OPTICAL SYSTEMS DESIGN 1 QUICK START GUIDE This quick start guide describes how to install and use the Managed Ethernet Switch. FUNCTIONAL DESCRIPTION • RS-232 console, Telnet, SNMP v1 & v2c & v3, RMON, Web Browser, and TFTP management. •...
OPTICAL SYSTEMS DESIGN PHYSICAL DESCRIPTION FIGURE 1: OSD2700SFP FRONT AND REAR PANELS TABLE 1: OSD2700SFP LED FUNCTIONS State Indication Green Power On Power Power Off 10/100Base-TX, 100Base-FX/BX Steady A valid network connection established Link/ACT x 24 Transmitting or receiving data...
OPTICAL SYSTEMS DESIGN 1.3.2 CONFIGURATION SETTINGS OF THE TERMINAL-EMULATION PROGRAM: Baud rate: 115,200bps Data bits: 8 Parity: none Stop bit: 1 Flow control: none Press the “Enter” key. The Command Line Interface (CLI) screen should appear as below: Logon to Exec Mode (View Mode): At the “switch_a login:”...
OPTICAL SYSTEMS DESIGN 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 LOGIN • Enter the factory default login ID: root.
OPTICAL SYSTEMS DESIGN 2 TECHNICAL SUMMARY BRIEF DESCRIPTION 2.1.1 PREFACE This manual describes how to install and use the OSD2700SFP Managed Ethernet Switch. The OSD2700SFP 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.
OPTICAL SYSTEMS DESIGN TYPICAL CONFIGURATION Figure 6 below indicates a possible set-up for an OSD2700 system. Self-healing Ring Configuration IP Camera IP Camera IP Camera IP Camera IP Camera IP Camera IP Camera IP Camera IP Camera IP Camera IP Camera...
OPTICAL SYSTEMS DESIGN OSD2700 FRONT AND REAR PANELS There are 24 fixed 100M SFP ports, four fixed Gigabit copper ports and four optional Gigabit SFP ports which can be either copper or fiber on the front panel. The rear panel consists of a DB9 configuration connector and an IEC power.
OPTICAL SYSTEMS DESIGN 3 INSTALLATION AND OPERATION INTRODUCTION This section outlines the methods required to install and operate the OSD2700SFP 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.
OPTICAL SYSTEMS DESIGN 3.2.2 POWER SUPPLY CONNECTIONS The OSD2700SFP requires external 90 to 264V @ 45VA Max power. Power should be connected to the power socket located at the back of the unit using standard IEC plug (supplied). Always ensure that the power is off before any installation.
OPTICAL SYSTEMS DESIGN 3.2.5 FITTING SFP CONNECTORS Care should be taken when inserting/removing the SFP connectors from SFP ports as SFP modules are Electrostatic (ES) sensitive and Electrostatic Discharge (ESD) precautions should be taken when installing. Ensure that the SFP is fully engaged and latched into position.
OPTICAL SYSTEMS DESIGN OSD2700SFP OPERATION When using the OSD2700SFP 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 4) after all other connections have been made.
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.
OPTICAL SYSTEMS DESIGN [Default parameters] 115,200bps • 8 data bits • No parity • 1 stop bit • This management method is often preferred because you can remain connected and monitor the system during system reboots. Also, certain error messages are sent to the serial port, regardless of the interface through which the associated action was initiated.
OPTICAL SYSTEMS DESIGN PROTOCOLS The switch supports the following protocols: Virtual terminal protocols, such as Telnet A virtual terminal protocol is a software program, such as Telnet, that allows you to establish a management session from a Macintosh, a PC, or a UNIX workstation. Because Telnet runs over TCP/IP, you must have at least one IP address configured on the switch before you can establish access to it with a virtual terminal protocol.
OPTICAL SYSTEMS DESIGN 5 SNMP & RMON MANAGEMENT This chapter describes the switch’s Simple Network Management Protocol (SNMP) and Remote Monitoring (RMON) capabilities. The following documentation applies to both the OSD2700F and to the OSD2700SFP 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.
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.
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.
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 VLAN System Information, System Name/Password, VLAN Mode Setting, 802.1Q VLAN Setting, IP Address, Save Configuration, Firmware 802.1Q Port Setting, Port Based VLAN...
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: 10112704 PAGE 24 OSD2700SFP OPERATOR MANUAL...
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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.
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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.
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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.
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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.
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OPTICAL SYSTEMS DESIGN REBOOT Reboot: Click “Reboot” button to restart the switch. LOGOUT Logout: Click “Logout” button to logout of the switch. DOC ID: 10112704 PAGE 29 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN USER ACCOUNT Multi-User Mode: User Account: Click “Mode” drop-down menu to choose “Single-User” or “Multi-User” from the “Mode” drop-down list to choose single user or multi user mode. Update Setting: Click “Update Setting” button to update settings to the switch.
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OPTICAL SYSTEMS DESIGN USER PRIVILEGE Update: Click “Update” button when you finished user mode configuration. DOC ID: 10112704 PAGE 31 OSD2700SFP OPERATOR MANUAL...
OPTICAL SYSTEMS DESIGN DIAGNOSTICS UTILIZATION Click Utilization to view CPU Utilization and Memory Utilization. DOC ID: 10112704 PAGE 32 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN SYSTEM LOG Click System Log to view system log. DOC ID: 10112704 PAGE 33 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN REMOTE LOGGING Status: Click and choose “Enable” or “Disable” to enable or disable the logging of messages that are sent to syslog servers. Update Setting: Click “Update Setting” button to update your settings. Syslog Server IP: Click in “Syslog Server IP” text box and type a syslog server IP address.
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OPTICAL SYSTEMS DESIGN ARP TABLE Click ARP Table to view ARP Table. The ARP Table is learned by Switch CPU, not learned by Switch MAC. The MAC Address of PC that have accessed Switch user interface will be recorded in the ARP Table.
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OPTICAL SYSTEMS DESIGN ROUTE TABLE Click Route Table to view Route Table. Route Table lists the routes to network destinations. And metrics (distances) are associated with those routes. The Route Table contains information about the topology of the network around it.
OPTICAL SYSTEMS DESIGN PORT CONFIGURATION Port Description: Click in “Port Description” text box and type description for port. 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.
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OPTICAL SYSTEMS DESIGN PORT STATUS View the Link Status, Port Description, Speed, Duplex, and Flow Control status for all ports. DOC ID: 10112704 PAGE 38 OSD2700SFP OPERATOR MANUAL...
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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.
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”...
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OPTICAL SYSTEMS DESIGN Loopback Detect General Setting: LoopBack Detect: Click “LoopBack Detect” drop-down menu to choose “Disable (default)” or “Enable” from “LoopBack Detect” drop-down list to disable or enable a loopback detection on a port interface. LoopBack Detect Action: Click “LoopBack Detect Action” drop-down menu to choose “None (default)”...
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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”...
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OPTICAL SYSTEMS DESIGN PORT MIRRORING Mirror From: Choose Mirror From port from Port 1 ~ Port 28. Mirror To: Click “Mirror To” drop-down menu to choose Mirror To port (Port 1 ~ Port 28) from “Mirror To” drop-down list. Mirror Mode: Click “Mirror Mode” drop-down menu to choose “Tx/Rx”, “Tx”, or “Rx” from “Mirror Mode”...
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OPTICAL SYSTEMS DESIGN Link State Tracking Group Setting: Enable: Click check box of group to enable Link State tracking for group. Port Setting: Group: Click “Group” drop-down menu to choose group for port from “Group” drop-down list. (Up/Down)Stream: Click “(Up/Down)Stream” drop-down menu to choose Up (upstream) or Down (downstream) for port from “(Up/Down)Stream”...
OPTICAL SYSTEMS DESIGN TRUNKING PORT TRUNKING Static Channel Group: 1. Trunk 1: Click ports to assign ports to Trunk 1. (Maximum 4 ports per Trunk.) LACP Group: 1. Trunk 1: Click ports to assign ports to Trunk 1. (Maximum 4 ports in Trunk 1.) GE Trunking (Gigabit Ports): 1.
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OPTICAL SYSTEMS DESIGN LACP Trunking Trunk Configuration: Port: Click “Port” drop-down menu to choose port from “Port” drop-down list. Trunk Type: Click “Trunk Type” drop-down menu to choose “None”, “Static”, or “LACP” from “Trunk Type” drop-down list to disable or enable Static or LACP Trunk.
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.
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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 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.
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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.
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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.
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 ports to assign ports to the corresponding instance ID. Update Setting: Click “Update Setting” button when you finished Port Instance Configuration.
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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.
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OPTICAL SYSTEMS DESIGN CHAIN SETTING Chain Protocol: Click “Enable” to enable Chain Protocol for ports. Submit: Click “Submit” button when you finished Chain Protocol setting. Global Setting: VLAN (1-4094, default:1): Click in the “VLAN” textbox and specify a VLAN ID number from 1 ~ 4094.
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OPTICAL SYSTEMS DESIGN CHAIN PASS-THROUGH SETTING Chain pass-through port 1: Click “Chain pass-through port 1” drop-down menu to choose Chain pass-through port 1 from “Chain pass-through port 1” drop-down list. Chain pass-through port 2: Click “Chain pass-through port 2” drop-down menu to choose Chain pass-through port 2 from “Chain pass-through port 2”...
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OPTICAL SYSTEMS DESIGN ADVANCED SETTING Advanced Bridge Configuration: Bridge bpdu-guard cofiguration: Click “Bridge bpdu-guard cofiguration” drop-down menu to choose “Enable” or “Disable” from “Bridge bpdu-guard cofiguration” drop-down list to enable or disable the portfast ports to guard against bpdu received for a bridge. When the BPDU Guard feature is set for a bridge, all portfast-enabled ports of the bridge that have bpdu-guard set to default shut down the port on receiving a BPDU.
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OPTICAL SYSTEMS DESIGN 802.1Q VLAN SETTING Add VLAN: 802.1Q VLAN Setting: Click “802.1Q 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.
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OPTICAL SYSTEMS DESIGN Delete VLAN: 802.1Q VLAN Setting: Click “802.1Q 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.
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OPTICAL SYSTEMS DESIGN VLAN PORT SETTING VLAN Port Setting: Click “802.1Q 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.
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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 all ports to be added to the VLAN. Delete All: Click “Delete All” button to choose all ports to be deleted from the VLAN.
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OPTICAL SYSTEMS DESIGN 6.10 QOS 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.
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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: 10112704 PAGE 74 OSD2700SFP OPERATOR MANUAL...
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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: 10112704 PAGE 75 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN 6.11 ACL ACL INFORMATION 1. Interface: Click “Interface” drop-down menu from “Interface” drop-down list to choose port. 2. Policy Map: Choose Policy Map DOC ID: 10112704 PAGE 76 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN ACL CONFIGURATION Policy Map Setting: Policy Map: Click “Policy Map” drop-down menu to choose “Create” or “Policy Map Name” from the “Policy Map” drop-down list to create new Policy Map or modify a Policy Map. Policy Map Name: Click in the “Policy Map Name” textbox and specify a Policy Map Name.
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OPTICAL SYSTEMS DESIGN IP Access List (Extended): Access List Type: Click “Access List Type” drop-down menu to choose “IP Access List (Extended)” from the “Access List Type” drop-down list to create new IP Access List (Extended) or modify an IP Access List (Extended).
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OPTICAL SYSTEMS DESIGN MAC Access List: Access List Type: Click “Access List Type” drop-down menu to choose “MAC Access List” from the “Access List Type” drop-down list to create new MAC Access List or modify a MAC Access List. Access List: Click “Access List” drop-down menu to choose “Create” or “Access List” from the “Access List”...
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OPTICAL SYSTEMS DESIGN Layer 4: Access List Type: Click “Access List Type” drop-down menu to choose “Layer 4” from the “Access List Type” drop-down list to create new Layer 4 Access List or modify Layer 4 Access List. Option: Click “Option” drop-down menu from “Option” drop-down list to choose “Source port” or “Destination port”.
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OPTICAL SYSTEMS DESIGN 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.
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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.
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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”.
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OPTICAL SYSTEMS DESIGN Password” textbox and specify an authentication password. SNMPv3 Priv Auth-MD5: Add a user using SNMP v3 with authentication and privacy. Click in the “Auth. Password” textbox and specify an authentication password. Click in the “Privacy PassPhrase” textbox and specify a privacy pass phrase.
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OPTICAL SYSTEMS DESIGN 6.13 802.1X 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.
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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.
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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.
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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.
OPTICAL SYSTEMS DESIGN 6.14 LLDP LLDP GENERAL SETTINGS LLDP: Click “LLDP” drop-down menu from “LLDP” drop-down list to choose “Enable” or “Disable” to enable or disable Link Layer Discovery Protocol (LLDP) globally. Holdtime multiplier(2-10): Click in the “Holdtime multiplier” textbox and set the Link Layer Discovery Protocol (LLDP) holdtime multiplier value.
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OPTICAL SYSTEMS DESIGN LLDP PORT SETTINGS Transmit: Click “Transmit” drop-down menu from “Transmit” drop-down list to choose “Disable” or “Enable” to disallow or allow sending Link Layer Discovery Protocol (LLDP) packets on the interface. Receive: Click “Receive” drop-down menu from “Receive” drop-down list to choose “Disable” or “Enable”...
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OPTICAL SYSTEMS DESIGN LLDP NEIGHBOURS Click LLDP Neighbors to show Link Layer Discovery Protocol (LLDP) neighbors information. DOC ID: 10112704 PAGE 92 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN LLDP STATISTICS Click LLDP Statistics to show Link Layer Discovery Protocol (LLDP) statistics. DOC ID: 10112704 PAGE 93 OSD2700SFP OPERATOR MANUAL...
OPTICAL SYSTEMS DESIGN 6.15 OTHER PTOTOCOLS DOC ID: 10112704 PAGE 94 OSD2700SFP OPERATOR MANUAL...
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OPTICAL SYSTEMS DESIGN 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”...
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OPTICAL SYSTEMS DESIGN IGMP SNOOPING IGMP Snooping: Click on “IGMP Snooping” to change to IGMP Snooping windows. 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.
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OPTICAL SYSTEMS DESIGN devices. When IGMP router suppression is enabled, the switch sends the first IGMP report from all hosts for a group to all the multicast routers. The switch does not send the remaining IGMP reports for the group to the multicast routers. This feature prevents duplicate reports from being sent to the multicast devices.
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OPTICAL SYSTEMS DESIGN Adjust RTC Time: Click in textbox and specify the Year, Month, Day, Hour, Minute, and Second. Update Setting: Click “Update Setting” button when you finished Adjust RTC Time. NTP Setting: NTP Status: Click “NTP Status” drop-down menu from “NTP Status” drop-down list to choose “Enable”...
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OPTICAL SYSTEMS DESIGN Mode" drop-down list to choose "Disable", "Weekday", or "Date" to choose disable, weekday, or date daylight saving for the Switch. 2. Time Set Offset (1-1440 min): Click in the "Time Set Offset" textbox and specify the offset time of daylight saving.
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OPTICAL SYSTEMS DESIGN GMRP GMRP Global Setting: GMRP: Click “GMRP” drop-down menu from “GMRP” drop-down list to choose “Enable” or “Disable” to enable or disable GMRP. Update Setting: Click “Update Setting” button when you finished GMRP Global Setting. Per Port Setting (Include LAG): GMRP: Click “GMRP”...
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OPTICAL SYSTEMS DESIGN DHCP Server DHCP Binding Table: Click on “DHCP Binding Table” to show DHCP Binding Table. Click “Refresh” button to refresh DHCP Binding Table. Click on “DHCP General Setting” to back to DHCP General Setting. DHCP Server Status: Click “DHCP Server Status” drop-down menu from “DHCP Server Status”...
OPTICAL SYSTEMS DESIGN 7 COMMAND LINE CONSOLE MANAGEMENT The switch 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.
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: 10112704...
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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 “?”.
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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: 10112704 PAGE 108...
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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.
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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: 10112704 PAGE 110 OSD2700SFP OPERATOR MANUAL...
OPTICAL SYSTEMS DESIGN 7.1.2 PRIVILEGED 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.
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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: 10112704 PAGE 112 OSD2700SFP OPERATOR MANUAL...
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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: 10112704 PAGE 113...
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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.
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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: 10112704 PAGE 115 OSD2700SFP OPERATOR MANUAL...
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.
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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: 10112704 PAGE 117 OSD2700SFP OPERATOR MANUAL...
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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: 10112704 PAGE 118...
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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.
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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: 10112704 PAGE 120 OSD2700SFP OPERATOR MANUAL...
OPTICAL SYSTEMS DESIGN SYSTEM System Information, System Name/Password, IP Address, Save Configuration, Firmware Upgrade, Reboot, Logout, User Account, User Privilege 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.
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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.
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OPTICAL SYSTEMS DESIGN Default Gateway: 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 default-gateway command to set the IP address of the default gateway. Use the no ip default-gateway command to remove the IP address of the default gateway.
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OPTICAL SYSTEMS DESIGN Command Syntax: install image IP-ADDRESS WORD IP-ADDRESS specifies the IP address of tftp server. WORD specifies the file name to be loaded to switch. Example: The following example specifies upgrading firmware (file name: flash.tgz) from tftp server (IP address: 192.168.1.100) to switch:...
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OPTICAL SYSTEMS DESIGN Restore Default: 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 restore default command to restore default setting of the switch. Command Syntax:...
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OPTICAL SYSTEMS DESIGN Example: The following example sets the interval WORD (10) when the configuration would be automatically saved to switch: switch_a(config)#service auto-config interval 10 switch_a(config)# FIRMWARE UPGRADE Command Mode: Privileged Exec mode Logon to Privileged Exec Mode (Enable Mode).
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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:...
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OPTICAL SYSTEMS DESIGN Example: The following example specifies to exit from the Exec mode or Privileged Exec mode. switch_a>logout switch_a login: USER ACCOUNT Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen.
OPTICAL SYSTEMS DESIGN DIAGNOSTICS Utilization, System Log, Remote Logging, ARP Table, Route Table, Alarm Setting UTILIZATION CPU Utilization: Command Mode: Exec mode Logon to Exec Mode (View Mode). The switch_a> prompt will show on the screen. switch_a> Usage: Use the show cpu-usage command to show the CPU usage.
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OPTICAL SYSTEMS DESIGN Example: The following example shows system log of the switch: switch_a>show system-log REMOTE LOGGING Remote Logging: 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 logging of messages that are sent to syslog servers.
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OPTICAL SYSTEMS DESIGN Delete Syslog 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 this command to delete the logging of messages that are sent to remote syslog servers.
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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.
OPTICAL SYSTEMS DESIGN PORT Configuration, Port Status, Rate Control, RMON Statistics, Per Port VLAN Activities CONFIGURATION Port Name: 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.
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OPTICAL SYSTEMS DESIGN Duplex: 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 duplex command to specify the duplex mode to be used for each interface.
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OPTICAL SYSTEMS DESIGN PORT STATUS 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.
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OPTICAL SYSTEMS DESIGN Command Syntax: sfp set-temp IFNAME high-alarm | h igh-warning | l ow alarm | l ow warning LEVEL IFNAME specifies the name of the interface for which status and configuration information is desired. 8 ℃ LEVEL Threshold value -128 ~ 12...
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OPTICAL SYSTEMS DESIGN Tx-pow Alarm (Warning) Threshold: 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 transmitted output power alarm (warning) threshold for SFP transceiver.
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OPTICAL SYSTEMS DESIGN RATE CONTROL 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 specify the ingress/egress rate to be used for each interface. The bandwidth value is in bits.
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OPTICAL SYSTEMS DESIGN PER PORT VLAN ACTIVITIES 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 show vlan command to display information about a particular VLAN by specifying the VLAN ID.
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.
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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.
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OPTICAL SYSTEMS DESIGN 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.
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OPTICAL SYSTEMS DESIGN Use this command to enable or disable a loopback detection on a port interface. Command Syntax: bridge GROUP loopback-detect (enable | d isable) GROUP <1-1> Bridge-group ID used for bridging. enable Enables a loopback detection on a port interface.
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OPTICAL SYSTEMS DESIGN Example: The following example sets error disable recovery time 1 second for bridge GROUP (1): switch_a(config)#bridge 1 loopback-detect errdisable-recovery 1 switch_a(config)# Interval: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen.
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OPTICAL SYSTEMS DESIGN STATIC MAC ENTRY Static-MAC-Entry Forward: 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 forward matching frames.
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OPTICAL SYSTEMS DESIGN PORT MIRRORING 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 define a mirror source port and its direction.
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OPTICAL SYSTEMS DESIGN Port 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: Use this command to enable link state tracking for the port.
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OPTICAL SYSTEMS DESIGN Usage: Use poe enable command to enable this port to discover Powered Device (PD) connected to this port. Use the no poe enable to disable this function. Command Syntax: (no) poe enable Example: The following example shows the use of poe enable to the interface fe1 (port 1):...
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OPTICAL SYSTEMS DESIGN Example: The following example sets new fixed power limit 15 Watts to the interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#poe fixed-power-limit 15 switch_a(config-if)# Power Priority: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode.
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OPTICAL SYSTEMS DESIGN POE SCHEDULING (FOR POE MODEL) 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...
OPTICAL SYSTEMS DESIGN TRUNKING Port Trunking, LACP Trunking 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...
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OPTICAL SYSTEMS DESIGN Example: The following example adding the interface fe1 (port 1) to static-channel-group 1: switch_a(config)#interface fe1 switch_a(config-if)#static-channel-group 1 switch_a(config-if)# Channel Group: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1.
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OPTICAL SYSTEMS DESIGN clear lacp (<1-65535>) counters <1-65535> Channel-group number. Example: The following example clears all counters of LACP channel group 1: switch_a#clear lacp 1 counters switch_a# LACP Port Priority: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode).
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OPTICAL SYSTEMS DESIGN Example: The following example sets the LACP short timeout on interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#lacp timeout short switch_a(config-if)# LACP System Priority: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen.
OPTICAL SYSTEMS DESIGN STP / RING Global Configuration, RSTP Port Setting, MSTP Properties, MSTP Instance Setting, MSTP Port Setting, Ring Setting, Chain Setting, Chain Pass-Through Setting, Advanced Setting GLOBAL CONFIGURATION STP Version: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode).
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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.
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OPTICAL SYSTEMS DESIGN 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. Command Syntax: bridge GROUP priority PRIORITY no bridge GROUP priority GROUP <1-1> The ID of the bridge group for which the priority is set.
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OPTICAL SYSTEMS DESIGN Example: The following example sets the max-age MAXAGE (28) of bridge GROUP (1): switch_a(config)#bridge 1 max-age 28 switch_a(config)# Forward Delay (sec) (4..30): Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen.
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OPTICAL SYSTEMS DESIGN Admin. 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 a bridge-group.
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OPTICAL SYSTEMS DESIGN Autoedge: 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 autoedge command to assist in automatic identification of the edge port.
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OPTICAL SYSTEMS DESIGN switch_a(config)#spanning-tree mst configuration switch_a(config-mst)# Usage: Use this command 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.
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OPTICAL SYSTEMS DESIGN Usage: Use this command to specify the maximum allowed hops for BPDU in an MST region. This parameter is used by all the instances of the MST. Specifying the max hops for a BPDU prevents the messages from looping indefinetely in the network.
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OPTICAL SYSTEMS DESIGN Use this command to set the bridge priority for an MST instance to the value specified. Use the no parameter with this command to restore the default value of the bridge priority. The lower the priority of the bridge, the better the chances are the bridge becoming a root bridge or a designated bridge for the LAN.
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OPTICAL SYSTEMS DESIGN Usage: Use this command to set the port priority for a bridge group. The Multiple Spanning Tree Protocol uses port priority as a tiebreaker to determine which port should forward frames for a particular instance on a LAN, or which port should be the root port for an instance. A lower value implies a better priority. In the case of the same priority, the interface index will serve as the tiebreaker, with the lower-numbered interface being preferred over others.
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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.
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OPTICAL SYSTEMS DESIGN Use this command to enable Ring-coupling state. Use the no parameter with this command to disable Ring-coupling state. Command Syntax: (no) ring-coupling enable Example: The following example enables Ring-coupling state: switch_a(config)#ring-coupling enable switch_a(config)# Set ring-coupling port: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode).
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OPTICAL SYSTEMS DESIGN VLAN: 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 Switch priority for running chain protocol. Switch with lower priority will run as Master (forwarding) port.
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OPTICAL SYSTEMS DESIGN Usage: Use this command to set the Switch timeout count for running chain protocol. Chain recovery time = (Chain Timeout Count – 1) x 200ms. Use the no form of the command to restore default value (5).
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OPTICAL SYSTEMS DESIGN IFNAME Chain pass-through port number 2. Example: The following example enables the fe3 and fe4 as chain pass-through port 1 and chain pass-through port 2: switch_a(config)#chain pass-through fe3 fe4 switch_a(config)# ADVANCED SETTING Advanced Bridge Configuration: Bridge bpdu-guard configuration: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode).
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OPTICAL SYSTEMS DESIGN The following example enables the timeout mechanism for the port to be enabled back for bridge GROUP (1): switch_a(config)#bridge 1 spanning-tree errdisable-timeout enable switch_a(config)# Interval: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen.
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OPTICAL SYSTEMS DESIGN Bpdu-guard configuration: 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 enable or disable the BPDU Guard feature on a port.
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.
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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)#...
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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.
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OPTICAL SYSTEMS DESIGN For a VLAN range, specify two VLAN numbers: lowest, then highest number in the range, separated by a hyphen. For a VLAN list, specify the VLAN numbers separated by commas. egress-tagged enable Enable the egress tagging for the outgoing frames.
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OPTICAL SYSTEMS DESIGN Priority Level: 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 user priority for port.
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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.
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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:...
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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.
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OPTICAL SYSTEMS DESIGN 7.10 ACL ACL Information, ACL Configuration ACL is supported by EX27/77/87/29/89000 product series. ACL CONFIGURATION Policy Map: Create New Policy Map: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode). The switch_a(config)# prompt will show on the screen.
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OPTICAL SYSTEMS DESIGN Class Map: 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 class-map command to create a class map and no class-map command to delete a class map.
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OPTICAL SYSTEMS DESIGN Example: Set average traffic rate 1000000kbps and normal burst size 20000 bytes. switch_a(config)#policy-map p1 switch_a(config-pmap)#class c1 switch_a(config-pmap-c)#police 1000000 20000 exceed-action drop switch_a(config-pmap-c)# Attach Access Group to Class Map: Command Mode: Configure mode Logon to Configure Mode (Configure Terminal Mode).
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OPTICAL SYSTEMS DESIGN IP Access List (Extended): 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 create an Extended IP access list and no with this command to delete an Extended IP access list.
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OPTICAL SYSTEMS DESIGN (no) mac-access-list ACCESS-LIST NUMBER (deny | p ermit) SOURCE ( | S OURCE_WILDCARD) DESTINATION ( | D ESTINATION_WILDCARD) <1-8> ( | e ther-type (any | ( ETHER_TYPE ETHER_TYPE_WILDCARD)) ACCESS-LIST NUMBER Range is 2000-2699. deny Deny certain traffic if conditions matched.
OPTICAL SYSTEMS DESIGN 7.11 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.
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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:...
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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.
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OPTICAL SYSTEMS DESIGN Usage: Use snmp-server trap-type enable linkUp command to enable link up trap for SNMP. Use the no snmp-server trap-type enable linkUp command to disable link up trap for SNMP. Command Syntax: (no) snmp-server trap-type enable linkUp Example:...
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OPTICAL SYSTEMS DESIGN MAC Notification History Size: 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 maximum number of entries in the MAC notification history table.
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OPTICAL SYSTEMS DESIGN 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.
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OPTICAL SYSTEMS DESIGN 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).
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OPTICAL SYSTEMS DESIGN 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: 10112704 PAGE 192...
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OPTICAL SYSTEMS DESIGN 7.12 802.1X Radius Configuration, Port 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.
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OPTICAL SYSTEMS DESIGN 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. KEY specifies the secret key shared among the radius server and the 802.1x client.
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OPTICAL SYSTEMS DESIGN Example: The following example specifies the retransmit value 12: switch_a(config)#radius-server retransmit 12 switch_a(config)# PORT AUTHENTICATION Authentication State: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. fe1 means port 1.
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OPTICAL SYSTEMS DESIGN Example: The following example specifies to enable authetication on the interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#dot1x port-control auto switch_a(config-if)# Periodic Reauthentication: Reauthentication Period: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode.
OPTICAL SYSTEMS DESIGN 7.13 LLDP LLDP General Settings, LLDP Ports Settings, LLDP Neighbors, LLDP Statistics LLDP GENERAL SETTING LLDP: 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 Link Layer Discovery Protocol (LLDP) globally.
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OPTICAL SYSTEMS DESIGN Use this command to set the transmit interval. This is the interval between regular transmissions of Link Layer Discovery Protocol (LLDP) advertisements. Command Syntax: lldp txinterval <5-32768> <5-32768> TxInterval 5-32768 seconds, default is 30 seconds. Example: The following example sets Link Layer Discovery Protocol (LLDP) transmit interval to 60 seconds:...
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OPTICAL SYSTEMS DESIGN LLDP PORTS SETTINGS Transmit: 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 send Link Layer Discovery Protocol (LLDP) packets on the interface.
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OPTICAL SYSTEMS DESIGN 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 enable Link Layer Discovery Protocol (LLDP) notification on the interface.
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OPTICAL SYSTEMS DESIGN Example: The following example sets Link Layer Discovery Protocol (LLDP) Link Aggregation Type Length Value (TLV) on the interface fe1 (port 1): switch_a(config)#interface fe1 switch_a(config-if)#lldp tlv-global link-aggregation switch_a(config-if)# LLDP NEIGHBORS Command Mode: Exec mode or Privileged Exec mode Logon to Exec Mode (View Mode) or Privileged Exec Mode (Enable Mode).
OPTICAL SYSTEMS DESIGN 7.14 OTHER PROTOCOLS GVRP, IGMP Snooping, NTP, GMRP, DHCP Server 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.
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OPTICAL SYSTEMS DESIGN 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.
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OPTICAL SYSTEMS DESIGN 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.
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OPTICAL SYSTEMS DESIGN Command Syntax: (no) ip igmp snooping enable Example: The following example enables IGMP snooping on the switch: switch_a(config)# ip igmp snooping enable switch_a(config)# IGMP version: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode.
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OPTICAL SYSTEMS DESIGN Example: The following example enables IGMP snooping fast-leave on vlan1.1: switch_a(config)#interface vlan1.1 switch_a(config-if)#ip igmp snooping fast-leave switch_a(config-if)# IGMP querier: Query-interval: Command Mode: Interface mode Logon to Configure Mode (Configure Terminal Mode). Then logon to Interface mode. vlan1.1 means vlan 1.
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OPTICAL SYSTEMS DESIGN ip igmp query-max-response-time RESPONSETIME no ip igmp query-max-response-time RESPONSETIME <1-240> Maximum response time (in seconds) advertised in IGMP queries. Default: 10 seconds. Example: The following example configures a maximum response time of 8 seconds on vlan1.1: switch_a(config)#interface vlan1.1...
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OPTICAL SYSTEMS DESIGN Use the no ip igmp snooping report-suppression command to disable report suppression. Command Syntax: (no) ip igmp snooping report-suppression Example: The following example enables report suppression for IGMPv2 reports on vlan1.1: switch_a(config)#interface vlan1.1 switch_a(config-if)#ip igmp version 2...
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OPTICAL SYSTEMS DESIGN RTC Time: 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 rtc time command to show RTC time.
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OPTICAL SYSTEMS DESIGN 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: The following example enables NTP for the Switch: switch_a(config)#ntp enable...
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OPTICAL SYSTEMS DESIGN 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)
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OPTICAL SYSTEMS DESIGN MINUTE <0-59> Specifies from 0 to 59. 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.
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OPTICAL SYSTEMS DESIGN Use this command to enable/disable GMRP globally on a particular bridge. This command does not enable/disable GMRP in all ports of the bridge. After enabling GMRP globally, use the set port gmrp command to enable GMRP on individual ports of the bridge. GMRP cannot be enabled if IGMP Snooping is enabled, or if GMRP has already been configured for a particular VLAN.
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OPTICAL SYSTEMS DESIGN Use this command to set GMRP registration type for all ports for a given bridge. Command Syntax: ∣ ∣ set gmrp registration normal f ixed f orbidden IF_NAME normal Specify dynamic GMRP multicast registration and deregistration on the port.
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OPTICAL SYSTEMS DESIGN leave Type of timer leaveall Type of timer TIMER_VALUE Timervalue in centiseconds. IF_NAME Specify the name of the interface. Example: The following example sets the join timers 100 centiseconds for interface fe1 (port 1): switch_a(config)#set gmrp join timer 100 fe1...
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OPTICAL SYSTEMS DESIGN The switch_a(config)# prompt will show on the screen. switch_a(config)# Usage: Use this command to set the default IP lease block for the DHCP Server. Command Syntax: dhcp-server range A.B.C.D A.B.C.D A.B.C.D The default Start IP for the DHCP Server.
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OPTICAL SYSTEMS DESIGN switch_a(config)#dhcp-server gateway 192.168.1.254 switch_a(config)# DHCP Server DNS: 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 default DNS for the DHCP Server.
OPTICAL SYSTEMS DESIGN 8 APPENDIX OSD Systems Managed switches firmware release notes Switch Protocols/ Series Functions Release notes Affected Involved Ver 1.94.1 Add New protocol or commands Chain protocol Add Chain-Pass-through protocol LLDP Add LLDP protocol Add CLI command - web UI can be disabled...
OPTICAL SYSTEMS DESIGN 9 MAINTENANCE INTRODUCTION The following section outlines the fault-finding procedure for the OSD2700 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...
For warranty period, please contact your local OSD distributor. 10.2 REPAIRS Optical Systems Design reserves the right to repair or replace faulty modules/units. Please obtain a “Return Material Authorisation” (RMA) form and number before returning goods. Goods must be returned in adequate packing material to Optical Systems Design, Warriewood or its nominated authorised representative, for all repairs.