Avaya P333T UG 4.0
Contents
1. Chapter4 Installation Figure 4 3 Avaya P330 Stack Connections 10 f eS X330RC 9 k 5 3308 8 7 c oh 6 oe 5 f 5 10 X330SC E 4 H9 zm g 2 zm A 7 1 Ls 6 X330LC 24 Avaya P333T User s Guide Chapter 4 Installation Installing Expansion Sub modules WV Caution The expansion sub modules contain components sensitive to electrostatic discharge Do not touch the circuit board unless instructed to do so Installing the Expansion Sub module into the Avaya P330 1 Remove the blanking plate or other sub module if installed 2 Insert the sub 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 sub module until it is completely inserted into the Avaya P330 4 Gently tighten the two screws on the front panel of the expansion sub module by turning them Note The Avaya P330 switch must not be operated with the expansion slot open the expansion sub module slot should be covered with the supplied blanking plate if necessary Avaya P333T User s Guide 25 Chapter 4 Installation Making Connections to Network Equipment This section describes the physical connections that you can make between the Avaya P3302. Name Muna Interface Ports X33052 2 1000Base SX X330L2 2 1000Base LX X330S1 1 1000Base SX X330L1 1 1000Base LX Laser Safety The Avaya 33051 52 multi mode transceivers and the Avaya X330L1 X330L2 Avaya P333T User s Guide Chapter 3 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 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 lt q 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 P330S1 2 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 um SMF Min 9 5 dbm Max 3 dbm 10 Avaya P333T User s Guide Chapter 3 Transmit power 62 5 um and 50 um MMF Min 11 5 dbm Max 3 dbm Receive power 9 um SMF 62 5 um and 50 um MMF Min 20 dbm Max 3 dbm Fast Ethernet Fiber Expansion Module
3. s El Mktg El Ta Engi ne ri ay VLAN Tagging VLAN Tagging is a method of controlling the distribution of information on the network The ports on devices supporting VLAN Tagging are configured with the following parameters Port VLAN ID Tagging Mode The Port VLAN ID is the number of the VLAN to which the port is assigned Untagged frames and frames tagged with VLAN 0 entering the port are assigned the port s VLAN ID Tagged frames are unaffected by the port s VLAN ID The Tagging Mode determines the behavior of the port that processes outgoing frames If Tagging Mode is set to Clear the port transmits frames that belong to the port s VLAN table These frames leave the device untagged If Tagging Mode is set to IEEE 802 10 all frames keep their tags when they leave the device Frames that enter the switch without a VLAN tag will be tagged with the VLAN ID of the port they entered through Multi VLAN Binding Multi VLAN binding Multiple VLANs per port allows access to shared resources by stations that belong to different VLANs through the same port This is useful in applications such as multi tenant networks where each user has his a VLAN for privacy but the whole building has a shared high speed connection to the ISP In order to accomplish this P330 allows you to set multiple VLANs per port The Avaya P333T User s Guide 63 Chapter 11 Avaya P330 Layer 2 Features three avail
4. Favorites Tools Help Back gt A A Qsearch jFavortes History B S Rl Address E http 149 49 34 30 uns gt Se UU C UL a AVAYA Welcome to the Avaya P330 Manager This application requires the Sun Microsystems Java Plug In minimum version 1 3 1_02 to be installed in your browser If it is not already installed an automatic installation procedure will be initiated by your browser which will shortly request your confirmation to install this plug in Tf this does not occur within a few seconds you may also Retrieve it from here After download is complete run the executable you have downloaded to complete the plug in installation Install it from the Documentation CD provided with the P330 Device Refer to the User s Guide for details on how to install the plug in on a local web server Avaya P333T User s Guide Chapter 12 Embedded Web Manager If you have the Java plug in installed the Web based manager should open in a new window see Figure 12 2 Figure 12 2 Web based Manager F 149 49 200 97 Avaya P330 Avaya Device Management Microsoft Internet Explorer Device Manager File View Configure Actions Tools Help gt AF ai hk Ex ole P332GT MLA If you do not have the Java plug in installed follow the instructions on the Welcome page
5. LAG CLI Commands The following table contains a list of the CLI commands for the LAG feature The rules of syntax and output examples are all set out in detail in the P330 Reference Guide Table 11 5 LAG CLI Commands In order to Use the following command Enable or disable a Link set port channel Aggregation Group LAC logical port on the switch Display Link Aggregation Group show port channel LAG information for a specific switch or port 78 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features LAG Implementation in the Avaya P330 Family of Products This section describes the implementation of the LAG feature in the P330 Family of products The P333T supports up to 5 LAGs Up to three LAGs from three groups of 8 10 100 Mbps ports Logical port 101 ports1 4 13 16 Logical port 102 ports 5 8 17 20 Logical port 103 ports 9 12 21 24 e Up to 2 LAGs Logical ports 104 105 on the expansion module Avaya P333T User s Guide 79 Chapter 11 Avaya P330 Layer 2 Features Port Redundancy Port redundancy involves the duplication of devices services or connections so that in the event of a failure the redundant device service or connection can take over for the one that failed In addition to Link Aggregation Groups which comprise the basic redundancy mechanism within the switch the P330 offers an additional port redundancy scheme
6. 88 Avaya P333T User s Guide Chapter 12 Embedded Web Manager This chapter describes the installation procedures for the Embedded Web Manager of the Avaya P330 Overview 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 Port Security Intermodule Redundancy 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 3 1 Avaya P333T User s Guide 89 Chapter 12 Embed
7. The following table contains a list of the CLI commands for the PBNAC feature The rules of syntax and output examples are all set out in detail in the Reference Guide 68 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features PBNAC CLI Commands In order to Use the following command Configure dotlx on a system set dotlx Disable dot1x on all ports and return to default values clear dotlx config associated with the authenticator port access entity PAE and backend authenticator Display the system dot1x show dotlx capabilities protocol version and timer values Display all the configurable values show port dotlx Display all the port dotlx statistics show port dot1x statistics Set the minimal idle time between authentication attempts set dotlx quiet period Set the time interval between attempts to access the Authenticated Station set dotlx tx period Set the server retransmission timeout period for all ports set dotlx server timeout Set the authentication period an idle time between re authentication attempts set dotlx re authperiod Set the authenticator to supplicant retransmission timeout period the time for the switch to wait for a reply from the Authenticated Station set dotlx supp timeout Set the max reg for all ports the maximal number of times the port tries to retransmit reguests to the Authenticated Stati
8. Bank B This process accomplishes the following prevents the embedded web image file from being downloaded into Bank A by providing a non existant file name for the Embedded Web image file preserves the old version in Bank A allows the user to boot from either Bank A or Bank B i e using either the old or new software version Note In normal operation the Embedded Web file should be copied to Bank A and the new software version should be downloaded to Bank B This process copies the old software version to Bank A and the new software version to Bank B and allows the user to boot from either version via the set boot bank command To perform this process copy tftp SW image new ver file EW image dummy file name lt server IP addr module number Example copy tftp SW image c versions p330 p333t EW image 149 49 138 170 1 Note Since file x doesn t exist the Embedded web image will not be downloaded 102 Avaya P333T User s Guide AppendixA 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 Local Dial In Country Dial In umber Albania 31 70 414 8001 Austria 43 1 36 0277 1000 Azerbaijan 431 70 414 8047 Ba
9. 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 12 Avaya P333T User s Guide Chapter 3 Avaya Approved GBIC Transceivers Wy 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 Description PEC Code COM Code GBIC SX Multimode Fiber 4705 122 108659228 Transceiver 1000BaseSx 550 m GBIC LX Single mode Fiber 4705 121 108659210 Transceiver 1000BaseLx 10 km 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 www avaya com support 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 50 mm or 62 5 mm multimode MMF fiber cable may be connected to 1000Base L
10. Perform the following steps to connect a terminal to the Avaya P330 Switch Console port for acessing the text based CLI 1 The P330 device is supplied with a console cable and a RJ 45 to DB 9 adaptor Use these items to connect the serial COM port on your PC terminal to the Avaya P330 console port Ensure that the serial port settings on the terminal are 9600 baud 8 bits 1 stop bit and no parity When you are prompted for a Login Name enter the default login The default loginis root When you are promoted for a password enter the user level password root Now you can begin the configuration of Module or Stack parameters Avaya P333T User s Guide 37 Chapter 7 Establishing Switch Access P330 Sessions You can use sessions to switch between the CLI of P330 modules other stack entities for example an X330 ATM or WAN entity plugged into a specific P330 switch or with the G700 Media Gateway Precessor or to switch between Layer 2 and Layer 3 commands in the router module 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 router wan atm mgp 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 ses
11. Port Redundancy Operation esee 80 Intermodule Port Redundancy 1 sse 81 Port Redundancy CLI Commands 1 81 IP Multicast Filtering e emere eie nete ana 83 COVeEVISW CH SE CREER CO ass 83 iv Avaya P333T User s Guide Table of Contents IP Multicast CLI Commands sess 84 IP Multicast Implementation in the Avaya P333T 84 Stack Health uu a a unupa Ret ettet ite utes diens 85 Over VEW iei seres dete he 85 Implementation of Stack Health in the P330 Family 85 Stack Health CLI Commands essere 85 Pott Classification x Roe ete Kan stet e aeree ee prede eden 86 OVetVieW iier ettet eel est eet eee Cu 86 Port Classification CLI Commands essere 86 Stack Redundaricy spone nre tegeret er ete ied 87 Chapter 12 Embedded Web Manager 89 y n aqa s ai Sa G Q a a e 89 System Requirements sse enne nennen 89 Running the Embedded Web Manager oooooo oooooo 90 Installing the Java Plug in see eee nennen nnns 93 Installing from the Avaya P330 Documentation and Utilities eo b S 93 Install from the Avaya Site cene 93 Install from your Local Web Site 93 Installing the On Line Help and Java Plug In on your Web Site 94 Section 4
12. Table A 3 Fiber Fast Ethernet Expansion Module Name Number of Interface Ports X330F2 2 100Base FX Ethernet Fast Ethernet Expansion Module Table A 4 Ethernet Fast Ethernet Expansion Module Name Number ot Interface Ports X330T16 16 10 100Base T Avaya P333T User s Guide 11 Chapter 3 GBIC Expansion Module 4 9 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 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 Note
13. 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 It can also operate in Stand Alone mode with Windows NT 2000 Finally Avaya Multi Service Network Manager can operate under HP OpenView for Windows NT 2000 and Solaris 8 Port Mirroring The 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 Chapter 1 Avaya P333T Overview SMON The P330 supports Avaya s ground breaking SMON Switched Network Monitoring which the IETF has now adopted as a standard RFC2613 SMON provides 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 performance trending to keep the network running optimally e Note MSNM Licence is required to run SMON monitoring D Note You need to purchase one SMON License per P330 Stack Fans Power Supply and BUPS Monitoring T
14. Use the following command Add a local user account and username configure a user name password and access level To remove a local user account no username Display the username password show username and access type for all users on the switch Exiting the Supervisor Level To exit the Supervisor level type the command exit 42 Avaya P333T User s Guide Chapter 8 User Authentication 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 shown below Cajun P330 N The Privileged level prompt is shown below Cajun P330 N The Configure level prompt for Layer 3 configuration is shown below P330 N configure The Supervisor level prompt is shown below Cajun P330 N super RADIUS Introduction to RADIUS User accounts are typically maintained locally on the switch Therefore if a site contains multiple Avaya Switches it is necessary to configure each switch with its own user accounts Additionally if for example a read write user has to be changed into a read only user you must change all the read write passwords configured locally in every switch in order to prevent him from accessing this level This is obviously not effective management A better solution is to have all of the user login information kept in a central location where all the switches can access it P330
15. 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 e Water or moisture cannot enter the case of the unit e There is a free flow of air around the unit and that the vents in the sides of the case are not blocked Note Use Octaplane cables to interconnect with other switches e The environmental conditions match the requirements listed below Table 4 1 Environmental Prerequisites Operating Temp 5 to 50 C 23 to 122 F Relative Humidity 5 to 95 non condensing The power source matches the specifications listed below Table 4 2 Power Requirements AC Input voltage 100 to 240 VAC 50 60 Hz Avaya P333T User s Guide 19 Chapter 4 Installation Power dissipation 150 W max Input current 53A Table 4 3 Power Requirements DC Input voltage 36 to 72 VDC Power dissipation 150 W max Input current 5 1 A max 20 Avaya P333T User s Guide Chapter 4 Installation Rack Mounting Optional 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 t
16. AC power P3330 AC power supply not functioning Use an optional BUPS Backup Power Supply Contact your local Avaya distributor The power supply is not user replaceable Stacking not functioning X330 STK modules not inserted correctly LEDs on stacking module do not light Check that modules are installed correctly Octaplane cables not installed correctly LEDs on stacking module do not light Check that the cables are inserted correctly Check that there are no cross corrections Expansion module not functioning Avaya P333T User s Guide 97 Chapter 14 Troubleshooting the Installation Table14 1 Troubleshooting Problem Cause Suggested Solution Expansion module not e Check that module are installed correctly inserted correctly 98 Avaya P333T User s Guide Chapter 15 Maintenance Introduction v This section provides basic maintenance information for the Avaya P330 switch and its components For issues that are not covered in this chapter or in Troubleshooting the Installation please contact your Avaya representative Caution Please refer to Before You Install the P330 before undertaking any of the procedures detailed in this section Adding Replacing an Expansion Sub module v Caution The expansion sub modules contain components sensitive to electrostatic discharge Do not touch the circuit board unless instru
17. High Priority queue packets tagged with priorities 0 3 are mapped to the Normal Priority queue This classification is based either on the packet s original priority tag or if the packet arrives at the port untagged based on the priority configured for the ingress port set using the set port level CLI command In cases where the packet was received tagged this priority tag is retained when the packet is transmitted through a tagging port In cases where the priority is assigned based on the ingress priority of the port then on an egress tagging port the packet will carry either priority 0 or priority 4 depending on the queue it was assigned to High Priority 4 Normal Priority 0 MAC Address The MAC address is a unique 48 bit value associated with any network adapter MAC addresses are also known as hardware addresses or physical addresses They uniquely identify an adapter on a LAN MAC addresses are 12 digit hexadecimal numbers 48 bits in length By convention MAC addresses are usually written in one of the following two formats 55 55 55 Avaya P333T User s Guide 59 Chapter 11 Avaya P330 Layer 2 Features MM MM MM SS SS SS The first half of a MAC address contains the ID number of the device manufacturer These IDs are regulated by an Internet standards body The second half of a MAC address represents the serial number assigned to the device by the manufacturer CAM Table The CAM Table c
18. LAG defined for this port Group Trunking ON Port belongs to a LAG Table 6 2 Avaya P330 lt gt 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 Press both right and left buttons together for 4 seconds All LEDs on stack light up until buttons are released FIV Not in use Avaya P333T User s Guide 33 Chapter 6 Avaya P333T Front and Back Panels 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 P330 Back Panel The Avaya P330 back panel contains a stacking sub module slot power supply and BUPS connector Figure 6 3 shows the back panel of the AC switch top and the DC switch bottom with a stacking sub module installed Figure 6 3 Avaya P330 AC and DC Back Panels BUPS AL Connector AC Input Cable to Cable to Lower Unit Upper Unit Power Supply Connector Connector DC Input Cable to Cable to LowerUnit Upper Unit Power Supply Connector Note Further illustrations of the Avaya P330 Back Panel will be that of the AC model the topmost pane
19. To achieve port redundancy you can define a redundancy relationship between any two ports in a stack One port is defined as the primary port and the other as the secondary port If the primary port fails the secondary port takes over You can configure up to 20 pairs of ports or LAGs per stack for port redundancy and 1 pair per stack for intermodule redundancy Each pair contains a primary and secondary port You can configure any type of port to be redundant to any other Port Redundancy Operation The Port Redundancy feature supports up to 20 pairs of ports per stack The redundant or secondary port takes over when the primary port link is down Port redundancy provides for the following in the P330 Switchback from the secondary to primary port is allowed Switching time intervals can be set by the user Note Port Redundancy interworks with the Spnning Tree Algorithm The Port Redundancy feature functions as follows Port Redundancy enables the user to establish 20 pairs of ports Within each pair primary and secondary ports are defined To prevent loops only one port is enabled at a time Following initialization the primary port is enabled and the secondary port is disabled Ifthe active port link fails the system enables the secondary port Ifthe secondary port is enabled and the primary port link becomes available again the system will switchback to the primary port unless configured otherwis
20. Troubleshooting and Maintaining the P330 Chapter 14 Troubleshooting the Installation sse 97 Troubleshooting the Installation 97 Chapter 15 Mairitenance u n tee eed ined te eed ee n ien re i anang 99 Introduction cue ret ede e REED RU PR HS 99 Adding Replacing an Expansion Sub module sss 99 Adding an Expansion Sub module to Avaya P330 99 Replacing an Existing Expansion Sub module 99 Saving Configuration Definitions sess 100 Without Saving Configuration Definitions 100 Replacing the Stacking Sub module sss 100 Chapter 16 Updating the Software iesistie E eVa ini 101 Software Download derent t 101 Obtain Software Online 101 Downloading Software sss 101 Download New Version without Overwriting Existing Version 102 How to ContacetiUS u a q um aus na aa 103 In the United States eene 103 In the AP Asia Pacific Region eee 105 Avaya P333T User s Guide v Table of Contents In the CALA Caribbean and Latin America Region 105 vi Avaya P333T User s Guide Before you Install the P333T Safety Information v v Caution The Avaya P330 switch and modules contain components sensitive to electrostatic discharge Do not touch the c
21. 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 6 1 shows the Avaya P333T front panel Figure 6 2 shows a detailed view of the LEDs described in Table 6 1 pushbuttons the Expansion Module slot and the RJ 45 console connector at the bottom right Figure 6 1 Avaya P333T Front Panel Avaya P333T User s Guide 31 Chapter 6 Avaya P333T Front and Back Panels Figure 6 2 Avaya P333T LEDs Port LEDs Oz O Os 52 53 EXPANSION O O O 56 T 2 3 4 5 6 T 8 9 I stor 59 60 61 62 63 64 65 66 13 14 15 16 a 18 19 20 21 22 23 24 lt ool 0 ee CE i FIV Left Right and Reset both FIV Switch Function LEDs Switches Note All LEDs are lit during a reset Table 6 1 Avaya P333T
22. family supports a range of Layer 2 features Fach feature has CLI commands associated with it These commands are used to configure operate or monitor switch activity for each of the Layer 2 features This section of the User s Guide explains each of the features Specifically the topics discussed here include Ethernet VLAN Port Based Network Access Control Spanning Tree Protocol Rapid Spanning Tree Protocol e MAC Security e Link Aggregation Group LAG Port Redundancy e IP Multicast Filtering Stack Health Stack Redundancy Port Classification Ethernet Ethernet is one of the most widely implemented LAN standards It uses the Carrier Sense Multiple Access with Collision Detection CSMA CD access method to handle simultaneous demands CSMA CD is a multi user network allocation procedure in which every station can receive the transmissions of every other station Each station waits for the network to be idle before transmitting and each station can detect collisions by other stations The first version of Ethernet supported data transfer rates of 10 Mbps and is therefore known as 10BASE T Avaya P333T User s Guide 57 Chapter 11 Avaya P330 Layer 2 Features Fast Ethernet Fast Ethernet is a newer version of Ethernet supporting data transfer rates of 100 Mbps Fast Ethernet is sufficiently similar to Ethernet to support the use of most existing Ethernet applications and network managem
23. features such a solution the Remote Authentication Dial In User Service RADIUS A RADIUS authentication server is installed on a central computer at the customer s site On this server user authentication account information is configured that provides various degrees of access to the switch The P330 will run as a RADIUS client When a user attempts to log into the switch if there is no local user account for the entered user name and password then the switch will send an Authentication Request to the RADIUS server in an attempt to authenticate the user remotely If the user name and password are authenticated then the RADIUS server responds to the switch with an Authentication Acknowledgement that includes information on the user s privileges administrator read write or read only and the user is allowed to gain access to the switch If the user is not authenticated then an Authentication Reject is sent to the switch and the user is not allowed access to the switch s embedded management The Remote Authentication Dial In User Service RADIUS is an IETF standard RFC 2138 client server security protocol Security and login information is stored in a central location known as the RADIUS server RADIUS clients such as the P330 communicate with the RADIUS server to authenticate users Avaya P333T User s Guide 43 Chapter8 User Authentication All transactions between
24. 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 Avaya P333T User s Guide 1 Chapter 1 Avaya P333T Overview Connection through Telnet from the front panel ports of any switch with multiple levels of password protection login and inactivity timeouts 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 Multi Service Network Manager MSNM When you need extra control and monitoring or wish to manage other Avaya network equipment then the Avaya Multi Service Network Manager network management suite is the answer
25. hubs In this example the Management VLAN consists of stations on numerous floors of the building and which are connected to both Device A and Device B Figure 11 1 VLAN Overview In virtual topological networks the network devices may be located in diverse places around the LAN such as in different departments on different floors or in different buildings Connections are made through software Each network device is connected to a hub and the network manager uses management software to assign each device to a virtual topological network Elements can be combined into a VLAN even if they are connected to different devices VLANS should be used whenever there are one or more groups of network users that you want to separate from the rest of the network In Figure 11 2 the switch has three separate VLANS Sales Engineering and 62 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Marketing Mktg Each VLAN has several physical ports assigned to it with PC s connected to those ports When traffic flows from a PC on the Sales VLAN for example that traffic is only forwarded out the other ports assigned to that VLAN Thus the Engineering and Mktg VLANs are not burdened with processing that traffic Figure 11 2 VLAN Switching and Bridging El Sales Mktg MAAN 7 masa Sales El w vrer w ESSI ti s Mk IM bass EHHH Engineering wa
26. mode Display system parameters show system Display module information for all modules within the stack show module 54 Avaya P333T User s Guide Chapter 10 Basic Switch Configuration Network Time Acquiring Protocols Parameter Configuration The P330 can acquire the time form a Network Time Server P330 supports the SNTP Protocol RFC 958 over UDP port 123 or TIME protocol over UDP port 37 Use the CLI commands briefly described below for configuring and display time information and acquiring parameters In order to Use the following command Restore the time zone to its default clear timezone UTC Configure the time zone for the set timezone system Configure the time protocol for use set time protocol in the system Enable or disable the time client set time client Configure the network time server set time server IP address Display the current time show time Display the time status and show time parameters parameters Display the current time zone offset show timezone Get the time from the time server get time Avaya P333T User s Guide 55 Chapter 10 Basic Switch Configuration 56 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features This section describes the Avaya P330 Layer 2 features It provides the basic procedures for configuring the P330 for Layer 2 operation Overview The P330
27. set the terminal length in lines terminal length Display or set the prompt hostname Return the prompt to its default value no hostname Clear the current terminal display clear screen Set the number of minutes before an inactive CLI session automatically logs out set logout Display the number of minutes before an inactive CLI session automatically times out show logout Access Layer 3 configuration if not logged in as supervisor see User Authentication chapter configure Avaya P333T User s Guide 53 Chapter 10 Basic Switch Configuration System Parameter Configuration Identifying the system In order to make a P330 switch easier to identify you can define a name for the switch contact information for the switch technician and the location of the switch in the organization In order to Use the following command Configure the system name set system name Configure the system contact person set system contact Configure the system location set system location Operating parameters You can use the following commands to configure and display the mode of operation for the switch and display key parameters In order to Use the following command Configure the basic mode of operation of a module to either Layer 2 or Router set device mode Display the mode of operation show device
28. the P330 sss 49 Configuring the Switch eee tee ee erre ii 49 Avaya P330 Default Settings oooo oocan 49 Basic Switch Configuratli n u eene 53 Introduction otn tree et treten eti ete e e ere tnn 53 System Parameter Configuration sse 54 Identifying the System 54 Operating parameters eene 54 Network Time Acquiring Protocols Parameter Configuration 55 Avaya P330 Layer 2 Features 57 jo 57 Bh Er RE 57 Fast Ethernet aza nas nun anakan 58 Gigabit Ethernet neret eerie rete etel 58 Avaya P333T User s Guide iii Table of Contents Configuring Ethernet Parameters o oooo o 58 Auto negotiation 2 u rp e nennen 58 Full Duplex Half Duplex eee 58 Speed TEE NT 58 Flow Controlman trasei BENANG NN 59 DOE ettet teer rte nai He e veu ite trivia dies 59 MAG Address 4 tie tere oett tere NN AUS 59 CAM Table se An BSA ates 60 Ethernet Configuration CLI Commands a 60 Ethernet Implementation in the Avaya PP333T 61 VEAN Configuration iicet ite enter eet reete aa terne teen edd 62 VEAN Overview Z ucc eee ANN BNN NA KENA 62 MLAN Tap nn ge eene e eee eee ner RSA Na nana Kat 63 Multi VLAN Binding eee eene 63 Ingress VLAN Security teer tti rediit dt 64
29. unit must be installed in Restricted Access Areas only e Installation Codes This unit must be installed in accordance with the US National Electrical Code Article 110 and the Canadian Electrical Code Section 12 Conductor Ampacity Per UL 1950 Annex NAE NEC Article 645 5 a the branch circuit conductors supply shall have the ampacity of not less than 125 percent of the total connected load For input leads use at least 18 AWG copper conductors e Overcurrent Protection Per UL 1950 Annex NAE NEC Article 240 3 a readily accessible listed branch circuit overcurrent protective device rated maximum 10A must be incorporated into the building wiring Agency Approvals EMC Emissions Approved according to e 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 Avaya P333T User s Guide Chapter 3 Other Approved according to e Code According to Tecordia Bellcore KS 22022 Standard e NEBS Level 3 optional mounting brackets Interfaces Basic MTBF 140 000 hrs minimum Stacking Module Table 1 Stacking Module Number of Name Ports X330STK 2 Expansion Modules Gigabit Ethernet Expansion Modules 24 x 10 100BASE T RJ45 port connectors 5 232 for terminal setup via RJ45 connector on front panel Table A 2 Gigabit Ethernet Expansion Modules
30. 0 seconds Please check that the proprietary modem cable is plugged into the console port 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 The Avaya P330 enters modem mode You can now dial into the switch from a remote station and open a Telnet session to the PPP interface IP address 40 Avaya P333T User s Guide Chapter 8 User Authentication Introduction secure system provides safeguards to insure that only authorized personnel can perform configuration procedures In Avaya P330 these safeguards form part of the CLI architecture and conventions Security Levels There are four security access levels User Privileged Configure and Supervisor The User level read only is a general access level used to show system parameter values The Privileged level read write is used by site personnel to access stack configuration options e The Configure level is used by site personnel for Layer 3 configuration Note This is not applicable to Avaya P333 T The Supervisor level administrator is used to define user names passwords and access levels of up to 10 local users In Supervisor level you can also access RADIUS authentication configuration commands Note If you wish to define more than ten users per switch or accounts for a user on mul
31. 100M 100M 1000M Flow control Off Off Off Flow control Off N A Off No pause advertisement Backpressure On only in Half duplex Not Applicable Not Applicable Autopartitioning Disabled only in Half N A N A duplex Auto negotiation Enable Not Applicable Enable Administration status Enable Enable Enable Port VLAN 1 1 1 Tagging mode Clear Clear Clear 50 Avaya P333T User s Guide Chapter 9 Default Settings of the P330 Table 9 2 Default Port Settings Function Default Setting Port priority 0 0 0 Spanning Tree cost 20 20 4 Spanning Tree port 128 128 128 priority 1 Ensure that the other side is also set to Autonegotiation Enabled C Note Functions operate in their default settings unless configured otherwise Avaya P333T User s Guide 51 Chapter 9 Default Settings of the P330 52 Avaya P333T User s Guide Chapter 10 Basic Switch Configuration Introduction This chapter describes the parameters you can define for the chassis such as its name and location time parameters and so on Use the CLI commands briefly described below for configuring the display on your terminal or workstation In order to Use the following command Open a CLI session to a P330 module in the stack ATM or WAN expansion modules and Media Gateway Processor of G700 session Display or set the terminal width in characters terminal width Display or
32. 330 4 Gently tighten the two screws on the side panel of the stacking sub module by turning them Note The Avaya P330 switch must not be operated with the back slot open the stacking sub module should be covered with the supplied blanking plate if necessary Connecting Stacking Sub modules Before attempting to connect stacking sub modules verify that you have the required Octaplane cables 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 22 Avaya P333T User s Guide Chapter 4 Installation 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
33. 4 0207 5195000 Poland 0800 311 1273 Ukraine 31 70 414 8035 Portugal 4351 21 318 0047 Uzbekistan 431 70 414 8046 Qatar 431 70 414 8059 Yemen 431 70 414 8062 Romania 431 70 414 8027 Yugoslavia 431 70 414 8038 Russia 7 095 733 9055 Zimbabwe 431 70 414 8063 E mail csctechnical avaya com Avaya P333T User s Guide In the AP Asia Pacific Region Country Local Dial In Country Local Dial In Number Australia 1800 255 233 Hong Kong 2506 5451 Indonesia 800 1 255 227 Japan 0 120 766 227 Korea 0 80 766 2580 E mail sgcoe avaya com In the CALA Caribbean and Latin America Region E mail caladatasupp avaya com Hot Line 1 720 4449 998 1 720 444 9103 Number Malaysia 1800 880 227 New 00 800 9828 9828 Zealand Philippines 1800 1888 7798 Singapore 1800 872 8717 Taiwan 0 80 025 227 For updated information visit www avaya com support and click Global Support Organization GSO Avaya P333T User s Guide 105 2003 Avaya Inc All rights reserved All trademarks identified by the or TM are registered trademarks or trademarks respectively of Avaya Inc All other trademarks are the property of their respective owners 106 Avaya P333T User s Guide
34. Installation Table 4 4 Gigabit Ethernet Cabling Te I Sj Diameter Mes dth oe Wavelength sit MhzKm m m pay 1000BASE SX MM 62 5 160 220 2 850 1000BASE SX MM 62 5 200 275 2 850 1000BASE SX MM 50 400 500 2 850 1000BASE SX MM 50 500 550 2 850 1000BASE LX MM 62 5 500 550 2 1310 1000BASE LX MM 50 400 550 2 1310 1000BASE LX SM 9 NA 10 000 2 1310 Avaya P333T User s Guide 27 Chapter 4 Installation 28 Avaya P333T User s Guide Chapter 5 Powering Up the Avaya P330 This section describes the procedures for powering up the Avaya P330 unit 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 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 even if no direct AC power is applied to the unit After power up or reset the Avaya P330 performs a self test procedure applied to it Powering On Avaya P330 Module DC v 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 Connect the power c
35. Installation and Configuration Guide AVAYA P333T STACKABLE SWITCH SOFTWARE VERSION 4 0 April 2003 AVAYA Table of Contents Section 1 Chapter 1 Chapter 2 Chapter 3 Table of Contents eet eoe HE HER re be id i Safety Information deos reete he hend vii ECC Notice ae E C RS DEP datas the e REIN vii Conventions Used in the Documentation vii CLICONnVeNTHONS ta o RN Notes Cautions and Warnings viii Overview of the P330 Avaya P333T OVetView eie netur eee re aee ever 1 Introd CEL OM iy ARA ere cete e et BIN 1 Avaya P330 Family Features sess eee enn 1 Avaya P330 Network Management o oo ooocooo oo 2 Avaya P330 Device Manager Embedded Web 2 Avaya P330 Command Line Interface CLI sss 2 Avaya Multi Service Network Manager MSNM 2 Port Mirrotinp onines dade eredi pereat Terent 2 SMON ces eese dH LA AA des EDU bec E T 3 Fans Power Supply and BUPS Monitoring sess 3 Standards and Compatibility sss 5 Avaya P330 Standards Supported sss 5 octo certet Parama e tti un tee Guss 5 IETE L ayet2 Ahh an ie een eet tete 5 Network Monitoring see eee eene 5 Speciticati Onls EE dete na 7 Avaya P338T SWit
36. LED Descriptions LED Name Description LED Status OFF power is off PWR Power status ON power is on Blink using BUPS only OFF Module is booting OPR CPU operation 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 SYS System Status 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 32 Avaya P333T User s Guide Chapter 6 Avaya P333T Front and Back Panels Table 6 1 Avaya P333T LED Descriptions LED Name Description LED Status OFF No collision or FDX port COL Collision ON Collision occurred on line OFF No transmit activity Tx Transmit to line ON Data transmitted on line from the module OFF No receive activity Rx Receive from line ON Data received from the line into the module OFF Half duplex mode FDX Half Full Duplex ON Full duplex mode OFF No Flow Control FC Flow Control ON Symmetric Asymmetric Flow Control mode is enabled and port is in full duplex mode Hspd High Speed 10 100 1000 OFF 10 N A ON 100 1000 x Link Aggregation OFF No
37. T Proxy etc even an Allowed Manager will not be able to access the P330 Allowed Manager CLI Commands In order to Use the following command When set to enabled only managers with ip address specified in the allowed table will be able to access the device set allowed managers Add delete ip address of manager to from the allowed table set allowed managers ip Show the IP addresses of the managers that are allowed to access the device show allowed managers table Show whether the status of allowed managers is enabled or disabled show allowed managers status Show the IP addresses of the managers that are currently connected show secure current 46 Avaya P333T User s Guide AVAYA P333T SECTION 3 CONFIGURATION OF THE P330 AVAYA Chapter 9 Default Settings of the P330 This section describes the procedures for the first time configuration of the Avaya P330 The factory defaults are set out in detail in the tables included in this chapter 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 CLI see the Avaya P330 Reference Guide For instructions on installation of the graphical user interfaces see Embedded Web Manager For instructions on the use
38. VLAN CEE Commands 3 2 uu gua ag 65 VLAN Implementation in the Avaya P333T 66 Port Based Network Access Control 67 How Port Based Authentication Works 67 PBNAC Implementation in the P330 Family 67 Configuring the P330 for PBNAC own 68 PBNAC CLI Commands oooooocooo oma 68 Spanning Tree Protocol sse nens 71 OVOeEVIGW a esten tec eere er petes NS e ot eee NN 71 Spanning Tree Protocol esses eene 7 Spanning Tree per Port eee eee 71 Rapid Spanning Tree Protocol RSTP ooooooooo oo 72 About the 802 1w Standard 72 Port Roles nan 222 q m ama Dan 72 Spanning Tree Implementation in the P330 Family 73 Spanning Tree Protocol CLI Commands o oo oooooomomo 74 MAC SOCUTIEY ANA NAN NN NN NE Nana 76 MAC Security Implementation in P330 ooooooooooooooo 76 MAC Security CLI Commands o sese 76 EA s sett etti ett te tea e s sea Qa oes 78 LAG OVeEVIOW unter SE ee e ete HR Er IRE TERI Heu S RE CER pee dnd 78 LAG CLE COM ANIS us eR oec EN NS 78 LAG Implementation in the Avaya P330 Family of Products 79 Port REdundaney ha eie emt eu s etr aan 80
39. X 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 um or 62 5 um multimode MMF fiber cable may be connected to a 1000Base SX GBIC port The maximum length is 500 m 1 640 ft for 50 um cable and 220 m 722 ft for 62 5 um cable The SX transceiver has a Wavelength of 850 nm Transmission Rate of 1 25 Gbps and Input Power of 5V Avaya P333T User s Guide 13 Chapter 3 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 ATM Expansion Modules There are two Avaya P330 ATM Expansion Modules e X330 OC12F1 500m Multimode fiber can also be OC 3 reduced range e X330 OC12S1 15 km Single mode fiber can also be OC 3 The ATM Modules c
40. able Port Multi VLAN binding modes are Bind to All the port is programmed to support the entire 3K VLANSs range Traffic from any VLAN is forwarded through a port defined as Bind to All This is intended mainly for easy backbone link configuration Bind to Configured the port supports all the VLANs configured in the switch stack These may be either Port VLAN IDs PVID or VLANS that were manually added to the switch Statically Bound the port supports VLANs manually configured on it Figure 11 3 illustrates these binding modes in P330 Figure 11 3 Multiple VLAN Per port Binding Modes Bing to id Any VLAN in the range of 1 4094 will be allowed access through this port Intended mainly for easy backbone link Ingress VLAN Security Static Binding The user manually specifies the list of VLAN IDs to be bound to the port up to 253 VLANs Default mode for every port Only VLAN 9 and any otherVLANs statically configured on the port will be allowed to access this port lt mas vuur V nn Bind to Configured The VLAN table of the port will support all the Static VLAN entries and all the ports VLAN IDs PVIDs present in the switch VLANs 1 3 5 9 10 coming from the bus will be allowed access through this port AI the ports in Bound to Configured mode will support the same list of VLANs When a VLAN tagged packet ar
41. able to the DC power supply After power up or reset the Avaya P330 performs a self test procedure 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 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 29 Chapter 5 Powering Up the Avaya P330 Post Installation The following indicate that you have performed the installation procedure correctly Table 5 1 Post Installation Indications Procedure Indication Information Powering the P330 All front panel LEDs illuminate Page 97 briefly Creating Stacks The LED next to the Page 97 appropriate connection Cable to upper unit or Cable to lower unit is lit Installing Expansion The LEDs on the Expansion Page 97 Modules Module flash briefly If you do not receive the appropriate indication please refer to Troubleshooting the Installation 30 Avaya P333T User s Guide Chapter 6 Avaya P333T Front and Back Panels Avaya P333T Front Panel The Avaya P333T front panel contains LEDs controls connectors and an expansion Module slot
42. ables automatic installation of the Java plug in the first time the users tries to manage the device 1 Copythe 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 94 Avaya P333T User s Guide AVAYA P333T SECTION 4 TROUBLESHOOTING AND MAINTAINING THE P330 communication Chapter 14 Troubleshooting the Installation Troubleshooting the Installation This section will allow you to perform basic troubleshooting of the installation If you are unable to solve the problem after following the procedures in this chapter please contact Avaya Technical Support Refer to How to Contact Us for full details Table 14 1 Troubleshooting Problem Cause Suggested Solution Switch does not power up AC power cord not inserted or faulty Check that the AC power cord is inserted correctly Replace the power cord If the cord is inserted correctly check that the AC power source is working by connecting a different device in place of the P3330 If that device works refer to the next step If that device does not work check the
43. ail in the Reference Guide Table 11 7 Multicast CLI Commands In order to Use the following command Enable or disable the IP multicast filtering application set intelligent multicast Define aging time for client ports set intelligent multicast client port pruning time Define aging time for router ports set intelligent multicast router port pruning time Define group filtering time delays set intelligent multicast group filtering delay time Display the status IP multicast filtering application show intelligent multicast Shows whether the connected unit s hardware supports IP multicast filtering show intelligent multicast hardware support IP Multicast Implementation in the Avaya P333T This section describes the implementation of the IP multicast feature in the Avaya P333T No of multicast groups 1000 84 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Stack Health The P330 software provides a Stack Helath feature for verifying the integrity of the P330 stack cascading module and cables Overview The Stack Health feature will identify defective modules and cables that may be installed in the P330 stack The Stack Health algorithm separately checks all stacking modules and the Octaplane connections including Redundant cable Implementation of Stack Health in the P330 Family When activating the Stack Health fe
44. an be installed in the following Avaya P330 Family switches e 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 OC1281 ATM Module is a Class 1 14 Avaya P333T User s Guide Chapter 3 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 lt Multi Mode Module LED Warning The following warnings apply to the X330 ATM Modules equipped with multi mode 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
45. anking plate Replacing the Stacking Sub module To replace the X330STK stacking sub module 1 Power to the switch may remain on 2 Loosen the screws to the stacking sub module by turning the knobs 3 Take hold of the two knobs one near each side of the front panel and pull gently but firmly towards yourself 4 Insert the new stacking sub module gently into the slot ensuring that the metal base plate is aligned with the guide rails The metal plate not the PCB of the X330STK fits onto the guide rails 5 Press the sub module in firmly until it is completely inserted into the Avaya P330 V Caution Ensure that the screws on the module are properly aligned with the holes in the chassis before tightening them 6 Gently tighten the two screws on the side panel of the stacking module by turning the screws Do not use excessive force when tightening the screws 100 Avaya P333T User s Guide Chapter 16 Updating the Software This section provides the basic procedure for downloading and updating the P330 system software w Caution Please refer to Before You Install the P330 before undertaking any of the procedures detailed in this section Software Download You can perform software download using the CLI or Avaya UpdateMaster part of the Avaya Multi Service Network Manager Suite Obtain Software Online You can download the firmware and Embedded Web Manager from the Software Download section at ww
46. ature the agents in all modules start sending special packets of various length via all stacking cables to one another The Master module synchronizes this process and collects the results e When the Redundant Cable is present the user is prompted to disconnect one of the short Octaplane cables and the redundant connection will be checked Then when prompted the cable should be reconnected and the test will run a second time to check the regular Octaplane connections The stack is reset after the Stack Health process completes Note You should not load the stack with traffic during this test Note If the stack health process fails try to fasten or replace the stack cable between the modules where the failure has occurred If the problem persists try to fasten or replace either or both of the stacking modules Stack Health CLI Commands The following table contains a list of the CLI commands for the Stack Health feature The rules of syntax and output examples are all set out in detail in the Reference Guide Table 11 8 Stack Health CLI Command In order to Use the following command Initiate the stack health testing set stack health procedure Avaya P333T User s Guide 85 Chapter 11 Avaya P330 Layer 2 Features Port Classification Overview With the P330 you can classify any port as regular or valuable Setting a port to valuable means that in case of Ethernet link failur
47. ch 1x0 nih ton hua eie n aget ape ne he aeneo etes sues 7 Physical miei eti ettet dip et leet 7 Power Requirements eee ee eee ens 7 Power Requirements DC 7 eee ee 7 Environmental Bon muya Ta mkuu a ua eder tust eie e e PARS 7 iu E ttn AN AMAN qu esas 8 Safety AC Versiort eee et eee naa ina 8 Safety DC rere teet ette eet eda 8 Agency Apptovals unte e m aberit beet eaten died 8 EMC EnmiSSIODS ete SAN acess BE BARENG EN NUN EN Aa 8 AAA BANNER NE EA 8 dez NR REP 9 Avaya P333T User s Guide Table of Contents Section 2 Chapter 4 Chapter 5 Chapter 6 Tn tera ce TA TUNE EUR dO LIA aa aQ a Me e TA 9 Basic M TBF tet reete ti ee ee ha a e v ee e 9 Stackihg Module maen ena an NM dg ed eme ette 9 Expansion Modules a e ce E e t nah 9 Gigabit Ethernet Expansion Modules sss 9 Laser Safety aca susah he NN 9 Laser ClassificattOn 54 o ae t tet ere ere eren 10 Usage Restriction sse eene 10 Laser Data idee a u R basa Qa et eres 10 Fast Ethernet Fiber Expansion Module sse 11 Ethernet Fast Ethernet Expansion Module 11 GBIC Expansion Module 1 csse een 12 Safety Information sss eee e eene 12 Usage Restriction sse 12 Avaya Approved GBIC Transceivers a 13 Specifications unie tette tette ete NA EN 13 Agency Appro
48. cted to do so Adding an Expansion Sub module to Avaya P330 1 Remove the blanking plate or other sub module if installed 2 Insert the sub 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 sub module until it is completely inserted into the Avaya P330 4 Gently tighten the two screws on the front panel of the expansion sub module by turning them Note The Avaya P330 switch must not be operated with the expansion slot open the expansion sub module slot should be covered with the supplied blanking plate if necessary Replacing an Existing Expansion Sub module If an expansion sub module is removed from the stack with the power supply on all configuration definitions on expansion sub modules are lost Both procedures for replacing an expansion sub module with saving and without saving configuration definitions follow Avaya P333T User s Guide 99 Chapter 15 Maintenance Saving Configuration Definitions 1 Turn off the power supply 2 Remove an expansion sub module 3 Insert another expansion sub module 4 Turn on the power supply Without Saving Configuration Definitions 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 sub module or the bl
49. ded Web Manager Microsoft Internet Explorer amp or Netscape Navigator CommunicatorO see table Table 12 1 Embedded Web Manager Browser Compatability Windows 95 or NT Windows 98 ME or 2000 Internet Explorer 5 0 or higher 5 01 or higher Netscape Navigator 4 7 4 73 Communicator WV 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 e 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 90 Avaya P333T User s Guide Chapter 12 Embedded Web Manager The welcome page is displayed Figure 12 1 The Welcome Page rosoft Internet Explorer F 149 49 34 30 Avaya P330 Avaya Device Manager Ele Edt
50. e Multicast packet is forwarded from the sender to the recipients duplicated only when needed by routers along the way and sent in multiple directions such that it reaches all the members of the Multicast group Multicast addresses are a special kind of IP addresses class D each identifying a multicast group Stations join and leave multicast groups using IGMP This is a control plane protocol through which IP hosts register with their router to receive packets for certain multicast addresses IP multicast packets are transmitted on LANs in MAC multicast frames Traditional LAN switches flood these multicast packets like broadcast packets to all stations in the VLAN In order to avoid sending multicast packets where they are not required multicast filtering functions may be added to the layer 2 switches as described in IEEE standard 802 1D Layer 2 switches capable of multicast filtering send the multicast packets only to ports connecting members of that multicast group This is typically based on IGMP snooping The Avaya P330 supports multicast filtering The P330 learns which switch ports need to receive which multicast packets and configures the necessary information into the switch s hardware tables This learning is based on IGMP version 1 or 2 snooping The multicast filtering function in the P330 is transparent to the IP hosts and routers It does not affect the forwarding behavior apart from filtering multicast packets from certain ports whe
51. e by the user Two timers are available min time between switchovers minimum time in seconds between the failure of the primary port link and switchover to the secondary backup port Note The first time the primary port fails the switchover is immediate This timer applies to subsequent failures 80 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features switchback interval the minimum time in seconds that the primary port link has to be up following failure before the system switches back to the primary port The none parameter if configured prevents switching back to the primary Intermodule Port Redundancy The intermodule port redundancy feature supports one pair of redundant ports per stack The secondary port is activated when the primary port link is down or when the module in the stack holding the primary port has been powered down or removed Switching time for intermodule port redundancy is approximately 1 second Note Defining intermodule port redundancy on ports with no link causes both ports to be disabled You should connect the link prior to attempting to define intermodule port redundancy Note Once a port has been designated in a redundancy scheme either as a primary or a secondary port it can not be designated in any other redundancy scheme Note Intermodule Port Redundancy does not interworks with the Spnning Tree A
52. e device to another to ensure that the receiving device can handle all of the incoming data This is particularly important where the sending device is capable of sending data much faster than the receiving device can receive it There are many flow control mechanisms One of the most common flow control protocols used in Ethernet full duplex is called xon xoff In this case the receiving device sends a an xoff message to the sending device when its buffer is full The sending device then stops sending data When the receiving device is ready to receive more data it sends an xon signal Priority By its nature network traffic varies greatly over time so short term peak loads may exceed the switch capacity When this occurs the switch must buffer frames until there is enough capacity to forward them to the appropriate ports This however can interrupt time sensitive traffic streams such as Voice and other converged applications These packets need to be forwarded with the minimum of delay or buffering In other words they need to be given high priority over other types of networkl traffic Priority determines in which order packets are sent on the network and is a key part of QoS Quality of Service The IEEE standard for priority on Ethernet networks is 802 1p Avaya P330 switches supports two internal priority queues the High Priority queue and the Normal Priority queue Packets tagged with priorities 4 7 are mapped to the
53. e of that port a link fault trap can be sent even when the port is disabled and a fast aging operation on the CAM table will be performed This feature is particularly useful for the link intermodule redundancy application where you need to be informed about a link failure on the dormant port and resume traffic quickly Port Classification CLI Commands In order to Use the following command Set the port classification to either regular or valuable set port classification Display a port s classification show port classification 86 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Stack Redundancy In the unlikely event that a P330 switch or Octaplane link should fail stack integrity is maintained if the redundant cable is connected to the stack The broken link is bypassed and data transmission continues uninterrupted The single management IP address for the stack is also preserved for uninterrupted management and monitoring You can remove or replace any unit within the stack without disrupting operation or performing stack level reconfiguration Since each P330 module has an integral SNMP agent any module in a stack can serve as the stack Network Managment Agent NMA while other NMAs act as redundant agents in hot standby If the live NMA fails then a backup is activated instantaneously Avaya P333T User s Guide 87 Chapter 11 Avaya P330 Layer 2 Features
54. ed to STP 802 1d In order to avoid network topology change when migrating to RSTP the STP path cost is preserved when changing the spanning tree version to RSTP You can use the default RSTP port cost by using the CLI command set port spantree cost auto Spanning Tree Protocol CLI Commands The following table contains a list of CLI commands for the Spanning Tree feature The rules of syntax and output examples are all set out in detail in the Reference Guide Table 11 3 Spanning Tree Protocol CLI Commandss In order to Use the following command Enable Disable the spanning tree application for the switch set spantree Set the bridge priority for spanning tree set spantree priority Set the RSTP bridge spanning tree max age parameter set spantree max age Set the RSTP bridge hello time parameter set spantree hello time Set the RSTP bridge forward delay time prameter set spantree forward delay Select between STP operation or RSTP switch operation set spantree version Display the bridge and per port spanning tree information show spantree Set the TX hold count for the STA set spantree priority Add a port to the spanning tree application set port spantree enable Remove a port from the spanning tree application set port spantree disable Set the port spantree priority level set port spantree priority Set the cost of a port set p
55. ended network This address is media dependent and is automatically determined by the software A network unique identifier for each bridge on the extended network A unique identifier for each bridge LAN interface a port The relative priority of each port The cost of each port After these values are assigned bridges multicast and process the formatted frames called Bridge Protocol Data Units or BPDUs to derive a single loop free topology throughout the extended network The bridges exchange BPDU frames quickly minimizing the time that service is unavailable between hosts aor wn Spanning Tree per Port The Spanning Tree can take up to 30 seconds to open traffic on a port This delay can cause problems on ports carrying time sensitive traffic You can therefore enable disable Spanning Tree in P330 on a per port basis to minimize this effect Avaya P333T User s Guide 71 Chapter 11 Avaya P330 Layer 2 Features Rapid Spanning Tree Protocol RSTP About the 802 1w Standard The enhanced feature set of the 802 1w standard includes Bridge Protocol Data Unit BPDU type 2 New port roles Alternate port Backup port Direct handshaking between adjacent bridges regarding a desired topology change TC This eliminates the need to wait for the timer to expire Improvement in the time it takes to propagate TC information Specifically TC information does not have to be propagated all the way back to the Root B
56. ent tools Fast Ethernet is also known as 100BASE T over copper or 100BASE FX over fiber Fast Ethernet is standardized as IEEE 802 3u Gigabit Ethernet Gigabit Ethernet supports data rates of 1 Gbps It is also known as 1000BASE T over copper or 1000BASE FX over fiber Gigabit Ethernet is standardized as IEEE 802 3z Configuring Ethernet Parameters Auto negotiation Auto Negotiation is a protocol that runs between two stations two switchs or a station and a switch When enabled Auto Negotiation negotiates port speed and duplex mode by detecting the highest common denominator port connection for the endstations For example if one workstation supports both 10 Mbps and 100 Mbps speed ports while the other workstation only supports 10 Mbps then Auto Negotiation sets the port speed to 10 Mbps For Gigabit ports Auto Negotiation determines the Flow Control configuration of the port Full Duplex Half Duplex Devices that support Full Duplex can transmit and receive data simultaneously as opposed to half duplex transmission where each device can only communicate in turn Full Duplex provides higher throughput than half duplex Speed The IEEE defines three standard speeds for Ethernet 10 100 and 1000 Mbps also known as Ethernet Fast Ethernet and Gigabit Ethernet respectively 58 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Flow Control The process of adjusting the flow of data from on
57. er 11 Avaya P330 Layer 2 Features Port Based Network Access Control PBNAC Port Based Network Access Control IEEE 802 1X is a method for performing authentication to obtain access to IEEE 802 LANs The protocol defines an interaction between 3 entitites e Supplicant an entity at one end of a point to point LAN segment that is being authenticated by an authenticator attached to the other end of that link e Authenticator an entity at one end of a point to point LAN segment that facilitates authentication of the entity attached to the other end of that link in this case the P330 e Authentication RADIUS Server an entity that provides an authentication service to an authenticator This service determines from the credentials provided by the supplicant whether the supplicant is authorized to access the services provided by the authenticator The process begins with the supplicant trying to access a certain restricted network resource and upon successful authentication by the authentication server the supplicant is granted access to the network resources How Port Based Authentication Works 802 1X provides a means of authenticating and authorizing users attached to a LAN port and of preventing access to that port in cases wher the authentication process fails The authentication procedure is port based which means access control is achieved by enforcing authetication on connected ports if an end point s
58. fast convergence benefits are lost when interacting with legacy STP bridges e When RSTP detects STP Bridge Protocol Data Units BPDUs type 1 on a specific port it will begin to speak 802 1d on this port only Specifically this means 802 1d bridges will ignore BPDUs and drop them 802 14 bridges will send 802 1d format BPDUs back to the switch The switch will change to 802 1d mode for that port only The P330 configured to RSTP is therefore able to simultaneously work with other switches implementing either RSTP or STP without specific user intervention Spanning Tree configuration is performed on the stack level If you do not upgrade all switches in the stack to firmware version 4 0 spanning tree will continue its normal operation However configuring Spanning Tree will not be possible until all switches are upgraded to version 4 0 is interoperable with P330 Port Redundancy and PBNAC applications If either RSTP or PBNAC put the port in blocking its final state will be blocking e STP and Self Loop Discovery SLD are incompatible However If Spanning Tree is set to rapid spanning tree version there is no need to use the Self loop discovery feature the RSTP algorithm avoids loops generated by the IBM token ring cabling Avaya P333T User s Guide 73 Chapter 11 Avaya P330 Layer 2 Features e The 802 1w standard defines differently the default path cost for a port compar
59. fiber cable ends when powered on WAN Expansion Modules Avaya X330WAN is a series of WAN Edge Router expansion modules for the P330 Stackable Switching System X330WAN enables you to connect your Avaya P330 switch to a WAN X330WAN is part of Avaya s Converged Networks Solution that includes IP telephones data switches and IP exchanges The X330WAN family includes the following modules e X330W 2DS1 access router module has 2 E1 T1 interfaces a single 10 Avaya P333T User s Guide 15 Chapter 3 100Base T Fast Ethernet port and a Console port e The X330W 2USP contains 2 USP Universal Serial Ports one 10 100Base T Fast Ethernet port and one Console port An Avaya P330 stack can have X330W AN access router modules inserted in each of the switches in the stack with an expansion slot A maximum stack configuration of 10 P334T switches using the X330WAN provides 490 Fast Ethernet 10 100 ports and 20 E1 T1 or USP ports 16 Avaya P333T User s Guide AVAYA P333T SECTION 2 INSTALLING THE P330 AVAYA Chapter 4 Installation This chapter describes the basic hardware Installation procedures for the Avaya P330 Required Tools Make sure you have the following tools at hand before undertaking the Installation procedures Philips cross blade screwdriver Site Preparation 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
60. he P330 module has integrated sensors which provide advance warnings of fan failure power supply failure or Backup Power Supply BUPS failure via management Avaya P333T User s Guide 3 Chapter 1 Avaya P333T Overview 4 Avaya P333T User s Guide Chapter 2 Standards and Compatibility Avaya P330 Standards Supported The Avaya P330 complies with the following standards IEEE IETF Layer 2 802 3x Flow Control on all ports 802 10 VLAN Tagging support on all ports 802 1p Priority Tagging compatible on all ports 802 1D Bridges and STA 802 1w Rapid Spanning Tree Protocol 802 1X Port Based Network Access Control 802 3z Gigabit Ethernet on expansion module MIB II RFC 1213 Structure and identification of management information for TCP IP based Internet RFC 1155 Simple Network Management Protocol SNMP 1157 PPP Internet Protocol Control Protocol IPCP RFC 1332 PPP Authentication Protocols PAP amp CHAP RFC 1334 PPP RFC 1661 ATM Management RFC 1695 RMON RFC 1757 SMON RFC 2613 Bridge MIB Groups 2674 dotldbase and dot1dStp fully implemented Support for relevant MIB objects dot1q dot1gBase dot1qVlanCurrent The Interfaces Group MIB RFC 2863 Remote Authentication Dial In User Service RADIUS RFC 2865 IIETF Network Monitoring RMON RFC 1757 support for groups 1 2 3 and 9 Statistics History Alarms Events Avaya P333T User s Guide Cha
61. he 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 Jak an Jana Jaja J Li ILI Tema m gt i gt Lj L1 H KEY Hole in rack e Screw position 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 not obstructed Avaya P333T User s Guide 21 Chapter 4 Installation Stacking Switches Optional Avaya P330 is a stackable switching system Stacking involves the mounting and connecting of stacking sub modules in the P330 switch Installing the X330STK Stacking Sub module in the P330 V Caution The stacking sub modules contain components sensitive to electrostatic discharge Do not touch the circuit board unless instructed to do so To install the stacking sub module in the Avaya P330 1 Remove the blanking plate from the back of the Avaya P330 switch 2 Insert the stacking sub 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 sub module in firmly until it is completely inserted into the Avaya P
62. hen the port is authorized by the RADIUS server Note The actual state of ports configured as Force Authenticate is determined by the STA Configuring the P330 for PBNAC This section lists the basic tasks required to configure a P330 stack for PBNAC To configure P330 for PBNAC do the following Configure a RADIUS server on a network reachable from the P330 Create user names and passwords for allowed users Make sure the EAP option is enabled on this server Configure the P330 for RADIUS Configure RADIUS parameters Enable the RADIUS feature Configure the port used to access the RADIUS server as force authorized Connect the Supplicant i e Windows XP clients directly to the P330 Verify that the dotlx port control is in auto mode Set the dotlx system auth config to enable the authentication process starts The supplicant is asked to supply a user name and password If authentication is enabled on the port the Authenticator initiates authentication when the link is up Authentification Succeeds after the authentication process completes the supplicant will receive a Permit Deny notification Authentication Fails authentication will fail when the Supplicant fails to respond to requests from the Authenticator when management controls prevent the port from being authorized when the link is down or when the user supplied incorrect logon information PBNAC CLI Commands
63. hrain 4800 610 Belgium 432 2 626 8420 Belorussia 431 70 414 8047 Bosnia 431 70 414 8042 Herzegovina Bulgaria 431 70 414 8004 Croatia 431 70 414 8039 Cyprus 431 70 414 8005 Czech Rep 431 70 414 8006 Denmark 45 8233 2807 Egypt 431 70 414 8008 Estonia 372 6604736 Estonia 4372 6604736 Latvia 371 721 4368 EDU Number Finland 358 981 710 081 France 33 1 4993 9009 Germany 49 69 95307 680 Ghana 431 70 414 8044 Gibraltar 431 70 414 8013 Greece 00800 3122 1288 Hungary 06800 13839 Iceland 0800 8125 Ireland 353 160 58 479 Israel 1 800 93 00 900 Italy 439 02 7541 9636 Jordan 431 70 414 8045 Kazakhstan 431 70 414 8020 Kenya 431 70 414 8049 Kuwait 431 70 414 8052 Saudi Arabia 31 70 414 8022 Avaya P333T User s Guide 103 Local Dial In Local Dial In Number eny Number Lebanon 431 70 414 8053 Slovakia 431 70 414 8066 Lithuania 4370 2 756 800 Slovenia 431 70 414 8040 Luxemburg 352 29 6969 5624 South Africa 0800 995 059 Macedonia 431 70 414 8041 Spain 34 91 375 3023 Malta 431 70 414 8022 Sweden 46 851 992 080 Mauritius 431 70 414 8054 Switzerland 41 22 827 8741 Morocco 431 70 414 8055 Tanzania 431 70 414 8060 Netherlands 31 70 414 8023 Tunisia 431 70 414 8069 Nigeria 431 70 414 8056 Turkey 4800 4491 3919 Norway 447 235 001 00 UAE 431 70 414 8036 Oman 431 70 414 8057 Uganda 431 70 414 8061 Pakistan 431 70 414 8058 UK 44
64. imes a specific intruder is detected on a port and then every 15 minutes if the intrusion continues User should first enable the MAC security global mode set security mode and then configure the ports which should be secured set port security When setting a port to secured the MAC addresses that a currently learnt on this port are preserved and considered as secure MAC unless they are removed using clear secure mac command Individual secure MACs can also be added Note If the secure MAC editing command are to be implemented on a switch other than the stack master a session should be opened to the relevant switch Note Ports that are members of a port redundency scheme should not be also configured as secure ports MAC Security CLI Commands The following table contains a list of the CLI commands for the MAC Security feature The rules of syntax and output examples are all set out in detail in the P330 Reference Guide Table 11 4 MAC Security CLI Commands In order to Use the following command Enable or disable the switch MAC setsecurity mode security 76 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features In order to Use the following command Enable or disable MAC security on set port security a port Add a unicast MAC address into set secure mac the CAM table of a secured port session command Remove a unicast MAC address clear secu
65. ip route dest gateway and replace dest and gateway with the destination and gateway IP addresses Press Enter to save the destination and gateway IP addresses 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 the Stack Master IP address 1 2 Connect your station to the network 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 mask is 255 255 255 0 D Note The Avaya P330 default IP address is 149 49 32 134 and the default subnet 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 lt P330_IP_address gt For example telnet 149 49 32 134 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 When you see the Welcome to P330 menu and are prompted for a Login Name enter the default name root When you are prompted for a password enter the User Level password root in lower case letters do NOT use uppercase letters The User level prompt will appear when you have established communications with the Avaya P330 You can now configu
66. ircuit boards unless instructed to do so Caution Do not leave any slots open Cover empty slots using the blanking plates supplied Warning The fans are on whenever the power is on in the chassis 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 uses the following conventions to convey instructions and information CLI Conventions e Mandatory keywords are in the computer bold font Avaya P333T User s Guide vii e Information displayed on screen is displayed in computer font e Variables that you supply are in pointed brackets lt gt Optional keywords are in square brackets e Alte
67. l in Figure 6 3 Figure 6 3 shows the back panel of the AC switch top and the DC switch bottom with a stacking sub module installed 34 Avaya P333T User s Guide Chapter6 Avaya P333T Front and Back Panels BUPS Input Connector The BUPS input connector 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 6 4 5 Input Connector Sticker Avaya P333T User s Guide 35 Chapter 6 Avaya P333T Front and Back Panels 36 Avaya P333T User s Guide Chapter 7 Establishing Switch Access This chapter describes various methods for accessing the Avaya P330 CLI including a terminal to the serial port on the switch P330 Sessions a workstation running a Telnet session connected via the network a remote terminal workstation attached via a modem PPP connection Establishing a Serial Connection This section describes the procedure for establishing switch access between a terminal and the Avaya P330 switch over the serial port provided on the front panel of the P330 RJ 45 connector labeled Console 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 Terminal to the Avaya P330 Serial port
68. lgorithm Port Redundancy CLI Commands The following table contains a list of the CLI commands for the Redundancy feature The rules of syntax and output examples are all set out in detail in the P330 Reference Guide Table 11 6 Redundancy CLI Commands check spec In order to Use the following command Define or remove port redundancy set port redundancy schemes Enable the defined port set port redundancy enable redundancy schemes Avaya P333T User s Guide 81 Chapter 11 Avaya P330 Layer 2 Features In order to Use the following command Disable the defined port redundancy schemes set port redundancy disable Define the timers that control the port redundancy operation set port redundancy interval Display information on port redundancy schemes show port redundancy Define the switch s unique intermodule redundancy scheme set intermodule port redundancy Clear the intermodule redundancy set intermodule port redundancy off display the intermodule redundancy entry defined for the switch show intermodule port redundancy 82 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features IP Multicast Filtering Overview IP Multicast is a method of sending a single copy of an IP packet to multiple destinations It can be used by different applications including video streaming and video conferencing Th
69. net Fast Ethernet and Gigabit Ethernet connectivity An Avaya P330 stack can contain up to 10 switches and up to 3 backup power supply units The stacked switches are connected using the Avaya X330STK stacking Modules 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 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 e Avaya X330STK this stacking Module is used to connect Avaya P330 switches in a stack via the Octaplane e 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
70. nning Tree Protocol Overview Avaya P330 devices support both common Spanning Tree protocol 802 1d and the enhanced Rapid Spanning Tree protocol 802 1w The 802 1w is a faster and more sophisticated version of the 802 1d STP standard Spanning Tree makes it possible to recover connectivity after an outage within a minute or so RSTP with its rapid algorithm can restore connectivity to a network where a backbone link has failed in much less time In order to configure the switch to either common Spanning Tree or Rapid Spanning Tree protocol use the set spantree version command Spanning Tree Protocol The Spanning Tree Algorithm ensures the existence of a loop free topology in networks that contain parallel bridges A loop occurs when there are alternate routes between hosts If there is a loop in an extended network bridges may forward traffic indefinitely which can result in increased traffic and degradation in network performance The Spanning Tree Algorithm e Produces a logical tree topology out of any arrangement of bridges The result is a single path between any two end stations on an extended network Provides a high degree of fault tolerance It allows the network to automatically reconfigure the spanning tree topology if there is a bridge or data path failure The Spanning Tree Algorithm requires five values to derive the spanning tree topology These are 1 A multicast address specifying all bridges on the ext
71. 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 9 1 Default Switch Settings Function Default Setting IP address 149 49 32 134 Subnet Mask 255 255 255 0 Default gateway 0 0 0 0 Management VLAN ID 1 Spanning tree Enabled Bridge priority for Spanning Tree 32768 Keep alive frame transmission Enabled Network time acquisition Enabled Time protocol Time server IP address 0 0 0 0 Avaya P333T User s Guide 49 Chapter 9 Default Settings of the P330 Table 9 1 Default Switch Settings Function Default Setting Timezone offset 0 hours SNMP communities Read only Public Read write Public Trap SNMP Public SNMP retries number 3 SNMP timeout 2000 Seconds SNMP authentication trap Disabled CLI timeout 15 Minutes User Name Password root root Table 9 2 Default Port Settings Function Default Setting 10 100Base TX ports 100Base F ports 1000 Base X ports Duplex mode Full duplex Full duplex Full duplex only Port Speed
72. on before the session is terminated set dotlx max reg Avaya P333T User s Guide 69 Chapter 11 Avaya P330 Layer 2 Features In order to Use the following command Globally enable disable 802 1x set dotlx system auth control enable disable Set dotlx control parameter per port set port dotlx port control Initialize port dot1x set port dot1x initialize Set the port to re authenticate set port dotlx re authenticate Set dotlx re authentication mode per port set port dotlx re authentication Set the 802 1x guiet period per port set port dotlx guiet period Set the transmit period per port a time interval between attempts to access the Authenticated Station set port dotlx tx period Set the supp timeout per port a time for the port to wait for a reply from the Authenticated Station set port dotlx supp timeout Set the server timeout per port a time to wait for a reply from the Authentication Server set port dotlx server timeout Set the re authentication period per port an idle time between re authentication attempts set port dotlx re authperiod Set the max reg per port the maximal number of times the port tries to retransmit reguests to the Authenticated Station before the session is terminated set port dotlx max reg 70 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Spa
73. ontains a mapping of learned MAC addresses to ports The switch checks forwarding requests against the addresses contained in the CAM Table If the MAC address appears in the CAM Table the packet is forwarded to the appropriate port If the MAC address does not appear in the CAM Table or the MAC Address mapping has changed the frame is duplicated and copied to all the ports Once a reply is received the CAM table is updated with the new address VLAN port mapping Ethernet Configuration CLI Commands The following table contains a list of the configuration CLI commands for the Ethernet feature The rules of syntax and output examples are all set out in detail in the Reference Guide Table 11 1 Configuration CLI Commands for Ethernet Feature In order to Use the following command Set the auto negotiation mode of a port set port negotiation Administratively enable a port set port enable 10 100BASE T port Administratively disable a port set port disable Set the speed for a 10 100 port set port speed Configure the duplex mode of a set port duplex Configure a name for a port set port name Set the send receive mode for flow control frames for a full duplex port set port flowcontrol Set the flow control advertisement for a Gigabit port when performing autonegotiation set port auto negotiation flowcontrol advertisement 60 Avaya P333T User s G
74. ort spantree cost 74 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Table 11 3 Spanning Tree Protocol CLI Commandss In order to Use the following command Set the port as an RSTP port and not as acommon STA port set port spantree force protocol migration Display a port s edge admin and operational RSTP state show port edge state Set the port as an RSTP edge port or non edge port set port edge admin state Set the port point to point admin status set port point to point admin status Show the port s point to point admin and operational RSTP status show port point to point status Avaya P333T User s Guide 75 Chapter 11 Avaya P330 Layer 2 Features MAC Security The MAC security function is intended to filter incoming frames from the line with an unauthorized source MAC address SA MAC Security Implementation in P330 When a frame is received on a secured port its SA is checked against the MAC Address Table If either the SA is not found there or it is found but with a different port location then the frame is rejected without being learned A message is then sent to the CPU The Agent reports the attempted intrusion via an SNMP security violation trap containing the intruder s MAC address To prevent the flooding of the Console s trap log network the Agent sends an intruder alert every 5 seconds for the first 3 t
75. owever if BPDUs are received on an Edge port it s operational state will be changed to non edge port and bridging loops will be avoided by the RSTP algorithm The default admin state of all ports is edge port 72 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features Note You must manually configure uplink and backbone ports including LAG logical ports to be non edge ports using the CLI command set port edge admin state Point to point Link ports This port type applies only to ports interconnecting RSTP compliant switches and is used to define whether the devices are interconnected using shared Ethernet segment or pont to point Ethernet link RSTP convergence is faster when switches are connected using point to point links The default setting for all ports automatic detection of point to point link is sufficent for most networks Spanning Tree Implementation in the P330 Family RSTP is implemented in P330 family of products so that it is interoperable with the existing implementation of STP In order to configure the switch to either common Spanning Tree or Rapid Spanning Tree protocol usethe set spantree version command e After upgrading to software version 4 0 the default is spanning tree version STP The default after NVRAM INIT remains STP The balance of this section lists the conditions and limitations that govern the implementation of Spanning Tree in the P330 line e
76. pter 11 Avaya P330 Back Panel aeterne fe ie etie 34 BUPS Input Connector u sees eee nenne 35 Establishing Switch Access sse eee enn 37 Establishing a Serial Connection sess eee 37 Configuring the Terminal Serial Port Parameters 37 Connecting a Terminal to the Avaya P330 Serial port 37 P330 SESSIONS us idet en ee e e a eec e i eee 38 Assigning P330 s IP Stack Address esses 38 Establishing a Telnet Connection sese eee 39 Establishing a Modem PPP Connection with the P330 40 OW ewe banana i b dg 40 Connecting a Modem to the Console Port ooooooooooo 40 User A thenticatloni s nescit deett te tet ii 41 ata tea coti 41 Security Levels sir s phe aee ertt i tna ee eee red Ie e aaa sassa 41 Entering the Supervisor Level sese 42 Defining new local users oooooooooooo 42 Exiting the Supervisor Level 42 Enteringithe EL doe eroe rete ee erret tette etes 43 RA IUS ci a ete aun sy ashata ertet it a Dn rue 43 Introduction to RADIUS a 43 Radi s Commands ee tete etit 45 Allowed Mana gets ic d ret eter eerte reete tenter 46 Allowed Manager CLI Commands see 46 Configuration of the P330 Default Settings of
77. pter 2 Standards and Compatibility e SMON 2613 support for groups Data Source Capabilities Port Copy and Priority Statistics Bridge MIB Groups 2674 dotldbase and dot14dStp fully implemented Support for relevant MIB objects dot1q dotiqBase dotlqVlanCurrent 6 Avaya P333T User s Guide Chapter 3 Specifications Avaya P333T Switch Physical Height 2U 88 mm 3 5 Width 482 6 mm 19 Depth 450 mm 17 7 Weight 7 5 kg 16 5 Ib Power Requirements AC Input voltage 100 to 240 VAC 50 60 Hz Power dissipation 150 W max Input current 53A Power Requirements DC Input voltage 36 to 72 VDC Power dissipation 150 W max Input current 5 1 A max Environmental Operating Temp 5 to 50 C 23 to 122 F Relative Humidity 5 to 95 non condensing Avaya P333T User s Guide Chapter 3 Safety e UL for US approved according to UL1950 Std e C UL UL for Canada approved according to C22 2 No 950 Std e CE for Europe approved according to EN 60950 Std Laser components are Laser Class I approved EN 60825 IEC 825 for Europe FDA CFR 1040 for USA Safety AC Version 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 Safety DC Version Restricted Access Area This
78. re mac from CAM table of a secured port session command Display the status of the MAC show security mode security feature enabled disabled Display the secure MAC addresses show secure mac port of a port session command List the security mode of the ports show port security of a switch Avaya P333T User s Guide 77 Chapter 11 Avaya P330 Layer 2 Features LAG LAG Overview A LAG uses multiple ports to create a high bandwidth connection with another device For example Assigning four 100BASE T ports to a LAG on an Avaya P330 allows the switch to communicate at an effective rate of 400 Mbps with another switch LAGs provide a cost effective method for creating a high bandwidth connection LAGs also provide built in redundancy for the ports that belong to a LAG If a port in a LAG fails its traffic is directed to another port within the LAG The behavior of the LAG is derived from the base port the first port that becomes a LAG member The attributes of the base port such as port speed VLAN number etc are applied to all the other member ports in the LAG When created each LAG is automatically assigned a logical port number usually designated 10x This logical port number can then be used as any regular panel port for all configuration required for the LAG Spanning Tree Redundancy etc Note In the P330 ML switches you need to erase all ports in t he LAG in order to remove it
79. re the Avaya P330 stack and change its default IP address Avaya P333T User s Guide 39 Chapter7 Establishing Switch Access Establishing a Modem PPP Connection with the P330 Overview Point to Point Protocol PPP provides a Layer 2 method for transporting multi protocol datagrams over modem links 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 2 3 Connect a terminal to the console port of the Avaya P330 switch as described in Connecting a Terminal to the Avaya P330 Serial port When you are prompted for a Login Name enter the default name root When you are prompted for a password enter the password root You are now in Supervisor Level 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 must be on a different subnet from the stack inband interface Note The PPP interface configured with the set interface ppp command 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 At the prompt type set interface ppp enable The CLI responds with the following Entering the Modem mode within 6
80. re they are not needed To the ports that do get the multicast forwarding is performed in the same way as if there was no filtering and the multicast packet will not be sent to any ports that would not receive it if there was no filtering The multicast filtering function operates per VLAN A multicast packet arriving at the device on a certain VLAN will be forwarded only to a subset of the ports of that VLAN If VLAN tagging mode is used on the output port then the multicast packet will be tagged with the same VLAN number with which it arrived This is interoperable with multicast routers that expect Layer 2 switching to be done independently for each VLAN IP Multicast Filtering configuration is associated with the setting up of three timers The Router Port Pruning timer ages out Router port information if IGMP queries are not received within the configured time The Client Port Pruning time is the time after the P330 switch reset that the filtering information is learned by the switch but not configured on the ports The Group Filtering Delay time is the time that the switch waits between becoming aware of a Multicast group on a certain VLAN and starting to filter traffic for this group Avaya P333T User s Guide 83 Chapter 11 Avaya P330 Layer 2 Features IP Multicast CLI Commands The following table contains a list of the CLI commands for the IP Multicast feature The rules of syntax and output examples are all set out in det
81. ridge and back to be changed Origination of BPDUs on a port by port basis Port Roles At the center of RSTP specifically as an improvement over STP 802 1d are the roles that are assigned to the ports There are four port roles Root port port closest to the root bridge Designated port corresponding port on the remote bridge of the local root port Alternate port an alternate route to the root Backup port an alternate route to the network segment The RSTP algorithm makes it possible to change port roles rapidly through its fast topology change propagation mechanism For example a port in the blocking state can be assigned the role of alternate port When the backbone of the network fails the port may be rapidly changed to forwarding Whereas the STA passively waited for the network to converge before turning a port into the forwarding state RSTP actively confirms that a port can safely transition to forwarding without relying on any specific programmed timer configuration RSTP provides a means of fast network convergence after a topology change It does this by assigning different treatments to different port types The port types and the treatment they receive follow Edge ports Setting a port to edge port admin state indicates that this port is connected directly to end stations that cannot create bridging loops in the network These ports transition quickly to forwarding state H
82. rives at a port only the packets with the VLAN tag corresponding to the VLANs which are configured on the port will be accepted Packets with other VLAN tags will be dropped 64 Avaya P333T User s Guide Chapter 11 Avaya P330 Layer 2 Features VLAN CLI Commands The following table contains a list of the CLI commands for the VLAN feature The rules of syntax and output examples are all set out in detail in the Reference Guide Table11 2 VLAN CLI Commands In order to Use the following command Assign the Port VLAN ID PVID set port vlan Define the port binding method set port vlan binding mode Define a static VLAN for a port set port static vlan Configure the tagging mode of a set trunk port Create VLANs set vlan Display the port VLAN binding show port vlan binding mode mode settings Display VLAN tagging information show trunk of the ports port binding mode port VLAN ID and the allowed VLANS on a port Display the VLANs configured in show vlan the switch Clear VLAN entries clear vlan Clear a VLAN statically configured clear port static vlan on a port Avaya P333T User s Guide 65 Chapter 11 Avaya P330 Layer 2 Features VLAN Implementation in the Avaya P333T This section describes the implementation of the VLAN feature in the Avaya P333T e No of VLANs 1024 tagged VLANS ranging from 1 to 3071 66 Avaya P333T User s Guide Chapt
83. rnative 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 Notes Cautions and Warnings Note Notes contain helpful information or hints or reference to material in other documentation v 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 2003 Avaya Inc All rights reserved All trademarks identified by the 9 or TM are registered trademarks or trademarks respectively of Avaya Inc All other trademarks are the property of their respective owners viii Avaya P333T User s Guide AVAYA P333T SECTION 1 OVERVIEW OF THE P330 AVAYA Chapter 1 Avaya P333T Overview Introduction The Avaya P330 family of stackable Ethernet workgroup switches includes a range of modules with 10 100 1000 Mbps ports a Layer 3 capability and ATM and WAN expansion modules The Avaya P333T switch has 24 x10 100 Mbps ports and an Expansion Module slot The optional expansion modules provide additional Ether
84. sion router To configure the switch parameters on module 6 type the command session 6 switch Note When you usethe session command the security level stays the same 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 The network management station or a workstaion running Telnet session can establish communications with the stack once this address had been assigned and the stack has been inserted into the network Use the CLI to assign the P330 stack an IP address and net mask 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 38 Avaya P333T User s Guide Chapter7 Establishing Switch Access At the prompt type set interface inband lt vlan gt ip address lt netmask gt Replace vlan ip address and lt netmask gt with the VLAN IP address and net mask of the stack Press Enter to save the IP address and net mask At the prompt type reset and press Enter to reset the stack After the Reset log in again as described above Atthe prompt type set
85. switch and other network equipment Prerequisites Make sure you have the following before attempting to connect network equipment to the P330 switch Port Types a list of network equipment to be connected to the P330 switch detailing the connector types on the various units all required cables see below Appropriate cables are available from your local supplier Avaya P330 supports the following types of ports according to the speed and standard they support LAN 10 100Base T 100Base FX 1000Base T 1000Base SX and 1000Base LX WAN by type X330W 2DS1 E1 T1 10 100Base T X330W 2USP USP V 35 10 100Base T Note To interconnect Avaya P330 switches with twisted pairs crossed cables are required 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 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 A fiberoptic cable must be connected to 1000Base SX or 1000Base LX port via SC connectors according to the table below 26 Avaya P333T User s Guide Chapter 4
86. tation that connects to a port is not authorized the port state is set to unauthorized which closes the port to any traffic e As a result of an authentication attempt the P330 port can be either ina blocked or a forwarding state 802 1X interacts with existing standards to perform its authentication operation Specifically it makes use of Extensible Authentication Protocol EAP messages encapsulated within Ethernet frames EAPOL and EAP over RADIUS for the communication between the Authenticator and the Authentication Server PBNAC Implementation in the P330 Family This section lists the conditions that govern the implementation of the 802 1X standard in the P330 line You can configure PBNAC on the 10 100 Mbps Ethernet ports only e PBNAC can work only if a RADIUS server is configured on the P330 and the RADIUS server is carefully configured to support 802 1X PBNAC and port intermodule redundancy can co exist on the same ports e PBNAC and LAGs can coexist on the same ports e PBNAC and Spanning Tree can be simultaneously active on a module Avaya P333T User s Guide 67 Chapter 11 Avaya P330 Layer 2 Features Note If either PBNAC or STP RSTP are in a blocking state the final state of the port will be blocked When PBNAC is activated the application immediately places all ports in a blocking state unless they were declared Force Authenticate They will be reverted to Forwarding state only w
87. that offers a variety of options to install the plug in see Figure 12 1 92 Avaya P333T User s Guide Chapter 12 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 Installing from the Avaya P330 Documentation and Utilities CD Close all unnecessary applications on your PC Insert the Avaya P330 Documentation and Utilities CD into the CD drive Click Start on the task bar Select Run Type x emweb aux files plug in_1_3_1 exe where x is the CD drive letter Follow the instructions on screen wn a Install from the Avaya Site Click on the link in the Welcome page 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 Avaya P333T User s Guide 93 Chapter 12 Embedded Web Manager Installing the On Line Help and Java Plug In on your Web Site e 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 en
88. the RADIUS client and server are authenticated through the use of a shared secret which is not sent over the network The shared secret is an authentication password configured on both the RADIUS client and its RADIUS servers The shared secret is stored as clear text in the client s file on the RADIUS server and in the non volatile memory of the P330 In addition user passwords are sent between the client and server are encrypted for increased security Figure 8 1 illustrates the RADIUS authentication procedure Figure 8 1 RADIUS Authentication Procedure User attempts login Local User di account Sx authenticated in lt Tes switch lt No Y Authentication Yes request sent to RADIUS Server ser name and lt password es authenticated lt No Y Y Authentication Reject Perform log in according sent to switch to user s priviliege level User cannot access switch to switch embedded managegment 44 Avaya P333T User s Guide Chapter 8 User Authentication Radius Commands The following radius commands are accessible from Supervisor level In order to Use the following command Enable or disable authentication for the P330 switch RADIUS authentication is disabled by default set radius authentication Set a primary or secondary RADIUS server IP address set radius authentication server Configure a character string to be used as a shared secret between the s
89. 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 RepeatSteps 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 light Vv colored 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 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 D Power Supply Connector Cableto Cable to Lower Unit Upper Unit W N q Connector D Power Supply Connector Avaya P333T User s Guide 23
90. tiple switches you should use RADIUS Remote Authentication Dial In User Service A login name and password are always required to access the CLI and the commands The login name password and access type i e security level for a user account 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 Note If you wish to increase security you can change the default user accounts and SNMP communities Avaya P333T User s Guide 41 Chapter 8 User Authentication Note The Web management passwords are the same as those of the CLI If you change the passwords of the CLI then those passwords become active for Web management as well Entering the Supervisor Level The Supervisor level is the level in which you first enter P330 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 asthe Login name and the default password root in lowercase letters Welcome to P330 Login root Password Password accepted Cajun P330 N super Defining new local users Define new users and access levels using the following command in Supervisor Level In order to
91. uide Chapter 11 Avaya P330 Layer 2 Features In order to Use the following command Set the priority level of a port set port level Display settings and status for all show port ports Display per port status information show port flowcontrol related to flow control Display the flow control show port auto negotiation advertisement for a Gigabit port flowcontrol advertisement used to perform auto negotiation Display the CAM table entries fora show cam specific port Clear all the CAM entries clear cam Display the autopartition settings show autopartition Ethernet Implementation in the Avaya PP333T This section describes the implementation of the Ethernet feature in the Avaya P333T Speed 10 100 and 1G ports Priority queuing 2 queues e CAM size 4K addresses Avaya P333T User s Guide 61 Chapter 11 Avaya P330 Layer 2 Features VLAN Configuration VLAN Overview A VLAN is made up of a group of devices on or more LANs that are configured so that they operate as if they form an independent LAN when in fact they may be located on a number of different LAN segments VLANs can be used to group together departments and other logical groups thereby reducing network traffic flow and increasing security within the VLAN The figure below illustrates how a simple VLAN can connect several endpoints in different locations and attached to different
92. val eee idt end ene ener erii 14 DEAL sce dace teta eor ta al maag Moves 14 X330GT2 Gigabit Ethernet Expansion 14 ATM Expansion Modules esse eee 14 Safety Information sse eene 15 WAN Expansion Modules eee eene 15 Installing the P330 Installation 122 19 Required Tools tete Ran IER nd P ett AN al 19 Site Pr paralofiz i en an Ro e HEBR E HR PURSE OH Ie ce PROTEIN aA 19 Rack Mounting Optional sse eene nnn 21 Stacking Switches Optional 22 Installing the X330STK Stacking Sub module in the P330 22 Connecting Stacking Sub modules oooo o ooooo 22 Installing Expansion Sub modules sse 25 Installing the Expansion Sub module into the Avaya P330 25 Making Connections to Network Eguipment ooo ooo 26 Prer quisites uaa dee pati eii Natan 26 Port Types ses es rin eda dan alah 26 Powering Up the Avaya P330 sse eee nene 29 Powering On Avaya P330 Module AC we 29 Powering On Avaya P330 Module DC sese 29 Post Installation on e n e Ed ien 30 Avaya P333T Front and Back Panels sss 31 Avaya P333 Front Panel m retten endende 31 ii Avaya P333T User s Guide Table of Contents Chapter 7 Chapter 8 Section 3 Chapter 9 Chapter 10 Cha
93. w avaya com support Downloading Software Download the firmware and Embedded Web Manager as follows Use the command in the Avaya P330 CLI copy tftp SW image image file EW archive filename ip mod num image file firmware image file name full path filename Embedded Web Manager image file name full path ip The IP address of the TFTP server mod num Target module number Please see the CLI Chapters of the User s Guides for related information Avaya P333T User s Guide 101 Chapter 16 Updating the Software Note Upgrading from firmware Versions Below 2 4 When you upgrade the firmware from below version 2 4 you must upgrade in two steps First upgrade to 2 4 and then upgrade to 3 x or higher If you try to upgrade directly from any version below 2 4 to Version 3 x or higher the upgrade will fail and you will get the following error message file too big Note Please download both the new Avaya firmware and the new Embedded Web Manager versions Whichever version of the firmware you decide to run always be sure to match the correct firmware and Embedded Web Manager versions Download New Version without Overwriting Existing Version Sometimes it is desirable to upgrade to a new software version while retaining the option of booting from the previous version The following process copies the previous version from memory Bank B to Bank A and download the new version to
94. witch and the RADIUS server set radius authentication secret Set the RFC 2138 approved UDP port number set radius authentication udp port Set the number of times an access request is sent when there is no response set radius authentication retry number Set the time to wait before re sending an access request set radius authentication retry time Remove a primary or secondary RADIUS authentication server clear radius authentication server Display all RADIUS authentication configurations The shared secrets will not be displayed show radius authentication For a complete description of the RADIUS CLI commands including syntax and output examples refer to Avaya P330 Reference Guide Avaya P333T User s Guide 45 Chapter 8 User Authentication Allowed Managers With the Allowed Managers feature the network manager can determine who may or may not gain management access to the switch The feature can be enabled or disabled default is disabled When enabled only those users that are configured in the Allowed Managers table are able to gain Telnet HTTP and SNMP management access to the switch You can configure up to 20 Allowed Mangers by adding or removing their IP address from the Allowed Managers List Note The identification of an Allowed Manager is done by checking the Source IP address of the packets thus if the Source IP address is modified on the way NA
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