Avaya P33T Stackable Switch Software V3.12

Avaya P33T Stackable Switch Software V3.12

Avaya

User’s Guide

A

VAYA

P333T

S

TACKABLE

S

WITCH

S

OFTWARE

V

ERSION

3.12

May 2003

Preface

FCC Notice

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.

Changes or modifications to this equipment not expressly approved by Avaya Inc. could void the user’s authority to operate the equipment.

Conventions Used in the Documentation

Documentation for this product users the following conventions to convey instructions and information:

CLI

• Mandatory keywords you type in are in the

computer bold

font.

• Information displayed on screen is displayed in computer

font.

• Variables that you supply are in pointed brackets <>.

• Optional keywords are in square brackets [].

• Alternative but mandatory keywords are grouped in braces {} and separated by a vertical bar |.

• Lists of parameters from which you should choose are enclosed in square brackets [ ] and separated by a vertical bar |.

• If you enter an alphanumeric string of two words or more, enclose the string in inverted commas.

Avaya P333T User’s Guide

I

Notes, Cautions and Warnings

Note:

Notes contain helpful information or hints or reference to material in other documentation.

Caution:

You should take care. You could do something that may damage equipment or result in loss of data.

Warning:

This means danger. Failure to follow the instructions or warnings may result in bodily injury. You should ensure that you are qualified for this task and have read and understood all the instructions

II

Avaya P333T User’s Guide

Table of Contents

Chapter 1

Chapter 2

Chapter 3

Preface .................................................................................................................. I

FCC Notice........................................................................................................... I

Conventions Used in the Documentation ....................................................... I

CLI .............................................................................................................I

Notes, Cautions and Warnings ............................................................ II

Table of Contents ................................................................................................ i

List of Figures .................................................................................................... ix

List of Tables ...................................................................................................... xi

Avaya P330 Overview....................................................................................... 1

Avaya P330 Family Features ............................................................................ 1

Avaya P330 Standards Supported................................................................... 2

IEEE .......................................................................................................... 2

IETF ........................................................................................................... 2

Avaya P330 Network Management ................................................................ 2

Avaya P330 Device Manager (Embedded Web) ................................ 2

Avaya P330 Command Line Interface (CLI) ....................................... 2

Avaya Multi-Service Network Manager™ ......................................... 3

Avaya P330 Network Monitoring ................................................................... 3

RMON MIBs - RFC 1757 ........................................................................ 3

SMON MIBs - RFC 2613 ........................................................................ 3

Bridge MIB Groups - RFC 2674 ............................................................ 3

Port Mirroring ......................................................................................... 3

SMON ....................................................................................................... 4

Avaya P333T Front and Back Panels............................................................... 5

Avaya P333T Front Panel.................................................................................. 5

Avaya P330 Back Panel ..................................................................................... 8

BUPS Input Connector ........................................................................... 8

Applications........................................................................................................ 9

Application 1 ...................................................................................................... 9

Application 2 .................................................................................................... 10

Application 3 .................................................................................................... 11

Avaya P333T User’s Guide i

Table of Contents

Chapter 4

ii

Chapter 5

Chapter 6

Installation and Setup...................................................................................... 13

Installing the X330STK Stacking Module in the P330 ................................. 13

Positioning......................................................................................................... 13

Rack Mounting ................................................................................................. 14

Connecting Stacked Switches ......................................................................... 15

To connect stacked switches: ...............................................................15

Installing Expansion Modules........................................................................ 18

Installing the Expansion Module into the Avaya P330 ...................18

Removing an Existing Expansion Module ........................................18

Powering On – Avaya P330 Module AC ...................................................... 19

Powering On – Avaya P330 Module DC ...................................................... 19

Configuring the Switch ................................................................................... 20

Avaya P330 Default Settings ...............................................................20

Cabling ....................................................................................................22

Connecting the Console Cable ............................................................23

Configuring the Terminal Serial Port Parameters ............................23

Connecting a Modem to the Console Port ........................................23

Assigning P330’s IP Stack Address ....................................................24

Avaya CLI – Architecture, Access & Conventions...................................... 25

Establishing a Serial Connection.................................................................... 25

Establishing a Telnet Connection................................................................... 25

Command Line Prompt................................................................................... 27

Avaya P330 Sessions ........................................................................................ 27

Security Levels .................................................................................................. 28

Entering the Supervisor Level .............................................................28

Defining new users ....................................................................28

Exiting the Supervisor Level ....................................................28

Entering the CLI ....................................................................................29

Conventions Used ............................................................................................ 29

Navigation, Cursor Movement and Shortcuts............................................. 30

Getting Help...................................................................................................... 30

Command Syntax............................................................................................. 30

Command Abbreviations ....................................................................30

Universal Commands ...................................................................................... 31

Top and Up commands ........................................................................31

Retstatus command ..............................................................................31

Tree command .......................................................................................31

CLI – Layer 2 .................................................................................................... 33

User Level Commands .................................................................................... 33

session .....................................................................................................34

terminal ..................................................................................................34

clear screen .............................................................................................35

ping .........................................................................................................35

Avaya P333T User’s Guide

Avaya P333T User’s Guide

Table of Contents

Show Commands Summary Table .................................................... 36

show time ............................................................................................... 39 show timezone ...................................................................................... 39 show time parameters .......................................................................... 39

show ip route ......................................................................................... 40 show image version .............................................................................. 40

show download status ......................................................................... 41 show snmp ............................................................................................. 41

show snmp retries ................................................................................ 42 show snmp timeout .............................................................................. 42 show timeout ......................................................................................... 42 show logout ........................................................................................... 42

show interface ....................................................................................... 43 show device-mode ................................................................................ 43

show port ............................................................................................... 44

show port trap ....................................................................................... 45 show port channel ................................................................................ 45

show port classification ....................................................................... 46 show port redundancy ......................................................................... 46

show intermodule port redundancy .................................................. 47 show port mirror .................................................................................. 47 show port vlan-binding-mode ............................................................ 47

show port security ................................................................................ 48

show port blocking ............................................................................... 49

show port self-loop-discovery ............................................................ 51 show internal buffering ....................................................................... 51

show boot bank ..................................................................................... 52 show module ......................................................................................... 52

show port flowcontrol .......................................................................... 54

show cam ............................................................................................... 56 show cascading fault-monitoring ....................................................... 56

show port auto-negotiation-flowcontrol-advertisement ................ 57 show trunk ............................................................................................. 57

show vlan ............................................................................................... 58

show leaky-vlan .................................................................................... 59 show spantree ....................................................................................... 59

show autopartition ............................................................................... 61 show dev log file ................................................................................... 61 show log ................................................................................................. 61

show module-identity .......................................................................... 62 show license ........................................................................................... 62

show system .......................................................................................... 63

show rmon statistics ............................................................................. 64

show rmon history ............................................................................... 65

iii

Table of Contents iv

show rmon alarm ..................................................................................65

show rmon event ...................................................................................66

show ppp session ..................................................................................66

show ppp authentication .....................................................................66

show ppp incoming timeout ...............................................................67

show ppp baud-rate .............................................................................67

show ppp configuration .......................................................................67

show tftp download/upload status ...................................................68

show tftp download software status ..................................................68

show web aux-files-url .........................................................................69

show intelligent-multicast ...................................................................69

show intelligent-multicast hardware-support ..................................70

show security mode ..............................................................................70

show secure mac port ...........................................................................71

show arp-tx-interval .............................................................................71

show arp-aging-interval .......................................................................71

show self-loop-discovery .....................................................................72

show allowed managers status ...........................................................72

show allowed managers table .............................................................73

dir ..........................................................................................................73

Privileged Level Commands .......................................................................... 75

no hostname ...........................................................................................76

no rmon history .....................................................................................76

no rmon alarm .......................................................................................76

no rmon event ........................................................................................77

hostname ................................................................................................77

Clear Commands Summary Table .....................................................77

clear timezone ........................................................................................78

clear ip route ..........................................................................................78

clear snmp trap ......................................................................................78

clear vlan ................................................................................................79

clear dynamic vlans ..............................................................................79

clear port static-vlan .............................................................................80

clear cam .................................................................................................80

clear log ..................................................................................................80

clear port mirror ....................................................................................80

clear secure mac ....................................................................................81

Set Commands Summary Table .........................................................82

set logout ................................................................................................85

set timezone ...........................................................................................86

set time protocol ....................................................................................86

set time server ........................................................................................87

set time client .........................................................................................87

set ip route ..............................................................................................87

Avaya P333T User’s Guide

Avaya P333T User’s Guide

Table of Contents

set snmp community ............................................................................ 88 set snmp trap ......................................................................................... 88

set snmp trap auth ................................................................................ 89 set snmp retries ..................................................................................... 89

set snmp timeout .................................................................................. 90 set system location ................................................................................ 90 set system name .................................................................................... 90 set system contact ................................................................................. 90

set device-mode .................................................................................... 91 set interface ............................................................................................ 91

set interface ppp .................................................................................... 92

set port level .......................................................................................... 93 set port negotiation ............................................................................... 93

set port enable ....................................................................................... 94 set port disable ...................................................................................... 94

set port speed ........................................................................................ 95 set port duplex ...................................................................................... 95

set port name ......................................................................................... 96 set port trap ........................................................................................... 96 set port vlan ........................................................................................... 96

set port vlan-binding-mode ................................................................ 97 set port static-vlan ................................................................................ 97

set port self-loop-discovery Admin_Status ...................................... 98 set port channel ..................................................................................... 98

set port classification ............................................................................ 99

set port redundancy on/off .............................................................. 100 set port redundancy ........................................................................... 100

set internal buffering .......................................................................... 101 set boot bank ........................................................................................ 101

set intermodule port redundancy .................................................... 102 set intermodule port redundancy off .............................................. 102

set port mirror ..................................................................................... 103 set port spantree .................................................................................. 103

set port spantree priority ................................................................... 104 set port spantree cost .......................................................................... 104

set port security ................................................................................... 105 set cascading ........................................................................................ 105 set inband vlan .................................................................................... 105

set vlan ................................................................................................. 106 set port flowcontrol ............................................................................ 106

set port auto-negotiation-flowcontrol-advertisement ................... 108 set trunk ............................................................................................... 108

set leaky-vlan ....................................................................................... 109 set spantree .......................................................................................... 109

v

Table of Contents vi

priority ..................................................................................................109

set autopartition ..................................................................................110

set license ..............................................................................................110

set ppp authentication incoming ......................................................111

set ppp incoming timeout ..................................................................111

set ppp baud-rate ................................................................................111

set web aux-files-url ...........................................................................112

set intelligent-multicast ......................................................................112

set intelligent-multicast client port pruning time ..........................112

set intelligent-multicast router port pruning time .........................113

set intelligent-multicast group-filtering delay time .......................113

set secure mac ......................................................................................113

set security mode ................................................................................114

set arp-aging-interval .........................................................................114

set arp-tx-interval ................................................................................114

set self-loop-discovery Admin_Status .............................................115

set welcome message ..........................................................................115

set allowed managers .........................................................................116

set allowed managers IP ....................................................................116

set psu type ..........................................................................................116

sync time ..............................................................................................117

get time .................................................................................................117

reset .......................................................................................................118

reset stack .............................................................................................118

reset mgp ..............................................................................................119

reset wan ..............................................................................................119

nvram initialize ...................................................................................119

rmon history ........................................................................................120

rmon alarm ...........................................................................................121

rmon event ...........................................................................................122

copy stack-config tftp .........................................................................122

copy module-config tftp .....................................................................123

copy tftp stack-config .........................................................................124

copy tftp module-config .....................................................................124

copy tftp EW_archive .........................................................................125

copy tftp SW_image ............................................................................125

Radius Commands .............................................................................126

set radius authentication secret .........................................................127

set radius authentication server ........................................................127

clear radius authentication server ....................................................127

set radius authentication retry-time .................................................128

set radius authentication retry-number ...........................................128

set radius authentication udp-port ...................................................128

Avaya P333T User’s Guide

Table of Contents

Chapter 7

Supervisor Level Commands ....................................................................... 129 username .............................................................................................. 129 no username ........................................................................................ 129

show username ................................................................................... 130 set ppp chap-secret ............................................................................. 130 show radius authentication ............................................................... 130

set radius authentication ................................................................... 131 tech ....................................................................................................... 131

Installing the Embedded Web Manager..................................................... 133

System Requirements .................................................................................... 133

Running the Embedded Web Manager ...................................................... 134

Installing the Java Plug-in............................................................................. 137

Installing the On-Line Help and Java Plug-In on your Web Site............ 138

Documentation and Online Help ................................................................ 138

Software Download ....................................................................................... 138

Appendix A Specifications .................................................................................................. 139

Avaya P333T Switch ...................................................................................... 139

Physical ................................................................................................ 139

Power Requirements – AC ................................................................ 139

Power Requirements – DC ................................................................ 139

Environmental ..................................................................................... 139

Safety .................................................................................................... 140

Avaya P330 DC Input Version .......................................................... 140

Agency Approvals .............................................................................. 140

EMC Emissions ........................................................................ 140

Immunity .................................................................................. 140

Other ......................................................................................... 140

Interfaces .............................................................................................. 141

Standards Compliance ....................................................................... 141

IEEE ........................................................................................... 141

IETF ........................................................................................... 141

Basic MTBF .......................................................................................... 141

Stacking Module ............................................................................................ 141

Expansion Modules ....................................................................................... 142

Gigabit Ethernet Expansion Modules .............................................. 142

Laser Safety .............................................................................. 142

Laser Classification ................................................................. 142

Usage Restriction ..................................................................... 143

Laser Data ................................................................................. 143

Fast Ethernet Fiber Expansion Module ........................................... 143

Ethernet/Fast Ethernet Expansion Module .................................... 143

Avaya P333T User’s Guide vii

Table of Contents

GBIC Expansion Module ...................................................................144

Safety Information ...................................................................144

Usage Restriction .....................................................................144

Avaya Approved GBIC Transceivers ...................................145

Specifications ............................................................................145

Agency Approval ....................................................................146

MTBF .........................................................................................146

X330GT2 Gigabit Ethernet Expansion Module ...............................146

Installing the Expansion Module in the Avaya P330 .........146

Removing an Existing Expansion Module ...........................147

Cabling ......................................................................................147

ATM Expansion Modules ..................................................................148

Safety Information ...................................................................148

Backup Power Supply (BUPS)...................................................................... 149

Physical .................................................................................................149

Power Requirements ..........................................................................149

Environmental .....................................................................................150

Safety .....................................................................................................150

EMC Emissions ...................................................................................150

Emissions ..................................................................................150

Immunity ..................................................................................150

BUPS MTBF .........................................................................................150

MTBF in Various Configurations................................................................. 151

Index of CLI Commands ............................................................................... 153

How to Contact Us ..................................................................................................................... 157

In the United States .............................................................................157

In the EMEA (Europe, Middle East and Africa) Region ...............157

In the AP (Asia Pacific) Region .........................................................159

In the CALA (Caribbean and Latin America) Region ...................159

viii

Avaya P333T User’s Guide

List of Figures

Figure 2.1

Avaya P333T Front Panel ........................................................... 5

Figure 2.2

Avaya P333T LEDs....................................................................... 5

Figure 2.3

Avaya P330 AC and DC Back Panels ........................................ 8

Figure 2.4

BUPS Input Connector Sticker ................................................... 8

Figure 3.1

Avaya P333T and Avaya P334T stacks with an Avaya

P882 Backbone .............................................................................. 9

Figure 3.2

Avaya P330 stacks with an Avaya 330 backbone .................. 10

Figure 3.3

Avaya P332MF with an Avaya P882 backbone ..................... 11

Figure 4.1

Avaya P330 Rack Mounting .................................................... 14

Figure 4.2

Incorrect Stack Connection ....................................................... 16

Figure 4.3

Avaya P330 Stack Connections ................................................ 17

Figure 7.1

The Welcome Page ................................................................... 135

Figure 7.2

Web-based Manager ................................................................ 136

Avaya P333T User’s Guide ix

List of Figures x

Avaya P333T User’s Guide

List of Tables

Table 2.1

Avaya P333T LED Descriptions ................................................. 6

Table 2.2

Avaya P330 <- -> Select buttons................................................. 7

Table 4.1

Default Switch Settings ............................................................. 20

Table 4.2

Default Port Settings .................................................................. 21

Table 4.3

Gigabit Ethernet Cabling........................................................... 22

Table 5.1

Navigation, Cursor Movement and Shortcuts....................... 30

Table 7.1

Embedded Web Manager/Browser Compatability............ 134

Table A.1

Stacking Module....................................................................... 141

Table A.2

Gigabit Ethernet Expansion Modules ................................... 142

Table A.3

Fiber Fast Ethernet Expansion Module................................. 143

Table A.4

Ethernet/Fast Ethernet Expansion Module ......................... 143

Table A.5

MTBF for the Avaya P333T in Various Configurations...... 151

Avaya P333T User’s Guide xi

List of Tables xii

Avaya P333T User’s Guide

Chapter 1

Avaya P330 Overview

The Avaya P330 family of stackable Ethernet workgroup switches includes a range of modules with 10/100/1000 Mbps ports and a Layer 3 capability/ATM Expansion

Module. The Avaya P333T switch has 24 x10/100 Mbps ports and an Expansion

Module slot. The optional expansion modules provide additional Ethernet, Fast

Ethernet, and Gigabit Ethernet connectivity.

An Avaya P330 stack can contain up to 10 switches and up to 3 backup power supply units. Stacked switches are connected using Avaya X330STK stacking submodules which plug into a slot in the back of the Avaya P330. They are connected using the X330SC or X330LC cable (if the stack is split between two racks). The

Avaya X330RC cable connects the top and bottom switches in the stack and provides redundancy and hot-swappability in the same way that modules can be swapped in a modular switching chassis.

The Avaya P330 is fully compliant with IEEE standards for VLAN Tagging, Gigabit

Ethernet, Spanning Tree, Rapid Spanning Tree, Port Based Network Access Control, and Flow Control. This full standards-compliance, combined with auto-negotiation for 10/100/1000 Mbps and half/full duplex facilitates the expansion of your network to match your company’s growing needs.

Avaya P330 Family Features

• You can connect up to 10 Avaya P330 switches in a stack. Moreover, this stack can be either in one rack or split over several racks using the X330LC Long

Cable, according to your requirements.

• Avaya X330STK - this stacking module is used to connect Avaya P330 switches in a stack, via the Octaplane.

• Avaya P330 BUPS - this back-up power supply module supports up to four

Avaya P330 switches.

• One RJ-45/RS232 front panel console connector for both terminal and modem sessions.

• Two fan units in every switch, with operation sensors.

• One virtual IP address for managing the whole stack, the P330 stack is managed as a single entity.

• Hot-swapping of one switch at a time - by activation of the redundant cable:

— Does not disrupt the operation of other Avaya P330 switches.

— Does not change stack configuration.

— Does not require network downtime.

• Connection through Telnet from the front panel ports of any switch, with:

— multiple levels of password protection

— login and inactivity timeouts

Avaya P333T User’s Guide

1

2

Chapter 1 Avaya P330 Overview

Avaya P330 Standards Supported

The Avaya P330 complies with the following standards.

IEEE

• 802.3x Flow Control on all ports

• 802.1Q VLAN Tagging support on all ports and 802.1p compatible

• 802.1D Bridges and STA

• 802.1W Rapid Spanning Tree

• 802.1X Port Based Network Access Control

• 803.2z Gigabit Ethernet ports

• 803.2u Ethernet/Fast Ethernet ports

IETF

• MIB-II - RFC 1213

• Bridge MIB for Spanning Tree - RFC 1492

• RMON - RFC 1757

• SMON - RFC 2613

• Bridge MIB Groups - RFC 2674 dot1dbase and dot1dStp fully implemented.

Support for relevant MIB objects: dot1q (dot1qBase, dot1qVlanCurrent)

Avaya P330 Network Management

Comprehensive network management is a key component of today’s networks.

Therefore we have provided multiple ways of managing the Avaya P330 to suit your needs.

Avaya P330 Device Manager (Embedded Web)

The built-in Avaya P330 Device Manager (Embedded Web Manager) allows you to manage an Avaya P330 stack using a Web browser—without purchasing additional software. This application works with the Microsoft® Internet Explorer and

Netscape® Navigator web browsers and Sun Microsystems Java™ Plug-in.

Avaya P330 Command Line Interface (CLI)

The Avaya P330 CLI provides a terminal type configuration tool for local or remote configuration of Avaya P330 features and functions.

Avaya P333T User’s Guide

Chapter 1 Avaya P330 Overview

Avaya Multi-Service Network Manager™

When you need extra control and monitoring or wish to manage other Cajun

Campus equipment, the Avaya Multi-Service Network Manager network management suite is the answer. This suite provides the ease-of-use and features necessary for optimal network utilization.

• Avaya Multi-Service Network Manager is available for Windows® NT®/2000 and Solaris 8.

• Avaya Multi-Service Network Manager can operate in Stand-Alone mode with

Windows® NT®/2000.

• Avaya Multi-Service Network Manager operates under HP OpenView for

Windows® NT®/2000 and Solaris 8.

Avaya P330 Network Monitoring

RMON MIBs - RFC 1757

• RMON support for groups 1,2,3 and 9

— Statistics

— History

— Alarms

— Events

SMON MIBs - RFC 2613

• SMON support for groups

— Data Source Capabilities

— Port Copy

— VLAN and Priority Statistics

Bridge MIB Groups - RFC 2674

• dot1dbase and dot1dStp fully implemented.

• Support for relevant MIB objects: dot1q (dot1qBase, dot1qVlanCurrent)

Port Mirroring

The Avaya P330 provides port mirroring for additional network monitoring functionality. You can filter the traffic and mirror either incoming traffic to the source port or both incoming and outgoing traffic. This allows you to monitor the network traffic you need.

Ports which are members in a Link Aggregation Group (LAG) cannot also be used as

Port Mirroring Destination or Source ports.

Avaya P333T User’s Guide

3

Chapter 1 Avaya P330 Overview

SMON

The Avaya P330 supports Avaya’s ground-breaking SMON Switched Network

Monitoring, which the IETF has now adopted as a standard (RFC2613). SMON provides an unprecedented top-down monitoring of switched network traffic at the following levels:

• Enterprise Monitoring

• Device Monitoring

• VLAN Monitoring

• Port-level Monitoring

This top-down approach gives you rapid troubleshooting and performancetrending to keep the network running optimally.

Note:

Avaya Multi-Service Network Manager is required to run SMON monitoring.

Note:

You need to purchase one SMON License per Avaya P330 Stack.

4

Avaya P333T User’s Guide

Chapter 2

Avaya P333T Front and Back Panels

Avaya P333T Front Panel

The Avaya P333T front panel contains LEDs, controls, connectors and an expansion

Module slot, as well as a console connector. The status LEDs and control buttons provide at-a-glance information.

The front panel LEDs consist of Port LEDs and Function LEDs. The Port LEDs display information for each port according to the illuminated function LED. The function is selected by pressing the left or right button until the desired parameter

LED is illuminated.

For example, if the COL LED is illuminated, then all Port LEDs show the collision status of their respective port. If you wish to select the LAG function, then press the right button until the LAG Function LED is lit; if you then wish to select Rx then press the left button several times until the Rx function LED lights.

Figure 2.1

shows the Avaya P333T front panel. Figure 2.2

shows a detailed view of

the LEDs (described in Table 2.1

), pushbuttons, the Expansion Module slot, and the

RJ-45 console connector at the bottom right.

Figure 2.1

Avaya P333T Front Panel

Figure 2.2

Avaya P333T LEDs

Avaya P333T User’s Guide

5

Chapter 2 Avaya P333T Front and Back Panels

6

Note:

All LEDs are lit during a reset.

Table 2.1

Avaya P333T LED Descriptions

LED Name Description LED Status

PWR

OPR

SYS

Power status

CPU operation

System Status

OFF – power is off

ON – power is on

Blink – using BUPS only

OFF – Module is booting

ON – Normal operation

OFF – Module is a slave in a stack

ON – Module is the Master of the stack and the Octaplane and Redundant cable are connected correctly.

This LED will also light in Standalone mode.

Blink – Box is the stack Master and the stack is in redundant mode.

The following Function LEDs apply to ports 1 to 66

OFF – Port disabled

LNK Port status ON – Port enabled and link OK

Blink – Port enabled and the link is down

COL Collision

OFF – No collision or FDX port

ON – Collision occurred on line

Tx

Rx

FDX

Transmit to line

Receive from line

Half/Full Duplex

OFF – No transmit activity

ON – Data transmitted on line from the module

OFF – No receive activity

ON – Data received from the line into the module

OFF – Half duplex mode

ON – Full duplex mode

Avaya P333T User’s Guide

Chapter 2 Avaya P333T Front and Back Panels

Table 2.1

Avaya P333T LED Descriptions

LED Name

FC

Hspd

LAG

Description

Flow Control

High Speed

Link Aggregation

Group (Trunking)

LED Status

OFF – No Flow Control

ON – Symmetric/Asymmetric Flow Control mode is enabled and port is in full duplex mode.

OFF:

ON:

10/100

10

100

1000

N/A

1000

OFF – No LAG defined for this port

ON – Port belongs to a LAG

Table 2.2

Avaya P330 <- -> Select buttons

Description Function

Left/Right Individual – select LED function (see table above).

Reset module Press both right and left buttons together for approximately two seconds. All LEDs on module light up until buttons are released.

Reset stack

FIV

Press both right and left buttons together for 4 seconds. All

LEDs on stack light up until buttons are released.

Force Initial Version – boot from backup initial version of the

Avaya P330 software, from Bank A (see Note below).

Note:

To perform “Force Initial Version” reset the module and at the same time press the FIV reset button (use an opened paper clip or other pointed object).

Release the reset buttons first and 1 or 2 seconds later, release the FIV button.

Note:

The Port LEDs of the P333T are numbered from 1-24. Expansion Module ports are numbered from 51. Port LED numbers 49-50 are reserved.

Avaya P333T User’s Guide

7

Chapter 2 Avaya P333T Front and Back Panels

Avaya P330 Back Panel

The Avaya P330 back panel contains a stacking sub-module slot, power supply and

BUPS connector.

Figure 2.3

shows the back panel of the AC switch (top) and the DC switch (bottom) with a stacking sub-module installed.

Figure 2.3

Avaya P330 AC and DC Back Panels

Note:

Further illustrations of the Avaya P330 Back Panel will be that of the AC model, the topmost panel in

Figure 2.3

.

Figure 2.3

shows the back panel of the AC switch (top) and the DC switch (bottom)

with a stacking sub-module installed.

BUPS Input Connector

The BUPS input connector (see

Figure 2.4

) is a 5 VDC connector for use with the

Avaya P330 BUPS unit only. A BUPS Input sticker appears directly to the right the

BUPS input connector.

Figure 2.4

BUPS Input Connector Sticker

BUPS Input

8

Avaya P333T User’s Guide

Chapter 3

Applications

The following sections describe typical applications for the Avaya P330 in a network with other Avaya products.

Application 1

This application shows Avaya P882 as the network backbone with Avaya P333T and

Avaya P334T stacks as closet devices with LAG and redundant links.

Figure 3.1

Avaya P333T and Avaya P334T stacks with an Avaya P882 Backbone

10/100 Mbps

Ethernet

Avaya P333T

Avaya P334T

10/100 Mbps Ethernet

LAG

Redundancy

10/100 Mbps Ethernet

Gigabit Ethernet with LAG

Avaya P333T

Avaya P334T

Avaya P334T

Avaya P334T

Avaya P334T

Avaya P334T

Avaya P333T

Avaya P334T

4x100 Mbps

LAG

Avaya P880

Gigabit Ethernet with LAG

Avaya P882

4x100 Mbps

LAG

Avaya P333T User’s Guide

9

Chapter 3 Applications

Application 2

This application shows an Avaya P330 stack forming the backbone of a Small/

Medium-sized Enterprise (SME) network with Avaya P330 stacks as closet devices with LAN and redundant links.

Figure 3.2

Avaya P330 stacks with an Avaya 330 backbone

Avaya P330

Avaya P330

LAG

Redundancy

10/100 Mbps Ethernet

10/100 Mbps Ethernet

Gigabit Ethernet with LAG

10/100 Mbps Ethernet

4x100 Mbps

LAG

Gigabit Ethernet with LAG

4x100 Mbps

LAG

10

Avaya P333T User’s Guide

Chapter 3 Applications

Application 3

This application shows Avaya P880 as the network backbone with Avaya P332MF deployed as a distribution switch. An Avaya P333R multilayer switch provides local

IP routing. The Avaya P333T stacks act as closet devices with LAG and redundant links.

Figure 3.3

Avaya P332MF with an Avaya P882 backbone

10/100 Mbps Ethernet

LAG

Redundancy

10/100 Mbps Ethernet

100 Mbps

Fiber Optic

Ethernet with LAG

10/100 Mbps

Ethernet

100 Mbps

Fiber Optic

Ethernet with LAG

10/100 Mbps Ethernet

LAG

Redundancy

LAG

Redundancy

Avaya P332MF

Gigabit Ethernet with LAG

Avaya P333R

Avaya P332MF

10/100 Mbps

Ethernet

Avaya P880

Server Farm

Gigabit Ethernet with LAG

Avaya P882

4x100 Mbps

LAG

Avaya P333T User’s Guide

11

Chapter 3 Applications

12

Avaya P333T User’s Guide

Chapter 4

Installation and Setup

The Avaya P333T is ready to work after you carry out the installation instructions given below. All the Avaya P333T ports provide complete connectivity and no configuration is required to make the system work.

Installing the X330STK Stacking Module in the P330

Caution:

The stacking modules contain components sensitive to electrostatic discharge. Do not touch the circuit board unless instructed to do so.

To install the stacking module in the Avaya P330:

1 Remove the blanking plate from the back of the Avaya P330 switch.

2 Insert the stacking module gently into the slot, ensuring that the metal base plate is aligned with the guide rails.

The metal plate of the X330STK (and not the PCB) fits onto the guide rails.

3 Press the module in firmly until it is completely inserted into the Avaya P330.

4 Gently tighten the two screws on the side panel of the stacking module by turning them.

Note:

The Avaya P330 switch must not be operated with the back-slot open; the stacking module should be covered with the supplied blanking plate if necessary.

Positioning

Avaya P330 can be mounted alone or in a stack in a standard 19-inch equipment rack in a wiring closet or equipment room. Up to 10 units can be stacked in this way.

When deciding where to position the unit, ensure that:

• It is accessible and cables can be connected easily and according to the configuration rule.

• Cabling is away from sources of electrical noise such as radio transmitters, broadcast amplifiers, power lines and fluorescent lighting fixtures.

• Water or moisture cannot enter the case of the unit.

• There is a free flow of air around the unit and that the vents in the back and sides of the case are not blocked.

Note:

Use Octaplane cables to interconnect with other switches.

Avaya P333T User’s Guide

13

Chapter 4 Installation and Setup

Rack Mounting

The Avaya P330 case fits in most standard 19-inch racks. Avaya P330 is 2U (88mm,

3.5”) high.

Place the Avaya P330 in the rack as follows:

1 Snap open the hinged ends of the front panel to reveal the fixing holes.

2 Insert the unit into the rack. Ensure that the four Avaya P330 screw holes are aligned with the rack hole positions as shown in

Figure 4.1

.

Figure 4.1

Avaya P330 Rack Mounting

14

3 Secure the unit in the rack using the screws. Use two screws on each side. Do not overtighten the screws.

4 Snap closed the hinged ends of the front panel.

5 Ensure that ventilation holes are not obstructed.

Avaya P333T User’s Guide

Chapter 4 Installation and Setup

Connecting Stacked Switches

Note:

The two ends of the Octaplane cable terminate with different connectors. Each connector can only be connected to its matching port.

The following cables are used to connect stacked switches:

• Short Octaplane cable (X330SC) – ivory-colored, used to connect adjacent switches (Catalog No. CB0223) or switches separated by a BUPS unit.

• Long/Extra Long Octaplane cable (X330LC/X330L-LC) – ivory-colored, used to connect switches from two different physical stacks, or switches separated by a

BUPS unit (Catalog No. CB0225/CB0270).

• Redundant/Long Redundant Octaplane cable (X330RC/X330L-RC) – black, used to connect the top and bottom switches of a stack (Catalog No. CB0222/

CB0269).

These are the same cables that are used with all P330 family modules.

To connect stacked switches:

Note:

When adding a module to an existing stack, first connect the stacking cables and then power up the module.

1 Plug the light grey connector of the Short Octaplane cable into the port marked

“to upper unit” of the bottom Avaya P330 switch.

2 Plug dark grey connector of same Short Octaplane cable to the port marked “to lower unit” in the unit above. The connections are illustrated in

Figure 4.3

.

3 Repeat Steps 1 and 2 until you reach the top switch in the stack.

4 If you wish to implement stack redundancy, use the Redundant Cable to connect the port marked “to lower unit” on the bottom switch to the port marked “to upper unit” on the top switch of the stack.

5 Power up the added modules.

Caution:

Do not cross-connect two Avaya P330 switches with two Octaplane (lightcolored) cables. If you wish to cross-connect for redundancy, use one light-colored

Octaplane cable and one black redundancy cable.

Figure 4.2

shows an incorrect

connection.

Avaya P333T User’s Guide

15

Chapter 4 Installation and Setup

Note:

You can build a stack of up to 10 Avaya P330 switches. If you do not wish to stack all the switches in a single rack, use long Octaplane cables to connect two physical stacks as shown in

Figure 4.3

.

Figure 4.2

Incorrect Stack Connection

BUPS

Connector

Cable to

Lower Unit

Cable to

Upper Unit

Power Supply

Connector

BUPS

Connector

Cable to

Lower Unit

Cable to

Upper Unit

Power S upply

Connector

16

Avaya P333T User’s Guide

Figure 4.3

Avaya P330 Stack Connections

Chapter 4 Installation and Setup

BUPS

Connector

Power Supply

Connector

BUPS

Connector

Power Supply

Connector

BUPS

Connector

Power Supply

Connector

BUPS

Connector

Power Supply

Connector

BUPS

Connector

Power Supply

Connector

Cable to

Lower Unit

Cable to

Upper Unit

Cable to

Lower Unit

Cable to

Upper Unit

Cable to

Lower Unit

Cable to

Upper Unit

Cable to

Lower Unit

Cable to

Upper Unit

X330RC

Cable to

Lower Unit

Cable to

Upper Unit

BUPS

Connector

5

Power Supply

Connector

X330SC

4

BUPS

Connector

Power S upply

Connector

BUPS

Connector

3

Power Supply

Connector

BUPS

Connector

2

Power S upply

Connector

BUPS

Connector

1

Power Supply

Connector

X330LC

Cable to

Lower Unit

Cable to

Upper Unit

10

Cable to

Lower Unit

Cable to

Upper Unit

9

Cable to

Lower Unit

Cable to

Upper Unit

8

Cable to

Lower Unit

Cable to

Upper Unit

7

Cable to

Lower Unit

Cable to

Upper Unit

6

Avaya P333T User’s Guide

17

Chapter 4 Installation and Setup

Installing Expansion Modules

Caution:

The expansion modules contain components sensitive to electrostatic discharge. Do not touch the circuit board unless instructed to do so.

Installing the Expansion Module into the Avaya P330

1 Remove the blanking plate or other module (if installed).

2 Insert the module gently into the slot, ensuring that the Printed Circuit Board

(PCB) is aligned with the guide rails.

The PCB not the metal base plate fits into the guide rail.

3 Firmly press the module until it is completely inserted into the Avaya P330.

4 Gently tighten the two screws on the front panel of the expansion module by turning them.

Removing an Existing Expansion Module

1 Loosen the screws by turning the knobs.

2 Take hold of the two knobs (one near each side of the front panel) and pull gently but firmly towards yourself.

3 Insert another expansion module or the blanking plate.

Note:

If an expansion module is removed from the stack with the power supply on, all configuration definitions on expansion modules are lost. To remove an expansion module and save configuration definitions:

1 Turn off the power supply.

2 Remove an expansion module.

3 Insert another expansion module.

4 Turn on the power supply.

Note:

The Avaya P330 switch must not be operated with the expansion slot open; the expansion module slot should be covered with the supplied blanking plate if necessary.

18

Avaya P333T User’s Guide

Chapter 4 Installation and Setup

Powering On – Avaya P330 Module AC

For the AC input version of the Avaya P330, insert the AC power cord into the power inlet in the back of the unit. The unit powers up even if no direct AC power is applied to it.

1 If you are using a BUPS, insert a power cord from the BUPS into the BUPS connector in the back of the unit. The unit powers up.

2 After power up or reset, the Avaya P330 performs a self test procedure.

Powering On – Avaya P330 Module DC

For the DC input version of the Avaya P330, connect the power cable to the switch at the input terminal block.

1 The terminals are marked “+”, “-“ and with the IEC 5019a Ground symbol.

2 The size of the three screws in the terminal block is M3.5.

3 The pitch between each screw is 9.5mm.

Warning:

Before performing any of the following procedures, ensure that DC power is OFF.

Caution:

This product is intended for installation in restricted access areas and is approved for use with 18 AWG copper conductors only. The installation must comply with all applicable codes.

4 Connect the power cable to the DC power supply.

Warning:

The proper wiring sequence is ground to ground, positive to positive and negative to negative. Always connect the ground wire first and disconnect it last.

Avaya P333T User’s Guide

19

Chapter 4 Installation and Setup

Configuring the Switch

The Avaya P330 may be configured using the text-based Command Line Interface

(CLI), the built-in Avaya P330 Device Manager (Embedded Web) or Avaya Multi-

Service Network Manager™.

For instructions on the text-based utility, see the CLI chapter.

For instructions on installation of the graphical user interfaces, see the Avaya P330

Device Manager Appendix. For instructions on the use of the graphical user interfaces, refer to the Device Manager User’s Guide on the Documentation and

Utilities CD.

Avaya P330 Default Settings

The default settings for the Avaya P330 switch and its ports are determined by the

Avaya P330 software. These default settings are subject to change in newer versions of the Avaya P330 software. See the Release Notes for the most up-to-date settings.

Table 4.1

Default Switch Settings

Function Default Setting

IP address

Default gateway

VLANs

Spanning tree

Bridge priority for Spanning Tree

Time server IP address

Timezone offset

Read-only SNMP community string

149.49.32.134

0.0.0.0

VLAN 1

Enabled

32768

0.0.0.0

0 hours

Public

Read-write SNMP community string Public

Trap SNMP community string Public

SNMP retries number

SNMP timeout

3

2000 Seconds

SNMP authentication trap

CLI timeout

User Name/Password

Disabled

15 Minutes root/root

20

Avaya P333T User’s Guide

Chapter 4 Installation and Setup

Table 4.2

Default Port Settings

Function Default Setting

10/100Base-TX ports 100Base-F ports 1000 Base-X ports

Duplex mode

Port Speed

Flow control

Flow control advertisement

Full duplex

100M

Off

Off

Full duplex

100M

Off

N/A

Backpressure

Autopartitioning

On (only in Half duplex) Not Applicable

Disabled (only in Half duplex)

N/A

Auto-negotiation Enable

Administration status Enable

Not Applicable

Enable

Port VLAN

Tagging mode

Port priority

Spanning Tree cost

1

Clear

0

20

1

Clear

0

20

Spanning Tree port priority

128 128

1 Ensure that the other side is also set to Autonegotiation Enabled

Full duplex only

1000M

Off

Off (No pause)

Not Applicable

N/A

Enable

1

Enable

1

Clear

0

4

128

Note:

Functions operate in their default settings unless configured otherwise.

Avaya P333T User’s Guide

21

Chapter 4 Installation and Setup

Cabling

Avaya P330 modules include the following types of ports (according to the speed and standard they support): 10Base-T, 100Base-TX, 100Base-FX, 1000Base-SX and

1000Base-LX.

Note:

To interconnect Avaya P330 switches with twisted pairs, crossed cables are required.

Gigabit

Interface

• The maximum UTP cable length connected to a 10/100 Mbps port operating as

10Base-T, is 100 m (328 ft.).

• A UTP Category 5 cable must be connected to any 100Base-TX port, via an RJ45 connector. The maximum UTP cable length connected to a 10/100 Mbps port operating as 100Base-TX, is 100 m (328 ft.).

• A fiberoptic cable must be connected to any 100Base-FX port, via a pair of SC connectors. The maximum fiber cable length connected to a 100Base-FX port is

412 m (1,352 ft) when operating in half duplex, and 2 km (6,562 ft) when operating in full duplex.

Appropriate cables are available from your local supplier.

Table 4.3

Gigabit Ethernet Cabling

1000BASE-SX

1000BASE-SX

1000BASE-SX

1000BASE-SX

1000BASE-LX

1000BASE-LX

1000BASE-LX

Fiber

Type

MM

MM

MM

MM

MM

MM

SM

Diameter

(

µ m)

Modal

Bandwidth

(MhzKm)

Maximum

Distance

(m)

Minimum

Distance

(m)

Wavelength

(nm)

62.5

62.5

50

50

62.5

50

9

160

200

400

500

500

400

NA

220

275

500

550

550

550

10,000

2

2

2

2

2

2

2

850

850

850

850

1310

1310

1310

22

Avaya P333T User’s Guide

Chapter 4 Installation and Setup

Connecting the Console Cable

The Avaya P330 has one serial port on the front panel of the switch for connecting a terminal, a terminal emulator, or a modem.

The serial port on the front panel is labelled “Console” and has a RJ-45 connector.

Connect the P330 to a terminal or a terminal emulator using the supplied console cable and the RJ-45 to DB-9 adaptor. To connect a modem, use the supplied cable and an RJ-45 to DB-25 adaptor.

Note:

The cable and two adaptors can be found in the accessory set, and they are clearly marked.

Configuring the Terminal Serial Port Parameters

The serial port settings for using a terminal or terminal emulator are as follows:

• Baud Rate - 9600 bps

• Data Bits - 8 bits

• Parity - None

• Stop Bit - 1

• Flow Control - None

• Terminal Emulation - VT-100

Connecting a Modem to the Console Port

A PPP connection with a modem can be established only after the

Avaya P330 is configured with an IP address and net-mask, and the PPP parameters used in the Avaya P330 are compatible with the modem’s PPP parameters.

1 Connect a terminal to the console port of the Avaya P330 switch as described in

Connecting the Console Cable23 .

2 When you are prompted for a Login Name, enter the default name

root

.

3 When you are prompted for a password, enter the password

root

.

You are now in Supervisor Level.

4 At the prompt, type:

set interface ppp <ip_addr><net-mask> with an IP address and netmask to be used by the Avaya P330 to connect via its

PPP interface.

Note:

The PPP interface configured with the set interface ppp command must be on a different subnet from the stack inband interface.

Avaya P333T User’s Guide

23

Chapter 4 Installation and Setup

5 Set the baud rate, ppp authentication, and ppp time out required to match your modem. These commands are described in the “Command Line Interface” chapter.

6 At the prompt, type:

set interface ppp enable

The CLI responds with the following:

Entering the Modem mode within 60 seconds...

Please check that the proprietary modem cable is plugged into the console port

7 Use the DB-25 to RJ-45 connector to plug the console cable to the modem’s DB-

25 connector. Plug the other end of the cable RJ-45 connector to the

Avaya P330 console’s RJ-45 port.

8 The Avaya P330 enters modem mode.

9 You can now dial into the switch from a remote station, and open a Telnet session to the PPP interface IP address.

Assigning P330’s IP Stack Address

Note:

All P330 switches are shipped with the same default IP address. You must change the IP address of the master P330 switch in a stack in order to guarantee that the stack has its own unique IP address in the network.

Use the CLI to assign the P330 stack an IP address and net mask. The network management station can establish communications with the stack once this address had been assigned and the stack has been inserted into the network.

To assign a P330 IP stack address:

1 Establish a serial connection by connecting a terminal to the Master P330 switch of the stack.

2 When prompted for a Login Name, enter the default name

root

3 When you are prompted for a password, enter the password

root.

You are now in Supervisor Level.

4 At the prompt, type:

set interface inband <vlan> <ip_address> <netmask>

Replace

<vlan>

,

<ip_address>

and

<netmask> with the VLAN,

IP address and net mask of the stack.

5 Press Enter to save the IP address and net mask.

6 At the prompt, type

reset

and press Enter to reset the stack. After the Reset, log in again as described above.

7 At the prompt, type

set ip route <dest> <gateway> and replace

<dest> and

<gateway> with the destination and gateway IP addresses.

8 Press Enter to save the destination and gateway IP addresses.

24

Avaya P333T User’s Guide

Chapter 5

Avaya CLI

Architecture, Access & Conventions

This chapter describes the P330 CLI architecture and conventions, and provides instructions for accessing the P330 for configuration purposes.

The configuration procedure involves establishing a Telnet session or a serial connection, and then using the P330’s internal CLI. The CLI is command-line driven and does not have any menus. To activate a configuration option, type the desired command at the prompt and press Enter. You can also configure your P330 using the P330 Manager interface. For details, see the Avaya Multi-Service Network

Manager P330 Device Manager User’s Guide on the Documentation and Utilities

CD.

Establishing a Serial Connection

Perform the following steps to connect a terminal to the Avaya P330 Master Switch

Console port for configuration of Stack or Router parameters:

1 Use the serial cable supplied to attach the RJ-45 console connector to the

Console port of the Avaya P330 Master Switch. Connect the DB-9 connector to the serial (COM) port on your PC/terminal.

2 Ensure that the serial port settings on the terminal are 9600 baud, 8 bits, 1 stop bit and no parity.

3 When you are prompted for a Login Name, enter the default login. The default login is

root

.

4 When you are promoted for a password, enter the user level password

root

.

5 Now you can begin the configuration of Module or Stack parameters.

Establishing a Telnet Connection

Perform the following steps to establish a Telnet connection to the Avaya P330 for configuration of Stack or Router parameters. You can Telnet either the Stack Master

IP address or directly to one of the Router IP address:

1 Connect your station to the network.

2 Verify that you can communicate with the Avaya P330 using Ping to the IP of the Avaya P330. If there is no response using Ping, check the IP address and default gateway of both the Avaya P330 and the station.

Avaya P333T User’s Guide 25

Chapter 5 Avaya CLI – Architecture, Access & Conventions

Note:

The Avaya P330 default IP address is 149.49.32.134 and the default subnet mask is 255.255.255.0.

3 From the Microsoft Windows

®

taskbar of your PC click Start and then Run (or from the DOS prompt of your PC), then start the Telnet session by typing:

telnet <P330_IP_address>

For example:

telnet 149.49.32.134

4 If the IP Address in Telnet command is the IP address of the stack, then connection is established with the Switch CLI entity of the Master module.

If you want to connect to the Router CLI entity, use the session command.

If the IP address in the Telnet command is of the router, connection is established to the Router CLI entity in the router module.

5 When you see the “Welcome to P330” menu and are prompted for a Login

Name, enter the default name

root

6 When you are prompted for a password, enter the user level password

root

or

norm

in lower case letters (do not use uppercase letters). The user level prompt will appear when you have established communications with the P330 switch.

Enter the P330 Privileged level by typing

enable

7 You can now configure the Avaya P330 stack and change its default IP address.

26 Avaya P333T User’s Guide

Chapter 5 Avaya CLI – Architecture, Access & Conventions

Command Line Prompt

When you start the CLI, the initial prompt shows the number of the Master module in the Avaya P330 stack. For example, if the stack Master is Module 5, counting from the bottom up, then the prompt is:

P330-5>

In this document the Module number in the prompt is generic and is represented by

N

”.

If you wish to open a session with an Avaya P333R-LB routing module in the stack or reopen a session with the Master module, use the

session command (see below).

The command prompt is not hierarchical in structure. If you wish to use several commands, each beginning with the same keyword, you must retype all parts of the command each time. For example, if after you want to set the system contact and the system name you must type both

set system contact and

set system name

. However, you can use command abbreviations.

Avaya P330 Sessions

You can use sessions to switch between P330 modules, or to switch between Layer 2 and Layer 3 commands in the P333R CLI.

To switch between P330 modules use the command

session [<mod_num>]

<mode>

.

The

<mod_num> is the number of the module in the stack, counting from the bottom up. The

<mode>

can be either

switch

or

router

. When the module number is not specified, the command switches between the modes in the local module. Use

switch

mode to configure layer 2 commands. Use

router

mode to configure routing commands.

Examples:

• To configure router parameters in the module that you are currently logged into, type the following command

session router

.

• To configure the switch parameters, on module 6, type the command

session

6 switch

.

Note:

When you use the

session

command the security level stays the same.

Avaya P333T User’s Guide 27

Chapter 5 Avaya CLI – Architecture, Access & Conventions

Security Levels

There are four security access levels – User, Privileged, Configure and Supervisor.

• The User level is a general access level used to show system parameter values.

• The Privileged level is used by site personnel to access stack configuration options.

• The Configure level is used by site personnel for Layer 3 configuration.

• The Supervisor level is used to define user names, passwords, and access levels of up to 10 local users.

A login name and password are always required to access the CLI and the commands. The login names and passwords, and security levels are established using the

username

command.

Switching between the entities, does not effect the security level since security levels are established specifically for each user. For example, if the operator with a privileged security level in the Switch entity switches to the Router entity the privileged security level is retained.

Entering the Supervisor Level

The Supervisor level is the level in which you first enter the CLI and establish user names for up to 10 local users. When you enter the Supervisor level, you are asked for a Login name. Type

root

as the Login name and the default password

root

(in lowercase letters):

Welcome to P330

Login: root

Password:****

Password accepted.

P330-N(super)#

Defining new users

Define new users and access levels using the

username

command in Supervisor

Level. (see page

129 ).

Exiting the Supervisor Level

To exit the Supervisor level, type the command

exit

.

28 Avaya P333T User’s Guide

Chapter 5 Avaya CLI – Architecture, Access & Conventions

Entering the CLI

To enter the CLI, enter your username and password. Your access level is indicated in the prompt as follows:

The User level prompt is:

P330-N>

The Privileged level prompt is:

P330-N#

The Configure level prompt for Layer 3 configuration is:

P330-N(configure)#

The Supervisor level prompt is:

P330-N(super)#

Conventions Used

The following conventions are used in this chapter to convey instructions and information:

• Mandatory keywords are in

boldface

.

• Variables that you supply are in pointed brackets

<>

.

• Optional keywords are in square brackets

[]

.

• Alternative but mandatory keywords are grouped in braces {} and separated by a vertical bar

|

.

• If you enter an alphanumeric string of two words or more with spaces enclose the string in quotation marks.

• Information displayed on screen is displayed in

text font.

Avaya P333T User’s Guide 29

Chapter 5 Avaya CLI – Architecture, Access & Conventions

Navigation, Cursor Movement and Shortcuts

The CLI contains a simple text editor with these functions:

Table 5.1

Navigation, Cursor Movement and Shortcuts

Keyboard Functions

Backspace Deletes the previous character

Up arrow/Down arrow Scrolls back and forward through the command history buffer

Left arrow/Right arrow Moves the cursor left or right

Tab Completes the abbreviated command. Type the minimum number of characters unique to the command. An exception is the Reset System command which you must type in full.

Enter

“ “

Executes a single-line command

If you type a name with quotation marks, the marks are ignored.

Getting Help

On-line help may be obtained at any time by typing a question mark (

?

), or the word

help

on the command line or by pressing the F1 key. To obtain help for a specific command, type the command followed by a space and a question mark.

Example:

Router> show ?

Command Syntax

Commands are not case-sensitive. That is, uppercase and lowercase characters may be interchanged freely.

Command Abbreviations

All commands and parameters in the CLI can be truncated to an abbreviation of any length, as long as the abbreviation is not ambiguous. For example,

version

can be abbreviated

ver

.

For ambiguous commands, type the beginning letters on the command line and then use the Tab key to toggle through all the possible commands beginning with these letters.

30 Avaya P333T User’s Guide

Chapter 5 Avaya CLI – Architecture, Access & Conventions

Universal Commands

Universal commands are commands that can be issued anywhere in the hierarchical tree.

Top and Up commands

The

Up

command moves you up to the next highest level in the CLI command hierarchy. The

Top

command moves you to the highest level.

Retstatus command

Use the

retstatus

command to show whether the last CLI command you performed was successful. It displays the return status of the previous command.

The syntax for this command is:

retstatus

Output Example:

P330 # set port negotiation 2/4 disable

Link negotiation protocol disabled on port 2/4.

Tree command

The

tree command displays the commands that are available at your current location in the CLI hierarchy.

The syntax for this command is:

tree

Avaya P333T User’s Guide 31

Chapter 5 Avaya CLI – Architecture, Access & Conventions

32 Avaya P333T User’s Guide

Chapter 6

CLI – Layer 2

This chapter provides all the Layer 2 CLI commands, parameters and their default values.

The CLI is command-line driven and does not have any menus. To activate a configuration option, you must type the desired command at the prompt and press

Enter

.

Note:

The terms “module” and “switch” are used interchangeably.

User Level Commands

This section describes all commands that are available from the User level.

Following is a table of the User Level commands and command groups (all commands are also available at the higher levels).

• session

• terminal width

• terminal length

• clear screen

• show

• ping

1

Opens a session to another P330 switch, X330

ATM Access sub-module, X330 WAN Access sub-module or G700 MGP.

Displays or sets the width of the terminal display.

Display or set the length of the terminal display.

Clears the current terminal display.

Shows the current switch parameters.

Sends ICMP echo request packets to another node on the network.

Show files in the system.

Page

Page

Page

Page

Page

Page

34

34

34

35

36

35

• dir Page

73

1 This command corresponds to a group of commands and is shown in a

separate Table on Page

36 .

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session

Use the

session command to open a session with a specific entity in a switch of the stack. For example, you can open a session with the Routing entity of a

P332G-ML switch in the stack, or with an the X330 ATM sub-module entity plugged into a specific switch.

The syntax for this command is:

session [<mod_num> [switch|router|atm|mgp|wan]] mod_num (optional) The switch number.

If you do not specify this parameter, you will get the default entity of the stack (Layer 2 session to the Master) switch|router|atm|mgp|wan (optional) The entity to which you want to open a session.

If you do not specify this parameter, you will get the default entity of the specific module: switch

- Layer 2 entity of the switch (see

Note below).

router

- Routing entity.

atm

- ATM entity.

mgp

- Media Gateway Precessor.

wan

- WAN access router entity.

Note:

Layer 2 commands are only available if you open a

switch session with the

Master switch.

Note:

When you use the

session command the security level stays the same.

terminal

Use the

terminal width and

terminal length commands to set the width and length of the terminal display in characters.

The syntax for this command is:

terminal {width|length} [<characters>]

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clear screen

The clear screen command clears the current terminal display.

The syntax for this command is:

clear screen

ping

Use the

ping command to send ICMP echo request packets to another node on the network.

The syntax for this command is:

ping [host[number]] host number

Host IP address/Internet address of route destination. If missing then the last host IP is used.

Number of packets to send. If missing, then the last number is used.

If the last number is not available, the default is 4.

Note:

You can use this command via the Master switch only.

Output Example:

To ping the IP number 149.49.48.1 four times:

P330-N> ping 149.49.48.1 4

PING 149.49.48.1: 56 data bytes

64 bytes from 149.49.48.1: icmp_seq=0. time=0. ms

64 bytes from 149.49.48.1: icmp_seq=1. time=0. ms

64 bytes from 149.49.48.1: icmp_seq=2. time=0. ms

P330-1(super)# 64 bytes from 149.49.48.1: icmp_seq=3. time=0. ms

----149.49.48.1 PING Statistics----

4 packets transmitted, 4 packets received, 0% packet loss round-trip (ms) min/avg/max = 0/0/0

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Show Commands Summary Table

Following is a table of the

show commands:

• show time

• show timezone

• show time parameters

• show ip route

• show image version

• show download status

• show snmp

• show snmp retries

• show snmp timeout

• show timeout

• show logout

• show interface

• show device-mode

• show port

• show port trap

• show port channel

• show port classification

• show port redundancy

• show intermodule port redundancy

• show port mirror

• show port vlanbinding-mode

• show port security

• show port blocking

Shows the current time.

Shows the current timezone offset.

Shows the status and parameters.

Shows the IP routing table entries.

Shows the image version.

Shows the last download operation.

Shows the SNMP community strings.

Shows the SNMP retries number.

Shows the SNMP timeout.

Shows the CLI logout time setting.

Shows the CLI logout time setting.

Shows the interfaces of the device.

Shows the operating mode you are currently in.

Shows settings and status for all ports.

Shows the port trap.

Shows the port channel.

Displays the port classification.

Displays information on redundancy schemes.

Shows the stack’s intermodule redundancy.

Shows mirroring information.

Shows port vlan binding mode settings.

Lists the security mode of the ports of a switch or stack.

Displays the port blocking mode on a particular switch.

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• show port self-loop-

• show cam

• show cascading faultmonitoring

show port autonegotiationflowcontroladvertisement

• show trunk

Displays the flowcontrol advertisement for a Gigabit port when performing autonegotiation.

• discovery

• show internal buffering

• show boot bank

• show module

• show port flowcontrol

• show vlan

show leaky-vlan

• show spantree

• show autopartition

• show dev log file

• show log

• show module- identity

• show license

• show system

• show rmon statistics

• show rmon history

• show rmon alarm

Displays which port or switch has an enabled IBM™ token ring cable loop discovery status.

Shows the current internal buffering capacity.

Displays the software bank from which the switch will load.

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Shows switch status and information.

Shows the per-port status information related to flow control.

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Shows the CAM table entries for a specific port.

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Shows cascading fault monitoring mode.

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Displays VLAN tagging information of the ports, port binding mode, and the port VLAN ID.

Displays the VLANs configured in the stack/switch.

Displays the leaky VLAN status.

Shows Spanning Tree Protocol (STP) settings.

Shows the autopartition settings.

Displays the encrypted device log file.

Displays an encrypted device reset log.

Displays the switch’s identity.

Shows the license.

Shows system parameters.

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Shows the traffic statistics of an interface.

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Shows the existing history entries.

Shows the existing alarm entries.

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• show rmon event

• show ppp session

• show ppp authentication

• show ppp incoming timeout

• show ppp baud-rate

• show ppp configuration

• show tftp upload/ download status

• show tftp download software status

• show web aux-files-url

• show intelligent- multicast

• show intelligentmulticast hardware support

• show security mode

Shows the existing event entries.

Shows the PPP parameters of the active

PPP session.

Shows the authentication method used for PPP sessions.

Shows the amount of time PPP sessions can remain idle before being disconnected.

Shows the baud rate.

Displays the ppp configuration.

Shows the status of the TFTP upload/ download configuration per switch.

Shows the status of the TFTP software download of the Device Manager software to the switch.

Shows the location (URL/directory) of the P330 Device Manager Help files.

Shows the status IP multicast filtering application.

Shows whether the connected unit’s hardware supports IP multicast filtering.

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• show secure mac port

• show arp-tx-interval

• show arp-aginginterval

• show self-loop discovery

• show allowed managers status

• show allowed managers table

Displays the status of the MAC security feature (enabled/disabled).

Shows the secure MAC addresses of a port.

Displays the keep-alive status.

Displays the ARP table aging interval for gateways’ entries.

Displays the self-loop discovery mode.

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Displays the status of the allowed managers feature (enabled/disabled) .

Displays the IP addresses of the allowed managers.

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• dir Displays the file types that have been downloaded to the module.

show time

Use the

show time command to display the current stack time.

The syntax for this command is: show time

Output Example:

P330-N> show time

10:32:34 27 JAN 2000 GMT

Page

show timezone

Use the

show timezone command to display the current stack timezone.

The syntax for this command is:

show timezone

Output Example:

P330-N> show timezone

Timezone set to ’GMT’, offset from UTC is 0 hours

show time parameters

Use the

show time parameters command to display the status and parameters.

The syntax for this command is:

show time parameters

Output Example:

P330-N> show time parameters

Current time: L:02:49:11 02 JAN 1999 isl

Timezone set to ’isl’, offset from UTC is 2 hours

Time-Server: 0.0.0.0

Time acquired from Time-Server: 0.0.0.0

Time protocol set to: TIME protocol

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show ip route

Use the

show ip route command to display IP routing table entries.

The syntax for this command is:

show ip route

Output Example:

P330-N> show ip route

Destination

-----------

149.49.1.1

190.20.0.0

172.20.0.0

Gateway

-----------

172.20.22.201

172.20.22.202

172.20.22.96

show image version

Use the

show image version command to display the software version of the image on both memory banks of a specified switch.

The syntax for this command is:

show image version [<mod_num>]

If no switch number is specified, the image version of the all switches will be displayed.

Output Example:

P330-N> show image version 1

Mod Module-Type Bank Version

------ ----------- ---- --------

1 24x10/100Base-T with optional expansion slot A 3.3.14

1 24x10/100Base-T with optional expansion slot B 3.5.19

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show download status

Use the show download status

command to display a summary of the last software download operation.

The syntax for this command is:

show download status [slot]

Output Example:

P330-1(super)# sh download status 1

Mod Bank Download State Activity Status Download Size

----- ------ --------------- ---------------- ---------------

1. Bank B idle Download idle 0

Mod Version Host File

----- --------- ------------- ------------------

1. 3.5.18 149.49.70.61 d:\p340sw\gt-ml\3.5.18\p332gt_ml

Note:

This command is only supported by the P332G-ML and P332GT-ML switches.

show snmp

Use the

show snmp command to display SNMP information.

The syntax for this command is:

show snmp

Output Example:

P330-N> show snmp

Authentication trap disabled

Community-Access Community-String

---------------- ---------------read-only public read-write public trap public

Trap-Rec-Address Traps Enabled

---------------- ----------------

1.1.1.1 config

fault etc...

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show snmp retries

Use the

show snmp retries command to display the number of retries initiated by the Device Manager application when it tries to send SNMP messages to the device.

The syntax for this command is:

show snmp retries

Output Example:

P330-N> show snmp retries the SNMP Retries Number is 3

show snmp timeout

Use the

show snmp timeout command to display the default SNMP timeout in seconds. This command is useful for access using the Device Manager.

The syntax for this command is:

show snmp timeout

Output Example:

P330-N> show snmp timeout the SNMP Timeout is 2000

show timeout

Use the

show timeout command to display the amount of time the CLI can remain idle before timing out in minutes. If the result is 0, there is no timeout limit.

The default is 15 minutes.

The syntax for this command is:

show timeout

Output Example:

P330-N> show timeout

CLI timeout is 10 minutes

show logout

Use the

show logout command to display the amount of time the CLI can remain idle before timing out in minutes. If the result is 0, there is no timeout limit.

The default is 15 minutes.

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The syntax for this command is:

show logout

Output Example:

P330-N> show logout

CLI timeout is 10 minutes

show interface

Use the

show interface command to display information on network interfaces.

The syntax for this command is:

show interface

Output Example:

To display the interface:

P330-N> show interface

Interface Name VLAN IP address Netmask

-------------- ---- --------------- --------------inband 1 10.0.0.1 255.255.255.0

ppp disable 1 0.0.0.0 0.0.0.0

show device-mode

Use the

show device-mode command to show the P332G-ML/P332GT-ML/

P333R/P333R-LB operating mode you are currently in. Possible modes are Router, or Switch.

Note:

This command is not supported by the P333T/P334T/P332MF/P333T-PWR switches which do not have Router mode.

The syntax for this command is:

show device-mode

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show port

Use the

show port command to display port status.

The syntax for this command is:

show port

[<mod_num>[/<port_num>]] mod_num port_num

(Optional) Number of the switch. If you do not specify a number, the ports on all switches are shown.

(Optional) Number of the port on the switch. If you do not specify a number, all the ports on the switch are shown.

You can also specify a range of ports separated by a dash, e.g.,

5-13 for ports 5 to 13.

Output Example:

To display the status for port 4 on switch 3:

P330-N> show port 3/4

Port Name Status Vlan Level Neg Dup. Spd. Type

------ ------- --------- ---- ------ ------- ---- ---- -------------

3/4 John connected 1 4 enable half 10M 100/1000Base-Tx

Show Port Output Fields

Field

Port

Name

Status

VLAN

Level

Neg

Duplex

Speed

Description

Switch and port number

The name you assigned to the port

Status of the port (connected, no link, disabled, no Rmt Lnk)

VLAN ID of the port

Priority level of the port (0-7)

The autonegotiation status of the port (enable, disable)

Duplex setting for the port (fdx, hdx)

Speed setting for the port (10, 100)

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Type Port type, for example:

For the P332-ML and P332GT-ML switches - 100BaseT,

1000BaseT, 1000BaseS.

For the P333T/P334T/P332MF/P333R/P333R-LB switches -

10BaseT, 10BaseFL, 100BaseTX, 100BaseFX MM, 100BaseFX

SM, 10/100BaseTX.

show port trap

Use the

show port trap command to display information on SNMP generic link up/down traps sent for a specific port.

The syntax for this command is:

show port trap [<mod_num>[/<port_num>]]

Output Example:

P330-N> show port trap 1/1

Port 1/1 up/down trap is disabled

show port channel

Use the

show port channel command to display Link Aggregation Group

(LAG) information for a specific switch or port.

The syntax for this command is:

show port channel [<mod_num>[/<port_num>]]

Output Example: show port channel 1

Port Channel Status Channel Name

------ --------------- --------------------------------

1/1 off

1/2 off

1/3 on server1

1/4 on server1

------ --------------- --------------------------------

1/5 off

etc...

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show port classification

Use the show port classification

command to display a port’s classification.

The syntax for this command is:

show port classification

[module/[port] module/port The switch number/the port number

Output Example:

P330-1(super)# show port classification

Port Port Classification

------ ---------------------

1/1 regular

1/2 regular

1/3 regular

1/4 regular

1/5 regular

1/6 regular

1/7 regular etc...

show port redundancy

Use the

show port redundancy command to display information about all redundancy schemes defined for this stack.

The syntax for this command is:

show port redundancy

Output Example:

P330-N> show port redundancy

Redundancy Name Primary Port Secondary Port Status

----------------- -------------- ---------------- -------uplink 1/7 2/12 enable

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show intermodule port redundancy

Use the show intermodule redundancy

command to display the intermodule redundancy entry defined for the stack.

The syntax for this command is:

show intermodule port redundancy

Output Example:

P330-N> show intermodule port redundancy

Primary-Port : 1/1

Primary-Port status : Disable

Secondary-Port : 1/2

Secondary-Port status : Disable

show port mirror

Use the

show port mirror command to display mirroring information for the stack.

The syntax for this command is:

show port mirror [<mod_num>[/<port_num>]]

Output Example:

P330-N> show port mirror port mirroring

Mirroring both Rx and Tx packets from port 1/2 to port 1/4 is enabled

show port vlan-binding-mode

Use the show port vlan-binding-mode

command to display port vlan binding mode information.

The syntax for this command is:

show port vlan-binding-mode [module[/port]] module/port The switch number/the port number

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Output Example:

P330-N> show port vlan-binding-mode port 1/1 is statically bound port 1/2 is statically bound port 1/3 is statically bound port 1/4 is statically bound port 1/5 is statically bound port 1/6 is statically bound port 1/7 is statically bound port 1/8 is statically bound port 1/9 is statically bound port 1/10 is statically bound

show port security

Use the show port security

command to list the security mode of the ports of a switch or stack. When no port number is specified, this command displays all the secured ports in the stack.

The syntax for this command is:

show port security [<module>[/<port>]]

Example:

P330-N> show port security 1

Port 1/1 port security disabled.

Port 1/2 port security disabled.

Port 1/3 port security disabled.

Port 1/4 port security disabled.

Port 1/5 port security disabled.

etc.

Note:

Port security for the P330-ML switches will always have the value unknown

.

This command is used to display the security status for the other P330 switches in the stack.

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show port blocking

Use the

show port blocking

command to display the port blocking mode on a particular switch. Use the session

command to change switches before using this command.

The show port blocking

command is used with the show self-loop discovery

command to confirm a port’s blocking mode.

The syntax for this command is:

show port blocking

Note:

This command is not supported by the P330-ML switches.

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

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Output Example:

P330-N> show port blocking

+-------------------+

| Port | Blk /Fwd |

+-------------------+

| 1 | Blocking |

| 2 | Blocking |

| 3 | Blocking |

| 4 | Blocking |

| 5 | Blocking |

| 6 | Blocking |

| 7 | Blocking |

| 8 | Blocking |

| 9 | Blocking |

| 10 | Blocking |

| 11 | Blocking |

| 12 | Forwarding |

| 13 | Blocking |

| 14 | Blocking |

| 15 | Blocking |

| 16 | Blocking |

| 17 | Blocking |

| 18 | Blocking |

| 19 | Blocking |

| 20 | Blocking |

| 21 | Blocking |

| 22 | Blocking |

| 23 | Blocking |

| 24 | Forwarding |

+-------------------+

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show port self-loop-discovery

Use the s how port self-loop-discovery command to display which port or switch has an enabled IBM™ token ring cable loop discovery status.

Note:

This command is not supported by the P330-ML switches.

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

The syntax for this command is:

show port self-loop-discovery [module num/port number]

Output Example:

P330-N> show port self-loop-discovery 1/5

Self-Loop-Discovery is enabled on port 1/5.

show internal buffering

The show internal buffering

command displays the size options (Maximum,

Minimum, or Medium) of the Receive (Rx) buffer allocated to each port of the specified switch.

The syntax for this command is:

show internal buffering [<mod_num>]

Output Example:

P330-N> show internal buffering 1

Module Internal Buffer

------ ---------------

1 med

Note:

Internal buffering for the P330-ML switches will always have the value

Not supported

. This command is used to display the internal buffering status for the other P330 switches in the stack.

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show boot bank

Use the show boot bank

command to display the software bank from which the switch will boot at the next boot process. This command should be issued separately for each switch in the stack using the session

command.

Note:

This command is not supported by the P333R and P333R-LB switches.

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

The syntax for this command is:

show boot bank

Output Example: show boot bank

Boot bank set to bank-a

show module

Use the

show module

command to display switch status and information. For each switch with an expansion sub-module installed, both switch and expansion sub-module type and information are shown.

The syntax for this command is:

show module [<mod_num>]

mod_num (Optional) Number of the switch/expansion sub-module. If you do not specify a number, all switches/expansion submodules are shown.

Output Example:

P330-N> show port flowcontrol 3/2

Mod Type C/S S/N Statuses

--- ------------------ ---- -------- ----------------------------

1 P333T 1.0 4144162 PS:OK Fans:OK Mode:Layer2

X330GT2 2.0

P330STK 2.0 Conn-Up:Fail Conn-Down:Ok

BUPS BUPS:Not Prsnt Fans:None Type:None

2 P333T-PWR 3.0 4455428 PS:OK Fans:OK Mode:Layer2

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No Expansion Not Present

P330STK 2.2 Conn-Up:Ok Conn-Down:Ok

BUPS BUPS:Not Prsnt Fans:None Type:None

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Output Fields

Field

Mod

Type

S/N

C/S

Statuses

Description

Switch number

Module Type/Expansion sub-module type

Serial number of the switch

(Hardware) Configuration Symbol of the module/ expansion sub-module

Status of the module/expansion sub-module

show port flowcontrol

Use the

show port flowcontrol command to display per-port status information related to flow control.

The syntax for this command is:

show port flowcontrol [<mod_num>[/<port_num>]]

Output Example:

P330-N> show port flowcontrol 3/2

Port Send-Flowcontrol Receive-Flowcontrol

Admin Oper Admin Oper

------ ----- ---- ----- ----

3/2 off off off off

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Output Fields

Field

Port

Send-

Flowcontrol-

Admin

Send-

Flowcontrol-

Oper

Receive-

Flowcontrol-

Admin

Receive-

Flowcontrol-

Oper

Description

Switch and port number

Send flow-control administration. Possible settings:

• ON indicates that the local port is allowed to send flow control frames to the far end.

• OFF indicates that the local port is not allowed to send flow control frames to the far end.

Send flow-control operation mode. Possible modes:

• ON indicates that the local port will send flow control frames to the far end.

• OFF indicates that the local port will not send flow control frames to the far end.

Receive flow-control administration. Possible settings:

• ON indicates that the local port will act upon flow control indications if received from the far end.

• OFF indicates that the local port will discard flow control frames if received from the far end.

Receive flow-control operation mode. Possible modes:

• ON indicates that the local port will act upon flow control indications received from the far end.

• OFF indicates that the local port will discard flow control frames received from the far end.

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show cam

Use the

show cam commands to display the CAM table entries for a specific port.

Note:

MACs associated with LAGs appear under the LAG ID, not under the LAG port.

The syntax for this command is:

show cam [mac mac-addr]/[module[/port]]

Output Example:

P330-N> show cam 1/1

Dest MAC/Route Dest Destination Ports

------------------- -----------------

00-40-0d-59-03-78 1/1

00-d0-79-0a-0a-da 1/1

00-40-0d-43-1e-e9 1/1 etc...

Output Example:

P330-N> show cam mac 00-40-0d-88-06-c8

Dest MAC/Route Dest Destination Ports

------------------- -----------------

00-40-0d-88-06-c8 1/1

Total Matching CAM Entries Displayed = 1

show cascading fault-monitoring

Use the show cascading fault-monitoring

command to display the status of the fault trap sending mode for cascading links.

The syntax for this command is:

show cascading fault-monitoring [<mod_num>]

Output Example:

P330-N> show cascading fault-monitoring 1

Module 1 cascading-down fault monitoring enabled.

Module 1 cascading-up fault monitoring enabled.

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show port auto-negotiation-flowcontrol-advertisement

Use the s how port auto-negotiation-flowcontrol-advertisement command to display the flowcontrol advertisement for a Gigabit port used to perform auto-negotiation.

The syntax for this command is:

show port auto-negotiation-flowcontrol-advertisement

[<mod_num>[/<port_num>]] mod_num port num

Number of the switch

Number of the port

Output Example:

P330-N> show port auto-negotiation-flowcontrol-advertisement

Port 1/1 advertises no flow control capabilities.

Port 1/2 advertises no flow control capabilities.

Port 1/3 advertises no flow control capabilities.

etc.

show trunk

Use the

show trunk command to display VLAN tagging information of the ports, port binding mode, and the port VLAN ID.

The syntax for this command is:

show trunk [<mod_num>[/<port_num>]]

Output Example:

P330-N> show trunk

Port Mode Binding mode Native vlan

------ ----- ----------------------------- -----------

1/1 dot1q bound to configured vlans 1

1/2 dot1q bound to all vlans 1

1/3 off statically bound 1

1/4 off statically bound 1

1/5 off statically bound 1

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Output Example:

P330-N> show trunk 1/5

Port Mode Binding mode Native vlan Vlans allowed on trunk

------ ----- -------------- ----------- ----------------------

1/5 off statically bound 1 1

Output Fields:

Field

Port

Mode

Binding mode

Native VLAN

VLANs allowed on trunk

Description

Switch and port number(s)

Tag status of the port (dot1q - dot1Q tagging mode, off - clear mode).

Binding mode of the port

Number of the Port VLAN ID (the VLAN to which received untagged traffic will be assigned).

Range of VLAN values allowed on the port.

show vlan

Use the show vlan

command to display the VLANs configured in the stack/ switch.

The syntax for this command is:

show vlan

Output Example:

P330-N> show vlan

VLAN ID Vlan-name

------- --------------------------------

1 v1

5 V5

10 V10

15 V15

20 V20

25 V25

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show leaky-vlan

Use the show leaky-vlan

command to display the leaky VLAN status.

The syntax for this command is:

show leaky-vlan

Output Example:

P330-N> show leaky-vlan

Leaky VLAN mode Disable

show spantree

Use the

show spantree command to display spanning-tree information.

The syntax for this command is:

show spantree [<mod_num>[/<port_num>]]

Output Example:

P330-N> show spantree

Spanning tree enabled

Designated Root: 00-40-0d-88-06-c8

Designated Root Priority: 32768

Designated Root Cost: 20

Designated Root Port: 1/1

Root Max Age: 20 Hello Time: 2

Bridge ID MAC ADDR: 00-40-0d-92-04-b4

Bridge ID priority: 32768

Port State Cost Priority

------ ------------- ---------- ------------

1 /1 Forwarding 20 128

1 /2 not-connected 20 128

1 /3 LAG-member 20 128

1 /4 LAG-member 20 128

1 /5 not-connected 20 128

1 /6 not-connected 20 128 etc...

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Output Fields:

Field Description

Spanning tree

Designated

Root

Designated

Root Priority

Port

State

Cost

Priority

Status of whether Spanning-Tree Protocol is enabled or disabled

MAC address of the designated spanning-tree root bridge

Priority of the designated root bridge

Designated

Root Cost

Designated

Root Port

Total path cost to reach the root

Port through which the root bridge can be reached (shown only on nonroot bridges)

Root Max Age Amount of time a BPDU packet should be considered valid

Hello Time Number of times the root bridge sends BPDUs

Bridge MAC address used in the sent BPDUs Bridge ID

MAC ADDR

Bridge ID

Priority

Bridge priority

Port number

Spanning-tree port state (disabled, inactive, not-connected, blocking, listening, learning, forwarding, bridging, or typepvid-inconsistent)

Cost associated with the port

Priority associated with the port

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show autopartition

Use the show autopartition

command to display the automatic partition.

Note:

Autopartition for the P330-ML switches will always have the value disabled

. This command is used to display the autopartition status for the other

P330 switches in the stack.

The syntax for this command is:

show autopartition [module]

Example:

P330-N> show autopartition 1

Mod Mode

--- -----------

1 Enable

show dev log file

Use the show dev log file

command to display the encrypted device’s log file.

Note:

This command is only supported by the P330-ML switches.

The syntax for this command is:

show dev log file

show log

Use the show log

command to display an encrypted device’s reset log. This command is for Avaya technical support use.

The syntax for this command is:

show log [module]

Output Example:

P330-1(super)# show log 1

MODULE 1, MESSAGE 01:

00000000 0 05002966 0205 0 0 0 0 0 0 0 0 0 0

MODULE 1, MESSAGE 02:

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00000000 0 00004242 0205 0 0 0 0 0 0 0 0 0 0

MODULE 1, MESSAGE 03:

00000000 0 00002395 0205 0 0 0 0 0 0 0 0 0 0

show module-identity

Use the show module identity

command to display the switch identity required for acquiring a license.

The syntax for this command is:

show module-identity [module]

Output Example: show module-identity [module]

P330-1(super)# show module-identity

Mod Module Identity

--- ---------------

1 1234567

2 4144162

show license

Use the show license

command to display a switch license.

The syntax for this command is:

show license [mod_num] mod_num

The switch number

Output Example:

P330-N> show license 1

P330-N> Module 1 License:

Mod Application License Key State Feature Flag

--- ------------------- ----------------------------- ---------- ------------

1 smon 0000 0000 0000 0000 0000 0000 licensed 1

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show system

Use the

show system command to display the up time, system name, location, and contact person.

The syntax for this command is:

show system

Output Example:

P330-N> show system

Uptime d,h:m:s

------------------------

0,2:40:55

System Name System Location System Contact

--------------------- ------------------------- -------------------------

P332_version-3.0.5 Alpha LAB Ygdal Naouri

Switch MAC address

------------------

00 40 0d 8a 04 b4

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RMON Tools

The following are a series of RMON commands, however we recommend using the

P330 Device Manager.

show rmon statistics

Use the show rmon statistics

command to show the RMON statistics counters for a certain interface number according to the MIB-2 interface table numbering scheme.

The syntax for this command is:

show rmon statistics <module/port> module/port range of ports (the default is full switch

)

Output Example:

P330-1(super)# show rmon statistics

Statistics for switch is active, owned by Monitor

Received 171665151 octets, 1474442 packets,

1030346 broadcast and 369540 multicast packets,

0 undersize and 0 oversize packets,

1 fragments and 0 jabbers,

11 CRC alignment errors and 0 collisions,

# of dropped packet events (due to a lack of resources): 0

# of packets received of length (in octets):

64:862274, 65-127:973110, 128-255:173921,

256-511:72880, 512-1023:4374, 1024-1518:29744,

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show rmon history

Use the show rmon history

command to show the most recent RMON history log for a given History Index. The history index is defined using the

rmon history

command on Page 120 or using an RMON management tool.

The syntax for this command is:

show rmon history [<History Index>]

P330-N> show rmon history 1026 history

Entry 1026 is active, owned by amir

Monitors ifEntry.1.1026 every 30 seconds

Requested # of time intervals, ie buckets, is 20

Granted # of time intervals, ie buckets, is 20

Sample # 1 began measuring at 2:53:9

Received 62545 octets, 642 packets,

391 broadcast and 145 multicast packets,

0 undersize and 0 oversize packets,

0 fragments and 0 jabbers,

0 CRC alignment errors and 0 collisions,

# of dropped packet events (due to a lack of resources): 0

Network utilization is estimated at 0

show rmon alarm

Use the show rmon alarm

command to show the parameters set for a specific alarm entry that was set using the rmon alarm command on Page

121 or using the

P330 Device Manager.

The syntax for this command is:

show rmon alarm [<Alarm Index>]

Output Example:

P330-N> show rmon alarm 1026 alarm alarm 1026 is active, owned by amir

Monitors ifEntry.1.1026 every 60 seconds

Taking delta samples, last value was 1712

Rising threshold is 10000, assigned to event # 1054

Falling threshold is 10, assigned to event # 1054

On startup enable rising or_falling alarms

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show rmon event

Use the show rmon event

command to show the parameters of an Event entry

defined by the rmon event command on Page 122

or using the P330 Device

Manager.

The syntax for this command is:

show rmon event [<Event Index>]

Output Example:

P330-N> show rmon event 1054 event

Event 1054 is active, owned by amir

Description is event for monitoring amir’s co

Event firing causes log and trap to community public,last fired 0:0:0

show ppp session

Use the show ppp session

command to display PPP parameters and statistics of a currently active PPP session.

The syntax for this command is:

show ppp session

Example:

P330-N> show ppp session

show ppp authentication

Use the ppp authentication

command to see the authentication method used for PPP sessions.

The syntax for this command is:

show ppp authentication

Output Example:

P330-N> show ppp authentication

PPP Authentication Parameters:

------------------------------

Incoming: CHAP

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show ppp incoming timeout

Use the ppp incoming timeout

command to see the amount of time in minutes that a PPP session can remain idle before being automatically disconnected.

The syntax for this command is:

show ppp incoming timeout

Output Example:

P330-N> show ppp incoming timeout

PPP incoming timeout is 10 minutes

show ppp baud-rate

Use the s how ppp baud-rate command to display the set baud-rate.

The syntax for this command is:

show ppp baud-rate

Output Example:

P330-N> show ppp baud-rate

PPP baud rate is 38400

show ppp configuration

Use the s how ppp configuration

command to display the ppp configuration

The syntax for this command is:

show ppp configuration

Output Example:

P330-N> show ppp configuration

PPP baud rate is 38400

PPP incoming timeout is 0 minutes

PPP Authentication Parameters:

------------------------------

Incoming: None

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show tftp download/upload status

Use the

show tftp download status

and show tftp upload status commands to display the status of the current TFTP configuration file copy process into/from the device.

The syntax for this command is:

show tftp {download|upload} status [<mod_num>]

Output Example:

P330-N> show tftp upload status 1

Module : 1

Source file : stack-config

Destination file : c:\conf.cfg

Host : 149.49.36.200

Running state : Executing

Failure display : (null)

Last warning : No-warning

show tftp download software status

Use the

show tftp download software status commands to display the status of the current TFTP Device Manager S/W (Embedded Web) download process into the device.

The syntax for this command is:

show tftp download software status [<mod_num>]

Output Example:

P330-1(super)# show tftp download software status

Module #1

===========

Module : 1

Source file : d:\p340sw\gt-ml\3.5.18\p340.web

Destination file : EW_Archive

Host : 149.49.70.61

Running state : Writing ...

Failure display : (null)

Last warning : No-warning

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show web aux-files-url

Use the

show web aux-files-url command to display the URL/Directory from where the P330 can access the Device Management auxiliary files (for example help files).

The syntax for this command is:

show web aux-files-url

show intelligent-multicast

Use the show intelligent-multicast

command to display the intelligent multicast configuration.

The syntax for this command is:

show intelligent-multicast

Output Example:

P330-N> show intelligent-multicast

Intelligent-multicast configuration:

-----------------------------------intelligent-multicast state --------------------- Disabled

Intelligent-multicast client-port-pruning time --- 600[Sec]

Intelligent-multicast router-port-pruning time ---1800[Sec] intelligent-multicast group-filtering-delay time - 10[Sec]

Intelligent-multicast HW configuration:

# Module Sub-Module Cascade

------- ---------- --------

1 No IPMc Support Not Installed No IPMc Support

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show intelligent-multicast hardware-support

Use the show intelligent-multicast hardware-support

command to display the intelligent multicast hardware support configuration.

The syntax for this command is:

show intelligent-multicast hardware-support

Output Example:

P330-N> show intelligent-multicast hardware support

Intelligent-multicast HW configuration:

# Module Sub-Module Cascade

------- ---------- --------

1 Support IPMc Not Installed Support IPMc

show security mode

Use the show security mode

command to display the status of the MAC security feature.

Note:

Layer 2 commands are only available if you open a

switch session with the

Master switch.

The syntax for this command is:

show security mode

Output Example:

P330-N> show security mode

Security mode enabled.

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show secure mac port

Use the show secure mac port

command to display the secure MAC addresses of a port from the sub-agent CLI. This command is accessed only through connection to a particular switch.

Note:

This command is not supported by the P330-ML switches.

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

The syntax for this command is:

show secure mac port [<module>[/port]]

Output Example:

P330-N> show secure mac port 1

Port Secure-Src-Addrs

------ -----------------

1/17 00-50-04-07-6a-fa

01-02-03-04-05-06

show arp-tx-interval

Use the show arp-tx-interval

command to display the keep-alive frames transmission interval.

The syntax for this command is:

show arp-tx-interval

Output Example:

P330-N> show arp-tx-interval

ARP tx interval is set to 5 seconds.

show arp-aging-interval

Use the show arp-aging-interval

command to display the ARP table aging interval for gateways’ entries.

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The syntax for this command is:

show arp-aging-interval

Output Example:

P330-N> show arp-aging-interval

ARP table aging interval for gateways was set to 10 minutes.

show self-loop-discovery

Use the show self-loop-discovery command to display a switch’s IBM token ring cable discovery status.

Note:

This command is not supported by the P330-ML switches.

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

The syntax for this command is: show self-loop-discovery [mod_num]

Output Example:

P330-N> show self-loop-discovery 1

Self-Loop-Discovery is disabled on module 1.

show allowed managers status

Use the show allowed managers status

command to display the activation status of the Allowed Managers feature. When this feature is enabled, only those stations whose IP addresses are listed in the Allowed Managers table can access the device over Telnet, SNMP, or HTTP.

The syntax for this command is:

show allowed managers status

Output Example:

P330-N> show allowed managers status

Managers are disabled.

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show allowed managers table

Use the show allowed managers table

command show the list of the twenty possible allowed managers IP addresses.

show allowed managers table

Output Example:

P330-N> show allowed managers status

1 ) 149.49.32.134

2 ) Not Used

3 ) Not Used

4 ) Not Used

5 ) Not Used

6 ) Not Used

7 ) Not Used

8 ) Not Used

9 ) Not Used

10) Not Used

11) Not Used

12) Not Used

13) Not Used

14) Not Used

15) Not Used

16) Not Used

17) Not Used

18) Not Used

19) Not Used

20) Not Used

dir

Use the

dir command to show the file types that have been downloaded to the switch.

The syntax for this command is:

dir [<mod_num>]

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Output Example:

P330-N> dir

M# file ver num file type file location file description

-- ---- -------- ---------- ------------- ----------------

1 Booter_Image 3.5.17 SW BootImage Nv-Ram Booter Image

1 module-config N/A Running Conf Ram Module Configuration

1 stack-config N/A Running Conf Ram Stack Configuration

1 EW_Archive N/A SW Web Image Nv-Ram Web Download

2 Booter_Image 3.2.5 SW BootImage Nv-Ram Booter Image

2 module-config N/A Running Conf Ram Module Configuration

2 EW_Archive N/A SW Web Image Nv-Ram Web Download

Output Fields:

Field Description

M# file ver num

The switch number

There are several files loaded into the switch’s memory:

• module-config – file which contains the configuration settings made to this switch

• stack-config – file which contains the configuration settings made at the stack level (for example IP address of the stack)

• EW_Archive – file which contains the Device Manager

(Embedded Web) software

S/W Version number – relevant only for the Device

Management S/W file type There are several file types:

• Running Conf – the configuration currently in use and the startup configuration in the P330-ML, P333R and P333R-LB.

• SW Web Image – Device Manager S/W archive file file location Type of internal memory into which the file is loaded file description Description of the file

Note:

If the

N/A is displayed for the EW_Archive file, this means that the Device

Manager S/W is not loaded correctly. Download the Device Manager S/W again.

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Privileged Level Commands

Following is a table of the Privileged Level commands. This level includes all the commands from the User Level described above (see the User Level Commands

Section for a description of these common commands).

• no hostname

• no rmon history

• no rmon alarm

• no rmon event

• hostname

• clear

1

• set

2

• sync time

• get time

• reset

• reset stack

• reset mgp

• nvram initialize

• rmon history

• rmon alarm

• rmon event

• copy stack-config tftp

• copy moduleconfig tftp

• copy tftp stackconfig

Returns the prompt to its default.

Deletes an existing history entry.

Deletes an existing alarm entry.

Deletes an existing event entry.

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Displays or sets a new prompt.

Clears current settings

(a group of commands).

Gets the time from the time server.

Restarts the system or a switch.

Causes a hardware reset to the stack.

Causes a software reset to the Media

Gateway Processor.

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Sets the switch parameters

(a group of commands).

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Synchronizes the time between switches.

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118

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Initializes the NVRAM to its factory defaults.

Creates a history entry.

Creates an alarm entry.

Creates an event entry.

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Uploads stack configuration to a file

(using TFTP). The file must exist before you Upload.

Uploads switch configuration to a file

(using TFTP). The file must exist before you

Upload.

Downloads a stack configuration file

(using TFTP) into the device.

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• copy tftp moduleconfig

• copy tftp

EW_Archive

• copy tftp

SW_image

Downloads a switch configuration file

(using TFTP).

Downloads the Device Manager S/W

(Embedded Web Archive file), using

TFTP, into the device.

Updates the software image and device manager application of a designated switch.

Sets radius authentication parameters.

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• radius authentication

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1 The

clear command corresponds to a group of commands and is

shown in a separate Table on Page 77

.

2 The

set command corresponds to a group of commands and is shown

in a separate Table on Page 82

.

3 The

radius authentication commands corresponds to a group

of commands listed on Page 126 .

no hostname

Use the

no hostname command to return the CLI prompt to its default.

The syntax for this command is:

no hostname

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

no rmon history

Use the

no rmon history command to delete an existing RMON history entry.

The syntax for this command is:

no rmon history <History Index>

no rmon alarm

Use the

no rmon alarm command to delete an existing RMON alarm entry.

The syntax for this command is:

no rmon alarm <Alarm Index>

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no rmon event

Use the

no rmon event command to delete an existing RMON event entry.

The syntax for this command is:

no rmon event <Event Index>

hostname

Use the

hostname command to change the Command Line Interface (CLI) prompt. The current switch number always appears at the end of the prompt.

The syntax for this command is:

hostname [<hostname_string>] hostname_string

none

– displays current hostname

string

– the string to be used as the hostname

(up to 20 characters).

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

Clear Commands Summary Table

Following is a Table of the Privileged Level

clear commands.

• clear timezone

• clear ip route

• clear snmp trap

• clear vlan

• clear dynamic vlans

• clear port static-vlan

• clear cam

• clear log

• clear port mirror

• clear secure mac

Returns the timezone to its default, UTC.

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Clears IP routing table entries.

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Clears SNMP trap on the system.

Clears VLAN entries.

Clears dynamic VLAN entries.

Clears a VLAN statically configured on a port.

Clears all the CAM entries.

Clears the Log entries of a switch.

Cancels port mirroring.

Clears a MAC address.

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clear timezone

Returns the timezone to its default, Coordinated Universal Time (UTC)

The syntax for this command is:

clear timezone

clear ip route

Use the

clear ip route command to delete IP routing table entries.

The syntax for this command is:

clear ip route <destination> <gateway> destination gateway

IP address of the network, or specific host to be added

IP address of the router

Output Example:

To delete the route table entries using the clear ip route command:

P330-N# clear ip route 134.12.3.0 192.1.1.1

Route deleted.

clear snmp trap

Use the

clear snmp trap command to clear an entry from the SNMP trap receiver table.

The syntax for this command is:

clear snmp trap {<rcvr_addr>|all} rcvr_addr IP address or IP alias of the trap receiver (the SNMP management station) to clear

Keyword that specifies every entry in the SNMP trap receiver table all

Output Example:

P330-N# clear snmp trap 192.122.173.82

SNMP trap receiver deleted.

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clear vlan

Use the

clear vlan command to delete an existing VLAN and return ports from this VLAN to the default VLAN #1. When you clear a VLAN, all ports assigned to that VLAN are assigned to the default VLAN #1.

The syntax for this command is:

clear vlan <vlan-id>[name <vlan_name>] vlan_id vlan_name

Number of the VLAN (range is 1to 3071)

VLAN name

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

Output Example:

To delete an existing VLAN (VLAN 5) from a management domain:

P330-N# clear vlan 5 name V5

This command will assign all ports on vlan 5 to their default in the entire management domain

- do you want to continue (Y/N)? y

All ports on vlan-id 5 assigned to default vlan.

VLAN 5 was deleted successfully.

clear dynamic vlans

Use the clear dynamic vlans command to clear dynamic vlans. Only the

VLANs learned by the switch from incoming traffic are cleared using this command.

The syntax for this command is:

clear dynamic vlans

Output Example:

P330-N# clear dynamic vlans

This command will delete all the vlans that were dynamically learned by the device - do you want to continue (Y/N)?

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clear port static-vlan

Use the clear port static-vlan

command to delete VLANs statically configured on a port.

The syntax for this command is:

clear port static-vlan [module/port range][vlan num]

Port range module/port range vlan num The VLAN to unbind from the port

Output Example:

P330-1(super)# clear port static-vlan 1/10 5

VLAN 5 is unbound from port 1/10

clear cam

Use the

clear cam command to delete all entries from the CAM table.

The syntax for this command is:

clear cam

Output Example:

P330-N# clear cam

CAM table entry cleared.

clear log

Use the

clear log command to delete the Log file of a switch.

The syntax for this command is:

clear log [<mod_num>]

clear port mirror

Use the

clear port mirror command to cancel port mirroring.

The syntax for this command is:

clear port mirror <source-module>/<source-port>/<destmodule>/<dest-port>

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Output Example:

P330-N# clear port mirror 1/2/1/4 this command will delete the port mirror entry

- do you want to continue (Y/N)? y

Mirroring packets from port 1/2 to port 1/4 is cleared

clear secure mac

Use the clear secure mac

command to remove a MAC address from the CAM table of a secured port.

Note:

This command is not supported by the P330-ML switches.

The syntax for this command is:

clear secure mac <mac-address> port <mod-num>/<port-num>

Output Example:

P330-N> clear secure mac 1-2-3-4-5 port 1/17

01-02-03-04-05 cleared from secure address list for port 1/17

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

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Set Commands Summary Table

Following is a Table of the Privileged Level

set commands.

• set logout

• set timezone

• set time protocol

• set time server

• set time client

• set ip route

• set snmp community

• set snmp trap

• set snmp trap auth

• set snmp retries

• set snmp timeout

• set system location

• set system name

• set system contact

• set device-mode

• set interface

• set interface ppp

• set port level

• set port negotiation

• set port enable

Sets the number of minutes before an inactive CLI session automatically logs out.

Sets the timezone for the system.

Sets the time protocol for use in the system.

Sets the NTP server address.

Enables or disables the time client.

Adds IP addresses to the IP routing table.

Sets the SNMP community string for a specific switch.

Sets the SNMP trap of the system or add/delete an entry into/from the

SNMP trap receiver table.

Enables/disables the SNMP authentication trap.

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89

Sets the number of SNMP retries.

Sets the SNMP timeout.

Sets the system location.

Sets the system name.

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Sets the system contact person.

Sets the basic mode of operation.

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Configures the management interface of the device.

Configures the device ppp interface.

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Sets the priority level of a port.

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Sets the auto negotiation mode of a port.

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Administratively enables a port.

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• set port disable

• set port speed

• set port duplex

• set port name

• set port trap

Administratively disables a port.

Sets the speed for a 10/100 port.

Sets the duplex mode of a port.

Assigns a name to a port.

Enables/disables the SNMP up/down link traps sent for port.

Assigns the Port VLAN ID (PVID).

Defines the port binding method.

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• set port vlan

• set port vlan-bindingmode

• set port static-vlan

• set port self-loop discovery

Admin_Status

• set port channel

• set port classification

• set port redundancy on/off

• set port redundancy

• set internal buffering

• set boot bank

• set intermodule port redundancy

• set intermodule port redundancy off

• set port mirror

Defines a multiple VLANs per port.

Defines a port’s IBM token ring discovery mode.

Defines a LAG interface.

Defines port classification.

Defines/deletes a link redundancy entry.

Enables/disables all the defined link redundancy schemes.

Sets internal buffering capacity to maximum/minimum.

Configures the boot bank from which the switch will boot.

Defines the stack’s unique fast redundancy scheme.

Clears the intermodule redundancy.

• set port spantree

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101

102

102

Sets a port mirroring source-destination pair in the stack.

Enables or disables the spanning tree for switch ports.

Sets the port spantree priority level.

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• set port spantree priority

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• set port spantree cost

• set port security

• set cascading

• set inband vlan

• set vlan

• set port flowcontrol

Sets the port spantree cost.

Enables MAC security on a range of ports.

Sets switch cascading fault-monitoring mode.

Sets the management VLAN ID.

Creates VLANs.

Sets the flow control mode of a port.

Sets the flowcontrol advertising capabilities of a Gigabit port.

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• set port autonegotiationflowcontroladvertisement

• set trunk

• set leaky-vlan

• set spantree

Sets the tagging mode of a port.

Enables/disables leaky-VLAN mode.

Enables/disables Spanning Tree

Protocol (STP).

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• set spantree priority

• set autopartition

• set license

• set ppp authentication incoming

• set ppp incoming timeout

Sets the STP Bridge priority level.

Enables or disables autopartitioning for switches in a stack.

Enters a license number for the stack.

Defines the PPP authentication method.

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Sets the time after which the system automatically disconnects an idle PPP incoming session.

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Sets the baud rate used in PPP sessions.

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• set ppp baud-rate

• set web aux-files-url

Sets the location (URL/directory) of the

P330 Device Manager Help files.

• set intelligent-multicast Enables or disables the IP multicast filtering application.

• set intelligent-multicast client-port-pruning time

Sets the aging time for client ports.

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• set intelligent-multicast router-port-pruning time

• set intelligent-multicast group-filtering-delay time

• set secure mac

Sets the aging time for router ports.

Sets the time delay before a filter is applied to a specific group.

• set security mode

• set arp-aging-interval

• set arp-tx-interval

• set self-loop-discovery

Admin_Status

• set welcome message

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Adds a unicast MAC address into the

CAM table of a secured port.

Enables or disables the stack’s MAC security.

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Sets the ARP aging interval.

Sets the keep-alive interval.

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Sets the IBM token ring discovery mode.

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• set allowed managers enabled/disabled

• set allowed managers

IP

• set psu type

Sets a welcome message to appear after a reboot.

Enables/disables the Allowed Managers feature.

Used to add or remove an IP address from the allowed managers table.

Sets the main power supply type (AC/

DC) of the module.

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set logout

The

set logout command is used to set the number of minutes until the system automatically disconnects an idle session.

The syntax for this command is:

set logout <timeout> timeout Number of minutes (0 to 999) until the system automatically disconnects an idle session. Setting the value to 0 disables the automatic disconnection of idle sessions (default is 15 minutes).

Output Example:

To set the number of minutes until the system disconnects an idle session

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P330-N# set logout 20

Sessions will be automatically logged out after 20 minutes of idle time.

Output Example:

To disable the automatic disconnection of idle sessions:

P330-N# set logout 0

Sessions will not be automatically logged out.

set timezone

Use the

set timezone command to assign a timezone name and set the time difference of your P330 relative to the Coordinated Universal Time (UTC/GMT).

The minutes parameter can only be set to 30.

The syntax for this command is:

set timezone <zone_name> <hours | hours:min>

Output Example: set timezone GMT -3:30

Timezone set to ’GMT’, offset from UTC is -3:30 hours

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

set time protocol

Use the set time protocol command to set the protocol for use in the system as either

SNTP protocol or TIME protocol.

The syntax for this command is:

set time protocol [sntp-protocol|time-protocol]

Output Example:

P330-N# set time protocol sntp-protocol

The protocol has been set to SNTP protocol

Output Example:

P330-N# set time protocol time-protocol

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The protocol has been set to TIME protocol

set time server

The

set time server command is used to set the TIME server address.

The syntax for this command is:

set time server

<ip> ip IP address of the TIME server.

set time client

The

set time client command is used to enable or disable the periodic network time acquisition by the switch from the network time server (SNTP or

TIME protocol).

The syntax for this command is:

set time client <enable|disable>

set ip route

Use the

set ip route command to add IP addresses to the IP routing table. You can configure from one to ten (10) default gateways for a P330 stack.

The syntax for this command is:

set ip route <destination> <gateway> destination gateway

IP address of the network, or specific host to be added

IP address of the router

Output Example:

This example shows how to add a default route to the IP routing table:

P330-N# set ip route

0.0.0.0

192.168.1.1

destination = 0.0.0.0 gateway = 192.168.1.1

ROUTE NET TABLE destination gateway flags Refcnt Use Interface

------------------------------------------------------------------------

0.0.0.0 192.168.1.1 1 1 3199 se0

127.1.1.0 127.1.1.1 1 8 7606 se1

------------------------------------------------------------------------

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ROUTE HOST TABLE destination gateway flags Refcnt Use Interface

------------------------------------------------------------------------

127.0.0.1 127.0.0.1 5 2 131 lo0

10.10.10.10 192.168.1.1 7 0 0 se0

------------------------------------------------------------------------

set snmp community

Use the set snmp community

command to set or modify the switch’s SNMP community strings.

The syntax for this command is:

set snmp community <access_type> [community string] access type read-only, read-write, or trap

Output Example:

P330-1(super)# set snmp community read-only read

SNMP read-only community string set

set snmp trap

Use the

set snmp trap commands to add an entry into the SNMP trap receiver table and to enable or disable the different SNMP traps for a specific receiver. First add the rcvr_addr and then enable/disable the different traps for it.

The syntax for this command is:

set snmp trap <rcvr_addr>

set snmp trap

<rcvr_addr> {enable|disable} {all|config|fault|...} enable disable all config fault rcvr_addr

Activate SNMP traps

Deactivate SNMP traps

(Optional) Specify all trap types

(Optional) Specify the ConfigChange trap from the TRAP-MIB.

(Optional) Specify the Fault trap from the TRAP-MIB.

IP address or IP alias of the system to receive SNMP traps

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Output Example:

To enable SNMP ConfigChange traps to a specific manager:

P330-N# set snmp trap 192.168.173.42 enable config

SNMP config change traps enabled.

Output Example:

To enable all traps to a specific manager:

P330-N# set snmp trap 192.168.173.42 enable all

All SNMP traps enabled.

Output Example:

To disable SNMP config traps to a specific manager:

P330-N# set snmp trap 192.168.173.42 disable config

SNMP config traps disabled.

Output Example:

To add an entry in the SNMP trap receiver table with default:

P330-N# set snmp trap 192.168.173.42

SNMP trap receiver added.

set snmp trap auth

Use the

set snmp trap auth commands to enable/disable the sending of

SNMP traps upon SNMP authentication failure.

The syntax for this command is:

set snmp trap {enable|disable} auth

Output Example:

P330-N# set snmp trap enable auth

Authentication trap enabled

set snmp retries

Use the

set snmp retries command to set the number of retries initiated by the Device Manager application when it tries to send SNMP messages to the device.

The syntax for this command is:

set snmp retries <number>

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set snmp timeout

Use the

set snmp timeout command to set the SNMP timeout in seconds. This command is useful for access using the Device Manager.

The syntax for this command is:

set snmp timeout <number>

set system location

Use the

set system location command to set the mib2 system location MIB variable.

The syntax for this command is:

set system location [<string>] string Location name. The location name is cleared if this field is left blank. A string of 2 words or more must be type in quotation marks – e.g. “Operations Floor”.

set system name

Use the

set system name command to set mib2 system name MIB variable.

The syntax for this command is:

set system name [<string>] string

System name. The system name is cleared if this field is left blank. A string of 2 words or more must be type in quotation marks – e.g. “Backbone Stack”.

set system contact

Use the

set system contact command to set mib2 system contact MIB variable.

The syntax for this command is:

set system contact [<string>] string Contact person. The contact person field is cleared if this field is blank. A string of 2 words or more must be type in quotation marks – e.g. “Yigdal Naouri”.

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set device-mode

Use the

set device-mode command to change the Basic Mode of Operation of the P332-ML/P332GT-ML/P333R/P333R-LB switches between Router and Layer 2 modes.

Note:

This command is not supported by the P333T/P334T/P332MF switches which do not have Router mode.

The syntax for this command is:

set device-mode <mode> mode Router | Layer2

set interface

Use the

set interface command to configure the management interface on the

Master agent of the stack.

The syntax for this command is:

set interface inband <vlan> <ip_addr> <netmask> inband vlan ip_addr netmask

Interface name used for the management

The number of the VLAN to be used for management

IP address used for managing the stack

Subnet mask of the management interface

Output Example:

P330-N# set interface inband 1 192.168.42.252 255.255.255.0

Interface inband IP address set.

You must reset the device in order for the change to take effect.

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set interface ppp

Use the set interface ppp command to configure the P330 PPP interface IP parameters, exit modem mode, disconnect the PPP session, or reset the connected modem.

A PPP connection can be established only after the P330 is configured with an IP address and net-mask. The IP address is a dummy address that is shared between two peers, and must be taken from a subnet that is different from the agent’s IP subnet.

The syntax for this command is:

set interface ppp <ip_addr><net-mask> ip_addr net-mask

IP address used by the P330 to connect via its PPP interface

Subnet mask used by the P330 to connect via its PPP interface

Output Example:

P330-N> set interface ppp 149.49.34.125 255.255.255.0

Interface ppp has its ip address set

You can also use the set interface ppp

command to enter modem mode, enter terminal mode, disconnect the PPP session or to reset the connected modem.

The syntax for this command is:

set interface ppp {enable|enable-always|disable|off|reset} enable Enable PPP and enter modem mode.

enable-always Enable automatic reentry into modem mode after modem cable disconnection or reconnection. disable off reset

Disable PPP and enter terminal mode

Disconnect the active PPP session.

Reset the connected modem.

Output Example:

P330-N> set interface ppp reset

PPP has reset the connected modem.

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Output Example:

P330-N# set interface ppp enable

Entering the Modem mode within 60 seconds...

Please check that the proprietary modem cable is plugged into the console port

Output Example:

P330-N# set interface ppp disable

Entering the Terminal mode immediately

set port level

Use the

set port level command to set the priority level of a port. Untagged

(without an 802.1p priority header) packets travelling through ports set with priority 0-3 will be served only after packets traveling through ports set with priority 4-7 in case of congestion. Packets arriving with an 802.1p priority header will not be modified by this command.

The syntax for this command is:

set port level <mod_num>/<port_num> {value} value Priority level (0-7)

Output Example:

To set the priority level for port 2 on module 1 to 7:

P330-N# set port level 1/2 7

Port 1/2 port level set to 7

set port negotiation

Use the

set port negotiation command to enable or disable autonegotiation on a port. If autonegotiation is disabled, you can set port parameters using the relevant CLI commands. If autonegotiation is enabled, these commands have no effect. For Fiber Gigbit Ethernet ports it can determine the flow control (pause) mode only.

Note:

Copper ports in the P332GT-ML can work at 1000Mbps (Full Duplex) only if autonegotiation is enabled on both cable ends and you are using a 4 pair (8 wires)

Ethernet cable. If autonegotiation is disabled, these ports can only work at 100Mbps

(Full Duplex), and autonegotiation should be disabled on both cable ends.

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The syntax for this command is:

set port negotiation

<mod_num>/<port_num> {enable|disable}

Output Example:

To disable autonegotiation on port 1, module 4:

P330-N# set port negotiation 4/1 disable

Link negotiation protocol disabled on port 4/1.

set port enable

Use the

set port enable command to enable a port or a range of ports.

The syntax for this command is:

set port enable [mod_num/port_num] mod _num port_num

The switch number

The port number

Output Example:

To enable port 3 on module 2:

P330-N# set port enable 2/3

Port 2/3 enabled.

set port disable

Use the

set port disable command to disable a port.

The syntax for this command is:

set port disable <mod_num>/<port_num>

Output Example:

P330-N# set port disable 5/10

Port 5/10 disabled.

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set port speed

Use the

set port speed command to configure the speed of a 10/100Base-T port. If autonegotiation mode is enabled for such ports, the port’s speed is determined by autonegotiation, and an error message is thus generated if you attempt to perform the set port speed command in this case.

Note:

This command does not apply to P332G-ML and P332GT-ML ports. An error message is generated if you attempt to perform the set port speed command for P332G-ML and P332GT-ML ports.

The syntax for this command is:

set port speed

<mod_num>/<port_num> {value}

Output Example:

To configure port 2 on module 2 port speed to 10 Mbps:

P330-N# set port speed 2/2 10MB

Port 2/2 speed set to 10 Mbps.

set port duplex

Use the

set port duplex command to configure the duplex mode of a

10/100Base-T port. You can configure the duplex mode to either Half or Full duplex. If autonegotiation mode is enabled for such ports, the port’s duplex mode is determined by autonegotiation, and an error message is thus generated if you attempt to perform the set port duplex

command in this case.

Note:

P332G-ML and P332GT-ML switch ports work in Full duplex mode only. An error message is generated if you attempt to change P332G-ML and P332GT-ML ports to half-duplex

.

The syntax for this command is:

set port duplex

<mod_num>/<port_num> {full|half}

Example:

To set port 1 on module 2 to full duplex:

P330-N# set port duplex 2/1 full

Port 2/1 set to full-duplex.

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set port name

Use the

set port name to configure a name for a port. If you do not specify a name, the port name remains empty.

The syntax for this command is:

set port name <mod_num>/<port_num> [<name>] name Name assigned to the port.

Output Example:

P330-N# set port name 1/2 arthur

Port 1/2 name set.

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

set port trap

Use the

set port trap command to enable/disable generic SNMP uplink/ downlink traps from a port.

The syntax for this command is:

set port trap <mod_num>/<port_num> {enable|disable}

Output Example:

P330-N# set port trap 1/2 enable

Port 1/2 up/down trap enabled.

set port vlan

Use the

set port vlan command to set the Port’s VLAN ID (PVID). The VLAN number must be within the range 1 to 3071.

The syntax for this command is:

set port vlan <value> <mod_num>/<port_num> value mod_num/ port_num

Number between 1 and 3071, identifying the VLAN.

The switch number/the port number.

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Output Example:

To set VLAN 850 to include ports 4 through 7 on module 3.

P330-N# set port vlan 850 3/4-7

VLAN 850 modified.

VLAN Mod/Ports

---- -----------------------

850 3/4-7

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set port vlan-binding-mode

Use the set port vlan-binding-mode

command to define the binding method used by ports.

The syntax for this command is:

set port vlan-binding-mode [port_list] [value] port list value

Switches and ports to bundle (format: switch/port)

static

- the port supports only the VLAN as configured per port

bind-to-configured

- the port supports the VLANs configured on the device

bind-to-all

- the port support the whole range of VLANs on the device

.

.

Output Example:

P330-N# set port vlan-binding-mode 1/5-9 static

Set Port vlan binding method:1/5

Set Port vlan binding method:1/6

set port static-vlan

Use the set port static-vlan

command to statically assign VLANs to ports.

The syntax for this command is:

set port static-vlan [module/port range] [vlan num]

[module/port]

- port range

{vlan range]

- vlan to bind to port

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Example:

P330-N# set port static-vlan 1/4-6 9

set port self-loop-discovery Admin_Status

Use the set port self-loop-discovery Admin_Status command to enable or disable a port’s IBM token ring discovery mode. The port’s self-loopdiscovery feature is activated only after you enable the self-loop-discovery mode at the module level using the set self-loop-discovery Admin_status command.

Note:

This command is not supported by the P330-ML switches.

The syntax for this command is:

set port self-loop-discovery Admin_Status <enable|disable>

<module/port>

Output Example:

P330-N# set port self-loop-discovery Admin_Status enable 1/2

Self-Loop-Discovery enabled on port 1/2.

set port channel

Use the

set port channel command to enable or disable a Link Aggregation

Group (LAG) interface on the switch. LAG creation requires a LAG name to be specified. There is no default name.

You can also add or remove a port from an existing LAG. When adding or removing a port to an existing LAG, type the same LAG-name. All ports in the LAG are configured with the parameters of the first port that is added to the LAG. These parameters include port administrative status, speed, duplex, autonegociation mode, VLAN ID, tagging mode, binding mode, and priority level.

The ports added to a LAG must belong to the same LAG group - refer to the “LAG” marking on device’s front panel.

The syntax for this command is:

set port channel [port_list] [value] [name] port_list value

Switch and ports to bundle (format: module/port) on/off to enable/disable a channel for the specified module ports

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Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

Output Example:

P330-1(super)# set port channel 1/1-3 on test

Port 1/1 channel mode set to on

Port 1/2 was added to channel

Port 1/3 was added to channel

set port classification

Use the set port classification

command to set the port classification to either regular or valuable. Any change in the Spanning Tree state from Forwarding for a valuable port will erase all learnt MAC addresses in the stack.

The syntax for this command is:

set port classification [module/port] {regular | valuable} module port regular | valuable switch/port range port classification

Output Example:

P330-1(super)# set port classification 2/19 valuable

Port 2/19 classification has been changed.

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set port redundancy on/off

Use the

set port redundancy command to define/delete port redundancy schemes between a Primary and a Secondary link. There should not be any redundancy scheme already defined on any of the links.

The syntax for this command is:

set port redundancy <mod_num>/<prim_port_num> <mod_num>/

<second_port_num> {on/off} [<redundancy_name>] prim_port_num second_port_num

Primary link of the redundancy scheme

Secondary link of the redundancy scheme redundancy_name Name for the redundancy scheme (optional)

Output Example:

P330-N# set port redundancy 1/7 2/12 on red1 uplink: Port 2/12 is redundant to port 1/7.

Port redundancy is active - entry is effective immediately

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

set port redundancy

Use the

set port redundancy commands to activate or disable all defined port redundancy schemes within the stack. This command will not delete existing port redundancy entries. A port redundancy scheme is removed once the switch containing either its primary or secondary ports is removed from the stack.

Note:

You must disable Spanning Tree before you can enable redundancy.

The syntax for this command is:

set port redundancy

{enable|disable}

Output Example:

P330-N# set port redundancy enable

All redundancy schemes are now enabled

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set internal buffering

The

set internal buffering command allows you to set the size (either

Maximum or Minimum) of the Receive (Rx) buffer allocated to each port of the specified switch. This command is meaningless when any port of the switch is operating with flow control ON.

Note:

This command is not supported by P332G-ML and P332GT-ML switches.

The syntax for this command is:

set internal buffering <mod_num> {max|med|min} max med min

Sets the internal receive buffer to its maximum size.

Sets the internal receive buffer capacity dynamically

Sets the internal receive buffer to its minimum size (this is the

Default).

Example:

P330-N> set internal buffering 1 max

Done.

set boot bank

Use the set boot bank

command to configure the software bank from which the switch will boot at the next boot process. This command should be issued separately for each switch in the stack using the session

command.

Note:

This command is not supported by the P333R and P333R-LB switches.

Note:

If this command is to be implemented on a switch other than the stack master, a session should be opened to the relevant switch.

The syntax for this command is:

set boot bank

<value> value {bank-a | bank-b}

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Output Example:

P330-1(super)# set boot bank bank-a

Boot bank set to bank-a

set intermodule port redundancy

Use the set intermodule port redundancy

command to define or delete the stack’s unique intermodule redundancy scheme. The defined scheme can be cleared using the set intermodule port redundancy off command

.

The syntax for this command is:

set intermodule port redundancy <module/prim-port> <module/ second-port> {on [<name>]} module/prim-port module/second-port on name

The primary port number

The secondary port number

Set the intermodule redundancy

The name of the fast redundancy (default is 'fast')

Output Example:

P330-N> set intermodule port redundancy 1/7 2/12 on backbone backbone: port 2/12 is intermodule redundant to port 1/7

Note:

You must disable Spanning Tree before you can enable redundancy.

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

set intermodule port redundancy off

Use the set intermodule port redundancy off

command to clear the intermodule redundancy scheme.

The syntax for this command is:

set intermodule port redundancy off

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set port mirror

Use the

set port mirror command to define a port mirroring sourcedestination pair in the stack.

The syntax for this command is:

set port mirror source-port <mod_num>/<port_num> mirror-port

<mod_num>/<port_num> sampling {always|disable} direction

{rx|tx|both} always disable rx tx both

Keyword to activate the port mirroring entry

Keyword to change the status of the port mirroring entry to “not active”

Keyword to copy only incoming traffic

Keyword to copy only outgoing traffic

Keyword to copy both incoming and outgoing traffic

Output Example:

P330-N# set port mirror source-port 1/9 mirror-port 1/10 sampling always direction both

Mirroring both Rx and Tx packets from port 1/9 to port 1/10 is enabled

set port spantree

Use the set port spantree

command to enable or disable the spanning tree mode for specific switch ports.

The syntax for this command is:

set port spantree {enable|disable} [module/port] enable|disable Enables or disables the spanning tree mode for the specified ports.

The switch/port number.

module/port

Output Example:

Enable the spanning tree mode for port 2 on module 3.

P330-N# set port spantree enable 3/2

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set port spantree priority

Use the set port spantree priority

command to set the priority level of a port. This value defines the priority of a port to be blocked in case two ports with the same costs cause a loop.

The syntax for this command is:

set port spantree priority [module/port] [value] module/port value

The switch number/the port number.

Number representing the priority of the port. The priority level is from 0 to 255, with 0 indicating high priority and

255 indicating low priority. A port with a lower priority will be blocked.

set port spantree cost

Use the set port spantree cost command to set the cost of a port. This value defines which port will be allowed to forward traffic if two ports with different costs cause a loop.

The syntax for this command is:

set port spantree cost [module/port] [value] module/port value

The switch number/the port number.

Number representing the cost. The cost level is set from 1 to 65535. A lower cost (lower value) specifies precedence of a port to forward traffic.

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set port security

Use the set port security

command to enable MAC security on a port or a range of ports at the module level. The port security is activated only after you enable the secutity mode at the stack level using the set security mode command.

Note:

This command is not supported in P332G-ML and P332GT-ML switches. This command is used to set port security for ports in other P330 switches in the stack.

The syntax for this command is:

set port security

{ enable | disable } [<module>[/<port>]] enable | disable module/port

Set the port security enable or disable

The switch number/the port number

Output Example:

P330-N> set port security enable 1/2

Port 1/2 secured.

set cascading

Use the set cascading

command to enable or disable fault-trap sending for unconnected cascading links. The default setting is disable.

The syntax for this command is:

set cascading{up|down}fault-monitoring {enable|disable}

<mod-num>

Output Example:

P330-N# set cascading down fault-monitoring enable 1

Module 1 cascading-down fault monitoring enabled.

set inband vlan

Use the

set inband vlan command to set a value for the management vlan

(from 1 to 3071).

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The syntax for this command is:

set inband vlan

<value> value A VLAN number between 1 and 3071.

Output Example:

P330-N# set inband vlan 1

Management VLAN number set to 1

set vlan

Use the set vlan

command to create VLANs.

The syntax for this command is:

set vlan <vlan-id> [name <vlan-name>] vlan-id vlan-name vlan number vlan name

Output Example:

P330-N# set vlan 3 name v3

VLAN ID 3 is named v3.

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

set port flowcontrol

Use the

set port flowcontrol command to set the send/receive mode for flow-control frames (IEEE 802.3x or proprietary) for a full duplex port. Each direction (send or receive) can be configured separately only for Gigabit Ethernet ports. Proprietary flow control cannot be configured on Gigabit ports. The

set flowcontrol command cannot be used on Gigabit ports for which autonegotiation is enabled.

The syntax for this command is:

set flowcontrol [direction] [module/port] [value] where the parameters of direction

are receive|send|all

, and the parameters of value

are on|off|proprietary

.

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Field

receive send all

Description

Controls the receipt of IEEE802.3x flow-control frames on Gigabit ports only:

• ON indicates that the local port will act upon flow control frames received from the far end.

• OFF indicates that the local port will discard flow control frames received from the far end.

Controls the sending of IEEE802.3x flow-control frames from

Gigabit ports only:

• ON indicates that the local port is allowed to send flow control frames to the far end.

• OFF indicates that the local port is not allowed to send flow control frames to the far end.

Controls the sending and receipt of flow-control frames for any type of ports:

• ON indicates that the local port will both act upon and send

IEEE802.3x flow control frames.

• OFF indicates that the local port will both discard and not send flow control frames (of any type).

• PROPRIETARY indicates that the local port will both act upon and send Avaya proprietary flow control frames.

proprietary A proprietary flow control which may be used when a P330 is connected to M770 10/100 ports or P110 ports.

module/ port

Switch number/port number

Output Example:

P330-1(super)# set port flowcontrol all 2/20 on

Port 2/20 flow control administration status set to on

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set port auto-negotiation-flowcontrol-advertisement

The

set port auto-negotiation-flowcontrol-advertisement command sets the flowcontrol advertisement for a Gigabit port when performing autonegotiation.

The syntax for this command is:

set port auto-negotiation-flowcontrol-advertisement <mod_num>/

<port_num> {no-flowcontrol|asym-tx-only|sym-only|sym-and-asym-rx} no-flowcontrol asym-tx-only

The port will advertise no pause capabilities.

The port will advertise asymmetric Tx pause capabilities only.

sym-only The port will advertise symmetric pause capabilities only.

sym-and-asym-rx The port will advertise both symmetric and asymmetric Rx pause capabilities.

Output Example:

P330-N# set port auto-negotiation-flowcontrol-advertisement

1/5 asym-tx-only

P330-N# Port 1/5 pause capabilities was set

set trunk

Use the

set trunk command to configure the tagging mode of a post.

set trunk [module/port] [value] module/port value module/port number off/dot1q

Output Example:

P330-1(super)# set trunk 2/20 dot1q

Dot1Q VLAN tagging set on port 2/20.

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set leaky-vlan

Use the set leaky-vlan command to define the P330 stack’s leaky VLAN mode. In this mode, VLAN test is done only on broadcast/multicast/unknown frames, and not on unicast frames.

The syntax for this command is:

set leaky-vlan <enable|disable>

Output Example:

P330-N# set leaky-vlan enable

Leaky VLAN mode enabled

set spantree

Use the

set spantree command to enable/disable the spanning-tree protocol for the stack.

Note:

When you disable STP, blocking ports are disabled in order to prevent loops in the network. As a result, you should wait 30 seconds before disabling STP if you reset the switch, enabled STP, or inserted a new station.

The syntax for this command is:

set spantree {enable|disable}

Output Example:

P330-N# set spantree enable bridge spanning tree enabled.

priority

Use the

set spantree priority command to set the bridge priority for STP.

The syntax for this command is:

set spantree priority <value> value Number representing the priority of the bridge with a priority level from 0 to 65535, with 0 indicating high priority and 65535 indicating low priority.

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Example:

To set the priority to 45000:

P330-N# set spantree priority 45000

Priority enabled

set autopartition

Use the

set autopartition command to enable or disable auto-partitioning on specific switches of the stack.

Note:

This command can not be executed on the P332G-ML and P332GT-ML switches. This command is used to set the autopartition status for the other P330 switches in the stack.

The syntax for this command is:

set autopartition <enable|disable>[module]

Output Example:

P330-N# set autopartition enable 3

Auto-partition is enabled in module 3.

set license

The

set license command enables you to activate the SMON/routing capability of the Avaya P330 stack. An Avaya P330 stack can include several Avaya

P330 switches. One SMON/routing license is required per Avaya P330 stack.

For a full description of the SMON/routing License and the installation procedure please refer to the Installation Guide provided with the SMON/routing License.

The syntax for this command is:

set license [module] [license] [featureName] module license featureName

The switch number

The license number

The name of the feature, either smon

or routing

Example:

P330-N> set license 1 021 1ad bad ca5 8d2 ccd smon

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set ppp authentication incoming

Use the set ppp authentication incoming

command to define the authentication method used for a PPP server or client session.

The syntax for this command is:

set ppp authentication incoming

{pap|chap|none} pap chap none

PAP authentication method

CHAP authentication method

No authentication

Example:

P330-N(super)# set ppp authentication incoming chap

set ppp incoming timeout

Use the

set ppp incoming timeout

command to configure the number of minutes until the system automatically disconnects an idle PPP incoming session.

The syntax for this command is:

set ppp incoming timeout <time> time The timeout in minutes

Output Example:

P330-N> set ppp incoming timeout 15

PPP incoming session will automatically disconnect after 15 minutes of idle time

set ppp baud-rate

Use the set ppp baud-rate command to define the baud rate used in PPP sessions.

Note that the peer baud rate must be set at the same value as the host.

The syntax for this command is:

set ppp baud-rate <9600 | 19200 | 38400>

Example:

P330-N# set ppp baud-rate 38400

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set web aux-files-url

Use the

set web aux-files-url command to allow the Device Manager to automatically locate the URL (the http://www address and path) of the Web server containing the Device Manager help files and Java plug-in.

Note:

Ensure that the Web server is always accessible otherwise Web access to the device may take a few minutes.

The syntax for this command is:

set web aux-files-url <//IP address/directory name>

Example:

P330-N# set web aux-files-url //192.168.47.25/emweb-aux-files

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

set intelligent-multicast

Use the set intelligent-multicast

command to enable or disable the IPmulticast filtering application.

The syntax for this command is:

set intelligent-multicast {enable|disable}

Example:

P330-N> set intelligent-multicast enable

Done!

set intelligent-multicast client port pruning time

Use the

set intelligent-multicast client-port-pruning time command to define aging time for client ports.

The syntax for this command is:

set intelligent-multicast client-port-pruning time <time> time The time in seconds.

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Example:

P330-N> set intelligent-multicast client-port-pruning-time 20

Done!

set intelligent-multicast router port pruning time

Use the

set intelligent-multicast router-port-pruning time command to define aging time for router ports.

The syntax for this command is:

set intelligent-multicast router-port-pruning time <time> time The time in seconds.

Example:

P330-N> set intelligent-multicast router-port-pruning time 20

Done!

set intelligent-multicast group-filtering delay time

Use the

set intelligent-multicast group-filtering-delay time command to define group filtering time delays.

The syntax for this command is:

set intelligent-multicast group-filtering-delay time <time> time The time in seconds.

Example:

P330-N> set intelligent-multicast group-filtering-delay time

20

Done!

set secure mac

Use the set secure mac command to add a unicast MAC address into the CAM table of a secured port. This command is accessed only through connection to a particular switch, not directly from the master switch.

Note:

This command is not supported by the P332G-ML and P332GT-ML switches.

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The syntax for this command is:

set secure mac <mac-address> port <mod-num>/<port-num>

set security mode

Use the set security mode

command to enable or disable MAC security at the stack level. When enabled, the ports are secured based on their individual configuration. When disabled, all the ports in a stack are non-secured.

The syntax for this command is:

set security mode { enable | disable }

Output Example:

P330-N> set security mode enable

Security mode enabled.

set arp-aging-interval

Use this command to set the ARP table aging interval for gateways’ entries in the agent ARP table. The MAC value for the default gateway of ML agent in the ARP table, is deleted at the end of every aging interval. The default value is 10 minutes.

The syntax for this command is:

set arp-aging-interval <value> value The number representing the interval, from 0-10 minutes.

Example:

P330-N# set arp-aging-interval 20

ARP aging interval was set to 20 minutes.

set arp-tx-interval

Use the set arp-tx-interval command to set the keep-alive frames sending interval.

Setting the interval to 0 disables the transmission of the keep-alive frames.

The syntax for this command is:

set arp-tx-interval <value> value The interval, in seconds.

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Output Example:

P330-N# set arp-tx-interval 15

ARP tx interval was set to 15 seconds.

set self-loop-discovery Admin_Status

Use the set self-loop-discovery Admin_Status command to enable or disable IBM token ring discovery feature at the module level.

Note:

You must disable Spanning Tree before you can enable self-loop-discovery.

Note:

This command is not supported by the P332G-ML and P332GT-ML switches.

The syntax for this command is:

set self-loop-discovery Admin_Status <enable|disable>

<modul num>

Example:

P330-N# set self-loop-discovery Admin_Status enable 1

Self-Loop-Discovery is disabled on module 1.

set welcome message

Use the set welcome message

command to set a welcome message to appear after a reboot or after opening a new session (see session

command) in the stack.

The syntax for this command is:

set welcome message [string] string

string -

The string to be used as the welcome message.

blank -

Restores the default string.

Output Example:

P330-N# set welcome message avaya

The new welcome string is “avaya”

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Note:

If you wish to define a string which includes spaces, you must enclose the entire string in quotation marks, e.g. "new york".

set allowed managers

Use the set allowed managers

command toenable/disable the Allowed

Managers feature. When this feature is enabled, only those stations whose IP addresses are listed in the Allowed Managers table can access the device over

Telnet, SNMP, or HTTP.

The syntax for this command is:

set allowed managers [enabled|disabled]

Output Example:

P330-N> set allowed managers enabled

Managers are enabled

set allowed managers IP

Use the set allowed managers IP command to add or remove an IP address from the Allowed Managers table. The Allowed Managers table can contain up to twenty IP addresses.

The syntax for this command is:

set allowed managers ip [add|delete][IP address]

Output Example:

P330-N> P330-1(super)# set allowed managers ip add

149.49.32.134

Ip was added to the table

set psu type

Use the set psu type command to set the main power supply type (AC/DC) of the module.

Note:

This command is not applicable to P332G-ML and P332GT-ML switches. This command is used to set the power supply types for other P330 switches in the stack.

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sync time

Use the sync time

command to synchronize the time used by all switches in a stack.

The syntax for this command is:

sync time

Output Example:

P330-N# sync time

Time has been distributed.

get time

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The syntax for this command is:

set psu type [AC|DC][module number]

Output Example:

P330-N> set psu type DC 3

Power supply type was changed to DC on module 3

Use the get time

command to retrieve the time from the network.

The syntax for this command is:

get time

Output Example:

P330-N# get time

Time is already being acquired from network!

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reset

Use the

reset command to restart the system or an individual switch. If no switch number is defined or the switch number of the Master is defined, the command resets the entire system. If the switch number is defined, the command resets the specified switch only.

Note:

You should perform a reset after downloading software to the switch.

The syntax for this command is:

reset

{module number}

Output Example:

To reset the Master agent and force the entire system to reset:

P330-N# reset

This command will force a switch-over to the master module and disconnect your telnet session.

Do you want to continue (y/n) [n]? y

Connection closed by foreign host.

Output Example:

To reset switch 4:

P330-N# reset 4

This command will reset module 4 and may disconnect your telnet session.

Do you want to continue (y/n) [n]? y

Resetting module 4...

reset stack

Use the reset stack

command to perform a hardware reset in the entire stack.

The syntax for this command is:

reset stack

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reset mgp

Use the reset mgp

command to perform a software reset in the G700 Media

Gateway Processor.

The syntax for this command is:

reset mgp

reset wan

Use the reset wan

command to perform a software reset in the X330 WAN Access

Router Module.

The syntax for this command is:

reset wan [module number][bank-a] module number bank-a

Optional - the module number where the WAN module to be reset resides.

Optional - boot the WAN module from bank-a after reset.

Example:

To reset a WAN module residing on switch 2:

P330-N# reset wan 2

This command will force a switch-over to the wan device and disconnect your telnet session

*** Reset *** - do you want to continue (Y/N)? y

nvram initialize

Use the

nvram initialize command to reset the P330 parameters to the factory defaults. If no options are specified for this command, only the Layer 2 parameters will be reset.

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The syntax for this command is:

nvram initialize [switch|all] switch all

Resets all the switching level parameters (Layer 2 only) throughout the stack

Resets all parameters including licenses and routing parameters of the Layer 3 switches present in the stack

Output Example:

P330-N# nvram initialize

This command will force a factory default and switch-over to the master module and disconnect your telnet session.

Do you want to continue (y/n) [n]? y

Connection closed by foreign host.

host%

rmon history

Use the

rmon history command to create an RMON history entry.

The syntax for this command is:

rmon history <history index> [<module>[</port>]] interval

<interval> buckets <number of buckets> owner <owner name> history_index module/port interval number of buckets owner name

This is the history index number of this entry (it is advisable to use the same interface number as your history index number).

The switch number/the port number.

The interval between 2 samples.

The number of buckets defined.

The owner name string.

Output Example:

P330-N# rmon history 1026 1026 3/2 interval 30 buckets 20 owner amir history 1026 was created successfully

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Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

rmon alarm

Use the

rmon alarm command to create a new RMON alarm entry.

The syntax for this command is:

rmon alarm <Alarm Number> <variable> <interval> <sampletype>

rising-threshold <rising threshold> <rising event> falling-

threshold <falling threshold> <falling event> <startup alarm>

<owner> alarm number variable

This is the alarm index number of this entry (it is advisable to use the same interface number as your alarm index number.)

This is the MIB variable which will be sampled by the alarm entry.

The interval between 2 samples.

interval sample type This can be set to either delta (the difference between 2 samples) or an absolute value.

rising threshold This sets the upper threshold for the alarm entry.

rising event The RMON event entry that will be notified if the upper threshold is passed.

This sets the lower threshold for the alarm entry.

falling threshold falling event startup alarm owner

The RMON event entry that will be notified if the lower threshold is passed.

The instances in which the alarm will be activated. The possible parameters are: Rising, Falling, risingOrfalling.

Owner name string.

Output Example:

P330-N# rmon alarm 1026 1.3.6.1.2.1.16.1.1.1.5.1026 60 delta rising-threshold 10000 1054 falling-threshold 10 1054 risingOrFalling amir

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rmon event

Use the

rmon event command to create an RMON event entry.

The syntax for this command is:

rmon event <Event Number> <type> description <description>

owner <owner> event number This is the event index number of this entry.

type description

The type of the event. The possible parameters are:

trap, log, logAndTrap, none.

A user description of this event owner Owner name string

Output Example:

P330-N# rmon event 1054 logAndTrap description "event for monitoring amir’s computer" owner amir event 1054 was created successfully

copy stack-config tftp

Use the

copy stack-config tftp command to upload the stack-level parameters from the current NVRAM running configuration into a file via TFTP.

Note:

Create the file into which you wish to upload the stack-level parameters prior to executing this command.

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The syntax for this command is:

copy stack-config tftp <filename> <ip> filename ip

The file name (full path)

The IP address of the TFTP server

Output Example:

P330-N# copy stack-config tftp c:\conf.cfg 192.168.49.10

Beginning upload operation ...

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This operation may take a few minutes...

Please refrain from any other operation during this time.

For more information , use ’upload status’ command

********************************************************************

* If you are currently running the P330 Device Manager application,*

* it is recommended to exit from it before performing configuration*

* download operations. *

********************************************************************

copy module-config tftp

Use the

copy module-config tftp command to upload the switch-level parameters from the current NVRAM running configuration into a file via TFTP.

If an error occurred during upload (you can check this using the command show tftp upload status

) you must fix the problem. The following is a list of possible problems: a You did not create an empty text file at the destination server (0 Bytes).

b You do not have the correct path to the file.

c The destination server is not active/on.

d The destination server is unreachable.

Then, perform the upload procedure again twice as follows: a Delete the destination file and recreate a correctly named empty file at the destination server (0 Bytes) b Type the command copy module-config tftp

for the first time.

c Delete the destination file and recreate a correctly named empty file at the destination server (0 Bytes) d Type the command copy module-config tftp

again, a second time.

The syntax for this command is:

copy module-config tftp <filename> <ip> <mod_num> filename ip mod-num

The file name (full path)

The IP address of the TFTP server

The switch number

Output Example:

P330-N# copy module-config tftp c:\config\switch1.cfg

192.168.49.10 5

Beginning upload operation ...

This operation may take a few minutes...

Please refrain from any other operation during this time.

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For more information , use ’show tftp upload status’ command

********************************************************************

* If you are currently running the P330 Device Manager application,*

* it is recommended to exit from it before performing configuration*

* download operations. *

********************************************************************

copy tftp stack-config

Use the

copy tftp stack-config command to download the stack-level configuration from a saved file into the current NVRAM running configuration, via

TFTP. To use this command, you need to have an active tftp server, and to create a file into which to download the data. If Avaya Multi-Service Network Manager is running, an additional TFTP server is not required.

Note:

You should perform the nvram initialize

command prior to the copy tftp

operation.

The syntax for this command is:

copy tftp stack-config <filename> <ip> filename ip

The file name (full path)

The IP address of the TFTP server

Example:

P330-N# copy tftp stack-config c:\config\switch1.cfg

192.168.49.10

copy tftp module-config

Use the

copy tftp module-config command to download the switch-level configuration from a saved file into the current NVRAM running configuration of a switch, via TFTP. To use this command, you need to have an active tftp server, and to create a file into which to download the data. If Avaya Multi-Service Network

Manager is running, an additional tftp server is not required.

Note:

You should perform the nvram initialize

command prior to the copy tftp

operation.

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The syntax for this command is:

copy tftp module-config <filename> <ip> filename ip

The file name (full path)

The ip address of the TFTP server

Example:

P330-N# copy tftp module-config c:\config\switch1.cfg

192.168.49.10 5

copy tftp EW_archive

Use the

copy tftp EW_archive command to download the P330 Device

Manager application into the switch via TFTP. To use this command, you need to have an active TFTP server, and to create a file into which to download the data. If

Avaya Multi-Service Network Manager is running, an additional TFTP server is not required.

The syntax for this command is:

copy tftp EW_archive <filename> <ip> <mod_num> filename ip mod_num

Embedded Web Manager image file name (full path)

The ip address of the TFTP server

Target switch number

Example:

P330-N# copy tftp EW_archive c:\p330\p330web201

192.168.49.10 5

copy tftp SW_image

Use the copy tftp SW_image

command to update the software image and the device manager applications of a designated switch. To use this command, you need to have an active TFTP server, and to create a file into which to download the data. If Avaya Multi-Service Network Manager is running, an additional tftp server is not required.

The syntax for this command is:

copy tftp SW_image <image-file> EW_archive <filename><ip>

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<mod_num> image-file filename ip mod_num

Common name for the files that contain the Software

Image and Embedded Web archive (full path)

Embedded Web Manager image file name (full path)

The ip address of the TFTP server

Target switch number

Example:

P330-N# copy tftp SW_image c:\p330\p330web101 EW_archive c:\p330\p330web201 192.168.49.10 5

Radius Commands

The following radius commands are accessible from Privileged mode.

• set radius authentication secret

• set radius authentication server

• clear radius authentication server

• set radius authentication retrytime

• set radius authentication retrynumber

• set radius authentication udpport

Enables secret authentication for the

Avaya P330 unit.

Sets a primary or secondary RADIUS server IP address.

Removes a primary or secondary

RADIUS authentication server.

Sets the time to wait before re-sending an access request.

Sets the number of times an access request is sent when there is no response.

Sets the RFC 2138 approved UDP port number.

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set radius authentication secret

Use the

set radius authentication secret command to enable secret authentication for the P330 unit.

The syntax for this command is:

set radius authentication secret <string>

string

text password

Example:

P330-N(super)# set radius authentication secret sodot

set radius authentication server

Use the

set radius authentication server command to set a primary or secondary RADIUS server IP address.

The syntax for this command is:

set radius authentication server <ip-address>

<primary|secondary> ip-addr primary secondary

IP address of the RADIUS authentication server default - Primary authentication server

Secondary authentication server

Example:

P330-N(super)# set radius authentication server 192.168.38.12 primary

clear radius authentication server

Use the

clear radius authentication server command to remove a primary or secondary RADIUS authentication server.

The syntax for this command is:

clear radius authentication server[{primary|secondary}]

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set radius authentication retry-time

Use the

set radius authentication retry-time command to set the time to wait before re-sending an access request.

The syntax for this command is:

set radius authentication retry time <time> time Retry time in seconds

set radius authentication retry-number

Use the

set radius authentication retry-number command to set the number of times an access request is sent when there is no response.

The syntax for this command is:

set radius authentication retry number <number> number Retry number

set radius authentication udp-port

Use the

set radius authentication udp-port command to set the RFC

2138 approved UDP port number. Normally, the UDP port number should be set to its default value of 1812. Some early implementations of the RADIUS server used port number 1645.

The syntax for this command is:

set radius authentication server udp-port <number>

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Supervisor Level Commands

This level includes all the commands of the User and Privileged Levels (including all show and

set commands).

username

Use the

username command to add a local user account. You can only do this from within the Supervisor Level.

The syntax for this command is:

username <name> password <passwd> access-type{read-only|readwrite|admin} name passwd access-type

New user name

User’s password

Access type definition - read only, read-write or administrator

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

no username

Use the

no username command to remove a local user account.

The syntax for this command is:

no username <name>

Note:

If you wish to define a name which includes spaces, you must enclose the entire name in quotation marks, e.g. "new york".

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show username

Use the show username

command to display the username.

The syntax for this command is:

show username

Output Example:

P330-N> show username

User account password access-type

-------------- ------------------------------ ----------root **** admin

set ppp chap-secret

Use the

set ppp chap-secret

command to configure the shared secret used in

PPP sessions with CHAP authentication.

The syntax for this command is:

set ppp chap-secret <chap-secret> chap-secret The shared secret, 4 to 32 characters.

Output Example:

P330-N(super)# set ppp chap secret sodot

PPP shared secret for CHAP authentication is set

show radius authentication

Use the

show radius authentication command to display all RADIUS authentication configurations. The shared secrets are not displayed.

The syntax for this command is:

show radius authentication

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set radius authentication

Use the

set radius authentication command to enable or disable authentication for the P330 unit. RADIUS authentication is disabled by default.

The syntax for this command is:

set radius authentication [enable|disable]

tech

Example:

P330-N(super)# show radius authentication

RADIUS authentication parameters:

---------------------------------

Mode: Enabled

Primary-server: 192.168.42.252

Secondary-server: 192.168.48.134

Retry-number: 4

Retry-time: 5

UDP-port: 1645

Shared-secret: sodot

Use the tech

command to enter tech mode. This command is reserved for service personnel use only.

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Chapter 7

Installing the Embedded Web Manager

The Embedded Web Manager provides the following:

• Managing and monitoring Power over Ethernet.

• Device Configuration - Viewing and modifying the different device configurations.

• Virtual LANs - Viewing and editing Virtual LAN information.

• Link Aggregation Groups (LAGs) - Viewing and editing LAG information.

• Software Redundancy - Setting software redundancy for ports in an Avaya P330

Switch.

• Port Mirroring - Setting up port mirroring for ports in an Avaya P330 Switch.

• Trap Managers Configuration - Viewing and modifying the Trap Managers

Table.

• Switch Connected Addresses - View devices connected to selected ports.IP

Multicast filtering with IGMP snooping (new hardware)

— Software support from s/w 3.0.

• Hardware support - from Hardware Ver. C/S; 2.0.

• Port Security.

• Intermodule Redundancy

— One pair per stack.

— Also operates as a result of a module fault, e.g., power failure.

System Requirements

Minimum hardware and Operating System requirements are:

• One of the following operating systems:

— Windows® 95

— Windows 98 SP1

— Windows 98 OSR (Second Edition)

— Windows ME

— Windows NT® 4 Workstation or Server

— Windows 2000 Professional or Server

• Pentium® II 400 Mhz-based computer with 256 Mb of RAM

(512 Mb recommended)

• Minimum screen resolution of 1024 x 768 pixels

• Sun Microsystems Java™ plug-in version 1.2.2 (supplied)

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133

Chapter 7 Installing the Embedded Web Manager

• Microsoft® Internet Explorer® or Netscape Navigator/Communicator® (see table)

Table 7.1

Embedded Web Manager/Browser Compatability

Internet Explorer

Netscape Navigator/

Communicator

Windows 95 or NT Windows 98, ME or 2000

5.0 or higher

4.7

5.01 or higher

4.73

Note for users of Netscape Navigator: The Java plug-in requires certain services from

Windows 95 which are not present if Internet Explorer is not installed. In order to

add these services to the operating system, please install Internet Explorer version 3 or higher. You can then use either browser to manage the switch.

Running the Embedded Web Manager

Note:

You should assign an IP address to the switch before beginning this procedure.

1 Open your browser.

2 Enter the url of the switch in the format

http://aaa.bbb.ccc.ddd

where

aaa.bbb.ccc.ddd

is the IP address of the switch.

Note:

The user name is “root”

The default password for read-write access is “root”.

Note:

The Web management passwords are the same as those of the CLI. If you have created additional CLI user names or changed the default passwords then you can use those passwords for Web management as well.

134

Avaya P333T User’s Guide

The welcome page is displayed:

Figure 7.1

The Welcome Page

Chapter 7 Installing the Embedded Web Manager

Avaya P333T User’s Guide

135

Chapter 7 Installing the Embedded Web Manager

— If you have the Java plug-in installed, the Web-based manager should open

in a new window (see Figure 7.2

).

Figure 7.2

Web-based Manager

136

— If you do not have the Java plug-in installed, follow the instructions on the

Welcome page that offers a variety of options to install the plug-in (see

Figure 7.1

).

Avaya P333T User’s Guide

Chapter 7 Installing the Embedded Web Manager

Installing the Java Plug-in

If the network manager has configured the system, the plug-in should be installed automatically.

Note:

Ensure that Java or JavaScript is enabled on your Web browser. Please refer to your browser on-line help or documentation for further information.

If the plug-in is not installed automatically, then you have three options for installing it manually:

1 Installing from the Avaya P330 Documentation and Utilities CD

1 Close all unnecessary applications on your PC.

2 Insert the “Avaya P330 Documentation and Utilities” CD into the CD drive.

3 Click Start on the task bar.

4 Select Run.

5 Type

x:\emweb-aux-files\plug-in_1_3_1.exe

where

x:

is the CD drive letter.

6 Follow the instructions on screen.

2 Install from the Avaya Site

Click on the link in the Welcome page.

3 Install from your Local Web Site

Click on the link in the Welcome page.

Note:

This option is only available if the network manager has placed the files on the local Web server.

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137

Chapter 7 Installing the Embedded Web Manager

Installing the On-Line Help and Java Plug-In on your Web Site

Note:

This procedure is optional.

Copying the help files and Java plug-in to a local Web server allows users to access the on-line help for the Embedded Manager and enables automatic installation of the Java plug-in the first time the users tries to manage the device.

1 Copy the

emweb-aux-files directory from the “Avaya P330 Documentation and Utilities” CD to your local Web server. Please refer to your Web server documentation for full instructions.

2 Define the URL in the Avaya P330 using the following CLI command:

set web aux-files-url //IP address/directory name

where

//IP address/directory name

is the location of the directory from the previous step.

Refer to Chapter 6 for further details of the command.

Documentation and Online Help

Refer to the Avaya P330 Documentation and Utilities CD.

Software Download

You can perform software download using the CLI or Avaya UpdateMaster (part of the Avaya Multi-Service Network Manager Suite).

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Appendix A

Specifications

Avaya P333T Switch

Physical

Height

Width

Depth

Weight

2U (88 mm, 3.5”)

482.6 mm (19”)

450 mm (17.7”)

7.5 kg (16.5 lb)

Power Requirements

AC

Input voltage 100 to 240 VAC, 50/60 Hz

Power dissipation 150 W max

Input current 5.3 A

Power Requirements

DC

Input voltage -36 to -72 VDC

Power dissipation 150 W max

Input current

Inrush current

5.1 A max

50 A max

Environmental

Operating Temp.

-5 to 50°C (23 to 122°F)

Relative Humidity 5% to 95% non-condensing

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139

Appendix A Specifications

Safety

• UL for US approved according to UL195O Std.

• C-UL(UL for Canada) approved according to C22.2 No.950 Std.

• CE for Europe approved according to EN 60950 Std.

• Laser components are “Class 1 Laser Products”:

— EN-60825/IEC-825-1 for Europe

— FDA 21 CFR 1040.10 and 1040.11 for USA.

• Overcurrent Protection: A readily accessible listed safety-approved protective device with a 16A rating must be incorporated in series with building installation AC power wiring for the equipment under protection.

Avaya P330 DC Input Version

• Restricted Area Access: This device should only be installed in a restricted access area.

• Installation Codes: This device must be installed in accordance with the US

National Electrical Code, Articles 110-26 and 110-27, and the Canadian

Electrical Code, Section 12.

• Overcurrent Protection: A readily accessible Listed branch-circuit overcurrent protective device with a 15A rating must be incorporated in the building wiring.

Agency Approvals

EMC Emissions

Approved according to:

• US - FCC Part 15 Subpart B, Class A

• EU - EN55022 Class A

• EU - EN61000-3-2

• Japan - VCCI-A

Immunity

Approved according to:

• EN55024

• EU - EN61000-3-3

140

Other

Approved according to:

• CLEI Code: According to Tecordia (Bellcore) KS-22022 Standard

• NEBS Level 3:

— AC Product with optional brackets

— DC Product certified

Avaya P333T User’s Guide

Appendix A Specifications

Interfaces

• 24 x 10/100BASE-T RJ45 port connectors.

• RS-232 for terminal setup via RJ45 connector on front panel.

Standards Compliance

The Avaya P330 complies with:

IEEE

• 802.3x Flow Control on all ports

• 802.1p Priority Tagging compatible on all ports

• 802.1Q VLAN Tagging support on all ports

• 802.1D Bridges and STA

• 802.1W Rapid Spanning Tree

• 802.1X Port Based Network Access Control

• 803.2z Gigabit Ethernet ports

• 803.2u Ethernet/Fast Ethernet ports

IETF

• MIB-II - RFC 1213

• Bridge MIB for Spanning Tree - RFC 1493

• Bridge MIB for STP and CAM contents - RFC 1314

• ATM Management - RFC 1695

• RMON - RFC 1757

• SMON - RFC 2613

Basic MTBF

• 140,000 hrs minimum (see Section

MTBF in Various Configurations )

Stacking Module

Table A.1

Stacking Module

Name

X330STK

Number of

Ports

2

Avaya P333T User’s Guide

141

Appendix A Specifications

Expansion Modules

Gigabit Ethernet Expansion Modules

Table A.2

Gigabit Ethernet Expansion Modules

Name

X330S2

X330L2

X330S1

X330L1

Number of

Ports

1

1

2

2

Interface

1000Base-SX

1000Base-LX

1000Base-SX

1000Base-LX

Laser Safety

The Avaya X330S1/S2 multi-mode transceivers and the Avaya X330L1/X330L2 single mode transceivers are Class 1 laser products.

They comply with IEC 825-1 and Food and Drug Administration (FDA) 21 CFR

1040.10 and 1040.11.

The transceivers must be operated under recommended operating conditions.

Laser Classification

CLASS 1

LASER PRODUCT

142

Note:

Class 1 lasers are inherently safe under reasonably foreseeable conditions of operation.

Caution:

The use of optical instruments with this product will increase eye hazard.

Avaya P333T User’s Guide

Appendix A Specifications

Usage Restriction

The optical ports of the module must be terminated with an optical connector or a dust plug when not in use.

Laser Data

Avaya P330S2 Expansion Modules

Wavelength: 850 nm

Output power dissipation: Max. 0.63W

Transmit power: Min. -9 dbm, Max. -4 dbm

Receive power: Min. -17 dbm, Max. 0 dbm

Avaya P330L1/2 Expansion Modules

Wavelength: 1300 nm

Output power dissipation: Max. 0.68W

Transmit power (9

µ m SMF): Min. -9.5 dbm, Max. -3 dbm

Transmit power (62.5

µ m and 50

µ m MMF): Min. -11.5 dbm, Max. -3 dbm

Receive power (9

µ m SMF, 62.5

µ m and 50

µ m MMF): Min. -20 dbm, Max. -3 dbm

Fast Ethernet Fiber Expansion Module

Table A.3

Fiber Fast Ethernet Expansion Module

Name

X330F2

Number of

Ports

2

Interface

100Base-FX

Ethernet/Fast Ethernet Expansion Module

Table A.4

Ethernet/Fast Ethernet Expansion Module

Name

X330T16

Number of

Ports

16

Interface

10/100Base-T

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143

Appendix A Specifications

GBIC Expansion Module

The Avaya X330G2 Expansion Module is the GBIC (1.25 Gbit/s Gigabit Ethernet)

Expansion Module for the Avaya P330 family of stackable switches.

Note:

In order to use this module the Avaya P330 switch must must have

Embedded S/W Version 2.2 or higher. You can download this from: http://www.avayanetwork.com/

The X330G2 can be used either as a Gigabit Ethernet link or as a high Bandwidth backplane for connecting switches. The introduction of the GBIC interface to the

Avaya P330 family presents an added value over the existing Gigabit Ethernet expansion modules. You can insert any of the Avaya-authorized GBIC transceivers into the X330G2 Expansion Module socket. This provides you with a highly modular and customisable Gigabit Ethernet interface. The GBIC transceivers are hot-swappable.

Safety Information

The multimode and single-mode GBIC transceivers are Class 1 Laser products.

They comply with EN 60825-1 and Food and Drug Administration (FDA) 21 CFR

1040.10 and 1040.11.

The GBIC transceivers must be operated under recommended operating conditions.

Laser Classification

CLASS 1

LASER PRODUCT

144

Note:

Class 1 lasers are inherently safe under reasonably foreseeable conditions of operation.

Caution:

The use of optical instruments with this product will increase eye hazard.

Usage Restriction

When a GBIC transceiver is inserted into the X330G2 Expansion Module but is not in use, then the Tx and Rx ports should be protected with an optical connector or a dust plug.

Avaya P333T User’s Guide

Appendix A Specifications

Avaya Approved GBIC Transceivers

Caution:

All Avaya approved GBICs are 5V. Do not insert a 3.3V GBIC.

Avaya supplies the following two GBIC transceivers for the Avaya P330 X330G2

Expansion Modules. You can order these directly from your local Avaya representative using the PEC or COM Codes:

Type

GBIC SX

Transceiver

GBIC LX

Transceiver

Description

Multimode Fiber

1000BaseSx (550 m)

Single-mode Fiber

1000BaseLx (10 km)

PEC Code

4705-122

4705-121

COM Code

108659228

108659210

In addition, Avaya has tested and approved a number of GBIC transceivers from other manufacturers for use with the Avaya X330G2 Expansion Module.

An up-to-date list can be found in Avaya’s website at the following address: http://www.avayanetwork.com/ .

Click on the “Supported Devices” icon.

Specifications

X330G2- LX GBIC Transceiver

A 9 mm or 10 mm single-mode fiber (SMF) cable may be connected to a

1000Base-LX GBIC port. The maximum length is 10 km (32,808 ft).

A 50 mm or 62.5 mm multimode (MMF) fiber cable may be connected to a 1000Base-

LX GBIC port. The maximum length is 550 m (1,804 ft.) for 50 mm and 62.5 mm cable.

The LX transceiver has a Wavelength of 1300 nm, Transmission Rate of 1.25 Gbps and Input Power of 5V.

X330G2- SX GBIC Transceiver

A 50

µ m

or 62.5

µ m

multimode (MMF) fiber cable may be connected to a 1000Base-

SX GBIC port. The maximum length is 500 m (1,640 ft.) for 50

µ m

cable and 220 m

(722 ft.) for 62.5

µ m

cable.

The SX transceiver has a Wavelength of 850 nm, Transmission Rate of 1.25 Gbps and

Input Power of 5V.

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145

Appendix A Specifications

Agency Approval

The transceivers comply with:

• EMC Emission: US – FCC Part 15, Subpart B, Class A;

Europe – EN55022 class A

• Immunity: EN50082-1

• Safety: UL for US UL 1950 Std., C-UL (UL for Canada) C22.2 No.950 Std., Food and Drug Administration (FDA) 21 CFR 1040.10 and 1040.11, and CE for

Europe EN60950 Std. Complies with EN 60825-1.

MTBF

The Mean Time Between Failures (MTBF) for the X330G2 Expansion Sub-module is

594,639 hours.

X330GT2 Gigabit Ethernet Expansion Module

The X330GT2 Expansion Module provides two copper Gigabit Ethernet 1000Base-T ports.

Note:

The X330GT2 module is only supported by Avaya P330 embedded software versions 2.4 and higher.

Installing the Expansion Module in the Avaya P330

1 Remove the blanking plate or other Module (if installed).

2 Insert the Module gently into the slot, ensuring that the Printed Circuit Board

(PCB) is aligned with the guide rails.

The PCB not the metal base plate fits into the guide rail.

3 Press the Module in firmly until it is completely inserted into the Avaya P330.

4 Gently tighten the two screws on the front panel of the expansion module by turning the screws.

Note:

The expansion modules contain components sensitive to electrostatic discharge. Do not touch the circuit board unless instructed to do so.

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Appendix A Specifications

Removing an Existing Expansion Module

1 Loosen the screws by turning the knobs.

2 Grasp the two knobs one near each side of the front panel, and pull gently but firmly towards yourself.

3 Insert another expansion module or the blanking plate.

Note:

The Avaya P330 switch must not be operated with the expansion slot open; the expansion module should be covered with the supplied blanking plate if necessary.

Note:

X330GT2 Modules are hot swapable and can be inserted or removed in an operating base unit.

Cabling

A Category 5 copper cable with RJ-45 termination should be used. You should use all eight wires in the cable.

The maximum copper cable length connected to a 1000Base-T port is 100 m

(328 ft.)

Avaya P333T User’s Guide

147

Appendix A Specifications

ATM Expansion Modules

There are three Avaya P330 ATM Expansion Modules:

• X330-OC12F1:

• X330-OC12S1:

500m, Multimode fiber, can also be OC-3 reduced range

15 km, Single-mode fiber, can also be OC-3

The ATM Modules can be installed in the following Avaya P330 Family switches:

• Avaya P333T Hardware Version C/S 1.3 and higher, with Embedded S/W 2.4 and higher.

Note:

The ATM Expansion Module cannot be used in Avaya P333T hardware

Versions lower than C/S 1.3.

• Avaya P334T Embedded S/W Ver. 2.4 and higher.

• Avaya P332MF Embedded S/W Ver. 3.0 and higher.

• Avaya P333R Embedded S/W Ver. 2.4 and higher.

Refer to the Avaya X330 ATM Access Module Installation Guide for installation procedures.

The multimode Avaya X330-OC12F1 and X330-OC3F1 (future) ATM Modules are

Class 1 LED products. The single-mode X330-OC12S1 ATM Module is a Class 1

Laser product. They comply with EN 60825-1 and Food and Drug Administration

(FDA) 21 CFR 1040.10 and 1040.11.

The Modules must be operated under recommended operating conditions.

Safety Information

Single-mode Module Laser Classification

CLASS 1

LASER PRODUCT

Note:

Class 1 lasers are inherently safe under reasonably foreseeable conditions of operation.

Caution:

The use of optical instruments with this product will increase eye hazard.

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Avaya P333T User’s Guide

Appendix A Specifications

Multi-Mode Module LED Warning

The following warnings apply to the X330 ATM Modules equipped with multimode fiber.

Class 1

LED Product

Warning:

Class 1 LED Product. Do not view the LED through any magnifying device while it is powered on. Never look directly at the fiber Tx port and fiber cable ends when powered on.

Backup Power Supply (BUPS)

Physical

Height

Width

Depth

Weight

2U (88 mm, 3.5”)

482.6 mm (19”)

450 mm(17.7”)

10 kg (22 lb)

Power Requirements

Input voltage

Input current

Inrush current

Output power

Output voltage

100-240 VAC, 50/60 Hz

7.76 [email protected] VAC

3.82 [email protected] VAC

70 [email protected] VAC (max.)

150 [email protected] VAC (max.)

4 x 27 [email protected] 5.5 V

5.5V

Avaya P333T User’s Guide

149

Appendix A Specifications

Environmental

Operating Temp.

0-50

0

C (32-122

0

F)

Rel. Humidity 5% to 95% non-condensing

Safety

• UL for US approved according to UL195O Std.

• C-UL(UL for Canada) approved according to C22.2 No.950 Std.

• CE for Europe approved according to EN 60950 Std.

• Overcurrent Protection: A readily accessible Listed safety-approved protective device with a 16A rating must be incorporated in series with building installation AC power wiring for the equipment under protection.

EMC Emissions

Emissions

Approved according to:

• Europe - EN55022 class A, 1994

• Europe - EN 6150-3-2 (Harmonics Current Emissions

• Europe - EN 6150-3-3 (Flicker)

Immunity

Approved according to:

• EN 50082-1

• IEC 150-4-5

BUPS MTBF

• 125,194 hrs minimum (see Section

MTBF in Various Configurations

)

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Avaya P333T User’s Guide

Appendix A Specifications

MTBF in Various Configurations

The following table provides the MTBF for the Avaya P333T-PWR P333Tin various configurations.

Table A.5

MTBF for the Avaya P333T in Various Configurations

Model

P333T

P333T+X330T16

P333T+X330F2

P333T+X330L2/

X330S2

P333T+X330L1/

X330S1

P333T+X330G2

Without BUPS

Without

X330STK

199,774

162,321

155,898

>145,146

With

X330STK

166,311

139,512

134,741

>126,633

>145,146

149,536

>126,633

129,962

With BUPS

Without

X330STK

313,000

238,000

228,000

210,000

With

X330STK

250,000

199,000

193,000

181,000

>210,000

216,000

>181,000

184,000

Avaya P333T User’s Guide

151

Appendix A Specifications

152

Avaya P333T User’s Guide

Index of CLI Commands

clear cam 80

clear dynamic vlans 79

clear log 80 clear port mirror 80 clear port static-vlan 80

clear radius authentication server 127

clear screen 35

clear secure mac 81

clear snmp trap 78 clear timezone 78

clear vlan 79

copy module-config tftp 123

copy stack-config tftp 122

copy tftp EW_archive 125

copy tftp module-config 124 copy tftp stack-config 124

copy tftp SW_image 125

dir 73 dir 73

get time 117

hostname 77

no hostname 76 no rmon alarm 76

no rmon event 77

no rmon history 76

no username 129

nvram initialize 119

Avaya P333T User’s Guide

ping 35

reset mgp 119

reset stack 118 reset 118

rmon alarm 121

rmon event 122

rmon history 120

session 34

set allowed managers IP 116 set allowed managers 116

set arp-aging-interval 114 set arp-tx-interval 114

set autopartition 110

set boot bank 101

set cascading 105 set inband vlan 105

set intelligent-multicast client port pruning time 112

set intelligent-multicast group-filtering-delay time 113 set intelligent-multicast router port pruning time 113

set intelligent-multicast 112

set interface ppp 92

set interface 91

set intermodule port redundancy off 102 set intermodule port redundancy 102

153

Index of CLI Commands

set internal buffering 101

set ip route 87

set leaky-vlan 109

set license 110

set logout 85

set port auto-negotiation-flowcontroladvertisement 108

set port channel 98

set port classification 99

set port disable 94

set port duplex 95

set port enable 94

set port flowcontrol 106

set port level 93

set port mirror 103

set port name 96

set port negotiation 93

set port redundancy on/off 100 set port redundancy 100

set port security 105

set port self-loop-discovery Admin_Status 98

set port spantree cost 104 set port spantree priority 104

set port spantree 103

set port speed 95

set port static-vlan 97

set port trap 96 set port vlan 96

set port vlan-binding-mode 97

set ppp authentication incoming 111 set ppp baud-rate 111

set ppp chap-secret 130

154

set ppp incoming timeout 111

set psu type 116

set radius authentication retry-number 128 set radius authentication retry-time 128

set radius authentication secret 127 set radius authentication server 127

set radius authentication udp-port 128

set radius authentication 131

set secure mac 113

set security mode 114

set self-loop-discovery Admin_Status 115

set snmp community 88

set snmp retries 89

set snmp timeout 90

set snmp trap auth 89

set snmp trap 88

set spantree 109

set system contact 90 set system location 90 set system name 90

set time client 87

set time protocol 86

set time server 87

set timezone 86

set trunk 108

set vlan 106

set web aux-files-url 112

set welcome message 115

show allowed managers status 72 show allowed managers status 72

show allowed managers table 73

show arp-aging-interval 71

Avaya P333T User’s Guide

show arp-tx-interval 71

show autopartition 61

show boot bank 52

show cam 56 show cascading fault-monitoring 56

show image version 40

show intelligent-multicast hardwaresupport 70

show intelligent-multicast 69

show interface 43

show intermodule port redundancy 47

show internal buffering 51

show ip route 40

show leaky-vlan 59

show license 62

show log 61

show module 52

show module-identity 62

show port auto-negotiation-flowcontroladvertisement 57

show port blocking 49

show port channel 45

show port classification 46

show port flowcontrol 54

show port mirror 47

show port redundancy 46

show port security 48

show port self-loop-discovery 51

show port trap 45

show port vlan-binding-mode 47

show port 44

show ppp authentication 66

Avaya P333T User’s Guide

Index of CLI Commands

show ppp baud-rate 67 show ppp configuration 67 show ppp incoming timeout 67

show ppp session 66

show radius authentication 130

show rmon alarm 65

show rmon event 66

show rmon history 65

show rmon statistics 64

show secure mac port 71

show security mode 70

show self-loop-discovery 72

show snmp retries 42 show snmp timeout 42

show snmp 41

show spantree 59

show system 63

show tftp download software status 68 show tftp download/upload status 68

show time 39

show timeout 42

show timezone parameters 39 show timezone 39

show trunk 57

show username 130

show vlan 58

show web aux-files-url 69

sync time 117

tech 131

terminal 34

username 129

155

Index of CLI Commands

156 Avaya P333T User’s Guide

How to Contact Us

To contact Avaya’s technical support, please call:

In the United States

Dial 1-800-237-0016, press 0, then press 73300.

In the EMEA (Europe, Middle East and Africa) Region

Country

Local Dial-In

Number

Albania

Austria

Azerbaijan

Bahrain

Belgium

Belorussia

Bosnia

Herzegovina

Bulgaria

Croatia

Cyprus

Czech Rep.

Denmark

Egypt

Estonia

Finland

+31 70 414 8001

+43 1 36 0277 1000

+31 70 414 8047

+800 610

+32 2 626 8420

+31 70 414 8047

+31 70 414 8042

+31 70 414 8004

+31 70 414 8039

+31 70 414 8005

+31 70 414 8006

+45 8233 2807

+31 70 414 8008

+372 6604736

+358 981 710 081

Country

France

Germany

Ghana

Gibraltar

Greece

Hungary

Iceland

Local Dial-In

Number

+33 1 4993 9009

+49 69 95307 680

+31 70 414 8044

+31 70 414 8013

+00800 3122 1288

+06800 13839

+0800 8125

Ireland

Israel

Italy

Jordan

+353 160 58 479

+1 800 93 00 900

+39 02 7541 9636

+31 70 414 8045

Kazakhstan +31 70 414 8020

Kenya +31 70 414 8049

Kuwait

Latvia

+31 70 414 8052

+371 721 4368

Avaya P333T User’s Guide

157

How to Contact Us

Country

Local Dial-In

Number

Lebanon

Lithuania

+31 70 414 8053

+370 2 756 800

Luxemburg +352 29 6969 5624

Macedonia +31 70 414 8041

Malta

Mauritius

+31 70 414 8022

+31 70 414 8054

Morocco +31 70 414 8055

Netherlands +31 70 414 8023

Nigeria

Norway

Oman

Pakistan

Poland

Portugal

Qatar

Romania

+31 70 414 8056

+47 235 001 00

+31 70 414 8057

+31 70 414 8058

+0800 311 1273

+351 21 318 0047

+31 70 414 8059

+31 70 414 8027

Russia +7 095 733 9055

Saudi Arabia +31 70 414 8022

Email: [email protected]

Country

Local Dial-In

Number

Slovakia

Slovania

+31 70 414 8066

+31 70 414 8040

South Africa +0800 995 059

Spain +34 91 375 3023

Sweden +46 851 992 080

Switzerland +41 22 827 8741

Tanzania

Tunisia

+31 70 414 8060

+31 70 414 8069

Turkey

UAE

Uganda

UK

Ukraine

Uzbekistan

Yemen

Yugoslavia

Zimbabwe

+800 4491 3919

+31 70 414 8036

+31 70 414 8061

+44 0207 5195000

+31 70 414 8035

+31 70 414 8046

+31 70 414 8062

+31 70 414 8038

+31 70 414 8063

158

Avaya P333T User’s Guide

How to Contact Us

In the AP (Asia Pacific) Region

Country

Australia

Hong Kong

Local Dial-In

Number

+1800 255 233

+2506 5451

Indonesia

Japan

Korea

+800 1 255 227

+0 120 766 227

+0 80 766 2580

Email: [email protected]

Country

Malaysia

New

Zealand

Philippines

Singapore

Taiwan

Local Dial-In

Number

+1800 880 227

+00 800 9828 9828

+1800 1888 7798

+1800 872 8717

+0 80 025 227

In the CALA (Caribbean and Latin America) Region

Email: [email protected]

Hot Line:+1 720 4449 998

Fax:+1 720 444 9103

For updated information, visit www.avayanetwork.com

and click "Global Support

Organization (GSO)".

Avaya P333T User’s Guide

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How to Contact Us

160

All trademarks, registered trademarks, service names, product and/or brand names are the sole property of their respective owners.

Copyright 2003 Avaya Inc. All rights reserved.

Avaya P333T User’s Guide

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