP subnet mask of the CoreBuilder 9000 ATM Enterprise Switch. The default factory IP subnet mask address is 255.255.255.0.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Current Read Community String Display the current Read Community String of the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (2) MNG: Management Setup (5) GET: Read Community String Setup (1) GET: Get Read Community String Direct access sequence: 1 1 2 5 1 Command Result System action taken: The current read community string is displayed.
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Setting Up for Management Update Read Community String 65 Update the Read Community String of the CoreBuilder 9000 ATM Enterprise Switch. The read community string is updated after the next reboot.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Current Write Community String Display the current Write Community String of the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (2) MNG: Management Setup (6) SET: Write Community String Setup (1) GET: Get Write Community String Direct access sequence: 1 1 2 6 1 Command Result System action taken: The current write community string is displayed.
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Setting Up for Management Update Write Community String 67 Update the Write Community String of the CoreBuilder 9000 ATM Enterprise Switch. The write community string is updated after the next reboot.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Ethernet Encapsulation Type Display the current Ethernet encapsulation type of the CoreBuilder 9000 ATM Enterprise Switch. The Ethernet encapsulation type parameter determines how the CoreBuilder 9000 ATM Enterprise Switch interprets Ethernet frames that enter through the Ethernet management port. For more information, see “Ethernet Encapsulation Type” on page 172 in the Operations Guide.
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Setting Up for Management Update Ethernet Encapsulation Type 69 Update the Ethernet encapsulation type of the CoreBuilder 9000 ATM Enterprise Switch. The options are: 1-ETH: Standard encapsulation — according to 802.3 0-LLC: Enhanced encapsulation The default Ethernet encapsulation type is 1-ETH. For more information, see “Ethernet Encapsulation Type” on page 172 in the Operations Guide. The Ethernet encapsulation type is updated after the next reboot.
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CHAPTER 5: CONFIGURING THE PLATFORM Set Management Configuration to Factory Defaults Reset the management configuration to the factory defaults for the next reboot. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (2) MNG: Management Setup (8) MNG: Set management configuration to factory defaults Direct access sequence: 1 1 2 8 Command Result System action taken: The management configuration is set to the factory defaults.
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Setting the Port Network Connection Type Setting the Port Network Connection Type 71 You can set the network connection type for a specified port or a group of ports. To do this, you can use either the LMA or the integrated fast setup. If you want to use the fast setup, see the CoreBuilder 9000 ATM Interface Module Getting Started Guide. You can set the interface type to NNI, UNI, or PNNI.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Network Connection Type Display the network connection type for each port of the CoreBuilder 9000 ATM Enterprise Switch. The network connection type may be Enhanced Interim InterSwitch Protocol (E-IISP), User to Network Interface (UNI), or Interim InterSwitch Protocol (IISP) or Private Network to Network Interface (PNNI).
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Setting the Port Network Connection Type Example Enter: 1 1 3 3 The following information is displayed for a 16-slot chassis: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: < 1.1.1> UNI < 2.1.1> UNI < 3.1.1> UNI < 4.1.1> UNI < 5.1.1> UNI < 6.1.1> UNI < 7.1.1> UNI <10.1.1> UNI <12.1.1> UNI <14.1.1> UNI <16.1.1> UNI < 1.1.2> UNI < 2.1.2> UNI < 3.1.2> UNI < 4.1.2> UNI < 5.1.2> UNI < 6.1.2> UNI < 7.1.2> UNI <10.1.
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CHAPTER 5: CONFIGURING THE PLATFORM Example Enter: 1 1 3 3 The following information is displayed for a 7-slot chassis: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: Value: Port: < 1.1.1> UNI < 2.1.1> UNI < 3.1.1> UNI < 4.1.1> UNI < 5.1.1> UNI < 6.1.1> UNI < 7.1.1> < 1.1.2> UNI < 2.1.2> UNI < 3.1.2> UNI < 4.1.2> UNI < 5.1.2> UNI < 6.1.2> UNI < 7.1.2> < 1.1.3> UNI < 2.1.3> UNI < 3.1.3> UNI < 4.1.3> UNI < 5.1.3> UNI < 6.1.3> UNI < 7.1.3> < 1.1.4> UNI < 2.1.4> UNI < 3.1.
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Setting the Port Network Connection Type Update Port Network Connection Type 75 Update the network connection type (EIISP, UNI, IISP or PNNI) for a specified port of the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (3) NNI: NNI Setup (4) SIF: NNI Set Interface Type Enter a parameter at the prompt Parameter Format or Range Port number slot.group.port (0.
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CHAPTER 5: CONFIGURING THE PLATFORM Reset NNI Configuration Reset the NNI configuration parameters for the CoreBuilder 9000 ATM Enterprise Switch to their factory default settings. The default setting is UNI for all ports, and 7 for maximum number of hops.
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Resetting All Parameters Resetting All Parameters 77 You can reset all parameters or all parameters except IP for the CoreBuilder 9000 ATM Enterprise Switch. Reset All Reset All Except IP Addresses Reset All Reset all configuration parameters for the CoreBuilder 9000 ATM Enterprise Switch to their factory default settings. The new settings become active only after the next reboot. The standby switch will remain in Suspended mode while the reboot is being performed.
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CHAPTER 5: CONFIGURING THE PLATFORM Reset All Except IP Addresses Reset configuration parameters for the CoreBuilder 9000 ATM Enterprise Switch to their factory default settings with the exception of the IP parameters. Some parameters are reset only after the next reboot. These parameters include ATM addresses, PVC, and NMS parameters.
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Downloading System Software Downloading System Software You can download the system software for the CoreBuilder 9000 ATM Enterprise Switch. Display Software Download Status 79 Display Software Download Status Download System Software by TFTP Download System Software by Serial Port Upload Configuration Download Switch/LANE/PNNI Configuration Display the last TFTP software download status.
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CHAPTER 5: CONFIGURING THE PLATFORM Table 11 Download Messages Message Meaning and Action System is loading from ip address, file. Received n% System is loading Completed successfully Download has completed Unknown No activity; nothing downloaded Error while downloading CRC error, download again. If the error persists, contact 3Com technical support.
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Downloading System Software Download System Software by TFTP 81 Perform TFTP software download. Specify the Server IP address and software file names. See the Release Notes for the full TFTP software download procedure. The TFTP download procedure runs in the background. Therefore, no message is displayed at the end of the procedure. To check the status, use the Display Software Download Status option. For details, see“Display Software Download Status” on page 79.
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CHAPTER 5: CONFIGURING THE PLATFORM Download System Software by Serial Port Prepare for local software download via RS-232 serial port. There are two load modes: load and operational. See the Release Notes for the full RS-232 serial port software download procedure. Table 12 describes the load modes that can be requested by the command. Table 12 Load Modes Load Mode Description Load Prepares the CoreBuilder® 9000 ATM Enterprise Switch for the software download via the RS-232 port.
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Downloading System Software Upload Configuration 83 Upload the Switch configuration, LANE or LANE database configuration, or PNNI configuration from the CoreBuilder 9000 ATM Enterprise Switch to an external host. Specify the server IP address and the target configuration file name. Command Actions.
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CHAPTER 5: CONFIGURING THE PLATFORM Download Switch/LANE/PNNI Configuration Download the Switch configuration, LANE or LANE database configuration, or PNNI configuration from an external host to the CoreBuilder 9000 ATM Enterprise Switch. Specify the server IP address and the configuration file name. After the configuration has been downloaded, the following operations are performed automatically: 1 The standby in-service switch (if it exists) changes to be the standby suspend switch.
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Downloading System Software 85 Example Enter: 1 3 5 The following message is displayed: At the end of successful download of any configuration file, the switch will be automatically rebooted. No switch over to standby module (if present) will be performed. Do you really want to continue? y The following prompts are displayed: Server IP address: 151.104.21.147 Enter file name: cfgtest.cfg Start download from 151.104.21.147, cfgtest.
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CHAPTER 5: CONFIGURING THE PLATFORM Managing Switch Fabric Modules You can display Switch Fabric Module information for the CoreBuilder 9000 ATM Enterprise Switch. Display Switch Fabric Module Status Display Switch Fabric Module Status Reset Switch Reset Standby Switch Fabric Module Set Standby Switch Fabric Module to Suspended/ In-service Mode Upgrade Software Files Display information about each of the switch fabric modules present.
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Managing Switch Fabric Modules 87 Switch Fabric Module Parameters Table 13 describes the switch fabric module parameters displayed by the command. . Table 13 Switch Fabric Module Parameters Name Description Slot ID Specifies the slot number in the chassis (slots 8 or 9). The asterisks (***) that appear before the Slot ID indicate to which Switch Fabric Module you are connected. Slot Status Specifies whether or not the slot contains a module, and whether or not the module is operational.
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CHAPTER 5: CONFIGURING THE PLATFORM Reset Switch Reset the active switch fabric module. After the switch has been reset, the system is rebooted. While the system reboots (approx. 5 minutes), the standby switch automatically becomes active. When the standby switch fabric module is active, a new main menu containing the following four options is displayed: (1) Display Switch status. For details, see “Display Switch Fabric Module Status” on page 86. (2) Reset Standby Switch Fabric Module.
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Managing Switch Fabric Modules Reset Standby Switch Fabric Module Reset the standby switch fabric module. Command Actions Enter the menu sequence: (1) SYS: Platform configuration (4) SWM: Switch modules (3) SSM: Stand-by Switch Module (1) RSS: Reset Stand-by Switch Module Direct access sequence: 1 4 3 1 Command Result System action taken: The standby switch fabric module is reset. System message display: Information is displayed as shown in the example.
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CHAPTER 5: CONFIGURING THE PLATFORM Set Standby Switch Fabric Module to Suspended/ In-service Mode Set the standby switch fabric module to suspended/in-service mode. When the standby switch fabric module is suspended, it cannot be used to replace the active switch fabric module.
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Managing Switch Fabric Modules Upgrade Software Files 91 Upgrade the software on the standby switch fabric module from the active switch fabric module. After upgrading, the standby switch fabric module must be reset. See “Reset Standby Switch Fabric Module” on page 89 for details on how to reset the standby switch fabric module.
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CHAPTER 5: CONFIGURING THE PLATFORM Configuring Interface Modules You can configure parameters for the interface modules of the CoreBuilder 9000 ATM Enterprise Switch. Display Interface Module Information and Parameters Display Interface Module Information and Parameters Set Port Frame Mode Set Port Clock Mode Set Loop Mode Reset Interface Card Display the slot ID, slot status, and card type of each of the 11 interface modules or display parameters of an installed interface module.
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Configuring Interface Modules 93 Interface Module Slot Occupancy Parameters Table 14 describes the Interface Module slot occupancy parameters displayed by the command. Table 14 Slot ID Parameters Parameter Description Slot ID The slot ID number. Slot Status The slot may be “Free” or “Occupied”. Interface card type The card type is displayed. Interface card status The port may be “Up” or “Doesn’t exist”.
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CHAPTER 5: CONFIGURING THE PLATFORM Interface Module slot occupancy information for the 7-slot chassis is displayed as follows: Slot id ------1 2 3 4 5 6 7 Slot status Interface card type Interface card status ------------------------------ --------------------Occupied ATM I/F card Up Free Doesn’t exist Free Doesn’t exist Free Doesn’t exist Occupied ATM I/F card Up Free Doesn’t exist Free Doesn’t exist Interface Card Parameters Table 15 describes the interface parameters displayed by the command for
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Configuring Interface Modules 95 Example Enter: 1 5 1 5 Parameters of the ports of the selected ATM Interface Module in slot 5 are displayed in the following example. The ATM Interface Module contains an OC-12c/STM-4 card, an OC-3c/STM-1 card and a 155 Mbps-over-UTP5 card. Port Interface Media type id type ------ ---------- --------------------5.1.1 OC3-SC MM fiber 5.1.2 OC3-SC MM fiber 5.1.3 OC3-SC MM fiber 5.1.4 OC3-SC MM fiber 5.2.1 OC12-SC MM fiber 5.2.2 155-RJ45 UTP_5 Copper(User) 5.2.3 5.2.
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CHAPTER 5: CONFIGURING THE PLATFORM Set Port Frame Mode Set the interface mode of the selected port as SDH or SONET and save to flash memory. You are prompted to specify a port and a mode. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (5) IFC: Interface Cards (3) SFM: Set Port Frame Mode Enter a parameter at the prompt Parameter Format or Range Port ID slot.group.port (0.
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Configuring Interface Modules Set Port Clock Mode 97 Set the port clock command mode of a selected port as Normal or Loop Timing and save to flash memory. You are prompted to specify a port and a mode. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (5) IFC: Interface Cards (4) PCK: Set Port Clock Mode Enter a parameter at the prompt Parameter Format or Range Port Number slot.group.port (0.
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CHAPTER 5: CONFIGURING THE PLATFORM Set Loop Mode Set the loop mode of selected port as None, Loop Forward or Loop Back. You are prompted to specify a port and a mode. For details on loop mode, see the IFC User Guide. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (5) IFC: Interface Cards (5) SLM: Set Loop Mode Enter a parameter at the prompt Parameter Format or Range Port Number slot.group.port (0.
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Configuring Interface Modules Reset Interface Card 99 Reset the interface module in a specific slot, or all the interface module. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (5) IFC: Interface Cards (6) RST: Reset Interface Card Enter a parameter at the prompt Parameter Format or Range Slot Number 1 - 16 or 0 for all Direct access sequence: 1 5 6 [parameters] Command Result System action taken: The selected interface module is reset.
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CHAPTER 5: CONFIGURING THE PLATFORM Logging Out and Rebooting Logout You can log out and reboot the CoreBuilder 9000 ATM Enterprise Switch. Logout Reboot Configuration Flash Status Log out of the current session. Command Actions Enter the menu sequence: (7) LOG: Logout Direct access sequence: 7 Command Result System action taken: Example Enter: 7 The system is logged out. Logs out the system.
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Logging Out and Rebooting Reboot Reboot the system. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (7) RBO: Reboot Enter a parameter at the prompt Parameter Format or Range Confirm reboot y or n Direct access sequence: 1 7 Command Result System action taken: Reboots the ATM Enterprise Switch. System message display: Rebooting the system.... Example Enter: 1 7 The following prompt is displayed: Do you really want to reboot the system? (y/n)? Enter y to confirm.
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CHAPTER 5: CONFIGURING THE PLATFORM Configuration Flash Status Show status of the configuration flash. When you change the configuration of the CoreBuilder 9000 ATM Enterprise Switch, the new configuration is stored in the configuration flash. This command indicates when the new configuration has been successfully stored. Before you power cycle (turn off and on) the Switch, make sure that the configuration flash has been updated.
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ATM Features and Software Versions ATM Features and Software Versions 103 You can display the following ATM features and the software version number: Display ATM Features Display Software Versions Display ATM Features Display the ATM features available on this CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (6) FTR: ATM Features Direct access sequence: 6 Command Result System action taken: Displays ATM features.
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CHAPTER 5: CONFIGURING THE PLATFORM Display Software Versions Display the software versions currently installed in the LMA and in the CoreBuilder 9000 ATM Interface Modules. Consult your release notes for latest software version numbers. Command Actions Enter the menu sequence: (8) VER: Version Direct access sequence: 8 Command Result System action taken: The software versions are displayed. System message display: Information is displayed as shown in the example.
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LECS ATM Address LECS ATM Address 105 You can display and update the LAN Emulation Configuration Server (LECS) ATM address. Display LECS ATM Address Update LECS ATM Address Display LECS ATM Address Display the ATM address of the LECS in the CoreBuilder 9000 ATM Enterprise Switch unit.
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CHAPTER 5: CONFIGURING THE PLATFORM Update LECS ATM Address Update the LECS ATM address in the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (5) SLE: LE Setup (2) LCS: LECS Setup (5) SLA: Set Active LECS ATM Addr Enter parameter at prompt Parameter Format or Range ATM address in Hex Direct access sequence: 1 1 5 2 5 [parameters] Command Result System action: The LECS ATM address is updated.
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Setting Up the Switch Clock Source Setting Up the Switch Clock Source Using this option, you can set up all the parameters to configure and synchronize the data speed clocks on different ports of the CoreBuilder 9000 ATM Enterprise Switch to an external clock source.
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CHAPTER 5: CONFIGURING THE PLATFORM Set External Clock Source 1 Set a port to be the first external clock source port. If the port does not exist, is disabled, is in loop timing mode, loopback or loop forward, it cannot be used as an external clock source port. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (8) SCS: Switch Clock Synchronization Setup (2) SP1: Set External Clock Source 1 Enter parameter at prompt Parameter Format or Range Clock source
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Setting Up the Switch Clock Source Set External Clock Source 2 109 Set a port to be the second external clock source port. If the port does not exist, is disabled, is in loop timing mode, loopback or loop forward, it cannot be used as an external clock source port. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (8) SCS: Switch Clock Synchronization Setup (3) SP2: Set External Clock Source 2 Enter parameter at prompt Parameter Format or Range Clock source
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CHAPTER 5: CONFIGURING THE PLATFORM Example Enter: 1 8 3 5.1.2 The following prompt is displayed: This operation will change the active clock source. Do you really want to change it (Y/N)? Y The following message is displayed: External clock source port 2 was successfully configured to port <5.1.2>. Set Clock Source to Internal Reset the clock source configuration to its default values.
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6 MANAGING NETWORK INTERFACES This chapter describes how you view and define network interfaces with the CoreBuilder® 9000 ATM Enterprise Switch.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display ILMI Version Display the ILMI version for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. For more information, see “Basic ILMI Functions” on page 51 in the Operations Guide. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (8) IME: ILMI Setup (1) VER: ILMI Version Setup (1) GET: Get ILMI Version Enter a parameter at the prompt Parameter Format or Range Port ID or 0.
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ILMI Setup Update ILMI Version 113 Update the ILMI Version for the specified port in the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (8) IME: ILMI Setup (1) VER: ILMI Version Setup (2) SET: Set & Save ILMI Version Enter a parameter at the prompt Parameter Format or Range Port ID IMLI version 0 to update to version 3.0 1 to update to version 3.1 2 to update to version 4.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display Auto-configuration Status Display the auto-configuration status for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. Auto-configuration determines, by negotiation, the User-Network Interface (UNI) parameters for the specified port. The configuration options are enabled (auto-configured) or disabled (not auto-configured). For more information about auto-configuration, see “Auto-Configuration” on page 62 in the Operations Guide.
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ILMI Setup Update Auto-configuration Status 115 Update the Auto-configuration Status for the specified port in the CoreBuilder 9000 ATM Enterprise Switch. Enable the Auto-configuration Status only if both ATM Switch Fabric Modules have an auto-configuration capability. For more information about auto-configuration, see “Auto-Configuration” on page 62 in the Operations Guide.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display Auto-discovery Status Display the auto-discovery status for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. Auto-discovery determines, by negotiation, the common protocol parameters, ATM interface type and IME type to be used by the ILMI channel. The status can be either enabled or disabled. For more information about auto-discovery, see “Auto-Discovery” on page 57 in the Operations Guide.
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ILMI Setup Update Auto-discovery status 117 Enable or disable the auto-discovery status for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. Auto-discovery determines, by negotiation, the common protocol parameters, ATM interface type and IME type to be used by the ILMI channel. The status can be either enabled or disabled. For more information about auto-discovery, see “Auto-Discovery” on page 57 in the Operations Guide.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display LECS Access Options Display the current communication channel between LEC and LECS for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. The LECS-via-ILMI parameter determines whether the LEC that is attached to the port connects to the LECS by ILMI or by the well-known address.
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ILMI Setup Update LEC/LECS Communication Channel 119 Update the LECS-via-ILMI parameter for the specified port in the CoreBuilder 9000 ATM Enterprise Switch. If this parameter is enabled, the LEC communicates on the channel VPI/VCI = (0/16) with the ILMI MIB. It submits an inquiry to obtain the LECS address. If this parameter is disabled, the LEC connects to the LECS using the well-known address or via the preconfigured LECS address in the LEC.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display ILMI Channel Polling Status Display the ILMI channel polling facility status for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. If enabled, the ILMI channel VPI/VCI = (0/16) is periodically polled for connectivity. For more information, see “Status Information” on page 52 in the Operations Guide.
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ILMI Setup Update ILMI Channel Polling Status 121 Update and save the channel polling facility status for the specified port in the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (8) IME: ILMI Setup (5) POL: Polling Setup (2) SST: Set Polling Status Enter a parameter at the prompt Parameter Format or Range Port ID or 0.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display ILMI Channel Polling Interval Display the ILMI channel polling interval for the specified port of the CoreBuilder 9000 ATM Enterprise Switch. If enabled, the ILMI channel VPI/VCI = (0/16) is periodically polled for connectivity.
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ILMI Setup Update ILMI Channel Polling Interval 123 Update and save the ILMI channel polling interval for the specified port in the CoreBuilder 9000 ATM Enterprise Switch. The minimum value of the polling interval is 30 seconds. The default ILMI polling value is 30 seconds.
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CHAPTER 6: MANAGING NETWORK INTERFACES ATM Addresses Port Table Display User Management Entities (UME) ATM Addresses at Port You can configure the ATM addresses as follows: Display User Management Entities (UME) ATM Addresses at Port Display Static ATM Addresses at Port Display De-registered ATM Addresses at Port Delete All ATM Addresses at Port Add ATM Address to Port Delete ATM Address by Member ID Get ATM Addresses at Port Delete All Inactive Addresses Display User Management E
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ATM Addresses Port Table 125 Command Actions Enter the menu sequence: (3) CON: Connections (1) ADD: Get ATM Addresses (1) UME: Get UME Addresses at Port Enter a parameter at the prompt Parameter Format or Range Port ID or 0.0 for all ports Direct access sequence: 3 1 1 [parameters] Command Result System action taken: The UME addresses for the specified port or for all ports are displayed. System message display: Information is displayed as shown in the example.
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CHAPTER 6: MANAGING NETWORK INTERFACES Example Enter: 3 1 1 0.0 The following information is displayed. Note that port 1 of slots 1 and 2 have multiple ATM addresses registered. Port ATM address: Network prefix ATM address:user_part member man ID ID ------- --------------------------------------- --------------------- ------ --<1.1.1> 47. 0. 0. 0. 0. 0.3c. 0. 0.a1. 0. 0. 0 8. 0.20.84.e8.31. * 11101 NO <1.1.1> 47. 0. 0. 0. 0. 0.3c. 0. 0.a1. 0. 0. 0 8. 0.20.84.e8.37. * 11102 NO <1.1.1> 47. 0. 0. 0. 0.
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ATM Addresses Port Table 127 UME Parameters Table 16 describes the UME parameters displayed by the command. . Table 16 UME Parameters Name Description Port ID ATM port id. ATM address Network prefix Network prefix of ATM address. ATM address User part User part of ATM address. Member ID The member ID is made up of the port ID concatenated with or followed by a sequential number. It provides a sequential numbering of ATM addresses registered at a port.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display Static ATM Addresses at Port Display static ATM addresses registered for the specified port. This command includes ATM addresses that have been entered manually via LMA or learned addresses over Network-to-Network Interface (NNI) connection (E-IISP). This command also displays member IDs for each ATM address registered at the port. Note that, similar to ILMI registration, each port can have multiple ATM addresses.
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ATM Addresses Port Table 129 Example Enter: 3 1 2 0.0 The following information is displayed: Port ATM address: Network prefix ATM address:user_part member man number number -------- -------------------------------------- -------------------- ------ --< 2.1.1> 47. *. *. *. *. *. *. *. *. *. *. *. * *. *. *. *. *. *. * 21101 YES < 4.1.2> 39.89.0*. *. *. *. *. *. *. *. *. *. * *. *. *. *. *. *. * 41201 YES Parameters Table 17 describes the parameters displayed by the command.
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CHAPTER 6: MANAGING NETWORK INTERFACES Display De-registered ATM Addresses at Port Display UME, static ATM or NNI addresses at the specified port that were de-registered via LMA or UME but whose connections are still active. Command Actions Enter the menu sequence: (3) CON: Connections (1) ADD: Get ATM Addresses (3) ACT: Get Not Active Registered ATM Addresses at Port Enter a parameter at the prompt Parameter Format or Range Port ID or 0.
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ATM Addresses Port Table 131 Parameters Table 18 describes the parameters displayed by the command. Table 18 Parameters Name Description Port ID ATM port id. ATM address Network prefix Network prefix of ATM address. ATM address User part User part of ATM address. Member number The member number is made up of the port ID concatenated with or followed by a sequential number. It provides a sequential numbering of ATM addresses registered at a port.
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CHAPTER 6: MANAGING NETWORK INTERFACES Delete All ATM Addresses at Port Delete the ATM addresses registered at the specified port including those registered by ILMI and those that were created manually through the LMA. The addresses are deleted from the MIB at the port (they are de-registered). When you delete addresses from a specific port, any existing connections associated with them are not deleted.
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ATM Addresses Port Table Add ATM Address to Port 133 Add an ATM address to the list of registered ATM addresses at a port. Enter the port number and ATM address. Use this command, for example, with devices that do not support ILMI; you must add ATM addresses manually to interface with such devices.
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CHAPTER 6: MANAGING NETWORK INTERFACES Delete ATM Address by Member ID Delete the ATM address from the list of registered ATM addresses at a port. The address is deleted from the MIB at the port; in other words, it is de-registered. Specify the ATM address by its member ID. For a list of addresses registered by LMA together with their member IDs, see “Display Static ATM Addresses at Port” on page 128. Only ATM addresses created via LMA can be deleted.
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ATM Addresses Port Table Get ATM Addresses at Port 135 Get the manual ATM addresses at a specific port. Command Actions Enter the menu sequence: (3) CON: Connections (4) S&C: Setup of Connections and ATM addresses (2) STP: Static ATM Addresses Setup (4) STC: Get ATM Addresses at Port Enter a parameter at the prompt Parameter Format or Range Port ID (0.
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CHAPTER 6: MANAGING NETWORK INTERFACES Table 19 Parameters (continued) Name Description ATM address User part User part of ATM address. Member number The member number provides a sequential numbering of ATM addresses registered at a port. It is used to specify the connection. Man Delete All Inactive Addresses Always set to YES. Delete all ATM addresses that do not exist for the port but are currently present in flash memory. These ports are not installed or failed.
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Network Prefix Network Prefix 137 You can display the network prefix. For more information about the use of Network Prefix, see “Hierarchic ATM Addressing” on page 70 in the Operations Guide. Display Network Prefix Display the Network Prefix of the CoreBuilder 9000 ATM Enterprise Switch.
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CHAPTER 6: MANAGING NETWORK INTERFACES
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7 CONFIGURING VIRTUAL CHANNELS This chapter describes how to configure ATM virtual channels.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Display Call Routing You can display call routing to an ATM address. For information about routing, see “Routing — Internal Links” on page 109 in the Operations Guide. Display Call Routed to ATM Address Display information for a call routed through a port to a specified ATM address registered at the port.
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Display Call Routing 141 Command Actions Enter the menu sequence: (3) CON: Connections (2) RTG: Routing (1) CLL: Calls Enter a parameter at the prompt Parameter Format or Range For SVC: ATM address member sequential number For example: 11102 For PVC: Port number Call number Call number or 0 for all calls Direct access sequence: 3 2 1 [parameters] Command Result System action taken: The information for the specified call is displayed.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example — Display all SVC Calls for an ATM address member . Enter: 3 2 1 11102 0 Information for all calls with ATM address member 11102 (the second ATM address registered at port 1.1.1) are displayed. Note that both calls with the ATM address member as input connection and output connection are displayed. For the P2M calls, all of the branches are shown.
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Display Call Routing 143 Example — Display all PVC Calls for a Port . Enter: 3 2 1 1.1.1 0 The list of all calls at port 1.1.1 is displayed. There is one P2M call with two additional destinations. Call Call id type Call state Num Pri Cll In conn In In Out conn Out Out out VPI/VCI conn conn VPI/VCI conn conn cons port mbr ---- ------- -------- ---- --- --- ------- ------- ------ -------- ------1 PVC,P2M Active 3 H N 0/ 40 <1.1.1> 1/ 60 <1.1.4> 0/ 50 <1.1.3> 0/ 40 <1.1.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Call Parameters Table 20 shows the call parameters displayed by the command. Table 20 Call Parameters Name Description Call number This is the unique number that identifies the call. Call Type Whether the call is SVC or PVC, and if it is a point-to-point or point-to-multipoint call. When showing a connection of LAN Emulation, point-to-point indicates use of the control direct VCC (for LES), or the multicast sent VCC (for BUS).
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Display Port Connections Display Port Connections 145 You can display the port ATM connections. Display UME Address Port Connection Display Static Address Port Connection Display Inactive Address Port Connections For information about establishing port connections, see “External Links — ATM Connections” on page 85 in the Operations Guide. Display UME Address Port Connection Displays information about connections defined at a specific port. Specify the connection by specifying VPI/VCI values.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example — Display all Connections at a Port Enter: 3 3 1 1.1.1 a 0 Multiple ATM addresses at the port 1.1.1 are displayed where each ATM address has multiple SVCs defined by their VPI/VCI values. Conn Call Port Member Conn Conn Oper Admin Originator CLP number number number number type VPI/VCI status status ---- ---- ------- -------------------------------2697 1185 <1.1.1> 11102 SVC,P2P 0/ 46 Active Active Calling 2732 488 <1.1.
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Display Port Connections 147 Example — Display Info for a Connection at a Port Enter: 3 3 1 1.1.1 3 200 The information for the connection 0/46 at port 1.1.1 is displayed.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Table 21 Port SVC Connection Parameters (continued) Display Static Address Port Connection Name Description Originator Specifies if the connection is originated at the calling UNI or the called UNI. CLP Specifies the action which is to be performed on the CLP bit. The possible values are: clear bit (0), set bit (1), or no change (N). Display a connection relating to a specific VPI/VCI of the port or all connections (all VPI/VCI) of the port.
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Display Port Connections 149 Example Enter: 3 3 2 3.1.2 a 0 The following information is displayed: Conn Call Port Member Conn Conn Oper Admin Originator CLP number number number number type VPI/VCI status status ----- ----- -------- ------ ------- ------- -------- -------- ---------- --1 1 <1.1.1> PVC,P2P 3/200 Active Active Calling N Port Static Connection Parameters Table 22 shows the port static connection parameters displayed by the command.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Display Inactive Address Port Connections Display a connection relating to a specific VPI/VCI of the port or all connections related to de-registered addresses. Command Actions Enter the menu sequence: (3) CON: Connections (3) PRT: ATM ports (3) ACT: Not active addresses Enter a parameter at the prompt Parameter Format or Range Port number
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Create Permanent Virtual Channel (PVC) Create Permanent Virtual Channel (PVC) 151 The following commands allow you to create a PVC: Display PVC VPI/VCI Limits Create PVC — Full Setup Create PVC — Quick Setup Add PVC Destination Release PVC Release PVC Destination Display PVCs Delete All Inactive PVCs Delete All PVC Connections of Port For more information about PVC, see “Permanent Virtual Channels” on page 87 in the Operations Guide.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 3 4 1 1 The following information is displayed: PVCs VPI/VCI limits: Current Flash Current Flash Current Flash Current Flash Port: Min VPI: Min VPI: Max VPI: Max VPI: Min VCI: Min VCI: Max VCI: Max VCI: 1.1.1 0 0 7 7 32 32 511 511 1.2.1 0 0 7 7 32 32 511 511 Current Flash Current Flash Current Flash Current Flash Port: Min VPI: Min VPI: Max VPI: Max VPI: Min VCI: Min VCI: Max VCI: Max VCI: 2.1.1 0 0 7 7 32 32 511 511 2.2.
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Create Permanent Virtual Channel (PVC) Create PVC — Full Setup 153 Set up a PVC (permanent virtual connection). Requires all parameters for a PVC to be defined. You must create a PVC for each port-to-port connection in your ATM network. (For more information, see “Permanent Virtual Channels” on page 87 in the Operations Guide.) PVC creation is subject to the following restrictions: VPI/VCI should be in accordance with the PVC VPI/VCI limits.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Command Actions Enter the menu sequence: (3) CON: Connections (4) S&C: Setup of Connections and ATM Addresses (1) PVC: PVCs Setup (2) CRF: Create full PVC call Enter a parameter at the prompt Parameter Format or Range Call type P2P for point-to-point PVC P2M for point-to-multipoint PVC Cell Loss Level 0 1 2 3 Priority 0 for low priority 1 for high priority First port CLP 0 for clear 1 for set n for no change First port number
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Create Permanent Virtual Channel (PVC) 155 Command Result System action taken: A full PVC with the required parameters is created. System message display: A new PVC was created with call number: Example Enter: 3 4 1 2 p2p 0 0 0 5.1.2 1 55 1 5.1.4 0 60 The following message is displayed: A new PVC was created with call number: 11 Port Static Connection Parameters Table 23 shows the port static connection parameters that must be entered at the prompt.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Create PVC — Quick Setup Set up PVC using the default for parameters not explicitly set. Default values for Cell Loss Level, Priority, and Cell Loss Priority are used. (See Table 23.) The same limits as full PVC call setup apply. For more information, see “Permanent Virtual Channels” on page 87 in the Operations Guide.
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Create Permanent Virtual Channel (PVC) Add PVC Destination 157 Create an additional destination connection (branch) for an existing point-to-multipoint PVC. You can only create an additional destination if the existing PVC was predefined as a PLM PVC. Enter the call number of the original PVC setup and the parameters: output port number, VPI/VCI and CLP, with the same permissible values. Default values for Cell Loss Level, Priority, and Cell Loss Priority are used. See Table 23.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 3 4 1 4 9 5.1.4 0 55 0 The following message is displayed: A new output VC was created with call number: out connection number: Release PVC 9 25 Release a specified PVC. PVCs must be manually released. When a P2M PVC is released, all additional destination connections are also released. You cannot release SVCs with this menu.
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Create Permanent Virtual Channel (PVC) Release PVC Destination 159 Release a single destination connection (branch) from a point-to-multipoint call. Specify the P2M call number and the output port number and VPI/VCI of the destination connection.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 3 4 1 6 1 1.1.4 1 60 The following message is displayed: An Outgoing VC with call number: VPI: VCI: was released. 1, 1, 60, The additional connection with output port 1.1.4 and VPI/VCI values of 1/60, which was added to the P2M connection with call number 1, is released.
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Create Permanent Virtual Channel (PVC) Display PVCs 161 Display the PVCs for a specific port and call number. Command Actions Enter the menu sequence: (3) CON: Connections (4) S&C: Setup of Connections and ATM Addresses (1) PVC: PVCs Setup (7) GEP: Display PVCs Enter a parameter at the prompt Parameter Format or Range Port number
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Delete All Inactive PVCs Delete all PVCs that are inactive. A PVC that does not contain a card is inactive. Command Actions Enter the menu sequence: (3) CON: Connections (4) S&C: Setup of Connections and ATM Addresses (1) PVC: PVCs Setup (8) DNA: Delete All inactive PVCs Enter a parameter at the prompt Parameter Format or Range Confirm Delete y or n Direct access sequence: 3 4 1 8 Command Result System action taken: Delete all inactive PVCs.
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Create Permanent Virtual Channel (PVC) Delete All PVC Connections of Port 163 Delete all the PVC connections for a specific port. Command Actions Enter the menu sequence: (3) CON: Connections (4) S&C: Setup of Connections and ATM Addresses (1) PVC: PVCs Setup (9) RES: Delete all PVCs of port Enter a parameter at the prompt Parameter Format or Range Port number or 0.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS NNI Hops Setup The following commands allow you to configure the NNI hops parameter: Display Maximum NNI Hops Update Maximum NNI Hops For more information about hops, see “Hop Limit — Avoiding loops” on page 111 in the Operations Guide. Display Maximum NNI Hops Display the maximum number of hops permissible for NNI routing.
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NNI Hops Setup Update Maximum NNI Hops 165 Enter the new Maximum NNI Hops parameter to update the Maximum NNI Hops parameter of the CoreBuilder 9000 ATM Enterprise Switch. The choice of parameter value depends on the size and topology of the network. For a hierarchically designed network, it is normally chosen to be 7. For more information, see “Hop Limit — Avoiding loops” on page 111 in the Operations Guide.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Signaling Setup The following commands allow you to configure the ILMI signaling parameters: Display VPI/VCI Range Update VPI/VCI Range Display Signaling Protocol Profile Update Signaling Protocol Profile Display Signaling Protocol Version Update Signaling Protocol Version Display Call-Proceeding Enable Value Update Call-Proceeding Enable Value Reset Signaling Configuration For information about signaling setup, see “Signaling — External Li
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Signaling Setup Display VPI/VCI Range 167 Display the current signaling protocol VPI/VCI configuration parameters for a specified port. Maximum and minimum VPI/VCI values are displayed for each port. These parameters are set to match the VPI/VCI capabilities of the device attached to the specified port.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 1 1 4 3 1 3.1.2 The following information is displayed for an OC-3c port: Port: 1.1.1 1.2.1 Current Min VPI: 0 0 Flash Min VPI: 0 0 Current Max VPI: 7 7 Flash Max VPI: 7 7 Current Min VCI: 32 32 Flash Min VCI: 32 32 Current Max VCI: 511 511 Flash Max VCI: 511 511 The following information is displayed for an OC-12c port: Port: 2.1.1 2.2.
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Signaling Setup Update VPI/VCI Range 169 Update the VPI/VCI configuration parameters of the specified port. You set maximum and minimum VPI/VCI values for each port. For more information, see “Display VPI/VCI Range” on page 167. Note that when the ILMI auto-configuration procedure is enabled, the VPI/VCI limits are determined automatically and override any settings made by this command. (For more information, see “Display Current IP Configuration” on page 56.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 1 1 4 3 2 3.1.2 1 0 The following message appears: This operation will release all connections of the specified port(s)! Are you sure (Y/N)? Enter Y to confirm, N to cancel. The following message is displayed: Parameter was successfully set. The maximum VPI for port 3.1.2 is updated to 10.
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Signaling Setup Display Signaling Protocol Profile 171 Display the current signaling protocol profile for the specified port. The signaling protocol profile of a port defines the role that the port plays in the signaling dialog with its attached device. It can be Network or User. When the port is connected to an end station or edge device, the port is normally defined as Network; when it is connected to another switch, it is defined automatically as User or Network depending on their network prefixes.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 1 1 4 5 1 The following message is displayed. Note that Net refers to a Network side; Usr refers to a User side. Slots 1-5 are displayed. Profile: Port number: <1.1.1> <1.1.2> <1.1.3> <1.1.4> <1.2.1> <1.2.2> <1.2.3> <1.2.4> Current val: Net Net Net Net Net Net Net Net Val for save: Net Net Net Net Net Net Net Net Next reb val: Net Net Net Net Net Net Net Net Port number: <2.1.1> <2.1.2> <2.1.3> <2.1.4> <2.2.1> <2.2.2> <2.2.3> <2.2.
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Signaling Setup Update Signaling Protocol Profile 173 Update the signaling protocol profile for the selected port. See the previous section for details. This command causes the new Signaling Protocol Parameters to be activated in the current session, and the new value is stored in flash. If a new value is not entered and stored in flash, the ATM Enterprise Switch reverts to the previous value of the Signaling Protocol Parameters the next time that it reboots.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Display Signaling Protocol Version Display the current signaling protocol version for the specified port. It can be either version 3.0 or version 3.1.
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Signaling Setup 175 Protocol Version Parameters Table 24 shows the protocol version parameters displayed by the command. Table 24 Protocol Version Parameters Name Description Port number Number of port on which the protocol version is being set. Val The active protocol version: 3.0, 3.1 or 4.0. Flash The protocol version stored in the flash memory: 3.0, 3.1 or 4.0.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Update Signaling Protocol Version Update the signaling protocol version of the ports of the CoreBuilder 9000 ATM Enterprise Switch and save it to flash. Command Actions Enter the menu sequence: (1) SYS: Platform configuration (1) SET: Switch setup (4) SIG: Signaling setup (5) SPS: Signaling protocol configuration setup (4) SPV: Set protocol version Enter a parameter at the prompt Parameter Format or Range Port number ; Enter 0.
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Signaling Setup Display Call-Proceeding Enable Value 177 Display the value of the call-proceeding enable value. With the call-proceeding enable value, the user can suppress the call-proceeding message that is returned to the edge device or end user that has sent a signaling SETUP message. For more information, see “CALL PROCEEDING Message” on page 91 in the Operations Guide. When the call-proceeding value is ON, the call-proceeding message is sent.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Update Call-Proceeding Enable Value Update the signaling call-proceeding enable flag and save it to flash memory. See the previous section for more details.
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Signaling Setup Reset Signaling Configuration 179 Reset the signaling configuration parameters for the CoreBuilder 9000 ATM Enterprise Switch to their factory default settings. All signaling timers are set to default as UNI and the UNI version is set to 3.0. The reset takes effect immediately.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Signaling Timers You can configure the ILMI signaling timers. Display Protocol Timer Resolution Update Protocol Timer Resolution Display UNI Signaling Timers Display QSAAL Signaling Timers and Protocol Configuration For information about signaling timers, see “Signaling Timers” on page 96 in the Operations Guide. Display Protocol Timer Resolution Display the current timer resolution in milliseconds for the signaling protocol timers.
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Signaling Timers 181 Command Actions Enter the menu sequence: (1) SYS: Platform configuration (1) SET: Switch setup (4) SIG: Signaling setup (1) RES: Timer Resolution setup (1) GET: Get Timer Resolution Direct access sequence: 1 1 4 1 1 Command Result System action taken: The current timer resolution for the signaling protocol timers is displayed in msecs. System message display: Timer resolution (msec): msec.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Update Protocol Timer Resolution Update the timer resolution of the CoreBuilder 9000 ATM Enterprise Switch. The default timer resolution is 500 msec (0.5 secs); the minimum timer resolution is 100 msec and there is no upper limit. For more information, see the previous section and see “Timer Resolution” on page 98 in the Operations Guide. This command causes the new timer resolution to be activated in the current session. The new value is stored in flash.
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Signaling Timers Display UNI Signaling Timers 183 Display the current Q93B signaling timer values in seconds. These values are the same for all ports because they all work on a common timer. Enter any port identifier. To alter these values, update the timer resolution. For more information, see “Update Protocol Timer Resolution” on page 182.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Example Enter: 1 1 4 2 3.1.
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Signaling Timers Display QSAAL Signaling Timers and Protocol Configuration 185 Display the current QSAAL signaling protocol timer values and Service Specific Connection-Oriented Protocol (SSCOP) configuration parameters for the specified port. The timer values are displayed in tenths of a second. You can update the timer values by changing the timer resolution. For more information, see “Update Protocol Timer Resolution” on page 182. The configuration parameters can be altered.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS Table 25 SSCOP Timers (continued) SSCOP Timer Description No-Response Maximum time between receipt of a STAT PDU in an active connection. CC The connection control timer determines the time between transmission of BGN, END, or RS PDUs, as long as an acknowledgment PDU has not been received. For stability, make the timer No-Response greater than timer Keep-Alive, and make timer No-Response greater than timer Poll.
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Signaling Timers Example Enter: 1 1 4 4 3.1.2 The following information is displayed (1-9 are timers, 10-13 are configuration parameters): Signaling QSAAL Timers (Tenths of second): for port <3.1.2> Param number -------1 2 3 4 5 6 7 8 9 10 11 12 13 Param name Current value ------------------------------ ------Poll UNI 3.0 1 Keep alive UNI 3.0 10 No response UNI 3.0 100 CC UNI 3.0 10 Poll UNI 3.1 9 Keep alive UNI 3.1 10 No response UNI 3.1 70 CC UNI 3.1 10 Idle UNI 3.
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CHAPTER 7: CONFIGURING VIRTUAL CHANNELS
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8 VIEWING STATISTICS This chapter contains detailed descriptions of common management tasks for viewing statistics of traffic flow in the CoreBuilder® 9000 ATM Enterprise Switch platform.
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CHAPTER 8: VIEWING STATISTICS Display Physical Layer Statistics Display the physical layer statistics for a specified port. See Table 27 for an explanation of the different statistics displayed. Command Actions Enter the menu sequence: (4) STS: Statistics (1) PHY: Physical Layer (1) GET: Get physical layer counters Enter a parameter at the prompt Parameter Format or Range Port ID Direct access sequence: 4 1 1 [parameters] Example Enter: 4 1 1 1.1.
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Physical Layer Statistics 191 Table 27 Physical Layer Statistics Statistic Description SONET section level BIP errors (B1) Section BIP-8 - bit-interleaved parity code 8 - even parity for error monitoring SONET section level BIP errors (B2) Line BIP-8 - line error monitoring SONET section level BIP errors (B3) Path BIP-8 - path error monitoring SONET loss of signal state (LOS) Loss of signal.
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CHAPTER 8: VIEWING STATISTICS Reset Physical Layer Statistics Reset physical layer statistics for a specified port. Command Actions Enter the menu sequence: (4) STS: Statistics (1) PHY: Physical Layer (2) RST: Reset phys layer counters Enter a parameter at the prompt Parameter Format or Range Port ID or Enter 0.0 - For all ports Direct access sequence: 4 1 2 [parameters] Command Result System action taken: Physical statistics for the switch are reset.
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ATM-Layer Statistics ATM-Layer Statistics 193 You can display the following ATM-layer statistics: Display Total Calls in Switch Display Counters Per Port Display Counters Per VPI/VCI Reset Counters Per Port Reset Counters Per VPI/VCI For more information on ATM statistics, see “Traffic Statistics” on page 117 in the Operations Guide.
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CHAPTER 8: VIEWING STATISTICS Example Enter: 4 2 1 The following information is displayed: Calls summary: -------------Total number of Total number of Total number of Total number of PVC PVC SVC SVC P2P P2M P2P P2M calls: calls: calls: calls: 1 2 8 4
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ATM-Layer Statistics Display Counters Per Port 195 Display counters for a specified port or for all ports. Command Actions Enter the menu sequence: (4) STS: Statistics (2) ATM: ATM Layer (2) GPR: Get Counters Per Port Direct access sequence: 4 2 2 Command Result System action taken: Calls summary information is displayed. System message display: Information is displayed as shown in the example.
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CHAPTER 8: VIEWING STATISTICS Display Counters Per VPI/VCI Display total cells through a connection specified by its VPI/VCI, presented according to the setting of the CLP bit. If the call is P2M (Point to Multipoint), the transmit or receive information is not always applicable. Command Actions Enter the menu sequence: (4) STS: Statistics (2) ATM: ATM layer (3) GVP: Get counters per vpi/vci Enter a parameter at the prompt Parameter Format or Range Port ID
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ATM-Layer Statistics Reset Counters Per Port 197 Reset the statistics counter for total cells through a port. For more information, see “Display Total Calls in Switch” on page 193. Command Actions Enter the menu sequence: (4) STS: Statistics (2) ATM: ATM layer (4) RPR: Reset counters per port Enter a parameter at the prompt Parameter Format or Range Port ID or 0.
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CHAPTER 8: VIEWING STATISTICS Reset Counters Per VPI/VCI Resets the statistics counter for total cells through a connection. For more information, see “ATM-Layer Statistics” on page 193. Command Actions Enter the menu sequence: (4) STS: Statistics (2) ATM: ATM layer (5) RVP: Reset counters per vpi/vci Enter a parameter at the prompt Parameter Format or Range Port number VPI Perform menu item (3)CON\(2)RTG\(1)CLL to get the VPI/VCI values for a call, or enter A for all values.
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AAL5-Layer Statistics AAL5-Layer Statistics 199 You can display the following AAL5-layer statistics: Display AAL-Layer Statistics Reset AAL-Layer Statistics For more information on AAL5 statistics, see “Traffic Statistics” on page 117 in the Operations Guide. Display AAL-Layer Statistics Display AAL-Layer statistics for the CoreBuilder 9000 ATM Enterprise Switch. AAL connections and SAR frame statistics are presented.
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CHAPTER 8: VIEWING STATISTICS Example Enter: 4 3 1 The following information is displayed: AAL COUNTERS: ============= Max connections: 5316 Active connections: 42 SAR MEMORY SIZE: ================ SSRAM size: 512Kb SDRAM size: 8Mb SAR COUNTERS: ============= RX correct frames: RX CRC-32 ERR frames: RX Zero Length ERR frames: RX No Free Buffers ERR: 0 0 0 0 TX RX RX RX correct frames: Length ERR frames: Timeout ERR frames: Oversize ERR frames: 0 0 0 0
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AAL5-Layer Statistics Reset AAL-Layer Statistics 201 Reset the AAL-Layer statistics for the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter the menu sequence: (4) STS: Statistics (3) AAL: AAL5 layer (2) RST: Reset AAL & SAR counters Direct access sequence: 4 3 2 Command Result System action taken: The AAL-Layer statistics for the CoreBuilder 9000 ATM Enterprise Switch is reset. System message display: AAL counters were reset successfully.
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CHAPTER 8: VIEWING STATISTICS AAL5 Control Frame Port Statistics You can display the following AAL5 control statistics: Display Control Frame Port Statistics Reset Control Frame Port Statistics For information about AAL5-layer control, see “Signaling AAL” on page 99 in the Operations Guide. Display Control Frame Port Statistics Display control frame statistics for a specified port. PDU and SDU statistics are presented. Both signaling and ILMI control frame statistics are shown.
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AAL5 Control Frame Port Statistics Example Enter: 4 4 1 1.1.1 The following information is displayed: Port number: <1.1.
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CHAPTER 8: VIEWING STATISTICS Reset Control Frame Port Statistics Resets control frame statistics for a specified port. Command Actions Enter the menu sequence: (4) STS: Statistics (4) CTL: Control Frames (2) RST: Reset Control Frames Counters Enter a parameter at the prompt Parameter Format or Range Port ID or 0.
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Signaling Protocol Statistics Signaling Protocol Statistics 205 You can display the following signaling statistics: Display Signaling Protocol Statistics Reset Signaling Counters For information about signaling protocol, see “Signaling Protocol” on page 89 in the Operations Guide. Display Signaling Protocol Statistics Display the signaling protocol statistics for a specified port. The number of signaling messages is presented according to transmitted and received messages.
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CHAPTER 8: VIEWING STATISTICS Example Enter: 4 5 1 1.1.
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Signaling Protocol Statistics Reset Signaling Counters 207 Resets the signaling counters for a specified port. Command Actions Enter the menu sequence: (4) STS: Statistics (5) SIG: Signaling (2) RST: Reset signaling counters Enter a parameter at the prompt Parameter Format or Range Port ID Direct access sequence: 4 5 2 [parameters] Command Result System action taken: Signaling statistics are reset for the specified port.
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CHAPTER 8: VIEWING STATISTICS
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9 MANAGING LAN EMULATION This chapter describes how to configure LAN Emulation (LANE) in the CoreBuilder® 9000 ATM Enterprise Switch.
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CHAPTER 9: MANAGING LAN EMULATION LAN EMULATION SETUPS LAN Emulation Services Setup You can set up the LAN Emulation services, as follows: Display LAN Emulation Services Status Enable LAN Emulation Services Disable LAN Emulation Services Display LECS Status Enable LECS Disable LECS CAUTION: Before you reboot the Switch, wait for one minute after each LECS update operation to allow the new parameter values to be stored in flash.
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LAN Emulation Services Setup Display LAN Emulation Services Status 211 Display the status of the LAN Emulation services in the CoreBuilder 9000 ATM Enterprise Switch. The status is either enabled or disabled. Command Actions Enter menu sequence: (1) SYS: Platform config (1) SET: Switch setup (5) SLE: LE setup (1) LES: LE services setup (1) STA: Show LE services status Direct access sequence: 1 1 5 1 1 Command Result System action taken: The LE services status is displayed.
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CHAPTER 9: MANAGING LAN EMULATION Enable LAN Emulation Services Enable the LAN Emulation services in the CoreBuilder 9000 ATM Enterprise Switch. The enable takes place after the next reboot. Command Actions Enter menu sequence: (1) SYS: Platform config (1) SET: Switch setup (5) SLE: LE setup (1) LES: LE services setup (2) ELS: Enable services Direct access sequence: 1 1 5 1 2 Command Result System action taken: The LE services status is enabled after the next reboot.
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LAN Emulation Services Setup Disable LAN Emulation Services 213 Disable the LAN Emulation services in the CoreBuilder 9000 ATM Enterprise Switch. The disable takes place after the next reboot. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (5) SLE: LE setup (1) LES: LE Services setup (3) DLS: Disable LE services Direct access sequence: 1 1 5 1 3 Command Result System action taken: The LE services are disabled after the next reboot.
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CHAPTER 9: MANAGING LAN EMULATION Display LECS Status Display the status of the LECS in the CoreBuilder 9000 ATM Enterprise Switch. The status is either enabled or disabled. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch Setup (5) SLE: LE Setup (2) LCS: LECS setup (1) STA: Show LECS status Direct access sequence: 1 1 5 2 1 Command Result System action taken: The LECS status is displayed. System message display: LECS service status is .
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LAN Emulation Services Setup Enable LECS 215 Enable the LECS in the CoreBuilder 9000 ATM Enterprise Switch after the next reboot. This command also enables the resident LESs. Command Actions Enter menu sequence: (1) SYS: Platform Setup (1) SET: Switch Setup (5) SLE: LE Setup (2) LCS: LECS Setup (2) ELS: Enable LECS services Direct access sequence: 1 1 5 2 2 Command Result System action taken: The LECS is enabled after the next reboot. The LES is also enabled.
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CHAPTER 9: MANAGING LAN EMULATION Disable LECS Disable the LECS in the CoreBuilder 9000 ATM Enterprise Switch. Command Actions Enter menu sequence: (1) SYS: PLatform Setup (1) SET: Switch Setup (5) SLE: LE Services Setup (2) LCS: LECS setup (3) DLS: Disable LECS services Direct access sequence: 1 1 5 2 3 Command Result System action taken: The LECS is disabled. System message display: LECS service status is set for the next reboot.
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LAN Emulation Redundancy Setup LAN Emulation Redundancy Setup You can set up the LAN Emulation redundancy services as follows: Display LECS Redundancy Add LECS to LECS-Order Database Delete LECS from LECS-Order Database Display LE Service Redundancy Enable or Disable LE Servers Redundancy Update Startup Delay 217
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CHAPTER 9: MANAGING LAN EMULATION Display LECS Redundancy Display the LECS-order database in the CoreBuilder 9000 ATM Enterprise Switch. The LECS-order database has up to five entries. The first entry is the active LECS and the others are redundant backup LECS, which are activated according to order.
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LAN Emulation Redundancy Setup Add LECS to LECS-Order Database 219 Add a LECS to the LECS-order database in the CoreBuilder 9000 ATM Enterprise Switch as the last element. If you want to change the order of the LECS in the LECS-order database, delete the entries and reenter them. You can add a LECS from any switch in which the LECS has been enabled. Enter the ATM address of the LECS.
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CHAPTER 9: MANAGING LAN EMULATION Delete LECS from LECS-Order Database Delete a LECS from the LECS-order database in the CoreBuilder 9000 ATM Enterprise Switch. Enter the index of the LECS address as it appears in the LECS-order database. To display the database, see “Display LECS Redundancy” on page 218. If the last LECS is deleted from the LECS-order database, a warning message is displayed, informing you that the database is empty.
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LAN Emulation Redundancy Setup Display LE Service Redundancy 221 Display parameters of the LES redundancy facility in the CoreBuilder 9000 ATM Enterprise Switch. For more information, see “LAN Emulation Redundancy” on page 136 in the Operations Guide.
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CHAPTER 9: MANAGING LAN EMULATION Enable or Disable LE Servers Redundancy Enable and disable the LECS-based LANE redundancy facility in the CoreBuilder 9000 ATM Enterprise Switch. For more information, see “Redundant LANE Services” on page 137 in the Operations Guide.
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LAN Emulation Redundancy Setup Update Startup Delay 223 Update the startup delay parameter for LANE redundancy facility in the CoreBuilder 9000 ATM Enterprise Switch. The startup delay is the time elapsed between the switch startup and the startup of the LANE redundancy facility. To display the current value of the parameter, see “Display LE Service Redundancy” on page 221. This parameter is in the range 1–15 minutes and defaults to 10 minutes.
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CHAPTER 9: MANAGING LAN EMULATION LANE Version of Switch Get Switch LANE Version By default, the switch comes up as LANE 2.0, but it is possible to toggle between the two versions - 1.0 and 2.0. The changes relate to the switch not to a specific ELAN. Displays the current LANE version of the switch. The possibilities are 1.0 and 2.0.
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LANE Version of Switch Set Switch LANE Version 225 Sets the LANE version of the switch. If currently there are LECs joined in ELANs, they remain joined and the version change affects only new LECs that join after the change. After setting the LANE version, reset the ELANs that have LECs connected to them. This should be done very carefully: reset the first ELAN, wait until all the LECs have connected, then reset the next ELAN and so on.
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CHAPTER 9: MANAGING LAN EMULATION MPOA Devices Configuration Display Current MPS Configuration The switch allows configuration of MPOA entities: MPS and MPC. The configuration is general so that all MPSs and MPCs that request configuration receive the same parameters. Displays all the current settings of the MPS variables.
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MPOA Devices Configuration 227 MPOA Server Configuration Parameters Table 29 describes the MPOA Server configuration parameters. . Table 29 MPOA Server Configuration Parameters Variable Name Description MPS-p1 keep-alive time The MPS must transmit MPOA keep-alives every MPS-p1 seconds. (Minimum = 1 sec., default = 10 sec., maximum = 100 sec.) MPS-p2 keep-alive lifetime The length of time (in seconds) an MPC may consider a keep-alive valid. (Minimum = 3 sec., default = 35 sec., maximum = 1000 sec.
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CHAPTER 9: MANAGING LAN EMULATION Set Keep-Alive Time Sets the MPS-p1 keep-alive time parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (1) MPS: MPOA Server Configuration (2) MP1: Set keep-alive time Enter a parameter at the prompt Parameter Format or Range keep-alive time 1 - 300 (seconds) Direct access sequence: 2 5 1 2 Command Result System action taken: The keep-alive time parameter is set.
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MPOA Devices Configuration Set Keep-Alive Lifetime 229 Sets the MPS-p2 keep-alive lifetime parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (1) MPS: MPOA Server Configuration (3) MP2: Set keep-alive lifetime Enter a parameter at the prompt Parameter Format or Range keep-alive lifetime 3 - 1000 (seconds) Direct access sequence: 2 5 1 3 Command Result System action taken: The keep-alive lifetime parameter is set.
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CHAPTER 9: MANAGING LAN EMULATION Set Internetwork Layer Protocols Sets the MPS-p3 protocols parameter.
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MPOA Devices Configuration Set Initial Retry Time 231 Sets the MPS-p4 initial retry time parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (1) MPS: MPOA Server Configuration (5) MP4: Set initial retry time Enter a parameter at the prompt Parameter Format or Range initial retry time 1 - 300 (seconds) Direct access sequence: 2 5 1 5 Command Result System action taken: The initial retry time parameter is set.
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CHAPTER 9: MANAGING LAN EMULATION Set Retry Time Maximum Sets the MPS-p5 retry time maximum parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (1) MPS: MPOA Server Configuration (6) MP5: Set retry time maximum Enter a parameter at the prompt Parameter Format or Range retry time maximum 10 - 300 (seconds) Direct access sequence: 2 5 1 6 Command Result System action taken: The retry time maximum parameter is set.
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MPOA Devices Configuration Set Give Up Time 233 Sets the MPS-p6 give-up time parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (1) MPS: MPOA Server Configuration (7) MP6: Set give-up time Enter a parameter at the prompt Parameter Format or Range give-up time 5 - 300 (seconds) Direct access sequence: 2 5 1 7 Command Result System action taken: The give-up time parameter is set.
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CHAPTER 9: MANAGING LAN EMULATION Set Default Holding Time Sets the MPS-p7 default holding time parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (1) MPS: MPOA Server Configuration (8) MP7: Set default holding time Enter a parameter at the prompt Parameter Format or Range default holding time 1 - 120 (minutes) Direct access sequence: 2 5 1 8 Command Result System action taken: The default holding time parameter is set.
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MPOA Devices Configuration Display Current MPC Configuration 235 Displays all the current settings of the MPC variables. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (2) MPC: MPOA Client Configuration (1) DIS: Display current config Direct access sequence: 2 5 2 1 Command Result System action taken: All the current settings of the MPC variables are displayed. System message display: Information is displayed as shown in the example below.
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CHAPTER 9: MANAGING LAN EMULATION MPOA Client Configuration Parameters Table 30 describes the MPOA Client configuration parameters. Table 30 MPOA Client Configuration Parameters Variable Name Description MPC-p1 shortcut-setup frame time If an MPC forwards at least MPC-p2 frames to the same target within any period MPC-p1 via the default forwarding path, it should initiate the procedure to establish a shortcut.
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MPOA Devices Configuration Set Shortcut Setup Frame Count 237 Sets the MPC-p1 shortcut-setup frame count parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (2) MPC: MPOA Client Configuration (2) MP1: Set shortcut-setup frame count Enter a parameter at the prompt Parameter Format or Range shortcut-setup frame count 1 - 65535 Direct access sequence: 2 5 2 2 Command Result System action taken: The shortcut-setup frame count parameter is set.
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CHAPTER 9: MANAGING LAN EMULATION Set Shortcut Setup Frame Time Sets the MPC-p2 shortcut-setup frame time parameter.
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MPOA Devices Configuration Set Flow Detection Protocols 239 Sets the MPC-p3 flow detection protocols parameter.
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CHAPTER 9: MANAGING LAN EMULATION Set Initial Retry Time Sets the MPC-p4 initial retry time parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (2) MPC: MPOA Client Configuration (5) MP4: Set initial retry time Enter a parameter at the prompt Parameter Format or Range initial retry time 1 - 300 (seconds) Direct access sequence: 2 5 2 5 Command Result System action taken: The initial retry time parameter is set.
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MPOA Devices Configuration Set Retry Time Maximum 241 Sets the MPC-p5 retry time maximum parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (2) MPC: MPOA Client Configuration (6) MP5: Set retry time maximum Enter a parameter at the prompt Parameter Format or Range retry time maximum 10 - 300 (seconds) Direct access sequence: 2 5 2 6 Command Result System action taken: The retry time maximum parameter is set.
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CHAPTER 9: MANAGING LAN EMULATION Set Hold Down Time Sets the MPS-p6 hold down time parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (5) MPA: MPOA Devices Configuration (2) MPC: MPOA Client Configuration (7) MP6: Set hold down time Enter a parameter at the prompt Parameter Format or Range hold down time 30 - 1200 (seconds) Direct access sequence: 2 5 2 7 Command Result System action taken: The hold down time parameter is set.
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LECS Address 243 LAN EMULATION CONFIGURATION SERVICE (LECS) OPERATIONS This section describes how to configure LAN Emulation Configuration Service (LECS) Operations in the CoreBuilder 9000 ATM Enterprise Switch. LECS Address LECS Search Policy LECS ELAN Database Operations LAN Emulation Redundancy For more information about configuring the LAN Emulation Configuration Services (LECS), see Chapter 8, LAN Emulation in the Operations Guide.
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CHAPTER 9: MANAGING LAN EMULATION Display Resident LECS Address Display the address of the resident LECS. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Config Service (1) LGA: Get resident LECS address Direct access sequence: 2 1 1 Command Result System action taken: The address of the resident LECS is displayed. System message display: Information is displayed as shown in the example. Example Enter: 2 1 1 The following information is displayed.
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LECS Address Update Resident LECS Address 245 Update the address of the resident LECS. Enter the user part of the address (last 7 hex bytes). The switch network prefix is used for the first 13 bytes. The update takes place immediately.
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CHAPTER 9: MANAGING LAN EMULATION LECS Search Policy Display LECS Search Policy You can configure the LECS search policy. Display the search policy of the resident LECS, according to which a LES address is assigned to a LEC that requests to join an ELAN.
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LECS Search Policy Example Enter: 2 1 3 The search policy of the resident LECS is displayed: First lecs search policy is by ATM address Second lecs search policy is by Mac Address Third lecs search policy is by Elan name 247
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CHAPTER 9: MANAGING LAN EMULATION LECS ELAN Database Operations You can configure the ELAN database as follows: Display ELANs Display ELAN Parameters in LECS Database Update ELAN Parameters in LECS Database Display ELAN MAC Addresses Delete ELAN MAC Address Add ELAN MAC Address Display ELAN ATM Addresses Delete ELAN ATM Address Add ELAN ATM Address Add ELAN Delete ELAN Configure Segment ID LECS Database Statistics Reset LECS CAUTION: Before you reboot the switch, wait t
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LECS ELAN Database Operations Display ELANs 249 Display all the ELANs that are defined in the LECS database along with their LES addresses. The active LESs are indicated. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS network topology (1) DAL: Display all ELANs Direct access sequence: 2 1 5 1 Command Result System action taken: The ELANs defined in the resident LECS are displayed.
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CHAPTER 9: MANAGING LAN EMULATION Display ELAN Parameters in LECS Database Display the ELAN type and maximum frame size for a specified ELAN. The information is taken from the LECS database. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS network topology (2) LEP: Display ELAN type & params Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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LECS ELAN Database Operations 251 ELAN Parameters in LECS Database Table 32 describes the ELAN parameters in the LECS database. Table 32 ELAN Parameters in LECS Database Name Description ELAN Type The type of frames that the ELAN recognizes: 802.3 Ethernet type 802.
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CHAPTER 9: MANAGING LAN EMULATION Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (3) EET: Edit ELAN type & params Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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LECS ELAN Database Operations Display ELAN MAC Addresses 253 Display the MAC address inserted by a specified ELAN. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (4) MAC: MAC Addresses Info (1) MAD: Display all MAC addresses Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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CHAPTER 9: MANAGING LAN EMULATION Delete ELAN MAC Address Delete a MAC address inserted from an ELAN. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (4) MAC: MAC Address Info (2) DEL: Delete MAC Address Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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LECS ELAN Database Operations Add ELAN MAC Address 255 Add a MAC address to an ELAN MAC address database. This database is selected from the real database. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (4) MAC: MAC Address Info (3) ADD: Add new MAC address Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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CHAPTER 9: MANAGING LAN EMULATION Display ELAN ATM Addresses Display ATM addresses inserted for a specified ELAN. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (5) ATM: ATM Address Info (1) AAD: Display all ATM addresses Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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LECS ELAN Database Operations Delete ELAN ATM Address 257 Delete an ATM address inserted by a specified ELAN. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (5) ATM: ATM Addresses Info (2) DEL: Delete ATM address Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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CHAPTER 9: MANAGING LAN EMULATION Add ELAN ATM Address Add an ELAN ATM address for a specified ELAN ATM address database. This database is disconnected from the real database. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (5) ATM: ATM Address Info (3) ADD: Add new ATM address Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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LECS ELAN Database Operations Add ELAN 259 Add an ELAN to the LECS database, that is, add a new LES. Specify the ELAN name and LES ATM address. You can use any legal ELAN name. The names of the ELANs on a particular switch all have the form elan__ where is a number unique to the switch and is the sequential number of the ELAN between 0 and 15. This is the form to use for ELANs that you enter in this section.
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CHAPTER 9: MANAGING LAN EMULATION Example Enter: 2 1 5 6 elan_73_9 47.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0 The console responds with the confirmation: New elan was added.
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LECS ELAN Database Operations Delete ELAN 261 Delete an ELAN from the LECS database. Specify the ELAN name. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (7) DEL: Delete ELAN record Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters. For more information, see “Add ELAN” on page 259.
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CHAPTER 9: MANAGING LAN EMULATION Configure Segment ID Configure a local segment ID for a token ring ELAN in the LECS database. Specify the ELAN name. Each token ring segment in a token ring network that uses source routing must be assigned a unique segment ID by the network administrator. You assign the segment ID to the ATM ELAN, which simulates the token ring, by this command. Then, when a LEC joins the ELAN, it gets the segment ID from the LECS.
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LECS ELAN Database Operations LECS Database Statistics 263 Show different statistics on the LECS database. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Config Service (6) LST: LECS Statistics Direct access sequence: 2 1 6 Command Result System action taken: Displays different statistics about the LECS. System message display: Information is displayed as shown in the example. LECS Statistics Parameters Table 33 describes the LECS statistics parameters.
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CHAPTER 9: MANAGING LAN EMULATION Table 34 LECS Signaling Statistics (continued) Parameter Description RELEASE The number of transmitted/received RELEASE messages from/to LECS/LES/BUS. ADD PARTY The number of transmitted/received ADD PARTY messages from/to LECS/LES/BUS. ADD PARTY ACK The number of transmitted/received ADD PARTY ACK messages from/to LECS/LES/BUS. ADD PARTY REJ The number of transmitted/received ADD PARTY REJ messages from/to LECS/LES/BUS.
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LECS ELAN Database Operations Reset LECS 265 Release configuration of direct VCCs that were used in the configuration phase of a LEC and are no longer needed. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (7) RST: Reset LECS Direct access sequence: 2 1 7 Command Result System action taken: The LECS is reset. System message display: LECS is reset.
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CHAPTER 9: MANAGING LAN EMULATION Display LECS Maximum Connection Number Shows how many LECs the LECS database may contain. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Config Service (8) LCS: LECS maximum connection number (1) LCG: Get LECS Maximum connection number Direct access sequence: 2 1 8 1 Command Result System action taken: Displays the total number of LECS connections. System message display: Number of LECS connections is .
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LECS ELAN Database Operations Update LECS Maximum Connection Number 267 Sets the number of LECs the LECS database may contain. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Config Services (8) LCS: LECS maximum connection number (2) LCS: Set Maximum connection number Direct access sequence: 2 1 8 2 Enter a parameter at the prompt Parameter Format or Range Number of LECS connections 1 - 800 Command Result System action taken: Sets the total number of LECS connections.
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CHAPTER 9: MANAGING LAN EMULATION LAN Emulation Redundancy You can configure the LAN emulation redundancy facility as follows: Assign Redundant LES to ELAN Deassign Redundant LES from ELAN Make Primary LES Active Display Redundant ELANs General Information Display Redundant ELANs Specific Information Display Redundant LES General Information Display Redundant LES Specific Information
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LAN Emulation Redundancy Assign Redundant LES to ELAN 269 Assign a LES to be the redundant (secondary) LES of a specified ELAN in the LECS database. Specify the ELAN name and the ATM address of the LES. The secondary LES should reside on a different switch than the primary LES. For more information, see “LES Redundancy Facility — Configuring the ELAN Topology Database” on page 139 in the Operations Guide.
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CHAPTER 9: MANAGING LAN EMULATION Deassign Redundant LES from ELAN Deassign a redundant (secondary) LES from a specified ELAN in the LECS database. Specify the ELAN name associated with the LES. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (9) RDN: LE Service redundancy (2) DLS: Delete Redundant LES Enter a parameter at the prompt Parameter Format or Range ELAN name Up to 32 characters.
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LAN Emulation Redundancy Make Primary LES Active 271 Reestablish the primary LES of the ELAN as the active LES. When the secondary LES of an ELAN is active instead of the primary LES, this command causes LECs to be released from the secondary LES to join the primary LES. Specify the ELAN name of the primary LES. A secondary LES becomes the active LES on the failure of the primary LES and it remains active even when the primary LES recovers.
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CHAPTER 9: MANAGING LAN EMULATION Example Enter: 2 1 5 9 3 elan_73_9 The following message is displayed: Force to Primary message sent to LECS The active LES of the specified ELAN is forced to become the primary LES.
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LAN Emulation Redundancy Display Redundant ELANs General Information 273 Display general information about redundant ELANs. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (9) RDN: LE Service redundancy (4) REG: Display Redundant ELANs general info Direct access sequence: 2 1 5 9 4 Command Result System action taken: The general Redundant ELANs information is displayed.
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CHAPTER 9: MANAGING LAN EMULATION Redundant ELANs General Parameters Table 35 describes the ELANs general parameters. Table 35 Redundant ELANs General Parameters Parameter Description Id The ELAN Id number. Name The ELAN name. State The state of the ELAN. This can be Primary, Secondary, In Check (when the ELAN is in transient state) or No LES. LES Id & State (PRM) The primary LES Id number and its state.
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LAN Emulation Redundancy Display Redundant ELANs Specific Information 275 Display specific information about Redundant ELANs. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (9) RDN: LE Service redundancy (5) RLG: Display Redundant ELANs specific info Direct access sequence: 2 1 5 9 5 [parameter] Enter a parameter at the prompt Parameter Format or Range Redundant ELAN id The internal ELAN id number.
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CHAPTER 9: MANAGING LAN EMULATION Redundant ELANs Specific Parameters Table 36 describes the ELANs specific parameters. Table 36 Redundant ELANs Specific Parameters Parameter Description ELAN name The ELAN name. ELAN status The status of the ELAN. This can be: Operational The ELAN is operating normally. New A newly created ELAN that has not yet been processed by the LECS. Init A newly created ELAN that is in the process of becoming operational.
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LAN Emulation Redundancy Display Redundant LES General Information 277 Display general information on a redundant LES. Command Actions (2) LEM: LAN Emulation Enter menu sequence: (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (9) RDN: LE Service redundancy (6) RLG: Display Redundant LESs general info Direct access sequence: 2 1 5 9 6 Command Result System action taken: The general redundant LES information is displayed.
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CHAPTER 9: MANAGING LAN EMULATION Display Redundant LES Specific Information Display specific information on a redundant LES. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (1) LCS: LE Configuration Service (5) LNT: LECS Network topology (9) RDN: LE Service redundancy (7) RLS: Display Redundant LES specific info. Enter a parameter at the prompt Parameter Format or Range Redundant LES id The internal LES id number.
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LAN Emulation Redundancy 279 Redundant LES General Parameters Table 38 describes the redundant LES general parameters. Table 38 Redundant LES General Parameters Parameter Description LES ATM Address The LES ATM address. Connection State The LES connection state. This can be: LES Location Establish There is a connection between the LECS and the LES. Being Established A connection is being established between the LECS and the LES.
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CHAPTER 9: MANAGING LAN EMULATION LAN EMULATION SERVICE (LES) OPERATIONS LES Address You can configure the LES address, as follows: Display LES-BUS Addresses Update ELAN LES-BUS Address Display LES-BUS Addresses Display LES ATM addresses for all 16 LESs that are defined in the CoreBuilder 9000 ATM Enterprise Switch.
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LES Address Example Enter: 2 2 1 The following information is displayed: ELAN id ----1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 LES-BUS ATM address: LES-BUS ATM address: Network prefix User part --------------------------------------- --------------------47. 0. 0. 0. 0. 0.3c. 0. 0.a0. 0. 0. 0 0.c0.da.60. 0.49. 0 47. 0. 0. 0. 0. 0.3c. 0. 0.a0. 0. 0. 0 0.c0.da.60. 0.49. 1 47. 0. 0. 0. 0. 0.3c. 0. 0.a0. 0. 0. 0 0.c0.da.60. 0.49. 2 47. 0. 0. 0. 0. 0.3c. 0. 0.a0. 0. 0. 0 0.c0.da.60. 0.49. 3 47. 0. 0. 0. 0. 0.3c.
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CHAPTER 9: MANAGING LAN EMULATION Update ELAN LES-BUS Address Update the LES address of the specified ELAN. Enter the LES address user part, which consists of 6 bytes separated by dots. The last byte is a selector byte (0-F) that signifies the sequential identifier of the LES in the CoreBuilder 9000 ATM Enterprise Switch.
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ELAN Parameters ELAN Parameters 283 You can configure the ELAN parameters, as follows: Display ELAN Parameters in LES Database Update ELAN Parameters in LES Database Display ELAN Parameters in LES Database Display general information about the 16 ELANs in the CoreBuilder 9000 ATM Enterprise Switch. The information is taken from the LES database. (For more information about parameters in the LECS database, see “Display ELAN Parameters in LECS Database” on page 250.
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CHAPTER 9: MANAGING LAN EMULATION Example Enter: 2 2 2 The following information is displayed: ELAN id ELAN name ELAN type Max Control Mcast frame distrib forward size mem_id/ mem_id/ Call_id Call_id ---- -------------- ------ ------ ------- ------1 elan_69_0 802.3 1516 1701/ 11 1701/ 13 2 elan_69_1 802.3 1516 No Val No Val 3 elan_69_2 802.3 1516 No Val No Val 4 elan_69_3 802.5 4544 1704/ 5 1704/ 7 5 elan_69_4 802.3 1516 No Val No Val 6 elan_69_5 802.3 1516 No Val No Val 7 elan_69_6 802.
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ELAN Parameters 285 ELAN Parameters for Resident LESs Table 39 describes the ELAN parameters for resident LESs. Table 39 ELAN Parameters for Resident LESs Name Description ELAN ID ELAN ID number. ELAN Names ELAN name. ELAN Type The type of frames that the ELAN recognizes: 802.3 Ethernet type 802.5 Token Ring type Max Frame Size LAN Type Ethernet/Fast Ethernet: Token Ring FDDI Control Specifies the point-to-multipoint connection id between the ELAN’s BUS and the LECs, and the BUS member id.
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CHAPTER 9: MANAGING LAN EMULATION Update ELAN Parameters in LES Database Update the parameters for the specified ELAN in the LES database. Table 40 describes the ELAN parameters you can update. CAUTION: After you use this command to update the parameters of an ELAN in the LES database, you must use the LMA to update the parameters of the ELAN in the LECS database in exactly the same way. (For more information, see “Update ELAN Parameters in LECS Database” on page 251.
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ELAN Parameters Example Enter: 2 2 4 14 1 1 The following message appears: ELAN is reset. The parameters of the ELAN with ID 14 are updated. ELAN Parameters for a LES Table 40 describes the ELAN parameters that can be updated. . Table 40 ELAN Parameters for a LES Name Description ELAN Type The type of frames that the ELAN recognizes: 802.3 Ethernet type 802.
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CHAPTER 9: MANAGING LAN EMULATION LE_ARP Policy Configuration Display ELAN Response Policy You can configure the LE_ARP policy as follows: Display ELAN Response Policy Update ELAN Response Policy Display LE_ARP Response Policy Update LE_ARP Response Policy Display LE_ARP Response Policy for Route Descriptor Update LE_ARP Response Policy for Route Descriptor Reset LES Configurations Display LANE Multicast Forward Delay Update LANE Multicast Forward Delay Display the ELAN’s respon
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LE_ARP Policy Configuration 289 Example Enter: 2 2 3 1 2 2 The response policy of the ELAN with ELAN ID #2 is displayed as follows: Response policy is DIRECT VCC. ELAN Response Policies Table 41 describes the ELAN response policies. . Table 41 ELAN Response Policies Name Description DIRECT VCC The LES sends the response to the requesting LEC only. DISTRIB ALL The LES sends the response to all LECs in the ELAN.
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CHAPTER 9: MANAGING LAN EMULATION Update ELAN Response Policy Update the response policy for an ELAN: direct VCC or distributed connection. The new response policy takes effect immediately. This is a global setting for all the clients in that ELAN. The factory default value is direct connection. See Table 41 for the possible response policies.
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LE_ARP Policy Configuration Display LE_ARP Response Policy 291 Display the policy for handling LAN Emulation Address Resolution Protocol (LE_ARP) requests for a specified ELAN. See Table 42 for the possible LE_ARP policies.
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CHAPTER 9: MANAGING LAN EMULATION Example Enter: 2 2 3 1 4 2 The LE_ARP policy of the ELAN with ELAN ID 2 is displayed as follows: Response policy is FORWARD REQUEST LE_ARP Verification Policies Table 42 describes the LE_ARP verification policies. . Table 42 LE_ARP Verification Policies Name Description Respond Checks the address table of the LES in the CoreBuilder® 9000 ATM Enterprise Switch. If the LAN destination is not found, it sends the LE_ARP request to all LECs in the ELAN.
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LE_ARP Policy Configuration 293 Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (1) LSU: LES Setup (5) SAR: Set & Save LE arp policy Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 For more information, see “Display ELAN Parameters in LES Database” on page 283. Response policy 1-Respond 2-Forward Request (For more information, see Table 42.
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CHAPTER 9: MANAGING LAN EMULATION Display LE_ARP Response Policy for Route Descriptor Display the additional policy for handling LE_ARP requests for a specified ELAN when the LAN destination is a route descriptor (Token Ring ELAN). This policy is used in conjunction with the LE_ARP response policy. (For more information, see “Display LE_ARP Response Policy” on page 291.) The policy is applicable only when the “Respond” option is selected in that policy. (See Table 43.
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LE_ARP Policy Configuration 295 Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (1) LSU: LES Setup (6) GRD: Get ARP pol. for non reg RD Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 For more information, see “Display ELAN Parameters in LES Database” on page 283. Direct access sequence: 2 2 3 1 6 [parameters] Command Result System action taken: The response policy for the specified ELAN is displayed.
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CHAPTER 9: MANAGING LAN EMULATION Update LE_ARP Response Policy for Route Descriptor Update the additional policy for handling LE_ARP requests for a Token Ring ELAN: Reject Request or Forward Request. The new response policy goes into effect immediately. This is a global setting for all the clients in that ELAN. The factory default value is Forward Request. See Table 43 for a description of LE_ARP route descriptor policies.
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LE_ARP Policy Configuration Reset LES Configurations 297 Reset all LES configurations in the CoreBuilder 9000 ATM Enterprise Switch to factory-default values including LES-BUS address, ELAN response policy, and LE_ARP response policies.
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CHAPTER 9: MANAGING LAN EMULATION Display LANE Multicast Forward Delay Display the LANE multicast forward delay. For certain switches and bridges that connect to the CoreBuilder 9000 ATM Enterprise Switch, you must configure a delay between a multicast send and a multicast forward.
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LE_ARP Policy Configuration Update LANE Multicast Forward Delay 299 Update the LANE multicast forward delay parameter. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (1) LSU: LES Setup (10) SDL: Set LANE Multicast Fwd Delay Enter a parameter at the prompt Parameter Format or Range LANE multicast forward delay 0.
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CHAPTER 9: MANAGING LAN EMULATION LEC Operations You can configure the LEC operations as follows: Display LEC Connection Info Display LEC Address Info Display LEC Connection Info Display LAN emulation clients (LEC) connection information for a specified ELAN and specified LEC. A LEC is specified by its ID. To determine the ID of a specific LEC, first perform this command with a value of 0 for LEC ID (as in the example). All LEC IDs are displayed.
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LEC Operations 301 LEC Connection Information Parameters Table 44 shows the LEC Connection Information parameters displayed by the command. . Table 44 LEC Connection Information Name Description LEC ID LEC ID number. State Current LEC state: Joining—the LEC is performing Point-to-Point direct connection to the LES, or the LEC is sending the “join” request. ADD Party—the LES is adding the LEC to its Point-to-Multipoint distribute connection Operational—the client is now ready to operate.
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CHAPTER 9: MANAGING LAN EMULATION Display LEC Address Info Display all MAC addresses, ATM addresses, and Route Descriptors of a specified LEC that are registered in the LES ARP-cache of a specified ELAN. A LEC is specified by its ID. If you do not know a LEC’s ID, specify a value of 0 to display information for all LECs.
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LEC Operations 303 Example Enter: 2 2 3 2 1 0 The MAC and ATM addresses for all LECs of the ELAN with ELAN ID 1 are displayed as follows: LECID: 2 Primary ATM Addr: 47.0.0.0.0.0.0.0.0.0.0.0.0 0.c0.da.18.1.c.0 MAC address ATM address -----------------------------------------------------0.c0.da.18.1.0 47.0.0.0.0.0.0.0.0.0.0.0.0 0.c0.da.18.1.c.0 ************************************************************ LECID: 1 Primary ATM Addr: 47.0.0.0.9.0.0.0.0.0.0.0.0 0.c0.da.18.4.c.
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CHAPTER 9: MANAGING LAN EMULATION LAN Emulation Statistics You can view and perform operations on the LAN Emulation statistics, as follows: Display LAN Emulation Statistics Display LAN Emulation Statistics Display LEC Statistics Reset LAN Emulation Statistics Display Multicast Addresses Destroy Specific LEC Restart ELAN Displays statistics for the LES and BUS in a specified ELAN.
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LAN Emulation Statistics Example Enter: 2 2 3 4 1 2 LES and BUS statistics for the ELAN with ELAN ID 2 are displayed as follows: LES global counters ------------------Total number of active clients: Total number of active MAC addresses Total number of active ATM addresses Total number of messages accepted by Total number of messages rejected by of the above, total rejected because 2 for all clients: 2 for all clients: 2 LES: 291 LES: 0 of security: 0 BUS global counters ------------------Number of receiv
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CHAPTER 9: MANAGING LAN EMULATION Display LEC Statistics Display statistics for a LEC in a specified ELAN. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (4) STS: Statistics (2) LEC: LEC statistics Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 For more information, see “Display ELAN Parameters in LES Database” on page 283.
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LAN Emulation Statistics 307 LEC Statistics Table 45 describes the LEC statistics parameters. Table 45 LEC Statistics Name Description LEC ID LEC ID number. Num Reg MAC addr Number of MAC addresses registered by that LEC. Num Reg ATM addr Number of ATM addresses registered by that client. Num msg Sent by Client Number of messages sent by that client. Num Reject Join Req Number of LEC join requests rejected by the ELAN.
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CHAPTER 9: MANAGING LAN EMULATION Reset LAN Emulation Statistics Reset general LAN Emulation statistics for a specified ELAN to zero. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (4) STS: Statistics (3) RES: Reset General LE Statistics Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 For more information, see “Display ELAN Parameters in LES Database” on page 283.
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LAN Emulation Statistics Display Multicast Addresses 309 Displays multicast addresses registered by the LECs. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (5) MCT: Multicast addresses Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 see “Display ELAN Parameters in LES Database” on page 283. mcast address 6 hex bytes separated by a dot * for all addresses.
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CHAPTER 9: MANAGING LAN EMULATION Destroy Specific LEC Deletes the specified LEC from the LES database. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (2) LES: LE Services (3) ELN: ELANs Information (6) DSL: Destroy specific LEC Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 see “Display ELAN Parameters in LES Database” on page 283 LEC id Direct access sequence: 2 2 3 6 Command Result System action taken: The specified LEC is removed.
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LAN Emulation Statistics Restart ELAN 311 Disconnect the control distribute channel to all LECs that are attached to the specified ELAN. This feature enables the user to reset the LANE Services without rebooting the CoreBuilder 9000 for the following purposes: Shutdown of the redundant LANE Services to force all LECs to return to the primary LANE Services after a failure has occurred.
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CHAPTER 9: MANAGING LAN EMULATION
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10 LEC ELAN ADMISSION SECURITY This chapter describes LEC ELAN admission security in the CoreBuilder® 9000 ATM Enterprise Switch. LEC Not in ELAN Security List LECs in ELAN Security List Switch Security Save Security Configuration For more information about LEC ELAN admission security, see Chapter 8, "LAN Emulation" in the Operations Guide.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY LEC Not in ELAN Security List The following commands let you configure the LEC ELAN admission security for LECs which are not in the ELAN security list. For more information, see “LANE Security” on page 145 in the Operations Guide. Display LEC ELAN Join Privilege Update LEC ELAN Join Privilege for Current Session Display LEC ELAN Join Privilege Displays the default ELAN join privilege for LECs which are not in the ELAN security list.
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LEC Not in ELAN Security List Update LEC ELAN Join Privilege for Current Session 315 Updates the default ELAN join privilege for LECs which are not in the ELAN security list for the current session. The default join privilege can be Accept or Reject. You need to save to flash to maintain this parameter after the next reboot.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY LECs in ELAN Security List The following commands let you configure the LEC admission security for LECs in an ELAN security list. For more information, “LANE Security” on page 145 in the Operations Guide.
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LECs in ELAN Security List 317 Example Enter: 2 3 2 1 1 The ELAN security list is displayed for the ELAN with ID 1. The first line means that all LECs with the designated prefix are not allowed to join the ELAN. The second line means that the LEC with the designated ATM address is allowed to join the ELAN. Table for ELAN: "elan2684_0" 1. 2. Permission ---------REJECT ACCEPT Address ----------------------------------------47.0.0.0.0.0.3c.0.0.a0.* 47.00.00.00.00.00.3c.00.00.a0.00.00.00.00.c0.da.34.55.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY Delete All LECs from Security List Delete all LECs from the security list of the specified ELAN for the current session. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (3) SEC: LE Security Configuration (2) STB: Security tables entries (2) DET: Delete elan security table Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 See “Display ELAN Parameters in LES Database” on page 283.
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LECs in ELAN Security List Add All Joined LECs to Security List 319 Adds all currently–connected LECs to the security list of the specified ELAN for the current session with the Accept join privilege. Use this command to initialize the ELAN security list. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (3) SEC: LE Security Configuration (2) STB: Security tables entries (3) CUR: Add curr. conn.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY Add a LEC to Security List Adds a LEC or group of LECs to the security list of the specified ELAN for the current session. You specify the join privilege. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (3) SEC: LE Security Configuration (2) STB: Security tables entries (4) ADR: Add a new security entry Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 See “Display ELAN Parameters in LES Database” on page 283.
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LECs in ELAN Security List Change the Join Privilege of a LEC 321 Changes the join privilege of a LEC or group of LECs for the specified ELAN for the current session. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (3) SEC: LE Security Configuration (2) STB: Security tables entries (5) EDR: Edit a security entry Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 See “Display ELAN Parameters in LES Database” on page 283.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY Delete a LEC from the Security List Deletes a LEC or group of LECs from the security list for the specified ELAN for the current session. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (3) SEC: LE Security Configuration (2) STB: Security tables entries (6) DER: Delete a security entry Enter a parameter at the prompt Parameter Format or Range ELAN ID 1–16 See “Display ELAN Parameters in LES Database” on page 283.
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LECs in ELAN Security List Perform a Security Check on a LEC 323 Performs a security check on a LEC or group of LECs for the specified ELAN for the current session. The candidate LEC is searched for in the security list of the ELAN. If it is found, its join privilege is displayed. If it is not found then the ELAN default behavior is displayed.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY Switch Security The following commands allow you to enable or disable the LEC admission security for the entire switch. For more information, see “LANE Security” on page 145 in the Operations Guide. Display Switch Security Status Enable/Disable Switch Security Display Switch Security Status Displays the LEC admission security status for the switch.
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Switch Security Enable/Disable Switch Security 325 Enables or disables the LEC admission security status for the switch for the current session.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY Save Security Configuration The following commands allow you to save and restore the security lists for all ELANs in the switch. For more information, see “LANE Security” on page 145 in the Operations Guide. Save Security Configuration Restore Security Configuration Save Security Configuration Saves the security lists for all ELANs in the switch to flash memory.
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Save Security Configuration Restore Security Configuration 327 Restores the security lists for all ELANs in the switch from flash memory. Command Actions Enter menu sequence: (2) LEM: LAN Emulation (3) SEC: LE Security Configuration (5) RES: Restore security config Enter a parameter at the prompt Parameter Format or Range Continue prompt Y or N Direct access sequence: 2 3 5 Command Result System action taken: The security lists for all ELANs in the switch are restored from flash memory.
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CHAPTER 10: LEC ELAN ADMISSION SECURITY
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11 CONFIGURING AND MANAGING PNNI This chapter describes the commands that allow you to configure and manage the PNNI nodes of the network. It includes the following topics: Viewing the Current PNNI State Configuring PNNI Nodes Setting the Timers Setting Optimization Metrics Setting Interface Parameters Managing the Scope Mapping Table Configuring the Route Cache Showing PNNI Information PNNI is available in version 3.0 extended only. For more information on obtaining software version 3.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Viewing the Current PNNI State Display PNNI/E-IISP State The following command allows you to view the current PNNI state: Display PNNI/E-IISP State Displays the PNNI/E-IISP status and the next reboot state. The status is either PNNI or E-IISP. To change the current state, use the Fast Setup. For details on the Fast Setup, see the CoreBuilder 9000 ATM Switch Module Getting Started Guide.
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Configuring PNNI Nodes Configuring PNNI Nodes 331 The following commands allow you to configure the PNNI nodes of the network: Get Number of Nodes Get Enhanced 164 Address Support State Set & Save Enhanced E.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Get Number of Nodes Displays the number of defined PNNI nodes in the switch. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (1) NNO: Number of Nodes (1) GNN: Get Number of Nodes Direct access sequence: 1 1 9 4 1 1 Command Result System action taken: The number of PNNI nodes defined in the switch is displayed.
PAGE 333
Configuring PNNI Nodes Get Enhanced 164 Address Support State 333 Displays the status of the E.164 (enhanced 164) address support state: ENABLED or DISABLED. See “ATM Address Format” on page 196 in the Operations Guide for more information on E.164. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (2) EEA: Enhanced E164 Address Support (1) GET: Get Enhanced E.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set & Save Enhanced E.164 Address Support State Updates the status of the enhanced E.164 address support state to ENABLED or DISABLED and saves it in flash memory. A change to the status takes place after the next reboot. See “ATM Address Format” on page 196 in the Operations Guide for more information on E.164.
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Configuring PNNI Nodes Get Node Index 335 Displays the number of PNNI nodes defined in the switch and the current PNNI node index. The default node index value is 1 and cannot be changed for this version.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Get Node Administrative Status Displays the administrative status of the PNNI node. The administrative status of the node may be UP or DOWN.
PAGE 337
Configuring PNNI Nodes Set Node Administrative Status to UP 337 Updates the administrative status of the PNNI node to UP. The change takes place immediately and is saved in flash memory for the next reboot.
PAGE 338
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Node Administrative Status to DOWN Updates the administrative status of the PNNI node to DOWN. The change takes place immediately and is saved in flash memory for the next reboot.
PAGE 339
Configuring PNNI Nodes Purge PNNI Database 339 Clear the entire PNNI database. All entries in the PNNI database will be deleted. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (3) NCF: Node Configuration (2) ADM: Admin Status (4) PDB: Purge whole PNNI Database Direct access sequence: 1 1 9 4 3 2 4 Command Result System action taken: The PNNI database is cleared. System message display: Node of .
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Get Node Level Displays the current node level. The node level is the hierarchy level of the peer group to which it belongs. For more information, see “Organizing a Network Hierarchy” on page 183 in the Operations Guide.
PAGE 341
Configuring PNNI Nodes Set Node Level 341 Updates the current node level. The node level is the hierarchy level of the peer group to which it belongs. For more information, see “Organizing a Network Hierarchy” on page 183 in the Operations Guide. A change to the node level takes place after the next reboot. It is important not to split ELANs between groups when constructing the network hierarchy.
PAGE 342
CHAPTER 11: CONFIGURING AND MANAGING PNNI Get ATM Address Displays the ATM address of the current PNNI node. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (3) NCF: Node Configuration (3) CHR: Characteristics (2) ADD: ATM Address (1) GAD: Get ATM Address Direct access sequence: 1 1 9 4 3 3 2 1 Command Result System action taken: The current PNNI node and its ATM address are displayed.
PAGE 343
Configuring PNNI Nodes Set Default ATM Address 343 Sets the last six bytes (ESI — End System Identifier) of the ATM address of the current node to the default ATM address value. A change to the default ATM address takes place after the next reboot.
PAGE 344
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set ATM Address Updates the last six bytes (ESI - End System Identifier) of the ATM address of the current node. A change to the ATM address takes place after the next reboot. For more information on ATM addressing in PNNI, see “ATM Address Format” on page 196 in the Operations Guide.
PAGE 345
Configuring PNNI Nodes 345 Example Enter: 1 1 9 4 3 3 2 3 00.C0.DA.60.00.27 The following message is displayed: New ESI of PNNI Node ATM Address was set, New ATM address is: 47.00.00.00.00.00.3C.00.00.00.00.00.00.00.C0.DA.60.00.27.FF The address is updated to its new value. The ESI of the ATM address displayed can also be changed by editing the existing address. This is done by pressing the BackSpace, left and/or right arrow keys at the prompt and overwriting any of the last six bytes of the address.
PAGE 346
CHAPTER 11: CONFIGURING AND MANAGING PNNI Get Peer Group ID Displays the Peer Group ID of the PNNI node. For more information of peer groups, see “Organizing a Network Hierarchy” on page 183 in the Operations Guide. A change to the peer group id takes place after the next reboot.
PAGE 347
Configuring PNNI Nodes Set Peer Group ID 347 Sets the Peer Group ID of the PNNI node. For more information on peer groups, see “Organizing a Network Hierarchy” on page 183 in the Operations Guide. Currently the peer group ID cannot be changed via this option. To change the peer group ID, the ATM address network prefix and node level should be changed. See “Set ATM Address” on page 344 and “Set Node Level” on page 341 in this chapter for details on how to change these.
PAGE 348
CHAPTER 11: CONFIGURING AND MANAGING PNNI Get Node ID Displays the ID (ATM address) of the PNNI node (22 bytes). Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (3) NCF: Node Configuration (3) CHR: Characteristics (4) NID: Node ID (1) GID: Get Node ID Direct access sequence: 1 1 9 4 3 3 4 1 Command Result System action taken: The current PNNI node id is displayed. System message display: PNNI Node x of y.
PAGE 349
Configuring PNNI Nodes Set Default Node ID 349 Updates the ID of the PNNI node to the default address. A change to the default node ID takes place after the next reboot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Node ID Updates the ID of the PNNI node to a new address. A change to the node lD takes place after the administrative status is set to UP or after the next reboot. For more information, see “Set Node Administrative Status to UP” on page 337. There are several PNNI operations in the LMA that can only be performed when the node administrative status is set to DOWN, and that take effect immediately after the status is reset to UP.
PAGE 351
Configuring PNNI Nodes 351 Example Enter: 1 1 9 4 3 3 4 3 47.00.00.00.00.00.3C.00.00.00.00.00.00.00.C0.DA.60.27.F6.F6 The following message is displayed: New Node ID was set. Node Id: 47.00.00.00.00.00.3C.00.00.00.00.00.00.00.C0.DA.60.27.F6.F6 The node ID is updated to its new value. The node ID displayed can also be changed by editing the existing node ID. This is done by pressing the BackSpace, left and/or right arrow keys at the prompt and overwriting any of the 20 bytes of the address.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Get Node Name Displays the name assigned to the current PNNI node. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (3) NCF: Node Configuration (3) CHR: Characteristics (5) NAM: Node Name (1) GNA: Get Node Name Direct access sequence: 1 1 9 4 3 3 5 1 Command Result System action taken: The current PNNI node number and name are displayed.
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Configuring PNNI Nodes Set Node Name 353 Updates the name assigned to the current PNNI node. A change the node name takes place immediately.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Get PGL Priority Displays the node peer group leader priority. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (3) NCF: Node Configuration (3) CHR: Characteristics (6) PRI: PGL Priority (1) GPR: Get PGL Priority Direct access sequence: 1 1 9 4 3 3 6 1 Command Result System action taken: The node peer group leader priority is displayed.
PAGE 355
Configuring PNNI Nodes Set PGL Priority 355 Updates the node peer group priority. Currently, the peer group priority is set to 0 and cannot be changed.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Setting the Timers The following commands allow you to set values for the different PNNI timers and intervals. These parameters are part of the Quality of Service (QoS) metrics that are used in establishing a signal.
PAGE 357
Setting the Timers Set PTSE Holddown Timer 357 Sets the PTSE holddown timer value. The PTSE holddown timer value is the value (expressed in milliseconds) used by the specified node to limit the rate at which it can send PTSEs. A change to the PTSE holddown timer value takes place after the next reboot. For more information on PTSEs, see “PTSE” on page 190 in the Operations Guide.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Hello Holddown Timer Sets the Hello holddown timer value. The Hello holddown timer value is the value (expressed in milliseconds) used by the specified node to limit the rate at which it sends Hello packets. A change to the Hello holddown timer value takes place after the next reboot. For more information on Hello packets, see “Information Exchange in PNNI” on page 189 in the Operations Guide.
PAGE 359
Setting the Timers Set Hello Interval 359 Sets the Hello interval value. In the absence of triggered Hellos, the specified node will send one Hello packet on each of its ports every “interval” seconds. A change to the Hello interval value takes place after the next reboot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Hello Inactivity Factor Sets the Hello inactivity factor. The Hello inactivity factor is the amount of time (expressed in Hello intervals) after which the sending node will consider a link to its neighbor down, if the neighbor does not respond. For more information on Hello intervals, see “Set Hello Interval” on page 359. A change to the Hello inactivity factor takes place after the next reboot.
PAGE 361
Setting the Timers Set PTSE Refresh Interval 361 Sets the PTSE refresh interval value. The PTSE refresh interval is the amount of time (in seconds) that passes before the next PTSE is flooded to all the nodes in the current peer group. A change to the PTSE refresh interval value takes place after the next reboot.
PAGE 362
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set PTSE Lifetime Factor Sets the PTSE lifetime factor value. The PTSE lifetime factor is the value used to calculate the initial lifetime of a PTSE. The PTSE refresh interval is multiplied by this percentage to obtain the initial lifetime factor. A change to the PTSE lifetime factor value takes place after the next reboot.
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Setting the Timers Set Retransmit Interval 363 Sets the retransmit interval. The retransmit interval is the time after which unacknowledged PTSEs will be retransmitted. A change to the retransmit interval takes place after the next reboot.
PAGE 364
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Peer Delayed ACK Interval Sets the peer delayed acknowledge interval. The peer delayed acknowledge interval is the minimum time period (expressed in milliseconds) between transmissions of delayed PTSE acknowledgment packets. A change to the peer delayed ACK interval value takes place after the next reboot.
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Setting the Timers Set AvCR Proportional Multiplier (%) 365 Sets the AvCR (Available Capacity for Minimum Cell Rate) proportional multiplier percentage. The AvCR proportional multiplier percentage is the proportional multiplier used in the algorithms that determine significant changes for AvCR parameters, expressed as a percentage. A change to the AvCR proportional multiplier percentage takes place after the next reboot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set AvCR Minimum Threshold (%) Sets the AvCR minimum threshold percentage. The AvCR minimum threshold percentage is the minimum percentage change in bandwidth, after which a node will inform its neighbors of a significant change via a PTSE. For more information on PTSE regeneration, see “PTSE” on page 190 in the Operations Guide. A change to the AvCR minimum threshold percentage value takes place after the next reboot.
PAGE 367
Setting the Timers Set CDV Proportional Multiplier (%) 367 Sets the CDV proportional multiplier percentage. The CDV proportional multiplier percentage is the percentage difference in the Cell Delay Variation metrics from the last value advertised. A change to the CDV proportional multiplier percentage value takes place after the next reboot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set CTD Proportional Multiplier (%) Sets the CTD proportional multiplier percentage. The CTD proportional multiplier percentage is a percentage of the last advertised Maximum Cell Transfer Delay. A change to the CTD proportional multiplier percentage value takes place after the next reboot.
PAGE 369
Setting the Timers Set SVCC Initiation Time 369 Sets the SVCC initiation time. The SVCC initiation time is the time it takes to reinitiate a Switched Virtual Channel Connection after it has been taken down. For more information on virtual channel connections, see “Virtual Channels” on page 84 in the Operations Guide. A change to the SVCC initiation time takes place after the next reboot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set SVCC Retry Time Sets the SVCC (Switch Virtual Channel Connection) retry time. The SVCC retry time is the time that the specified node will delay after a viable SVCC-based RCC is unexpectedly taken down, before attempting to reestablish it. A change to the SVCC retry time takes place after the next reboot.
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Setting the Timers Set SVCC Calling Integrity Time 371 Sets the SVCC calling integrity time. The SVCC calling integrity time is the default value used to initiate the SVCC integrity timer at the node that initiates a switched virtual circuit at a logical group node. A change to the SVCC calling integrity time takes place after the next reboot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set SVCC Called Integrity Time Sets the SVCC called integrity time. The SVCC called integrity time is the default value used to initialize the SVCC integrity timer at the node that accepts a switched virtual circuit at a logical group node originated by a neighbor node. A change to the SVCC called integrity time takes place after the next reboot.
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Setting the Timers Set All Timers to Their Default Values 373 Resets all the timers in the timers menu to their default values.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Setting Optimization Metrics The following commands allow you to set up the optimization metrics for the network.
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Setting Optimization Metrics Get Optimization Metrics 375 Displays the PNNI optimization metrics table. This table contains the current values of all the optimization metrics for each class of service. For more information on QoS optimization metrics, see “Path Selection” on page 197 in the Operations Guide.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Table 47 describes the values that may be assigned to the optimization parameters. These parameters are used to determine the path in the network for each Quality of Service.
PAGE 377
Setting Optimization Metrics Set Optimization for CBR 377 Updates the Constant Bit Rate (CBR) optimization parameter. A change to the CBR optimization parameter takes place immediately.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Optimization for RealTime-VBR Updates the Real Time Variable Bit Rate (VBR) optimization parameter. A change to the RtVBR optimization parameter takes place immediately.
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Setting Optimization Metrics Set Optimization for NonRealTime-VBR 379 Sets the Non Real Time Variable Bit Rate (VBR) optimization parameter. A change to the NrtVBR optimization parameter takes place immediately.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Optimization for ABR Updates the Available Bit Rate (ABR) optimization parameter. A change to the ABR optimization parameter takes place immediately.
PAGE 381
Setting Optimization Metrics Set Optimization for UBR 381 Updates the Unspecified Bit Rate (UBR) optimization parameter. A change to the UBR optimization parameter takes place immediately.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Optimization for All Classes to Default Resets all the optimization parameters to their default values.
PAGE 383
Setting Optimization Metrics Select Port for Interface Parameter Setting 383 Selects the port for which the interface parameters will be set. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (4) ICF: Interface Configuration (1) SPT: Select Port Enter a parameter at the prompt Parameter Format or Range port number slot.subslot.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Setting Interface Parameters The following commands allow you to set the different interface parameters in the network.
PAGE 385
Setting Interface Parameters Set Aggregation Token 385 Sets the aggregation token. The aggregation token is a number assigned to an outside link by the border nodes. This option is currently not supported in this version.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set CBR Administrative Weight Sets the CBR Administrative Weight parameter. The CBR administrative weight is the administrative weight of this interface port for the constant bit rate service category.
PAGE 387
Setting Interface Parameters Set RtVBR Administrative Weight 387 Sets the RtVBR Administrative Weight parameter. The RtVBR administrative weight is the administrative weight of this interface port for the real-time variable bit rate service category.
PAGE 388
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set NrtVBR Administrative Weight Sets the NrtVBR Administrative Weight parameter. The NrtVBR administrative weight is the administrative weight of this interface port for the non-real-time variable bit rate service category.
PAGE 389
Setting Interface Parameters Set ABR Administrative Weight 389 Sets the ABR Administrative Weight parameter. The ABR administrative weight is the administrative weight of this interface port for the available bit rate service category.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set UBR Administrative Weight Sets the UBR Administrative Weight parameter. The UBR administrative weight is the administrative weight of this interface port for the unspecified bit rate service category.
PAGE 391
Setting Interface Parameters Reset PNNI Interface Parameters to Default Values 391 Resets all the PNNI interface parameters for the specified interface port (as selected in the Select Port option) to their default values. The parameter reset takes place immediately. See “Select Port for Interface Parameter Setting” on page 383 for details.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Reset All PNNI Interface Parameters to Default Values Resets all the PNNI parameters for all interface ports to their default values. The parameter reset takes place immediately.
PAGE 393
Managing the Scope Mapping Table Managing the Scope Mapping Table View Scope Mapping Table 393 The following commands allow you to manage the scope mapping table. View Scope Mapping Table Modify Scope Mapping Table Set Scope Mapping Table to Defaults Displays the scope mapping table on the screen.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Table 48 Scope Mapping Table Parameters (continued) PNNI Scope Table Index Number Parameter Description pnniScopeLocalNetworkPlusTwo The highest level of PNNI hierarchy (i.e. smallest PNNI routing level) that lies within the organizational scope value localNetworkPlusTwo. 3 pnniScopeSiteMinusOne The highest level of PNNI hierarchy (i.e. smallest PNNI routing level) that lies within the organizational scope value siteMinusOne.
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Managing the Scope Mapping Table Example Enter: 1 1 9 4 4 5 1 The following information is displayed: PNNI Scope Table Index Name Pnni Level 1 pnniScopeLocalNetwork 96 2 pnniScopeLocalNetworkPlusOne 96 3 pnniScopeLocalNetworkPlusTwo 96 4 pnniScopeSiteMinusOne 80 5 pnniScopeIntraSite 80 6 pnniScopeSitePlusOne 72 7 pnniScopeOrganizationMinusOne 72 8 pnniScopeIntraOrganization 64 9 pnniScopeOrganizationPlusOne 64 10 pnniScopeCommunityMinusOne 64 11 pnniScopeIntraCommunity 48 12 pnniScopeCommunityPlusOne 48 13
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Modify Scope Mapping Table Modifies parameters in the scope mapping table. A change to the scope mapping table parameters takes place after the next reboot.
PAGE 397
Managing the Scope Mapping Table Example Enter: 1 1 9 4 4 5 2 15 32 The following message is displayed: PNNI Scope Mapping Table ROW new value Index Name Pnni Level 15 pnniScopeGlobal 32 Press ENTER to continue... The hierarchical level of pnniScopeGlobal is updated to 32.
PAGE 398
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Scope Mapping Table to Defaults Resets all the parameters of the scope mapping table to their default values. A change to the scope mapping table parameters takes place after the next reboot.
PAGE 399
Configuring the Route Cache Configuring the Route Cache Get Cache State 399 The following commands allow you to set up the route cache parameters. Get Cache State Set Cache State Get Cache Refresh for ADD PARTY Set Cache State for ADD PARTY Get Max Number of Routes per Cache Set Max Number of Routes per Cache Display the current DTL cache state. The DTL cache state may be ENABLED or DISABLED. The default cache state is ENABLED.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Cache State Set the DTL cache state to ENABLED/DISABLED. The default cache state is ENABLED. If the cache is disabled, it is not refreshed and calls are not added to it. This means that for each incoming call, a new path will be recalculated. A change to the DTL cache state takes place immediately.
PAGE 401
Configuring the Route Cache Get Cache Refresh for ADD PARTY 401 Displays whether or not the last cache accumulated for a route (between the same source and any destination that has previously been accessed) will continue to be used when an ADD PARTY route is added.
PAGE 402
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Cache State for ADD PARTY Determines whether or not the last cache accumulated for a route (between a specific source and any destination that has previously been accessed) will continue to be used when an ADD PARTY route is added (Save) or will be reinitialized (Drop). The default cache state for ADD PARTY is Save. If the cache refresh is dropped, all caches for recently calculated routes will be reinitialized.
PAGE 403
Configuring the Route Cache Get Max Number of Routes per Cache 403 Displays the number of calls that can pass between a specific source and any destination that has previously been accessed using the same route. After this number of calls, the cache will be refreshed.
PAGE 404
CHAPTER 11: CONFIGURING AND MANAGING PNNI Set Max Number of Routes per Cache Sets the number of calls that can pass between a specific source and any destination node that has previously been accessed using the same route. After this number of calls, the cache will be refreshed. The default number of calls is 40. A change to the number of calls takes place immediately.
PAGE 405
Showing PNNI Information Showing PNNI Information The following commands allow you to display PTSE and other PNNI information. Display All PTSEs in Database 405 Display All PTSEs in Database Display PTSE Node Information Display Topology Link Information Display Summary Address Table Display Node Address Information Display Peer Group Neighbor Information Display Statistics Information Displays all types of PTSE messages stored in the topology database.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI PTSE Table Parameters Table 50 through Table 56 describe the parameters displayed in the PTSE table. For clarity, the information has been divided into different sections: Table 50 PTSE Table Parameters - PTSE Section Parameter Description Level # Hierarchical level. Node # The number of the node. Node Id The node id in hex (22 bytes). ATM Address The ATM address of the node (19 bytes). MAC Address The MAC address of the node (6 bytes) PTSE Id.
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Showing PNNI Information Table 51 PTSE Table Parameters - Node Topology Link Section (continued) Parameter Description Local Port The number of the local port that connects to the remote port. Remote Port The number of the remote port that connects to the local port. Remote Node The node ID of the remote port. Table 52 PTSE Table Parameters - Node Address Section Parameter Description Address prefix The address of node within the peer group.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Table 55 PTSE Table Parameters - Statistics Section Parameter Description DTL Count Originator The total number of DTL stacks that this switching system has originated and placed into signaling messages. This value includes the number of alternate route DTL stacks (see Alternate DTL Count Originator below).
PAGE 409
Showing PNNI Information Example Enter: 1 1 9 4 7 1 The following information is displayed: Level: 72 ---------------------> Node # PTSE_Id 1 4 34 1 Id= 48a0:47:00000000003c000000000000.00c0da600047.ff Length Type Seq. no. CkSum Lifetime Description 68 97 1 95ae 35780 Nodal Inform. 92 288 1 39a7 35850 Horizont.Link 76 224 2 c05d 35790 Int.Reach.Addr Topology : Node # 1 Id= 48a0:47:00000000003c000000000000.00c0da600047.ff LocPort RemPort Remote node 3 1 48a0:47:00000000003c000002000000.00c0da000004.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Display PTSE Node Information Displays PTSE information for each node stored in the topology database. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (7) SHO: Show PNNI information (2) NOD: Node PTSEs Direct access sequence: 1 1 9 4 7 2 Command Result System action taken: All PTSE information for each node stored in the database is displayed.
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Showing PNNI Information Example Enter: 1 1 9 4 7 2 The following information is displayed: Level: 72 ----------------------> Node # 1 Id= 48a0:47:00000000003c000000000000.00c0da600047.ff PTSE_Id Length Type Seq. no. CkSum Lifetime Description 1 68 97 2 95ad 35780 Nodal Inform. 2 92 288 1 4dbe 35914 Horizont.Link 3 92 288 1 4dbb 35914 Horizont.Link 4 92 288 1 39a7 35612 Horizont.Link 34 76 224 2 c05d 35552 Int.Reach.Addr Node # 2 Id= 48a0:47:00000000003c00000000eeee.00c0da000001.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Display Topology Link Information Displays all links for each node whose information is stored in the topology database.
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Showing PNNI Information Example Enter: 1 1 9 4 7 3 The following information is displayed: Level: 72 ----------------------> Topology : Node # 1 Id= 48a0:47:00000000003c000000000000.00c0da600047.ff LocPort RemPort Remote node 1 1 48a0:47:00000000003c00000000eeee.00c0da000001.ff 2 2 48a0:47:00000000003c00000000eeee.00c0da000001.ff 3 1 48a0:47:00000000003c000002000000.00c0da000004.ff Node # 2 Id= 48a0:47:00000000003c00000000eeee.00c0da000001.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Display Summary Address Table Displays the summary address table stored in the topology database. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (7) SHO: Show PNNI information (4) SAT: Summary Address Table Direct access sequence: 1 1 9 4 7 4 Command Result System action taken: The summary address table stored in the database is displayed.
PAGE 415
Showing PNNI Information Display Node Address Information 415 Displays all ATM addresses that are used for route calculation of each node about which information is stored in the topology database.
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CHAPTER 11: CONFIGURING AND MANAGING PNNI Example Enter: 1 1 9 4 7 5 The following information is displayed: Address prefixes: Address Length 47:00000000003c000000000000. 104 47:00000000003c00000000eeee. 104 47:00000000003c000002000000. 104 47:00000000003c000003000000. 104 47:00000000003c000004000000. 104 47:007900000000000000000000.00a03e000001 152 47:007900000000000000000000.00a03e000001 47:007900000000000000000000.00a03e000001 47:007900000000000000000000.
PAGE 417
Showing PNNI Information Display PGL Election Information 417 Displays information on the peer group leader election. The default peer group leadership priority is 0 and cannot be changed for this version. Therefore, in this version, a node cannot be defined as a Peer Group Leader.
PAGE 418
CHAPTER 11: CONFIGURING AND MANAGING PNNI Example Enter: 1 1 9 4 7 6 The following information is displayed: Level: 72 ---------------------> PGL Information: PGL Leadership Priority = 0 PeerGroupLeader = 0000:00:000000000000000000000000.000000000000.00 Preferred PGL = 0000:00:000000000000000000000000.000000000000.
PAGE 419
Showing PNNI Information Display Peer Group Neighbor Information 419 Displays information on the peer group neighbors. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (7) SHO: Show PNNI information (7) NBR: Neighbors Direct access sequence: 1 1 9 4 7 7 Command Result System action taken: Peer Group Neighbor information is displayed. System message display: Information is displayed as shown in the example.
PAGE 420
CHAPTER 11: CONFIGURING AND MANAGING PNNI Display Statistics Information Displays statistical information about network events that occur when the node is up. Command Actions Enter menu sequence: (1) SYS: Platform Configuration (1) SET: Switch setup (9) PNI: PNNI Setup (4) CFP: Configure PNNI (7) SHO: Show PNNI information (8) STA: Statistics Direct access sequence: 1 1 9 4 7 8 Command Result System action taken: Statistical information is displayed.
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A Physical Environmental ATM SWITCH FABRIC MODULE SPECIFICATIONS Table 57 ATM Switch Fabric Module Specifications Specification Metric Imperial Height 38.8 cm 15.3 in. Width 3.81 cm 1.5 in. Depth 32.7 cm 12.8 in. Weight 1700 g 3.
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APPENDIX A: ATM SWITCH FABRIC MODULE SPECIFICATIONS Electromagnetic Compatibility Table 60 Electromagnetic Compatibility Specification Standard Meets FCC part 15 Subparagraph B, Class A limits. Directive complied with: EMC 89/336/EEC as amended by 92/31/EEC and 93/68/EEC. Standards Supported Emission EN50081-1 (EN55022) Immunity EM50082-1 (IEC801-2,-3,-4) Table 61 Standards Supported SNMP ATM MIB II (RFC 1213) Signalling - UNI 3.0/3.1 AToM MIB (RFC 1695) ILMI - UNI 3.0/3.
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MENU INDEX B The following table shows where to find the description of each menu action in the following chapters. The index has the same structure as the menu hierarchy. Clicking on the page number in the “Mgmt Guide” column takes you to the command description. Clicking on the page number in the “Ops Guide” column takes you to a theoretical description of topics related to the command. Not every command has a corresponding theoretical description.
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APPENDIX B: MENU INDEX Table 64 Menu Index (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Get subnet mask 1 1 2 4 1 62 10 Set subnet mask 1 1 2 4 2 63 10 Get read community string 1 1 2 5 1 64 10 Set read community string 1 1 2 5 2 65 10 Get write community string 1 1 2 6 1 66 10 Set write community string 1 1 2 6 2 67 10 Get Ethernet type 1 1 2 7 1 68 10 Set Ethernet type 1 1 2 7 2 69 10 Set management configuration to f
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Table 64 Menu Index (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Get profiles of ports 1 1 4 5 1 171 10 Set profile of port 1 1 4 5 2 173 10 Get protocol version 1 1 4 5 3 174 6 Set protocol version 1 1 4 5 4 176 6 Get call proceeding value 1 1 4 6 1 177 6 Set call proceeding value 1 1 4 6 2 178 6 Set signaling configuration to factory defaults 1 1 4 7 179 6 Show LE services status 1 1 5 1 1 211 8 Enable services 1 1 5
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APPENDIX B: MENU INDEX Table 64 Menu Index (continued) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) 1 1 6 1 137 5 Get ILMI version 1 1 8 1 1 112 4 Set & save ILMI version 1 1 8 1 2 113 4 Get auto-configuration ON/OFF status 1 1 8 2 1 114 4 Set auto-configuration ON/OFF status 1 1 8 2 2 115 4 Get auto-discovery ON/OFF status 1 1 8 3 1 116 4 Set & save auto-discovery ON/OFF status 1 1 8 3 2 117 4 Get LECS via ILMI ON/OFF status 1 1 8 4 1 118 4 Set LE
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Table 64 Menu Index (continued) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Display switch status 1 4 1 86 11 Reset switch 1 4 2 88 11 Reset standby switch module 1 4 3 1 89 11 Standby in-service/suspended 1 4 3 2 90 11 Upgrade software files 1 4 3 3 1 91 * Get interface card info 1 5 1 92 Set port frame mode 1 5 3 96 Set port clock mode 1 5 4 97 Set loop mode 1 5 5 98 Reset interface card 1 5 6 99 Configuration flash status 1 6 102 Reboot
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APPENDIX B: MENU INDEX Table 64 Menu Index (continued) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Display all ELANs 2 1 5 1 249 8 Display elan type & params 2 1 5 2 250 8 Edit elan type & params 2 1 5 3 251 8 Display all mac addresses 2 1 5 4 1 253 8 Delete mac address 2 1 5 4 2 254 8 Add new MAC address 2 1 5 4 3 255 8 Display all ATM addresses 2 1 5 5 1 256 8 Delete ATM address 2 1 5 5 2 257 8 Add new ATM address 2 1 5 5 3 258 8 Add new el
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Table 64 Menu Index (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Get LECS maximum connection number 2 1 8 1 266 8 Set maximum connection number 2 1 8 2 267 8 LES-BUS address 2 2 1 280 8 ELANs general info 2 2 2 283 8 Set & save LES-BUS address 2 2 3 1 1 282 8 Get response policy 2 2 3 1 2 288 8 Set & save response policy 2 2 3 1 3 290 8 Get LE arp policy 2 2 3 1 4 291 8 Set & save LE arp policy 2 2 3 1 5 292 8 Get ar
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APPENDIX B: MENU INDEX Table 64 Menu Index (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Destroy specific LEC 2 2 3 6 310 8 LES edit elans parameters 2 2 4 286 8 LES restart ELAN 2 2 5 311 8 Get elan default behavior 2 3 1 1 314 8 Set elan default behavior 2 3 1 2 315 8 Display elan security table 2 3 2 1 316 8 Delete elan security table 2 3 2 2 318 8 Add currently connected LECs 2 3 2 3 319 8 Add a new security entry 2
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Table 64 Menu Index (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Set keep-alive time 2 5 1 2 228 8 Set keep-alive lifetime 2 5 1 3 229 8 Set internetwork-layer protocols 2 5 1 4 230 8 Set initial retry time 2 5 1 5 231 8 Set retry time maximum 2 5 1 6 232 8 Set give-up time 2 5 1 7 233 8 Set default holding time 2 5 1 8 234 8 Display current configuration 2 5 2 1 235 8 Set shortcut-setup frame count 2 5 2 2 237 8 Set
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APPENDIX B: MENU INDEX Table 64 Menu Index (continued) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Display VPI/VCI limits 3 4 1 1 151 6 Create full PVC call 3 4 1 2 153 6 Create PVC call 3 4 1 3 156 6 Create out VC in call 3 4 1 4 157 6 Release PVC call 3 4 1 5 158 6 Release out VC from call 3 4 1 6 159 6 Display PVCs 3 4 1 7 161 6 Delete all inactive PVCs 3 4 1 8 162 6 Delete all PVCs of port 3 4 1 9 163 6 Delete all ATM addresses of port 3
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Table 64 Menu Index (continued) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Get AAL & SAR counters 4 3 1 199 7 Reset AAL & SAR counters 4 3 2 201 7 Get control frames counters 4 4 1 202 7 Reset control frames counters 4 4 2 204 7 Get signaling counters 4 5 1 205 7 Reset signaling counters 4 5 2 207 7 Display ATM features 6 103 Logout 7 100 Version 8 104 Fast setup 9 Debug 10 Command Title AAL5 Layer Control Frames General Operations * See
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APPENDIX B: MENU INDEX Table 65 PNNI Commands (Extended Version Only) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) 1 1 9 1 330 13 Get number of nodes 1 1 9 4 1 1 332 13 Get enh. E.164 address support state 1 1 9 4 2 1 333 13 Set & save enhanced E.164 addr support state 1 1 9 4 2 2 334 13 Get node index 1 1 9 4 3 1 1 335 13 Get node admin. status 1 1 9 4 3 2 1 336 13 Set node admin. status to UP 1 1 9 4 3 2 2 337 13 Set node admin.
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Table 65 PNNI Commands (Extended Version Only) (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Get node name 1 1 9 4 3 3 5 1 352 13 Set node name 1 1 9 4 3 3 5 2 353 13 Get PGL priority 1 1 9 4 3 3 6 1 354 13 Set PGL priority 1 1 9 4 3 3 6 2 355 13 PTSE holddown timer 1 1 9 4 3 4 1 357 13 Hello holddown timer 1 1 9 4 3 4 2 358 13 Hello interval 1 1 9 4 3 4 3 359 13 Hello inactivity factor 1 1 9 4 3 4 4 360 13 PTSE refresh i
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APPENDIX B: MENU INDEX Table 65 PNNI Commands (Extended Version Only) (continued) Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Get optimization metrics 1 1 9 4 3 5 1 375 13 Optimization for CBR 1 1 9 4 3 5 2 1 377 13 Optimization for RealTime-VBR 1 1 9 4 3 5 2 2 378 13 Optimization for NonRealTime-VBR 1 1 9 4 3 5 2 3 379 13 Optimization for ABR 1 1 9 4 3 5 2 4 380 13 Optimization for UBR 1 1 9 4 3 5 2 5 381 13 Set optimization for all classes to default
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Table 65 PNNI Commands (Extended Version Only) (continued) Command Title Direct Access Sequence Mgmt Guide (page #) Ops Guide (chapter #) Set scope mapping table to defaults 1 1 9 4 4 5 3 398 13 Get cache state 1 1 9 4 6 1 399 13 Set cache state 1 1 9 4 6 2 400 13 Get cache state for ADD PARTY 1 1 9 4 6 3 401 13 Set cache state for ADD PARTY 1 1 9 4 6 4 402 13 Get max. number of routes per cache 1 1 9 4 6 5 403 13 Set max.
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APPENDIX B: MENU INDEX
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C TECHNICAL SUPPORT 3Com provides easy access to technical support information through a variety of services. This appendix describes these services. Information contained in this appendix is correct at time of publication. For the most recent information, 3Com recommends that you access the 3Com Corporation World Wide Web site.
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APPENDIX C: TECHNICAL SUPPORT 3Com FTP Site Download drivers, patches, software, and MIBs across the Internet from the 3Com public FTP site. This service is available 24 hours a day, 7 days a week. To connect to the 3Com FTP site, enter the following information into your FTP client: Hostname: ftp.3com.com Username: anonymous Password: You do not need a user name and password with Web browser software such as Netscape Navigator and Internet Explorer.
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Support from Your Network Supplier 441 Access by Digital Modem ISDN users can dial in to the 3Com BBS using a digital modem for fast access up to 64 Kbps. To access the 3Com BBS using ISDN, call the following number: 1 847 262 6000 3Com Facts Automated Fax Service The 3Com Facts automated fax service provides technical articles, diagrams, and troubleshooting instructions on 3Com products 24 hours a day, 7 days a week.
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APPENDIX C: TECHNICAL SUPPORT When you contact 3Com for assistance, have the following information ready: Product model name, part number, and serial number A list of system hardware and software, including revision levels Diagnostic error messages Details about recent configuration changes, if applicable Here is a list of worldwide technical telephone support numbers: Country Telephone Number Country Telephone Number Asia, Pacific Rim Australia Hong Kong India Indonesia Japan Malaysia
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Returning Products for Repair Returning Products for Repair 443 Before you send a product directly to 3Com for repair, you must first obtain an authorization number. Products sent to 3Com without authorization numbers will be returned to the sender unopened, at the sender’s expense.
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APPENDIX C: TECHNICAL SUPPORT
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GLOSSARY ASIC Application Specific Integrated Circuit, a chip designed for a particular application. ASICs are built by connecting existing circuit building blocks in new ways. Because the building blocks already exist in a library, it is much easier to produce a new ASIC than to design a new chip from scratch. ATM Asynchronous Transfer Mode. A transfer method used for LAN and WAN. ATM carries voice, video and data at speeds up to 2.2 Gbps and can integrate geographically distant disparate networks.
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GLOSSARY daughter card Early Packet Discard (EPD) EFCI E-IISP Enterprise Engine (EME) Enterprise Network Flash/Operational Software LED Framer IISP (Interim Interswitch Protocol) Local Management Application (LMA) loopback test LAN loopback test Can be either OC-3c, OC-3c Single Mode Long Reach, OC-12c, Single Mode or Multi-Mode or 155 Mbps-over-UTP5. These cards are attached to the ATM Interface Carrier Module to make the Interface Module complete.
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GLOSSARY Module Status LED multiplexing Network to Network Interface (NNI) Partial Packet Drop (PPD) peer group peer group leader physical link PNNI Routing Control Channel PNNI Port Status LED Serial Link 447 An LED that indicates the system state of the ATM Interface Module. A function within a layer that interleaves the information from multiple connections into one connection. ITU-T-specified standard interface between nodes, typically ATM switches within the same network.
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GLOSSARY VCI Virtual Channel Identifier. Part of the identifier of a particular virtual circuit in the ATM fabric. VPI Virtual Path Identifier. Part of the identifier of a particular virtual circuit in the ATM fabric. WAN Wide Area Network. Data communications network spanning very large geographical areas.
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INDEX Numbers 10BASE-T (RJ-45) Ethernet 30 3Com Transcend Enterprise Manager (TEM) 38 3Com bulletin board service (3Com BBS) 440 3Com Facts 441 3Com Knowledgebase Web Services 439 3Com URL 439 A AAL5 control frame port statistics 202 AAL-layer statistics displaying 199 resetting 201 ABR, see Available Bit Rate active switch mode 87 ADD PARTY route 401, 402 address registration general 31 address resolution forward request 292 admin-access password updating 53 administration console 28 management capabilit
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INDEX BUS statistics displaying 304 C cache maximum number of routes 403 refresh for ADD PARTY 401, 402 setting maximum number of routes 404 call ID number 144, 147, 149 out connections 144 state 144 type 144, 155 call admission control 28 call-proceeding enable value displaying 177 calls in switch displaying 193 card type 27 CBR, see Constant Bit Rate CDV proportional multiplier (%) setting 367 cell delay variation (CDV) 367 transfer delay (CTD) 368 Cell Loss Level (CLL) 144 Cell Loss Priority (CLP)
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INDEX 451 network prefix 137 NMS configuration 58 protocol configuration 185 protocol timer resolution 180 QSAAL signaling timers 185 read community string configuration 64 signaling protocol profile 171 signaling protocol version 174 subnet mask configuration 62 UNI signaling timers 183 write community string configuration 66 documentation CoreBuilder 9000 21 DTL cache state displaying 399 updating 400 Enterprise Management Engine Quick Start Guide for the CoreBuilder 9000 Enterprise Switch 38 environme
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INDEX humidity operating 421 storage 421 I i960 processor 27 ILMI channel polling interval displaying 122 ILMI version displaying 112 in connection ATM address 144 port ID 144 VCI 144 VPI 144 installation daughter cards 38 into chassis 38 prerequisites 38 safety precautions 33 Installation Guides Power Supply 38 interface card administrative status 94 clock mode 94 media type 94 operational status 93, 94 port ID number 93, 94 port interface type 94 Interface Evolution MIB 31 Interface LEDs 422 interf
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INDEX LECS access options displaying 118 LECS ATM address displaying 105 LECS-order database adding LECS 219 displaying 218 LEDs interface 422 management 422 LES configurations reset 297 general information 277 redundancy 221 redundancy parameters 221 redundant 277, 278 specific information 278 statistics 304 LES-BUS addresses display 280 low priority queue cell transfer 144 PVC call 155 M major characteristics 421 management LEDs 422 Management Information Base (MIB) MIBs supported 31 maximum connection
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INDEX optimization resetting parameters to defaults 382 setting for ABR 380 setting for CBR 377 setting for non-realtime-VBR 379 setting for realtime-VBR 378 setting for UBR 381 setting metrics 374 optimization metrics table displaying 375 parameters 375 originator of ATM port 148, 149 out connection call 144 port ID 144 VCI 144 VPI 144 P paper documentation CoreBuilder 9000 21 parameters interface 383, 384 password admin-access 53 read-access 51 write-access 52 peer delayed acknowledge interval sett
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INDEX PTSE checksum 406 delayed acknowledgment packets 364 displaying 405 holddown timer 357 lifetime factor 362 node address information 415 node information 410 peer group neighbor information 419 PGL election information 417 refresh interval 361, 362 statistics information 420 table parameters 406 table parameters - node address 407 table parameters - node topology link 406 table parameters - peer group neighbor 407 table parameters - statistics 408 table parameters - summary address 407 topology link i
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INDEX setting clock synchronization 107 port network connection type 99 setup integrated 39 signaling general 31 signaling counters resetting 207 signaling protocol profile displaying 171 signaling protocol statistics displaying 205 signaling protocol version displaying 174 Simple Network Management Protocol (SNMP) 30, 38 introduction 27 software files upgrading 91 SSCOP configuration parameters 185 standby suspend 87 startup delay updating 223 statistics 408, 420 AAL5 control frame port 202 ATM-layer
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INDEX V Virtual Channel Connection (VCC) control direct 144 control distribute 144 multicast forward 144 multicast send 144 Virtual Channel Identifier connection 147, 149 in connection 144 out connection 144 PVC call 155 Virtual Path Identifier connection 147, 149 in connection 144 out connection 144 PVC call 155 virtual terminal protocol 28 W World Wide Web (WWW) 439 write community string configuration displaying 66 write-access password updating 52 457
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INDEX
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3Com Corporation LIMITED WARRANTY CoreBuilder® 9000 ATM Enterprise Switch Fabric Module HARDWARE 3Com warrants this hardware product to be free from defects in workmanship and materials, under normal use and service, for the following length of time from the date of purchase from 3Com or its authorized reseller: Network Interface Cards One (1) year Other hardware products One (1) year Spare Parts and Spares Kits 90 days 3Com’s sole obligation under this express warranty shall be, at 3Com’s option and expen
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Dead- or Defective-on-Arrival. In the event a product completely fails to function or exhibits a defect in materials or workmanship within the first forty-eight (48) hours of installation but no later than thirty (30) days after the date of purchase, and this is verified by 3Com, it will be considered dead- or defective-on-arrival (DOA) and a replacement shall be provided by advance replacement.