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OSD Audio 2600P series Operator's Manual

Managed ethernet switch
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OPERATOR MANUAL
OSD2600P SERIES
MANAGED
ETHERNET SWITCH

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Summary of Contents for OSD Audio 2600P series

  • Page 1 OPERATOR MANUAL OSD2600P SERIES MANAGED ETHERNET SWITCH...

  • Page 3: Table Of Contents

    OPTICAL SYSTEMS DESIGN INDEX 1 QUICK START GUIDE ......................5 ......................5 HYSICAL ESCRIPTION ....................... 6 UNCTIONAL ESCRIPTION ....................... 7 ONSOLE ONFIGURATION 1.3.1 ..................7 ONNECT WITCH ONSOLE 1.3.2 ....... 7 ONFIGURATION ETTINGS ERMINAL MULATION ROGRAM ....................... 8 ONFIGURATION TECHNICAL SUMMARY ...................... 10 ........................
  • Page 4 OPTICAL SYSTEMS DESIGN ..........................44 RUNCKING STP / R ..........................45 VLAN ............................. 53 S ............................58 6.10 SNMP ............................. 61 6.11 802.1 ............................. 66 6.12 ......................... 70 THER ROTOCOLS COMMAND LINE CONSOLE MANAGEMENT ..............75 ....................75 DMINISTRATION ONSOLE 7.1.1 ) ....................

  • Page 5: Quick Start Guide

    OPTICAL SYSTEMS DESIGN 1 QUICK START GUIDE This quick start guide describes how to install and use the Hardened Managed PoE (Power over Ethernet) Ethernet Switch. This is the switch of choice for harsh environments constrained by space. PHYSICAL DESCRIPTION The Port Status LEDs and Power Inputs FIGURE 1: OSD2600P FRONT AND REAR PANELS Table 1: OSD2600P LED FUNCTIONS...

  • Page 6: F Unctional D Escription

    OPTICAL SYSTEMS DESIGN Power Input Assignment + 47~55VDC Power2 Power Ground - 47~55VDC + Terminal Power1 Block - Power Ground Earth Ground Relay Output Rating 1A @ 250VAC Relay Alarm Assignment *Warning signal disable for following: The relay contact closes if Power1 and Power2 are both failed. FAULT FUNCTIONAL DESCRIPTION •...

  • Page 7: C Onsole C Onfiguration

    OPTICAL SYSTEMS DESIGN CONSOLE CONFIGURATION 1.3.1 CONNECT TO THE SWITCH CONSOLE Connect the DB9 straight cable to the RS-232 serial port of the device and the RS-232 serial port of the terminal or computer running the terminal emulation application. Direct access to the administration console is achieved by directly connecting a terminal or a PC equipped with a terminal-emulation program (such as HyperTerminal) to the switch console port.

  • Page 8: W Eb C Onfiguration

    OPTICAL SYSTEMS DESIGN FIGURE 3: CLI SETUP WEB CONFIGURATION • Login the switch: Specify the default IP address (192.168.1.10) of the switch in the web browser. A login window will be shown as below: FIGURE 4: WEB CONFIGURATION (1) • Enter the factory default login ID: root.

  • Page 9: Figure 5: Web Configuration (2)

    OPTICAL SYSTEMS DESIGN FIGURE 5: WEB CONFIGURATION (2) DOC ID: 10112303 PAGE 9 OSD2600 OPERATOR MANUAL...

  • Page 10: Technical Summary

    OPTICAL SYSTEMS DESIGN 2 TECHNICAL SUMMARY BRIEF DESCRIPTION 2.1.1 PREFACE This manual describes how to install and use the OSD2600P Hardened Managed PoE (Power Over Ethernet) Ethernet Switch. The OSD2600P switch is designed to deliver full scalability with SNMP/RMON web-based management functions. To get the most out of this manual, you should have an understanding of Ethernet networking concepts.

  • Page 11: T Ypical C Onfiguration

    OPTICAL SYSTEMS DESIGN TYPICAL CONFIGURATION Figure 6 below indicates a possible set-up for an OSD2600P system. FIGURE 6: OSD2600P TYPICAL CONFIGURATION DOC ID: 10112303 PAGE 11 OSD2600 OPERATOR MANUAL...

  • Page 12: T Echnical S Pecifications

    OPTICAL SYSTEMS DESIGN TECHNICAL SPECIFICATIONS TABLE 2: TECHNICAL SPECIFICATIONS SPECIFICATION PERFORMANCE IEEE802.3i, IEEE802.3u, IEEE802.3ab, Base-T Ethernet at 10, 100 or Electrical Data Interface 1000Mbps Electrical Data Connector RJ45 on the fixed copper ports Configuration Connector IEEE802.3af: 47 to 55V @ 0.35Amp maximum IEEE802.3z, 1000Base-Lx, 1000Base-Sx Optical Data Interface Optical connector...

  • Page 13: Osd2600P Front And Rear Panel

    OPTICAL SYSTEMS DESIGN OSD2600P FRONT AND REAR PANELS There are 16 fixed copper ports for 10/100Base-T PoE, two Gigabit fixed copper ports and two optical ports on the front panel. The rear panel consists of a terminal block connector. Each section will be described further throughout this manual.

  • Page 14: Installation And Operation

    OPTICAL SYSTEMS DESIGN 3 INSTALLATION AND OPERATION INTRODUCTION This section outlines the methods required to install and operate the OSD2600P successfully. It should be studied carefully if damage to the equipment or poor results are to be avoided. This equipment has been fully tested prior to dispatch and is ready for immediate operation. However it is advisable to check for external transportation damage before operation.

  • Page 15: P Ower S Upply C Onnections

    OPTICAL SYSTEMS DESIGN 3.2.2 POWER SUPPLY CONNECTIONS The OSD2600P requires external 47 to 57V @ 45VA Max power. There are two pairs of power inputs with redundant power sources. You only need to have one power input connected to run the switch.

  • Page 16: Alarm For Power Failure

    OPTICAL SYSTEMS DESIGN 3.2.7 ALARMS FOR POWER FAILURE Step 1: There are two pins on the terminal block used for power failure detection. It provides the normally closed output when the power source is active. Use this as a dry contact application to send a signal for power failure detection.

  • Page 17: Osd2600P O Peration

    OPTICAL SYSTEMS DESIGN OSD2600P OPERATION When using the OSD2600P for the first time, check that the unit is in good condition with no visible damage. Connect the unit to an appropriate power source and check that the indicators illuminate accordingly on power up (see Table 3) after all other connections have been made.

  • Page 18: Switch Management

    OPTICAL SYSTEMS DESIGN 4 SWITCH MANAGEMENT This chapter explains the methods that can be used to configure management access to the switch. It describes the types of management applications and the communication and management protocols that deliver data between your management device (workstation or personal computer) and the system. It also contains information about port connection options.

  • Page 19: W Eb M Anagement

    OPTICAL SYSTEMS DESIGN WEB MANAGEMENT The switch provides a browser interface that lets you configure and manage the switch remotely. After you set up your IP address for the switch, you can access the switch’s web interface applications directly in your web browser by entering the IP address of the switch. You can then use your web browser to list and manage switch configuration parameters from one central location, just as if you were directly connected to the switch’s console port.

  • Page 20: Snmp & Rmon Management

    OPTICAL SYSTEMS DESIGN 5 SNMP & RMON MANAGEMENT This chapter describes the switch’s Simple Network Management Protocol (SNMP) and Remote Monitoring (RMON) capabilities. OVERVIEW RMON is an abbreviation for the Remote Monitoring MIB (Management Information Base). RMON is a system defined by the Internet Engineering Task Force (IETF) document RFC 2819, which defines how networks can be monitored remotely.

  • Page 21: Rmon Mib (Rfc 2819) A Nd B Ridge Mib (Rfc 1493)

    OPTICAL SYSTEMS DESIGN RMON MIB (RFC 2819) AND BRIDGE MIB (RFC 1493) The switch provides hardware-based RMON counters in the switch chipset. The switch manager CPU polls these counters periodically to collect the statistics in a format that complies with the RMON MIB definition.

  • Page 22: Web-Based Browser Management

    OPTICAL SYSTEMS DESIGN 6 WEB-BASED BROWSER MANAGEMENT The switch provides a web-based browser interface for configuring and managing the switch. This interface allows you to access the switch using a preferred web browser. This chapter describes how to configure the switch using its web-based browser interface. LOGGING ON TO THE SWITCH SWITCH IP ADDRESS In your web browser, specify the IP address of the switch.

  • Page 23: U Nderstanding T He B Rowser I Nterface

    OPTICAL SYSTEMS DESIGN UNDERSTANDING THE BROWSER INTERFACE The web browser interface provides groups of point-and-click buttons at the left field of the screen for configuring and managing the switch. SYSTEM System Information, System Name/Password, IP Address, Save Configuration, Firmware Upgrade, Reboot, Logout PORT Configuration, Port Status, Rate Control, RMON Statistics, Per Port VLAN Activities...
  • Page 24 OPTICAL SYSTEMS DESIGN SYSTEM SYSTEM INFORMATION The System name, Firmware version, MAC address, Default gateway, VLAN ID, IP Address, and IP Subnet Mask of Switch. DOC ID: 10112303 PAGE 24 OSD2600 OPERATOR MANUAL...
  • Page 25 OPTICAL SYSTEMS DESIGN SYSTEM NAME/PASSWORD 1. System Name: Click in “System Name” text box. Type a system name if it is blank, or replace the current system name with a new one. 2. Updating setting: Click “Updating setting” button to update your settings. 3.
  • Page 26 OPTICAL SYSTEMS DESIGN IP ADDRESS 1. IP Address: Click in “IP Address” text box and type a new address to change the IP Address. 2. IP Subnet Mask: Click in “IP Subnet Mask” text box and type a new address to change the IP Subnet Mask.
  • Page 27 OPTICAL SYSTEMS DESIGN SAVE CONFIGURATION 1. Load config from TFTP server: 2. Click in “TFTP Server” text box and type the TFTP server IP address from where the file will be obtained. 3. Click in “FILE” text box and type the name of the file that will be obtained. 4.
  • Page 28 OPTICAL SYSTEMS DESIGN FIRMWARE UPGRADE 1. Filename: Click in “Filename” text box and type the name of the file that you intend to upgrade it to the switch. 2. TFTP server IP: Click in “TFTP server IP” text box and type the TFTP server IP address from where the file will be obtained.
  • Page 29 OPTICAL SYSTEMS DESIGN Please follow the message on the screen during the firmware upgrade process. Do not turn off the power or perform other functions during this period of time. DOC ID: 10112303 PAGE 29 OSD2600 OPERATOR MANUAL...
  • Page 30 OPTICAL SYSTEMS DESIGN Firmware has been upgraded successfully to the switch. Reboot the switch after completing the upgrade process. DOC ID: 10112303 PAGE 30 OSD2600 OPERATOR MANUAL...
  • Page 31 OPTICAL SYSTEMS DESIGN ALARM SETTING Name: Click “Name” drop-down menu to choose “fe1~fe16”, “ge1~ge2”, or “Power1~Power3” from the “Name” drop-down list. Trigger Enabled: Click “Trigger Enabled” drop-down menu to choose “YES” or “NO” from the “Trigger Enabled” drop-down list to enable or disable Trigger. Update Setting: Click “Update Setting”...
  • Page 32 OPTICAL SYSTEMS DESIGN REBOOT Reboot: Click “Reboot” button to restart the switch. DOC ID: 10112303 PAGE 32 OSD2600 OPERATOR MANUAL...
  • Page 33 OPTICAL SYSTEMS DESIGN LOGOUT Logout: Click “Logout” button to logout of the switch. DOC ID: 10112303 PAGE 33 OSD2600 OPERATOR MANUAL...

  • Page 34: Port

    OPTICAL SYSTEMS DESIGN PORT CONFIGURATION Admin Setting: Click “Admin Setting” drop-down menu to choose “Link down” or “Link up” from the “Admin Setting” drop-down list to disable or enable Admin Setting for the port. Speed: Click “Speed” drop-down menu to change the line speed and duplex settings from the “Speed” drop-down list for the port.
  • Page 35 OPTICAL SYSTEMS DESIGN PORT STATUS View the Link Status, Speed, Duplex, and Flow control status for all ports DOC ID: 10112303 PAGE 35 OSD2600 OPERATOR MANUAL...
  • Page 36 OPTICAL SYSTEMS DESIGN RATE CONTROL Ingress: Click in “Ingress” text box and type a new Rate to change the Ingress Rate Control for the port. Rate Values: 64kbps, 128kbps, 192kbps, … , 1792kbps. 2Mbps, 3Mbps, 4Mbps, … , 100Mbps. 104Mbps, 112Mbps, 120Mbps, … , 1000Mbps. <Note>: M = 1024k.
  • Page 37 OPTICAL SYSTEMS DESIGN RMON STATISTICS Click Port 1 ~ Port 18 to view corresponding RMON Statistics DOC ID: 10112303 PAGE 37 OSD2600 OPERATOR MANUAL...
  • Page 38 OPTICAL SYSTEMS DESIGN PER PORT VLAN ACTIVITIES Click Port 1 ~ Port 18 to view corresponding VLAN activities. DOC ID: 10112303 PAGE 38 OSD2600 OPERATOR MANUAL...

  • Page 39: S Witching

    OPTICAL SYSTEMS DESIGN SWITCHING BRIDGING Aging Time (seconds): Click the text box and type a decimal number as Bridging Aging Time in seconds. Update setting: Click “update setting” button when you finished Aging Time settings. Threshold level (0.1-100): Click in “Level” text box and type a decimal number for the port. Need to choose “Broadcast”...
  • Page 40 OPTICAL SYSTEMS DESIGN STATIC MAC ENTRY Static-MAC-Entry Forward: Add MAC address: Click in “Add MAC address” text box and type a locked forwarding MAC address for the port. VLAN ID: Click “VLAN ID” drop-down menu and choose a VLAN ID from the “VLAN ID” drop-down list.
  • Page 41 OPTICAL SYSTEMS DESIGN PORT MIRRORING Mirror From: Choose Mirror From port from Port 1 ~ Port 18. Mirror To: Click “Mirror To” drop-down menu to Choose Mirror To port (Port 1 ~ Port 18) from “Mirror To” drop-down list. Mirror Mode: Click “Mirror Mode” drop-down menu to Choose “Tx/Rx”, “Tx”, or “Rx” from “Mirror Mode”...
  • Page 42 OPTICAL SYSTEMS DESIGN PoE System Setting: System Power Budget: Click in “System Power Budget” text box and type a new system power budget for Switch. Submit: Click “Submit” button when you finished PoE System Setting. PoE Port Setting: Enable Mode: Click “Enable Mode” drop-down menu to choose “Disable” or “Enable” from “Enable Mode”...
  • Page 43 OPTICAL SYSTEMS DESIGN POE SCHEDULING First click on “Switching” from main menu. Then click on “PoE” from “Switching”. In PoE Port Setting, click “Enable Mode” drop-down menu to choose “Scheduling” from “Enable Mode” drop- down list to schedule this port to discover Powered Device (PD) connected to this port. PoE Per Port Setting: Port: Click “Port”...
  • Page 44 OPTICAL SYSTEMS DESIGN TRUNCKING PORT TRUNKING Static Channel Group: 1. Trunk 1: Click Port 1 ~ Port 16 to assign ports to Trunk 1. (Maximum 4 ports per Trunk.) GE Trunking: 1. Trunk 3: Check “Static” or “Disable” to enable or disable Trunk 3 for Gigabit Ethernet ports. Submit: Click “Submit”...
  • Page 45 OPTICAL SYSTEMS DESIGN STP / RING GLOBAL CONFIGURATION Spanning Tree Protocol: Click “Spanning Tree Protocol” drop-down menu to Choose “Enable” or “Disable” from “Spanning Tree Protocol” drop-down list to enable or disable Spanning Tree Protocol. Bridge Priority (0..61440): Click in “Bridge Priority” text box and type a decimal number between 0 and 61440.
  • Page 46 OPTICAL SYSTEMS DESIGN RSTP PORT SETTING STP Version: Click “STP Version” drop-down menu to choose “RSTP” from “STP Version” drop- down list. Port: Click “Port” drop-down menu to choose Port 1 ~ Port 18 from “Port” drop-down list. Priority(Granularity 16): Click in “Priority” text box and enter a value between 0 and 240 to set the priority for the port.
  • Page 47 OPTICAL SYSTEMS DESIGN DOC ID: 10112303 PAGE 47 OSD2600 OPERATOR MANUAL...
  • Page 48 OPTICAL SYSTEMS DESIGN MSTP PROPERTIES STP Version: Click “STP Version” drop-down menu to choose “MSTP” from “STP Version” drop-down list. Region Name: Click in “Region Name” text box to create an MST region and specify a name to it. MST bridges of a region form different spanning trees for different VLANs. By default, each MST bridge starts with the region name as its bridge address.
  • Page 49 OPTICAL SYSTEMS DESIGN MSTP INSTANCE SETTING VLAN Instance Configuration VLAN Instance Configuration: Click “VLAN Instance Configuration” button. The “VLAN Instance Configuration” window appears. VLAN ID: Click “VLAN ID” drop-down menu to choose VLAN from “VLAN ID” drop-down list to simultaneously add multiple VLANs for the corresponding instance of a bridge. Instance ID (1..15): Click in “Instance ID”...
  • Page 50 OPTICAL SYSTEMS DESIGN DOC ID: 10112303 PAGE 50 OSD2600 OPERATOR MANUAL...

  • Page 51: Index

    OPTICAL SYSTEMS DESIGN MSTP PORT SETTING Port Instance Configuration Instance ID: Click “Instance ID” drop-down menu to choose instance ID from “Instance ID” drop- down list. Click Port 1 ~ Port 18 to assign ports to the corresponding instance ID. Update setting: Click “Update setting”...
  • Page 52 OPTICAL SYSTEMS DESIGN RING SETTING Ring state Click “Ring state” drop-down menu from “Ring state” drop-down list to choose “Enable” or “Disable” to enable or disable Ring state. Update setting: Click “Update setting” button when you finished Ring state setting. Set ring port Ring port 1: Click “Ring port 1”...

  • Page 53: Vlan

    OPTICAL SYSTEMS DESIGN VLAN VLAN MODE SETTING VLAN Mode Setting: Click “VLAN Mode Setting” drop-down menu to Choose “Tag-based VLAN” or “Port-based VLAN” from “VLAN Mode Setting” drop-down list. Update Setting: Click “Update Setting” button when you finished VLAN Mode Setting DOC ID: 10112303 PAGE 53 OSD2600 OPERATOR MANUAL...
  • Page 54 OPTICAL SYSTEMS DESIGN 802.1Q VLAN SETTING Add VLAN: VLAN setting: Click “VLAN setting”. The “VLAN Setting” window appears. Add VLAN: Click “Add VLAN” button to create a new VLAN from “VLAN Setting” window. VLAN ID(2-4094): Click in the “VLAN ID” textbox and specify a new VLAN ID number from 2 ~ 4094.
  • Page 55 OPTICAL SYSTEMS DESIGN Delete VLAN: VLAN setting: Click “VLAN setting”. The “VLAN Setting” window appears. Delete VLAN: Click “Delete VLAN” button. Select a VLAN ID: Click “Select a VLAN ID” drop-down menu from “Select a VLAN ID” drop- down list to choose the VLAN to be deleted. Submit: Click “Submit”...
  • Page 56 OPTICAL SYSTEMS DESIGN VLAN PORT SETTING VLAN Port Setting: Click “VLAN Port Setting”. The “VLAN Port Setting” window appears. Mode: Click “Mode” drop-down menu to Choose “Access”, “Trunk”, or “Hybrid” from “Mode” drop-down list for the port. The port will be Tag port if you choose “Trunk” Mode for the port. And the port will be Tag or Untag port if you choose “Hybrid”...
  • Page 57 OPTICAL SYSTEMS DESIGN PORT BASED VLAN VLAN: Choose the port to be added to or deleted from the VLAN. Select all: Click “select all” button to choose Port 1 ~ Port 18 all to be added to the VLAN. Delete all: Click “delete all” button to choose Port 1 ~ Port 18 all to be deleted from the VLAN. Submit: Click “Submit”...
  • Page 58 OPTICAL SYSTEMS DESIGN GLOBAL CONFIGURATION QoS: Click “QoS” drop-down menu from “QoS” drop-down list to choose “Enable” or “Disable” to enable or disable QoS. Trust: Enable or disable the switch port to trust the CoS (Class of Service) labels of all traffic received on that port.
  • Page 59 OPTICAL SYSTEMS DESIGN 802.1P PRIORITY Priority: Click “Priority” drop-down menu from “Priority” drop-down list to choose 0 ~ 3 for VLAN Priority 0 ~ 7. Submit: Click “Submit” button when you finished 802.1p priority DOC ID: 10112303 PAGE 59 OSD2600 OPERATOR MANUAL...
  • Page 60 OPTICAL SYSTEMS DESIGN DSCP Priority: Click “Priority” drop-down menu from “Priority” drop-down list to choose 0 ~ 3 for DSCP Priority 0 ~ 63. Submit: Click “Submit” button when you finished DSCP DOC ID: 10112303 PAGE 60 OSD2600 OPERATOR MANUAL...

  • Page 61: Snmp

    OPTICAL SYSTEMS DESIGN 6.10 SNMP SNMP GENERAL SETTING SNMP Status: Click “SNMP Status” drop-down menu from “SNMP Status” drop-down list to choose “Enable” or “Disable” to enable or disable SNMP. Description: Click in the “Description” textbox and specify a new description for SNMP. Location: Click in the “Location”...
  • Page 62 OPTICAL SYSTEMS DESIGN list to choose “Enable” or “Disable” to enable or disable warm start trap. Link Down Trap: Click “Link Down Trap” drop-down menu from “Link Down Trap” drop-down list to choose “Enable” or “Disable” to enable or disable link down trap. 10.
  • Page 63 OPTICAL SYSTEMS DESIGN SNMP V1/V2C Get Community Name: Click in the “Get Community Name” textbox and specify a get community name. Set Community Name: Click in the “Set Community Name” textbox and specify a set community name. Update Setting: Click “Update Setting” button when you finished SNMP V1/V2c Setting. DOC ID: 10112303 PAGE 63 OSD2600 OPERATOR MANUAL...
  • Page 64 OPTICAL SYSTEMS DESIGN SNMP V3 Add User: Add User: Click “Add User” button. The “SNMP V3 Setting” window appears. SNMP Version: Click “SNMP Version” drop-down menu from “SNMP Version” drop-down list to choose “SNMPv3 No-Auth”, “SNMPv3 Auth-MD5”, “SNMPv3 Auth-SHA”, “SNMPv3 Priv Auth-MD5”, or “SNMPv3 Priv Auth-SHA”.
  • Page 65 OPTICAL SYSTEMS DESIGN SNMPv3 Auth-MD5: Add a user using SNMP v3 with authentication. Click in the “Auth. Password” textbox and specify an authentication password. SNMPv3 Auth-SHA: Add a user using SNMP v3 with authentication. Click in the “Auth. Password” textbox and specify an authentication password.
  • Page 66 OPTICAL SYSTEMS DESIGN 6.11 802.1X RADIUS CONFIGURATION Radius Status: Click “Radius Status” drop-down menu from “Radius Status” drop-down list to choose “Enable” or “Disable” to globally enable or disable authentication. Update Setting: Click “Update Setting” button when you finished Radius Status Setting. DOC ID: 10112303 PAGE 66 OSD2600 OPERATOR MANUAL...
  • Page 67 OPTICAL SYSTEMS DESIGN Add Radius: Add Radius: Click “Add Radius” button. The “Radius Server Setting” window appears. Radius Server IP: Click in the “Radius Server IP” textbox and specify the IP address of the remote radius server host. Radius Server Port: Click in the “Radius Server Port” textbox and specify the UDP destination port for authentication requests.
  • Page 68 OPTICAL SYSTEMS DESIGN Delete Radius: Delete Radius: Click “Delete Radius” button. The “Select Radius Server IP” window appears. Select Radius Server IP: Click “Select Radius Server IP” drop-down menu from “Select Radius Server IP” drop-down list to choose the IP address of the remote radius server host to be deleted. Submit: Click “Submit”...
  • Page 69 OPTICAL SYSTEMS DESIGN PORT-BASED AUTHENTICATION Interface: Click “Interface” drop-down menu from “Interface” drop-down list to choose the port to be set port-based authentication. Authentication State: Click “Authentication State” drop-down menu from “Authentication State” drop-down list to choose “Enable” or “Disable” to enable or disable authentication state. Port Control: Click “Port Control”...

  • Page 70: Rotocols

    OPTICAL SYSTEMS DESIGN 6.12 OTHER PROTOCOLS GVRP GVRP Global Setting: GVRP: Click “GVRP” drop-down menu from “GVRP” drop-down list to choose “Enable” or “Disable” to enable or disable GVRP (GARP VLAN Registration Protocol). Dynamic VLAN creation: Click “Dynamic VLAN creation” drop-down menu from “Dynamic VLAN creation”...
  • Page 71 OPTICAL SYSTEMS DESIGN Per port setting (include LAG): GVRP: Click “GVRP” drop-down menu from “GVRP” drop-down list to choose “Enable” or “Disable” to enable or disable GVRP for the port. GVRP applicant: Click “GVRP applicant” drop-down menu from “GVRP applicant” drop-down list to choose “Active”...
  • Page 72 OPTICAL SYSTEMS DESIGN IGMP SNOOPING IGMP mode: Click “IGMP mode” drop-down menu from “IGMP mode” drop-down list to choose “Disable”, “Passive”, or “querier” for the switch. Disable: Disable IGMP on the switch. Passive: The switch with only multicast-data-forwarding capability. Querier: The switch acts as the querier for the network.
  • Page 73 OPTICAL SYSTEMS DESIGN Adjust RTC Time: Adjust system time for this Switch. Year(2000-2099): Click in “Year” text box and specify year 2000 to 2099. Month: Click in “Month” text box and specify 1 to 12. Day: Click in “Month” text box and specify 1 to 31. Hour: Click in “Month”...
  • Page 74 OPTICAL SYSTEMS DESIGN Time Zone: Click “Tmie Zone” drop-down menu from “Tmie Zone” drop-down list to set time zone. Polling Interval (1-10080 min): Click in the “Polling Interval” textbox and specify the polling interval. Update Setting: Click “Update Setting” button when you finished NTP Setting. Daylight Saving Setting: 1.

  • Page 75: C Onsole

    OPTICAL SYSTEMS DESIGN 7 COMMAND LINE CONSOLE MANAGEMENT The OSD2600P provides a command line console interface for configuration purposes. The switch can be configured either locally through its RS-232 port or remotely via a Telnet session. For the later, you must specify an IP address for the switch first.
  • Page 76 OPTICAL SYSTEMS DESIGN 7.1.1 EXEC MODE (VIEW MODE) LOGON TO EXEC MODE (VIEW MODE) At the switch_a login: prompt just type in “root” and press <Enter> to logon to Exec Mode (or View Mode). switch_a login: root DOC ID: 10112303 PAGE 76 OSD2600 OPERATOR MANUAL...
  • Page 77 OPTICAL SYSTEMS DESIGN BASIC COMMANDS Exec Mode (or View Mode) is the base mode from where users can perform basic commands like: clear, debug, disable, enable, exit, help, logout, no, quit, show, terminal The CLI contains a text-based help facility. Access this help by typing in the full or partial command string then typing a question mark “?”.
  • Page 78 OPTICAL SYSTEMS DESIGN At the switch_a> prompt just type in the full or partial command string then typing a question mark “?” to display the command keywords or parameters along with a short description. switch_a>show ? DOC ID: 10112303 PAGE 78 OSD2600 OPERATOR MANUAL...
  • Page 79 OPTICAL SYSTEMS DESIGN LOGIN TIMED OUT The login session to Exec Mode (or View Mode) has timed out due to an extended period of inactivity (60 seconds) to indicate authentication attempt timed out. And the switch_a login: prompt will show on the screen.
  • Page 80 OPTICAL SYSTEMS DESIGN EXIT FROM EXEC MODE (VIEW MODE) At the switch_a> prompt just type in “exit” and press <Enter> to exit from Exec Mode (or View Mode). switch_a>exit DOC ID: 10112303 PAGE 80 OSD2600 OPERATOR MANUAL...

  • Page 81: Exec Mode (Enable Mode)

    OPTICAL SYSTEMS DESIGN 7.1.2 PRIVELEDGED EXEC MODE (ENABLE MODE) LOGON TO PRIVILEGED EXEC MODE (ENABLE MODE) At the switch_a> prompt just type in “enable” and press <Enter> to logon to Privileged Exec Mode (or Enable Mode). And the switch_a# prompt will show on the screen. switch_a>enable DOC ID: 10112303 PAGE 81...
  • Page 82 OPTICAL SYSTEMS DESIGN COMMANDS Privileged Exec Mode (or Enable Mode) allows users to run commands as following. At the switch_a# prompt just press <?> to list the commands. switch_a#? DOC ID: 10112303 PAGE 82 OSD2600 OPERATOR MANUAL...
  • Page 83 OPTICAL SYSTEMS DESIGN At the switch_a# prompt just type in the full or partial command string then typing a question mark “?” to display the command keywords or parameters along with a short description. switch_a#show ? DOC ID: 10112303 PAGE 83 OSD2600 OPERATOR MANUAL...
  • Page 84 OPTICAL SYSTEMS DESIGN LOGIN TIMED OUT The login session to Privileged Exec Mode (or Enable Mode) has timed out due to an extended period of inactivity (60 seconds) to indicate authentication attempt timed out. And the switch_a login: prompt will show on the screen. LOGON BACK TO EXEC MODE (VIEW MODE) At the switch_a login: prompt just type in “root”...
  • Page 85 OPTICAL SYSTEMS DESIGN EXIT FROM PRIVILEGED EXEC MODE (OR ENABLE MODE) At the switch_a# prompt just type in “exit” and press <Enter> to exit from Privileged Exec Mode (or Enable Mode). switch_a#exit DOC ID: 10112303 PAGE 85 OSD2600 OPERATOR MANUAL...

  • Page 86: M Ode (C Onfigure T Erminal M Ode )

    OPTICAL SYSTEMS DESIGN 7.1.3 CONFIGURE MODE (CONFIGURE TERMINAL MODE) LOGON TO CONFIGURE MODE (CONFIGURE TERMINAL MODE) At the switch_a# prompt just type in “configure terminal” and press <Enter> to logon to Configure Mode (or Configure Terminal Mode). And the switch_a(config)# prompt will show on the screen. switch_a#configure terminal DOC ID: 10112303 PAGE 86...
  • Page 87 OPTICAL SYSTEMS DESIGN COMMANDS Configure Mode (or Configure Terminal Mode) serves as a gateway into the modes as following. At the switch_a(config)# prompt just press <?> to list the commands. switch_a(config)#? DOC ID: 10112303 PAGE 87 OSD2600 OPERATOR MANUAL...
  • Page 88 OPTICAL SYSTEMS DESIGN At the switch_a(config)# prompt just type in the full or partial command string then typing a question mark “?” to display the command keywords or parameters along with a short description. switch_a(config)#show ? DOC ID: 10112303 PAGE 88 OSD2600 OPERATOR MANUAL...
  • Page 89 OPTICAL SYSTEMS DESIGN LOGIN TIMED OUT The login session to Configure Mode (or Configure Terminal Mode) has timed out due to an extended period of inactivity (60 seconds) to indicate authentication attempt timed out. And the switch_a login: prompt will show on the screen. LOGON BACK TO EXEC MODE (VIEW MODE) At the switch_a login: prompt just type in “root”...
  • Page 90 OPTICAL SYSTEMS DESIGN EXIT FROM CONFIGURE MODE (OR CONFIGURE TERMINAL MODE) At the switch_a(config)# prompt just type in “exit” and press <Enter> to exit from Configure Mode (or Configure Terminal Mode). switch_a(config)#exit DOC ID: 10112303 PAGE 90 OSD2600 OPERATOR MANUAL...
  • Page 91 OPTICAL SYSTEMS DESIGN SYSTEM System Information, System Name/Password, IP Address, Save Configuration, Firmware Upgrade, Reboot, Logout SYSTEM NAME/PASSWORD System Name: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use hostname command to set or change the network server name.
  • Page 92 OPTICAL SYSTEMS DESIGN IP ADDRESS IP Address/IP Subnet Mask: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. vlan1.1 means vlan 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface vlan1.1 switch_a(config-if)# Usage: Use ip address command to set the IP address of an interface.
  • Page 93 OPTICAL SYSTEMS DESIGN DNS Server: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use ip dns command to set the IP address of the DNS server. Use the no ip dns command to remove the IP address of the DNS server. Command Syntax: ip dns IP-ADDRESS no ip dns...
  • Page 94 OPTICAL SYSTEMS DESIGN Load config to TFTP server: Command Mode: Privileged Exec mode Logon to Privileged Exec Mode (Enable Mode). The switch_a# prompt will show on the screen. switch_a# Usage: Use write config-file command to backup configuration file to tftp server. Command Syntax: write config-file IP-ADDRESS IP-ADDRESS specifies the IP address of tftp server.
  • Page 95 OPTICAL SYSTEMS DESIGN switch_a#restore default switch_a# Auto Save: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to enable auto save configuration function. The configuration will be automatically saved at every configured interval while this command is enabled.
  • Page 96 OPTICAL SYSTEMS DESIGN FIRMWARE UPGRADE Command Mode: Privileged Exec mode Logon to Privileged Exec Mode (Enable Mode). The switch_a# prompt will show on the screen. switch_a# Usage: Use install image command to upgrade firmware from tftp server to switch. Command Syntax: install image IP-ADDRESS WORD IP-ADDRESS specifies the IP address of tftp server.
  • Page 97 OPTICAL SYSTEMS DESIGN At the “switch_a#” prompt just type in “reload” and press <Enter> to reboot the switch after completing the upgrade process. DOC ID: 10112303 PAGE 97 OSD2600 OPERATOR MANUAL...
  • Page 98 OPTICAL SYSTEMS DESIGN ALARM SETTING Alarm-trigger if: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to enable or disable alarm trigger on interface. Command Syntax: (no) alarm-trigger if INTERFACE INTERFACE specifies the interface.
  • Page 99 OPTICAL SYSTEMS DESIGN REBOOT Command Mode: Privileged Exec mode Logon to Privileged Exec Mode (Enable Mode). The switch_a# prompt will show on the screen. switch_a# Usage: Use reload command to restart switch. Command Syntax: reload Example: The following example specifies restarting switch: switch_a#reload switch_a login: LOGOUT...

  • Page 100: Port

    OPTICAL SYSTEMS DESIGN PORT Configuration, Port Status, Rate Control, RMON Statistics, Per Port VLAN Activities CONFIGURATION Admin Setting: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage:...
  • Page 101 OPTICAL SYSTEMS DESIGN 4. Example: The following example shows the use of bandwidth BANDWIDTH (10 mega bits) to the interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#bandwidth 10m switch_a(config-if)# Duplex: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode.
  • Page 102 OPTICAL SYSTEMS DESIGN PORT STATUS Command Mode: Exec mode or Privileged Exec mode Logon to Exec Mode (View Mode) or Privileged Exec Mode (Enable Mode). The switch_a> or switch_a# prompt will show on the screen. switch_a> switch_a# Usage: Use the show interface command to display interface configuration and status. Command Syntax: show interface IFNAME IFNAME specifies the name of the interface for which status and configuration information is desired.
  • Page 103 OPTICAL SYSTEMS DESIGN RMON STATISTICS Command Mode: Exec mode or Privileged Exec mode Logon to Exec Mode (View Mode) or Privileged Exec Mode (Enable Mode). The switch_a> or switch_a# prompt will show on the screen. switch_a> switch_a# Usage: Use the show interface statistics command to display RMON statistics of interface. Command Syntax: show interface statistics IFNAME IFNAME specifies the name of the interface for which RMON statistics is desired.
  • Page 104 OPTICAL SYSTEMS DESIGN SWITCHING Bridging, Static MAC Entry, Port Mirroring BRIDGING Aging Time (seconds): Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to specify an ageing-out time for a learned MAC address. The learned MAC address will persist till this specified time.
  • Page 105 OPTICAL SYSTEMS DESIGN Broadcast: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use storm-control broadcast enable command to enable broadcast traffic. Use no storm-control broadcast command to disable broadcast traffic.
  • Page 106 OPTICAL SYSTEMS DESIGN DLF: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use storm-control dlf enable command to enable destination lookup failure traffic. Use no storm-control dlf command to disable destination lookup failure traffic.
  • Page 107 OPTICAL SYSTEMS DESIGN Static-MAC-Entry Discard: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to statically configure a bridge entry to discard matching frames in a VLAN. Command Syntax: bridge GROUP address MAC discard vlan VLANID no bridge GROUP address MAC discard vlan VLANID...
  • Page 108 OPTICAL SYSTEMS DESIGN System Power Budget: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to specify the power budget (Watts) to be set to Switch. Command Syntax: poe system-power-budget LEVEL LEVEL <1-800>...
  • Page 109 OPTICAL SYSTEMS DESIGN Usage: Use poe power-classification enable command to enable this port to provide power to PD according to classification of maximum power range used by PD. Use the no poe power-classification enable to disable this function. Command Syntax: (no) poe power-classification enable Example: The following example shows the use of poe power-classification enable to the interface fe1 (port 1):...
  • Page 110 OPTICAL SYSTEMS DESIGN PRIORITY specifies high, medium, low power priority for this port. Example: The following example sets high power priority to the interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#poe power-priority high switch_a(config-if)# Power Down Alarm: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode).
  • Page 111 OPTICAL SYSTEMS DESIGN PoE Schedule: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use this command to set PoE scheduling to this port. Command Syntax: poe schedule-time DAY HOUR DAY <0-6>...
  • Page 112 OPTICAL SYSTEMS DESIGN TRUNCKING PORT TRUNKING Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use static-channel-group command to create a static aggregator, or add a member port to an already- existing static aggregator.
  • Page 113 OPTICAL SYSTEMS DESIGN Global Configuration, RSTP Port Setting, MSTP Properties, MSTP Instance Setting, MSTP Port Setting, Ring Setting GLOBAL CONFIGURATION STP Version: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to choose the Spanning Tree protocol, Rapid Spanning Tree protocol, or Multiple...
  • Page 114 OPTICAL SYSTEMS DESIGN Rapid Spanning Tree Protocol: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to enable the Rapid Spanning Tree protocol on a bridge. Use the no form of the command to disable the Rapid Spanning Tree protocol on a bridge.
  • Page 115 OPTICAL SYSTEMS DESIGN Bridge Priority (0..61440): Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to set bridge priority for the common instance. Using a lower priority indicates a greater likelihood of the bridge becoming root.
  • Page 116 OPTICAL SYSTEMS DESIGN Max Age (sec) (6..28): Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to set the max-age for a bridge. Use the no parameter with this command to restore the default value of max-age. Command Syntax: bridge GROUP max-age MAXAGE no bridge GROUP max-age...
  • Page 117 OPTICAL SYSTEMS DESIGN RSTP PORT SETTING Priority(Granularity 16): Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use this command to set the port priority for a bridge.
  • Page 118 OPTICAL SYSTEMS DESIGN Point to Point Link: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use spanning-tree link-type command to set the link type of a port to enable or disable rapid transition.
  • Page 119 OPTICAL SYSTEMS DESIGN Edgeport: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use spanning-tree edgeport command to set a port as an edge-port and to enable rapid transitions. Use the no spanning-tree edgeport command to set a port to its default state (not an edge-port) and to disable rapid transitions.
  • Page 120 OPTICAL SYSTEMS DESIGN Revision Level: Command Mode: MST Configuration mode Logon to Configure Mode (Configure Terminal Mode). Then logon to MST Configuration mode. The switch_a(config-mst)# prompt will show on the screen. switch_a(config)#spanning-tree mst configuration switch_a(config-mst)# Usage: Use this command to specify the number for configuration information. The default value of revision number is 0.
  • Page 121 OPTICAL SYSTEMS DESIGN MSTP INSTANCE SETTING Bridge Instance VLAN: Command Mode: MST Configuration mode Logon to Configure Mode (Configure Terminal Mode). Then logon to MST Configuration mode. The switch_a(config-mst)# prompt will show on the screen. switch_a(config)#spanning-tree mst configuration switch_a(config-mst)# Usage: Use this command to simultaneously add multiple VLANs for the corresponding instance of a bridge.
  • Page 122 OPTICAL SYSTEMS DESIGN MSTP PORT SETTING Bridge-Group Instance: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use this command to assign a Multiple Spanning Tree instance to a port.
  • Page 123 OPTICAL SYSTEMS DESIGN Bridge-Group Instance Path-Cost: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use this command to set the cost of a path associated with an interface. Use the no parameter with this command to restore the default cost value of the path.
  • Page 124 OPTICAL SYSTEMS DESIGN RING SETTING Ring state: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to enable Ring state. Use the no parameter with this command to disable Ring state. Command Syntax: bridge GROUP protocol ring no bridge GROUP ring enable BRIDGE-FORWARD...

  • Page 125: Vlan

    OPTICAL SYSTEMS DESIGN VLAN VLAN Mode Setting, 802.1Q VLAN Setting, 802.1Q Port Setting, Port Based VLAN 802.1Q VLAN SETTING VLAN Database: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use vlan database command to enter the VLAN configuration mode.
  • Page 126 OPTICAL SYSTEMS DESIGN 802.1Q PORT SETTING Switchport mode access: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use switchport mode access command to set the switching characteristics of the Layer-2 interface to access mode, and classify untagged frames only.
  • Page 127 OPTICAL SYSTEMS DESIGN Switchport mode trunk: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use switchport mode trunk command to set the switching characteristics of the Layer-2 interface as trunk, and specify only tagged frames.
  • Page 128 OPTICAL SYSTEMS DESIGN For a VLAN list, specify the VLAN numbers separated by commas. egress-tagged enable Enable the egress tagging for the outgoing frames. disable Disable the egress tagging for the outgoing frames. Example: The following example specifies to add the interface fe1 (port 1) to VLANID (2) and enable the egress-tagged for the outgoing frames on interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#switchport hybrid allowed vlan add 2 egress-tagged enable...
  • Page 129 OPTICAL SYSTEMS DESIGN PORT BASED VLAN Switchport portbase add/remove vlan: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface fe1 switch_a(config-if)# Usage: Use this command to set or remove the default VLAN for the interface.
  • Page 130 OPTICAL SYSTEMS DESIGN Global Configuration, 802.1p Priority, DSCP GLOBAL CONFIGURATION QoS: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use mls qos enable command to globally enable QoS. Use the no mls qos command to globally disable QoS.
  • Page 131 OPTICAL SYSTEMS DESIGN Usage: Use priority-queue out command to enable the egress expedite queue. Use the no priority-queue out command to disable the egress expedite queue. Command Syntax: (no) priority-queue out Example: The following example enables the egress expedite queue on the switch: switch_a(config)#priority-queue out switch_a(config)# Weighted Round Robin:...
  • Page 132 OPTICAL SYSTEMS DESIGN DSCP Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use mls qos map dscp-queue command to map the DSCP values to a queue. Command Syntax: mls qos map dscp-queue DSCP_VALUE to QUEUE_ID DSCP_VALUE DSCP values.

  • Page 133: Snmp

    OPTICAL SYSTEMS DESIGN SNMP SNMP General Setting, SNMP v1/v2c, SNMP v3 SNMP GENERAL SETTING SNMP Status: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use snmp-server enable command to enable and no snmp-server enable command to disable SNMP to the switch.
  • Page 134 OPTICAL SYSTEMS DESIGN Usage: Use snmp-server location command to specify and no snmp-server location command to remove location for SNMP. Command Syntax: snmp-server location LOCATION no snmp-server location LOCATION The location for SNMP. Example: The following example specifies location (location) for SNMP: switch_a(config)#snmp-server location location switch_a(config)# Contact:...
  • Page 135 OPTICAL SYSTEMS DESIGN The following example specifies trap community name 1 (name) for SNMP: switch_a(config)#snmp-server trap-community 1 name switch_a(config)# Trap Host IP Address: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to specify trap host IP address for SNMP.
  • Page 136 OPTICAL SYSTEMS DESIGN Usage: Use snmp-server trap-type enable warmStart command to enable warm start trap for SNMP. Use the no snmp-server trap-type enable warmStart command to disable warm start trap for SNMP. Command Syntax: (no) snmp-server trap-type enable warmStart Example: The following example enables warm start trap for SNMP: switch_a(config)#snmp-server trap-type enable warmStart switch_a(config)#...
  • Page 137 OPTICAL SYSTEMS DESIGN Authentication Failure Trap: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use snmp-server trap-type enable authenticationFailure command to enable authentication failure trap for SNMP. Use the no snmp-server trap-type enable authenticationFailure command to disable authentication failure trap for SNMP.
  • Page 138 OPTICAL SYSTEMS DESIGN Usage: Use snmp-server community get command to specify and no snmp-server community get command to remove get community name for SNMP. Command Syntax: snmp-server community get NAME no snmp-server community get NAME The get community name for SNMP. Example: The following example specifies get community name (name) for SNMP: switch_a(config)#snmp-server community get name...
  • Page 139 OPTICAL SYSTEMS DESIGN ro read-only access mode rw read-write access mode Example: The following example adds a user (myuser) using snmp v3 with read-only access mode and without authentication: switch_a(config)#snmp-server v3-user myuser ro noauth switch_a(config)# SNMPv3 Auth-MD5, SNMPv3 Auth-SHA: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode).
  • Page 140 OPTICAL SYSTEMS DESIGN AUTH_PASSWORD authentication password PRIV_PASS_PHRASE encryption pass phrase Example: The following example adds a user (myuser) using snmp v3 with read-write access mode, MD5 authentication (mypassword), and encryption pass phrase (mypassphrase): switch_a(config)#snmp-server v3-user myuser rw priv md5 mypassword des mypassphrase switch_a(config)# DOC ID: 10112303 PAGE 140...
  • Page 141 OPTICAL SYSTEMS DESIGN 7.10 802.1X Radius Configuration, Port-Based Authentication RADIUS CONFIGURATION Radius Status: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use dot1x system-auth-ctrl command to globally enable authentication. Use no dot1x system-auth-ctrl command to globally disable authentication.
  • Page 142 OPTICAL SYSTEMS DESIGN Secret Key: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to set the shared secret key between a Radius server and a client. Command Syntax: (no) radius-server host IP-ADDRESS key KEY IP-ADDRESS A.B.C.D specifies the IP address of the radius server host.
  • Page 143 OPTICAL SYSTEMS DESIGN Usage: Use this command to specify the number of times the Switch transmits each radius request to the server before giving up. Command Syntax: radius-server retransmit RETRIES no radius-server retransmit RETRIES <1-100> Specifies the retransmit value. Enter a value in the range 1 to 100. Example: The following example specifies the retransmit value 12: switch_a(config)#radius-server retransmit 12...
  • Page 144 OPTICAL SYSTEMS DESIGN Command Syntax: dot1x port-control auto | force-authorized | force-unauthorized no dot1x port-control auto Specify to enable authentication on port. force-authorized Specify to force a port to always be in an authorized state. force-unauthorized Specify to force a port to always be in an unauthorized state. Example: The following example specifies to enable authetication on the interface fe1 (port 1): switch_a(config)#interface fe1...

  • Page 145: Rotocols

    OPTICAL SYSTEMS DESIGN 7.11 OTHER PROTOCOLS GVRP, IGMP Snooping, NTP GVRP GVRP: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use set gvrp enable bridge command to enable (set) and set gvrp disable bridge command to disable (reset) GVRP globally for the bridge instance.
  • Page 146 OPTICAL SYSTEMS DESIGN Per port setting: GVRP: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use set port gvrp enable command to enable and set port gvrp disable command to disable GVRP on a port or all ports in a bridge.
  • Page 147 OPTICAL SYSTEMS DESIGN Usage: Use this command to set GVRP registration to normal, fixed, and forbidden registration mode for a given port. Command Syntax: set gvrp registration normal IF_NAME set gvrp registration fixed IF_NAME set gvrp registration forbidden IF_NAME normal Specify dynamic GVRP multicast registration and deregistration on the port. fixed Specify the multicast groups currently registered on the switch are applied to the port, but any subsequent registrations or deregistrations do not affect the port.
  • Page 148 OPTICAL SYSTEMS DESIGN Usage: Use ip igmp snooping command to enable IGMP Snooping. This command is given in the Global Config mode. IGMP Snooping is enabled at the switch level. Use the no ip igmp snooping command to globally disable IGMP Snooping. Command Syntax: (no) ip igmp snooping enable Example:...
  • Page 149 OPTICAL SYSTEMS DESIGN Use ip igmp snooping fast-leave command to enable IGMP Snooping fast-leave processing. Fast- leave processing is analogous to immediate leave processing; the IGMP group-membership is removed, as soon as an IGMP leave group message is received without sending out a group-specific query. Use the no ip igmp snooping fast-leave command to disable fast-leave processing.
  • Page 150 OPTICAL SYSTEMS DESIGN Usage: Use ip igmp query-max-response-time command to configure the maximum response time advertised in IGMP queries. To restore to the default value, use the no ip igmp query-max-response-time command. Command Syntax: ip igmp query-max-response-time RESPONSETIME no ip igmp query-max-response-time RESPONSETIME <1-240>...
  • Page 151 OPTICAL SYSTEMS DESIGN IGMP passive snooping: Report suppression: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. vlan1.1 means vlan 1. The switch_a(config-if)# prompt will show on the screen. switch_a(config)#interface vlan1.1 switch_a(config-if)# Usage: Use ip igmp snooping report-suppression command to enable report suppression for IGMP versions 1 and 2.
  • Page 152 OPTICAL SYSTEMS DESIGN NTP Status: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use ntp enable command to enable NTP for the Switch. Use no ntp enable command to disable NTP for the Switch. Command Syntax: (no) ntp enable Example:...
  • Page 153 OPTICAL SYSTEMS DESIGN Time Zone: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to to set time zone. Command Syntax: clock timezone TIMEZONE TIMEZONE Specifies the time zone. (Please refer the Appendix B) Example: The following example sets time zone (Canada/Yukon): switch_a(config)#clock timezone YST9YDT...
  • Page 154 OPTICAL SYSTEMS DESIGN OFFSET <1-1440> Specifies from 1 to 1440 minutes. clock summer-time TIMEZONE date DAY MONTH HOUR MINUTE DAY MONTH HOUR MINUTE OFFSET TIMEZONE Specifies the daylight saving timezone. DAY <1-31> Specifies from 1 to 31. MONTH <1-12> Specifies from January to December. HOUR <0-23>...

  • Page 155: Maintenance

    OPTICAL SYSTEMS DESIGN 9 MAINTENANCE INTRODUCTION The following section outlines the fault-finding procedure for the OSD2600P modems. Please take note of the following: ▲ Personnel without appropriate training should not attempt any maintenance except that outlined below. ▲ If further maintenance is attempted you are warned that every care should be taken to ensure that internal measurements made while the equipment is operational are taken carefully as some components within the unit are expensive and may be damaged by failure of any portion of their support circuitry.

  • Page 156: Warranty

    OPTICAL SYSTEMS DESIGN 10 WARRANTY Thank you for purchasing equipment designed, manufactured and serviced by Optical Systems Design (OSD). OSD warrants that at the time of shipment, its products are free from defects in material and workmanship and conforms to specifications. Our Warranty conditions are outlined below: 10.1 WARRANTY PERIOD For warranty period, please contact your local OSD distributor.
  • Page 157 OPTICAL SYSTEMS DESIGN DOC ID: 10112303 PAGE 157 OSD2600 OPERATOR MANUAL...
  • Page 158 OPTICAL SYSTEMS DESIGN DOC ID: 10112303 PAGE 158 OSD2600 OPERATOR MANUAL...
  • Page 159 OPTICAL SYSTEMS DESIGN DOC ID: 10112303 PAGE 159 OSD2600 OPERATOR MANUAL...
  • Page 160 OPTIC L Optical Systems Design Pty. Ltd. 7/1 Vuko Pl. Warriewood 2102 SYSTEMS P.O. Box 891 Mona Vale N.S.W. Australia 2103 Telephone: +61 2 9913 8540 Facsimile: +61 2 9913 8735 DESIGN Email: sales@osd.com.au Web Site: www.osd.com.au PTY LTD A.B.N. 83 003 020 504 Printed in Australia...

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