FGP-2472 24 FE PoE + 2 GE Combo SFP L2 Managed Switch User Manual V1.
Table of Contents CAUTION ............................................................................................................................................ IV ELECTRONIC EMISSION NOTICES ....................................................................................................... IV 1. INTRODUCTION ........................................................................................................................ 2 1-1. OVERVIEW OF FGP-2472 .........................................
-8-5. Management VLAN ............................................................................................................ 84 3-9. MAC TABLE ............................................................................................................................... 85 3-10. GVRP CONFIGURATION ............................................................................................................ 91 3-11. STP CONFIGURATION ......................................................................
Caution Circuit devices are sensitive to static electricity, which can damage their delicate electronics. Dry weather conditions or walking across a carpeted floor may cause you to acquire a static electrical charge. To protect your device, always: • Touch the metal chassis of your computer to ground the static electrical charge before you pick up the circuit device. • • • Pick up the device by holding it on the left and right edges only.
Warrning: • Self-demolition on Product is strictly prohibited. Damage caused by self-demolition will be charged for repairing fees. • Do not place product at outdoor or sandstorm. • Before installation, please make sure input power supply and product specifications are compatible to each other. • Before importing / exporting configuration please make sure the firmware version is always the same.
About this user’s manual In this user’s manual, it will not only tell you how to install and connect your network system but configure and monitor the FGP-2472 through the built-in CLI and web by RS-232 serial interface and Ethernet ports step-by-step. Many explanation in detail of hardware and software functions are shown as well as the examples of the operation for web-based interface and command-line interface (CLI).
1. Introduction 1-1. Overview of FGP-2472 FGP-2472, a 24 Fast Ethernet + 2 Gigabit L2 Managed Switch, implemented 24 10/100Mbps TP + 2 Gigabit dual media ports with TP/SFP, is a standard switch that meets all IEEE 802.3/u/x/z Gigabit, Fast Ethernet and Ethernet specifications. The switch can be managed through RS-232 serial port via directly connection, or through Ethernet port using Telnet or Web-based management unit, associated with SNMP agent.
• Key Features in the Device QoS: Support Quality of Service by the IEEE 802.1P standard. There are two priority queue and packet transmission schedule using Weighted Round Robin (WRR). User-defined weight classification of packet priority can be based on either VLAN tag on packets or user-defined port priority. Spanning Tree: Support IEEE 802.1D, IEEE 802.1w (RSTP: Rapid Spanning Tree Protocol) standards. VLAN: Support Port-based VLAN and IEEE802.1Q Tag VLAN. Support 256 active VLANs and VLAN ID 1~4094.
• • • When queried, sends group membership reports to the group. When one of its hosts joins a multicast address group to which none of its other hosts belong, sends unsolicited group membership reports to that group. When the last of its hosts in a particular multicast group leaves the group, sends an unsolicited leave group membership report to the all-routers group (244.0.0.2).
1-2. Checklist Before you start installing the switch, verify that the package contains the following: A set of FGP-2472 Modules (optional) Mounting Accessory (for 19” Rack Shelf) This User's Manual in CD-ROM AC Power Cord RS-232 Cable Please notify your sales representative immediately if any of the aforementioned items is missing or damaged. 1-3.
• Management • Supports concisely the status of port and easily port configuration • Supports per port traffic monitoring counters • Supports a snapshot of the system Information when you login • Supports port mirror function • Supports the static trunk function • Supports 802.1Q VLAN with 256 entries.
1-4. View of FGP-2472 Fig. 1-1 Full View of the FGP-2472 1-4-1. User Interfaces on the Front Panel (Button, LEDs and Plugs) There are 24 TP Fast Ethernet ports and 2 slots for optional removable modules on the front panel of the switch. LED display area, locating on the front panel, contains a CPURUN, Power LED and 26 ports working status of the switch.
• LED Indicators LED CPURUN POWER ACT FDX SPD Color System LED Green Green Green Green Green Function Lit when CPU is on and good Lit when AC power is on and good Lit when LEDSET set on active mode Lit when LEDSET set on full-duplex mode Lit when LEDSET set on speed mode 10/100Mbps Ethernet TP Port 1 to 24 LED Lit when connection with remote device is good LINK Green Off when cable connection is not good a. LEDSET set on ACT (active) mode: Blinks when any traffic is present Amber b.
1-4-2. User Interfaces on the Rear P Panel One RS-232 DB-9 9 interface is offered for configuration or management. And there is one AC power input socket for having the switch powered on or off. AC Line 100-240V 50/60 Hz RS-232 DB-9 Connector Fig. 1-3 3 Rear View of the FGP-2472 nal Modules 1-5. View of the Optional In the switch, Port 25, 26 includes two types of media --- TP and SFP Fiber (LC, BiDi LC…); this port supports 10/100/1000Mbps TP or 1000Mbps SFP Fiber with auto-detected detected function.
2. Installation 2-1. Starting FGP-2472 Up This section will give users a quick start for: - Hardware and Cable Installation - Management Station Installation - Software booting and configuration 2-1-1. Hardware and Cable Installation At the beginning, please do first: ⇒ Wear a grounding device to avoid the damage from electrostatic discharge • Installing Optional SFP Fiber Transceivers to the FGP-2472 Switch Note: If you have no modules, please skip this section. Fig.
• TP Port and Cable Installation ⇒ In the switch, TP port supports MDI/MDI-X auto-crossover, so both types of cable, straight-through (Cable pin-outs for RJ-45 jack 1, 2, 3, 6 to 1, 2, 3, 6 in 10/100M TP; 1, 2, 3, 4, 5, 6, 7, 8 to 1, 2, 3, 4, 5, 6, 7, 8 in Gigabit TP) and crossed-over (Cable pin-outs for RJ-45 jack 1, 2, 3, 6 to 3, 6, 1, 2) can be used. It means you do not have to tell from them, just plug it. ⇒ Use Cat.
2-1-2. Installing Chassis to a 19-Inch Wiring Closet Rail Fig. 2-2 Caution: Allow a proper spacing and proper air ventilation for the cooling fan at both sides of the chassis. ⇒ Wear a grounding device for electrostatic discharge. ⇒ Screw the mounting accessory to the front side of the switch (See Fig. 2-2). ⇒ Place the Chassis into the 19-inch wiring closet rail and locate it at the proper position. Then, fix the Chassis by screwing it. 2-1-3.
Gigabit Fiber with BiDi-SC 1550nm SFP module The following table lists the types of fiber that we support and those else not listed here are available upon request. Multi-mode Fiber Cable and Modal Bandwidth Multi-mode 62.5/125µm IEEE 802.3z Gigabit Ethernet 1000SX 850nm Modal Bandwidth Multi-mode 50/125µm Modal Bandwidth Distance Distance 160MHz-Km 220m 400MHz-Km 500m 200MHz-Km 275m 500MHz-Km 550m SFP.0LC.212.
• Typical Network Topology in Deployment A hierarchical network with minimum levels of switch may reduce the timing delay between server and client station. Basically, with this approach, it will minimize the number of switches ches in any one path; will lower the possibility of network loop and will improve network efficiency. If more than two switches are connected in the same network,, select one switch as Level 1 switch and connect all other switches to it at Level 2.
1. The same VLAN members could not be in different switches. 2. Every VLAN members could not access VLAN members each other. 3. The switch manager has to assign different names for each VLAN groups at one switch. Case 2b: Port-based VLAN (See Fig.2-5). 5). Fig. 2-5 Port-based based VLAN Diagram 1. VLAN1 members could not access VLAN2, VLAN3 and VLA VLAN4 members. 2. VLAN2 members could not access VLAN1 and VLAN3 members, but they could access VLAN4 members. 3.
2-1-4. Configuring the Management Agent of FGP-2472 We offer you three ways to startup the switch management function. They are RS-232 console, CLI, and Web. Users sers can use any one of them to monitor and configure the switch. You ou can touch them through the following procedures.
Baud rate Stop bits Data bits Parity Flow control 4. 57600 1 8 N none When you complete the connection, then press key. The login prompt will be shown on the screen. The default username and password are shown as below: Username = admin Password = admin • Set IP Address, Subnet Mask and Default Gateway IP Address Please refer to Fig. 2-7 CLI Management for details about LevelOne’s setting. They are default setting of IP address.
2-1-4-2. Configuring the Management Agent of FGP-2472 through the Ethernet Port There are three ways to configure and monitor the switch through the switch’s Ethernet port. They are CLI, Web browser and SNMP manager. The user interface for the last one is NMS dependent and does not cover here. We just introduce the first two types of management interface. FGP-2472 Default IP Setting: IP = 192.168.1.1 Subnet Mask = 255.255.255.0 Default Gateway = 192.168.1.
Fig. 2-10 the Login Screen for Web 2-1-5. IP Address Assignment For IP address configuration, there are three parameters needed to be filled in. They are IP address, Subnet Mask, Default Gateway and DNS. IP address: The address of the network device in the network is used for internetworking communication. Its address structure looks is shown in the Fig. 2-11. It is “classful” because it is split into predefined address classes or categories.
With the classful addressing, it divides IP address into three classes, class A, class B and class C. The rest of IP addresses are for multicast and broadcast. The bit length of the network prefix is the same as that of the subnet mask and is denoted as IP address/X, for example, 192.168.1.0/24. Each class has its address range described below. Class A: Address is less than 126.255.255.255. There are a total of 126 networks can be defined because the address 0.0.0.0 is reserved for default route and 127.0.
Class D and E: Class D is a class with first 4 MSB (Most significance bit) set to 1-1-1-0 and is used for IP Multicast. See also RFC 1112. Class E is a class with first 4 MSB set to 1-1-1-1 and is used for IP broadcast. According to IANA (Internet Assigned Numbers Authority), there are three specific IP address blocks reserved and able to be used for extending internal network. We call it Private IP address and list below: Class A Class B Class C 10.0.0.0 --- 10.255.255.255 172.16.0.0 --- 172.31.255.
In this diagram, you can see the subnet mask with 25-bit long, 255.255.255.128, contains 126 members in the sub-netted network. Another is that the length of network prefix equals the number of the bit with 1s in that subnet mask. With this, you can easily count the number of IP addresses matched. The following table shows the result. Prefix Length No. of IP matched No.
For different network applications, the subnet mask may look like 255.255.255.240. This means it is a small network accommodating a maximum of 15 nodes in the network. Default gateway: For the routed packet, if the destination is not in the routing table, all the traffic is put into the device with the designated IP address, known as default router. Basically, it is a routing policy. The gateway setting is used for Trap Events Host only in the switch.
2-2. Typical Applications The FGP-2472 implements 24 Fast Ethernet TP ports with auto MDIX and 2 Gigabit dual media ports with SFP for removable module supported comprehensive fiber types of connection,, including LC, BiDi LC for SFP. For more details on the specification of the switch, please se refer to Appendix A. The switch is suitable for the following applications. FTTB/FTTO application is used in carrier or ISP (See Fig. 2-13) FTTH application is used in carrier or ISP (See Fig.
Fig. 2-15 Daisy-Chain Chain Fiber Network Connection Fig.
3. Operation of Web-based Management This chapter instructs you how to configure and manage the FGP-2472 through the web user interface it supports, to access and manage the 24 10/100Mbps TP + 2 Gigabit dual media ports with TP/SFP Fiber management Ethernet switch.
In the switch, it supports a simple user management function a llowing only one administrator to configure the system at the same time. If there are two or more users using administrator’s identity, the switch will allow the only one who logins first to configure the system. The rest of users, even with administrator’s identity, can only monitor the system. For those who have no administrator’s identity, can only monitor the system.
3-1. Web Management Home Overview After you login, the switch shows you the system information as Fig. 3-2. This page is default and tells you the basic information of the system, including “Model Name”, “System Description”, “Location”, “Contact”, “Device Name”, “System Up Time”, “Current Time”, “BIOS Version”, “Firmware Version”, “Hardware-Mechanical Version”, “Serial Number”, “Host IP Address”, “Host MAC Address”, “Device Port”, “RAM Size” and “Flash Size”.
Fig. 3-3 port detail information In Fig. 3-3, it shows the basic information of the clicked port. With this, you’ll see the information about the port status, traffic status and bandwidth rating for egress and ingress respectively. On the left-top corner, there is a pull-down list for Auto Logout. For the sake of security, we provide auto-logout function to protect you from illegal user as you are leaving.
Root System Port PoE Loop Detection SNMP DHCP Boot IGMP Snooping VLAN MAC Table GVRP STP MSTP Trunk 802.
3-1-1. System Information Function name: System Information Function description: Show the basic system information. Fig. 3-3-1 system information Parameter description: Model name: The model name of this device. System description: As it is, this tells what this device is. Here, it is “24-Port 10/100BaseT/TX Managed PoE Switch”. Location: Basically, it is the location where this switch is put. User-defined.
Device name: The name of the switch. User-defined. Default is FGP-2472. System up time: The time accumulated since this switch is powered up. Its format is day, hour, minute, second. Current time: Show the system time of the switch. Its format: day of week, month, day, hours : minutes : seconds, year. For instance, Tue Apr 20 23:25:58 2005 BIOS version: The version of the BIOS in this switch. Firmware version: The firmware version in this switch.
3-1-2. IP Configuration IP configuration is one of the most important configurations in the switch. Without the proper setting, network manager will not be able to manage or view the device. The switch supports both manual IP address setting and automatic IP address setting via DHCP server. When IP address is changed, you must reboot the switch to have the setting taken effect and use the new IP to browse for web management and CLI management.
IP address: Users can configure the IP settings and fill in new values if users set the DHCP function “Disable”. Then, click button to update. When DHCP is disabled, Default: 192.168.1.1 If DHCP is enabled, this field is filled by DHCP server and will not allow user manually set it any more.
DNS: It is Domain Name Server used to serve the translation between IP address and name address. The switch supports DNS client function to re-route the mnemonic name address to DNS server to get its associated IP address for accessing Internet. User can specify a DNS IP address for the switch. With this, the switch can translate a mnemonic name address into an IP address. There are two ways to specify the IP address of DNS.
3-1-3. Time Configuration The switch provides manual and automatic ways to set the system time via NTP. Manual setting is simple and you just input “Year”, “Month”, “Day”, “Hour”, “Minute” and “Second” within the valid value range indicated in each item. If you input an invalid value, for example, 61 in minute, the switch will clamp the figure to 59. NTP is a well-known protocol used to synchronize the clock of the switch system time over a network.
the fields of Year, Month, Day, Hour, Minute and Second respectively and press button, time is adjusted. The valid figures for the parameter Year, Month, Day, Hour, Minute and Second are >=2000, 1-12, 1-31, 0-23, 0-59 and 0-59 respectively. Input the wrong figure and press button, the device will reject the time adjustment request. There is no time zone setting in Manual mode.
Default: 1 Hour: Range is 0 ~ 23. Default: 0 Day Light Saving End : This is used to set when to stop performing the daylight saving time. Mth: Range is 1 ~ 12. Default: 1 Day: Range is 1 ~ 31. Default: 1 Hour: Range is 0 ~ 23.
3-1-4. Account Configuration In this function, only administrator can create, modify or delete the username and password. Administrator can modify other guest identities’ password without confirming the password but it is necessary to modify the administrator-equivalent identity. Guest-equivalent identity can modify his password only. Please note that you must confirm administrator/guest identity in the field of Authorization in advance before configuring the username and password.
3-1-5. Management Security Through the management security configuration, the manager can do the strict setup to control the switch and limit the user to access this switch. The following rules are offered for the manager to manage the switch: Rule 1) : When no lists exists, then it will accept all connections.
Function name: Management Security Configuration Function description: The switch offers Management Security Configuration function. With this function, the manager can easily control the mode that the user connects to the switch. According to the mode, users can be classified into two types: Those who are able to connect to the switch (Accept) and those who are unable to connect to the switch (Deny).
IP Range: The switch supports two kinds of options for managed valid IP Range, including “Any” and “Custom”. Default is “Any”. In case that” Custom” had been chosen, you can assigned effective IP range. The valid range is 0.0.0.0~255.255.255.255. Incoming Port: The switch supports two kinds of options for managed valid Port Range, including “Any” and “Custom”. Default is “Any”.
3-1-6. Virtual Stack Virtual Stack Management(VSM) is the group management function. Through the proper configuration of this function, switches in the same LAN will be grouped automatically. And among these switch, one switch will be a master machine, and the others in this group will become the slave devices. Function name: Virtual Stack Function description: VSM offers a simple centralized management function.
Fig. 3-8 Parameter description: State: It is used for the activation or de-activation of VSM. Default is Enable. Role: The role that the switch would like to play in virtual stack. Two types of roles, including master and slave are offered for option. Default is Master. Group ID: It is the group identifier (GID) which signs for VSM. Valid letters are A-Z, a-z, 0-9, “ - “ and “_” characters. The maximal length is 15 characters. Fig.
3-1-7. Login Protect Function name: Login Protect Function description: The Login Protect function using for check the Login error times and Lockminutes. It could protect the login who want to access the switch. Parameter description: Login-errors: It is used for check Login-error times. If you want to refresh it then type zero for disable. Lock-Minutes: It is using for check the login failure and be switch locked time. Zero is for disable it.
3-2. Port Configuration Four functions, including Port Status, Port Configuration, Simple Counter and Detail Counter are contained in this function folder for port monitor and management. Each of them will be described in detail orderly in the following sections.
3-2-1.Port Status The function Port Status gathers the information of all ports’ current status and reports it by the order of port number, media, link status, port state, AutoNegotiation status, speed/duplex, Rx Pause and Tx Pause. An extra media type information for the module ports 25 and 26 is also offered (See Fig. 3-11). Function name: Port Status Function Description: Report the latest updated status of all ports in this switch.
switch describes the module ports with the following page. Link: Show that if the link on the port is active or not. If the link is connected to a working-well device, the Link will show the link “Up”; otherwise, it will show “Down”. This is determined by the hardware on both devices of the connection. No default value. State: Show that the communication function of the port is “Enabled” or “Disabled”. When it is enabled, traffic can be transmitted and received via this port.
Tx Pause: It decides that whether the port transmits the PAUSE frame or not. If it shows “on”, the port will send PAUSE frame; otherwise, the port will not send the PAUSE frame. Default: None Port Description: To display the port description what you set on the port. Fig. 3-11 Parameter description of Port 25 and Port 26: Connector Type: Display the connector type, for instance, UTP, SC, ST, LC and so on. Fiber Type: Display the fiber mode, for instance, Multi-Mode, Single-Mode.
Display the product name of the naming by module manufacturer. Vendor Rev (Revision): Display the module revision. Vendor SN (Serial Number): Show the serial number assigned by the manufacturer. Date Code: Show the date this module was made. Temperature: Show the current temperature of module. Vcc: Show the working DC voltage of module. Mon1(Bias) mA: Show the Bias current of module. Mon2(TX PWR): Show the transmit power of module. Mon3(RX PWR): Show the receiver power of module.
3-2-2. Port Configuration Port Configuration is applied to change the setting of each port. In this configuration function, you can set/reset the following functions. All of them are described in detail below. Function name: Port Configuration Function description: It is used to set each port’s operation mode. The switch supports 3 parameters for each port. They are State, Speed/Duplex and Flow Control. Fig.
Speed/Duplex: Set the speed and duplex of the port. In speed, 10/100Mbps baud rate is available for Fast Ethernet, Gigabit module in port 25, 26. If the media is 1Gbps fiber, it is always 1000Mbps and the duplex is full only. If the media is TP, the Speed/Duplex is comprised of the combination of speed mode, 10/100/1000Mbps, and duplex mode, full duplex and half duplex. The following table summarized the function the media supports.
3-2-3. Port Description Function name: Port Description Function description: Port Description that you could define the port description as a Alias name. Parameter description: Port Index: To show the Port index which you want to set the Port description. Description: To set its port description, max 47 characters.
3-2-4. Simple Counter The function of Simple Counter collects any information and provides the counting about the traffic of the port, no matter the packet is good or bad. In the Fig. 3-10, the window can show all ports’ counter information at the same time. Each data field has 20-digit long. If the counting is overflow, the counter will be reset and restart counting. The data is updated every time interval defined by the user. The valid range is 3 to 10 seconds.
3-2-4. Detail Counter The function of Detail Counter collects any information and provides the counting about the traffic of the port, no matter the packet is good or bad. In the Fig. 3-14, the window can show only one port counter information at the same time. To see another port’s counter, you have to pull down the list of Select, then you will see the figures displayed about the port you had chosen. Each data field has 20-digit long.
Rx Errors: Number of bad packets received. Rx Unicast Packets: Show the counting number of the received unicast packet. Rx Broadcast Packets: Show the counting number of the received broadcast packet. Rx Multicast Packets: Show the counting number of the received multicast packet. Rx Pause Packets: Show the counting number of the received pause packet. Tx Collisions: Number of collisions transmitting frames experienced.
Packets 1024- 1522 Octets: Number of 1024-1522-byte frames in good and bad packets received. Tx Packets: The counting number of the packet transmitted. TX Octets: Total transmitted bytes. Tx Unicast Packets: Show the counting number of the transmitted unicast packet. Tx Broadcast Packets: Show the counting number of the transmitted broadcast packet. Tx Multicast Packets: Show the counting number of the transmitted multicast packet. Tx Pause Packets: Show the counting number of the transmitted pause packet.
3-3. PoE Power Over Ethernet (PoE) technology allows IP telephones, wireless LAN access points, and other powered devices (PDs) to receive power and transfer data over existing LAN cabling. Function name: PoE Status Function description: Display the information about the PoE status. Fig. 3-15 Parameter description: Vmain: The volt is supplied by the PoE. Imain: The sum of the current that every port supplies. Pconsume: The sum of the power that every port supplies.
Port is turned off due to the AC Disconnect function. DC Disconnect Port Off: Port is turned off due to the DC Disconnect function. Overload Port Off: The switch will stop supplying the power to the port due to the power required by the PD that is linked to the port on the switch excesses the Class setting of the PD. Short Circuit Port Off: The switch will stop supplying the power to the port if it detects that the PD linked to the port is short circuit. Over Temp.
Function name: PoE Configuration Function description: In PoE Port Management function, user can configure the settings about PoE. The switch complies with IEEE 802.3af protocol and be capable of detecting automatically that whether the device linked to the port on the switch is PD (Powered Device) or not.
Current(mA): The current is supplied to the PD by the port. Class: The Class of the PD linked to the port of the switch.
3-4. Loop Detection The loop detection is used to detect the presence of traffic. When switch receives packet’s(looping detection frame) MAC address the same as oneself from port, show Loop detection happens. The port will be locked when it received the looping detection frames.
3-5. SNMP Configuration Any Network Management System (NMS) running the Simple Network Management Protocol (SNMP) can manage the Managed devices equipped with SNMP agent, provided that the Management Information Base (MIB) is installed correctly on the managed devices. The SNMP is a protocol that is used to govern the transfer of information between SNMP manager and agent and traverses the Object Identity (OID) of the management Information Base (MIB), described in the form of SMI syntax.
requesting network management unit belongs to the same community group. If they both don’t have the same community name, they don’t belong to the same group. Hence, the requesting network management unit can not access the device with different community name via SNMP protocol; If they both have the same community name, they can talk each other. Community name is user-definable with a maximum length of 15 characters and is case sensitive. There is not allowed to put any blank in the community name string.
3-6. DHCP Boot The DHCP Boot function is used to spread the request broadcast packet into a bigger time frame to prevent the traffic congestion due to broadcast packets from many network devices which may seek its NMS, boot server, DHCP server and many connections predefined when the whole building or block lose the power and then reboot and recover.
3-7. IGMP Snooping The function, IGMP Snooping, is used to establish the multicast groups to forward the multicast packet to the member ports, and, in nature, avoids wasting the bandwidth while IP multicast packets are running over the network. This is because a switch that does not support IGMP or IGMP Snooping can not tell the multicast packet from the broadcast packet, so it can only treat them all as the broadcast packet.
Parameter description: IGMP snooping mode selection: The switch supports three kinds of IGMP Snooping status, including “Passive”, “Active” and “Disable”. Disable: Set “Disable” mode to disable IGMP Snooping function. Default: Disable Active: In Active mode, IGMP snooping switch will periodically issue the Membership Query message to all hosts attached to it and gather the Membership report message to update the database of the Multicast table.
Function name: Allowed Group Function description: The Allowed Group function allows the IGMP Snooping to set up the IP multicast table based on user’s specific conditions. IGMP report packets that meet the items you set up will be joined or formed the multicast group. Fig. 3-20 Parameter description: IP Range: The switch supports two kinds of options for managed valid IP range, including “Any” and “Custom”. Default is “Any”. In case that” Custom” had been chosen, you can assigned effective IP range.
Edit: The existed entry also can be modified after pressing button. Delete: Remove the existed entry of allowed group configuration from the allowed group.
Function name: Static IP Multicast Function description: The Static IP Multicast function allows the IGMP Snooping to set up Static IP multicast table based on user’s specific conditions. Fig. 3-20-1 Parameter description: No: Number for Static IP Multicast. IP: Multicast groups IP addresses. VID: Show VLAN ID for each multicast group. Member Port: Show member ports that join each multicast group. Member port may be only or more than one. Add: Step 1: Click button as Fig.
Fig. 3-20-2 Edit: Step 1: Select an existed entry, then click Step 2: After modify member port, then click Fig. 3-20-3 Fig.
Fig.
Function name: RADIUS IGMP Function description: This function provide RADIUS Server, Accounting Server and IGMP Port Member setting. Fig. 3-20-6 Parameter description: Radius Server: RADIUS server IP address for authentication. Default: 192.168.1.1 Port Number: The port number to communicate with RADIUS server for the authentication service. The valid value ranges 1-65535. Default port number is 1812. Accounting Server: Accounting server IP address. Default: 192.168.1.
It is the time for response timeout. Number of retry: It is the field to set retry. Secret Key: The secret key between authentication server and authenticator. It is a string with the length 1 – 31 characters. The character string may contain upper case, lower case and 0-9. Default: Radius Port Member: To select the RADIUS IGMP multicast port members, one by one or select/unselect all.
3-8. VLAN The switch supports Tag-based VLAN (802.1q) and Port-based VLAN. Support 256 active VLANs and VLAN ID 1~4094. VLAN configuration is used to partition your LAN into small ones as your demand. Properly configuring it, you can gain not only improving security and increasing performance but greatly reducing VLAN management. 3-8-1.
No filtering criterion applies in port-based VLAN. The only criterion is the physical port you connect to. For example, for a port-based VLAN named PVLAN-1 contains port members Port 1&2&3&4. If you are on the port 1, you can communicate with port 2&3&4. If you are on the port 5, then you cannot talk to them. Each port-based VLAN you built up must be assigned a group name. This switch can support up to maximal 26 port-based VLAN groups.
26: Except Port 26, each port of the switch cannot transmit packets with each other. Each port groups a VLAN with Port 26, thus, total 8 groups consisting of 2 members are formed. 25&26: Except Port 25 and Port 26, each port of the switch cannot transmit packets with each other. Each port groups a VLAN with Port 25 and Port 26, thus, total 8 groups consisting of 3 members are formed.
3-8-2. Tag-based Group Function name: Tag-based Group Configuration Function description: It shows the information of existed Tag-based VLAN Groups. You can also easily create, edit and delete a Tag-based VLAN group by pressing , and function buttons. User can add a new VLAN group by inputting a new VLAN name and VLAN ID after pressing button. Fig. 3-22 Parameter description: VLAN Name: The name defined by administrator is associated with a VLAN group.
Add Group: Input the VLAN name, VID and then choose the member by ticking the check box beside the port No. to create a new Tag-based VLAN. As to the parameter of Untag, it stands for an egress rule of the port. If you tick the check box beside the port No., packets with this VID outgoing from this port will be untagged. Finally, press the button to have the setting taken effect. Fig.
3-8-3. PVID Function name: PVID Function description: In PVID Setting, user can input VID number to each port. The range of VID number is from 1 to 4094. User also can choose ingress filtering rule (Rule 2) to each port. The Ingress Filtering Rule 2 is “drop untagged frame”. While Rule 2 is enabled, the port will discard all Untagged-frames. Fig. 3-25 Parameter description: Port 1-26: Port number. PVID: This PVID range will be 1-4094.
Drop Untag: Drop untagged frame. You can configure a given port to accept all frames (Tagged and Untagged) or just receive tagged frame. If the former is the case, then the packets with tagged or untagged will be processed. If the later is the case, only the packets carrying VLAN tag will be processed, the rest packets will be discarded.
3-8-4. Port-based Group Function name: Port-based Group Configuration Function description: It shows the information of the existed Port-based VLAN Groups. You can easily create, edit and delete a Port-based VLAN group by pressing , and function buttons. User can add a new VLAN group by inputting a new VLAN name. Fig. 3-26 Parameter description: VLAN Name: The name defined by administrator is associated with a VLAN group. Valid letters are A-Z, a-z, 0-9, “ - “ and “_” characters.
Add Group: Create a new Port-based VLAN. Input the VLAN name and choose the member by ticking the check box beside the port No., then, press the button to have the setting taken effect. Fig. 3-27 Delete Group: Just press the button to remove the selected group entry from the Port-based group table. Fig. 3-28 Edit a group: Just select a group entry and press the button, then you can modify a group‘s description and member set.
3-8-5. Management VLAN Function name: Management VLAN Function Description: Fig. 3-37 Parameter description: State: It works when the tag-based mode is chosen. When this function is enabled, only the tagged packets with this VID can manage the switch. VID: Valid range 1~4094.
3-9. MAC Table MAC Table Configuration gathers many functions, including MAC Table Information, MAC Table Maintenance, Static and MAC Alias, which cannot be categorized to some function type. They are described below. Function name: MAC Table Information Function Description: Display the static or dynamic learning MAC entry and the state for the selected port. Fig. 3-29 Parameter description: Port: Select the port you would like to inquire. Search: Set up the MAC entry you would like to inquire.
Next Page: Move to the next page. Alias: The Alias of the searched entry. MAC Address: The MAC address of the searched entry. Port: The port that exists in the searched MAC Entry. VID: VLAN Group that MAC Entry exists. State: Display the method that this MAC Entry is built. It may show “Dynamic MAC” or “Static MAC”.
Function Name: MAC Table Maintenance Function Description: This function can allow the user to set up the processing mechanism of MAC Table. An idle MAC address exceeding MAC Address Age-out Time will be removed from the MAC Table. The range of Age-out Time is 10-1000000 seconds, and the setup of this time will have no effect on static MAC addresses. In addition, the learning limit of MAC maintenance is able to limit the amount of MAC that each port can learn. Fig.
Function Name: Static Setting Function Description: The function of Static is used to configure MAC’s real manners inside of the switch. Three kinds of manners including static, static with destination drop and static with source drop are contained in this function . As “static” is chosen, assign a MAC address to a specific port, all of the switch’s traffics sent to this MAC address will be forwarded to this port.
While the DA of the incoming packets meets the value you set up, these packets will be dropped. Static with Source Drop: While the SA of the incoming packets meets the value you set up, these packets will be dropped. Port : Select the port No. you would like to do setup in the switch. It is 1 ~26.
Function name: MAC Alias Function description: MAC Alias function is used to let you assign MAC address a plain English name. This will help you tell which MAC address belongs to which user in the illegal access report. At the initial time, it shows all pairs of the existed alias name and MAC address. There are three MAC alias functions in this function folder, including MAC Alias Add, MAC Alias Edit and MAC Alias Delete.
3-10. GVRP Configuration GVRP is an application based on Generic Attribute Registration Protocol (GARP), mainly used to automatically and dynamically maintain the group membership information of the VLANs. The GVRP offers the function providing the VLAN registration service through a GARP application. It makes use of GARP Information Declaration (GID) to maintain the ports associated with their attribute database and GARP Information Propagation (GIP) to communicate among switches and end stations.
Parameter description: GVRP State Setting: This function is simply to let you enable or disable GVRP function. You can pull down the list and click the arrow key to choose “Enable” or “Disable”. Then, click the button, the system will take effect immediately. Join Time: Used to declare the Join Time in unit of centisecond. Valid time range: 20 –100 centisecond, Default: 20 centisecond. Leave Time: Used to declare the Leave Time in unit of centisecond.
Restricted Mode: This function is used to restrict dynamic VLAN be created when this port received GVRP PDU. There are two modes, disable and enable, provided for the user’s choice. Disabled: In this mode, the switch dynamic VLAN will be created when this port received GVRP PDU. The default setting is Normal. Enabled: In this mode, the switch does not create dynamic VLAN when this port received GVRP PDU.
Function name: GVRP Counter Function description: All GVRP counters are mainly divided into Received and Transmitted two categories to let you monitor the GVRP actions. Actually, they are GARP packets. Fig. 3-34 Parameter description: Received: Total GVRP Packets: Total GVRP BPDU is received by the GVRP application. Invalid GVRP Packets: Number of invalid GARP BPDU is received by the GARP application. LeaveAll Message Packets: Number of GARP BPDU with Leave All message is received by the GARP application.
Total GVRP Packets: Total GARP BPDU is transmitted by the GVRP application. Invalid GVRP Packets: Number of invalid GARP BPDU is transmitted by the GVRP application. LeaveAll Message Packets: Number of GARP BPDU with Leave All message is transmitted by the GARP application. JoinEmpty Message Packets: Number of GARP BPDU with Join Empty message is transmitted by the GARP application. JoinIn Message Packets: Number of GARP BPDU with Join In message is transmitted by the GARP application.
Function name: GVRP Group Information Function description: To show the dynamic group member and their information. Fig. 3-35 Parameter description: Current Dynamic Group Number: The number of GVRP group that are created currently. VID: VLAN identifier. When GVRP group creates, each dynamic VLAN group owns its VID. Valid range is 1 ~ 4094. Member Port: Those are the members belonging to the same dynamic VLAN group.
3-11. STP Configuration The Spanning Tree Protocol (STP) is a standardized method (IEEE 802.1D) for avoiding loops in switched networks. When STP is enabled, ensure that only one path is active between any two nodes on the network at a time. User can enable Spanning Tree Protocol on switch’s web management and then set up other advanced items. We recommend that you enable STP on all switches to ensure a single active path on the network. 3-11-1.
Designated Priority: Show the current root bridge priority. Root Port: Show port number connected to root bridge with the lowest path cost. Root Path Cost: Show the path cost between the root port and the designated port of the root bridge. Current Max. Age: Show the current root bridge maximum age time. Maximum age time is used to monitor if STP topology needs to change.
3-10-2. STP Configuration The STP, Spanning Tree Protocol, actually includes RSTP. In the Spanning Tree Configuration, there are six parameters open for the user to configure as user’s idea. Each parameter description is listed below. Function name: STP Configuration Function description: User can set the following Spanning Tree parameters to control STP function enable/disable, select mode RSTP/STP and affect STP state machine behavior to send BPDU in this switch.
Default is 2 seconds. Max. Age: When the FGP-2472is the root bridge, the whole LAN will apply this figure set by this switch as their maximum age time. When a bridge received a BPDU originated from the root bridge and if the message age conveyed in the BPDU exceeds the Max. Age of the root bridge, the bridge will treat the root bridge malfunctioned and issue a Topology Change Notification (TCN) BPDU to all other bridges. All bridges in the LAN will re-calculate and determine who the root bridge is.
3-10-3. STP Port Configuration Function name: STP Port Setting Function description: In the STP Port Setting, one item selection and five parameters settings are offered for user’s setup. User can disable and enable each port by selecting each Port Status item. User also can set “Path Cost” and “Priority” of each port by filling in the desired value and set “Admin Edge Port” and “Admin Point To Point” by selecting the desired item. Fig.
It is the contribution value of the path through this port to Root Bridge. STP algorithm determines a best path to Root Bridge by calculating the sum of path cost contributed by all ports on this path. A port with a smaller path cost value would become the Root Port more possibly. Configured Path Cost: The range is 0 – 200,000,000.
transit to Forwarding state. If it is set as True, the port is treated as pointto-point link by RSTP and unconditionally transited to Forwarding state. If it is set as False, fast transition to Forwarding state will not happen on this port. Default: Auto M Check: Migration Check. It forces the port sending out an RSTP BPDU instead of a legacy STP BPDU at the next transmission. The only benefit of this operation is to make the port quickly get back to act as an RSTP port.
3-12. MSTP Configuration The implementation of MSTP is according to IEEE 802.1Q 2005 Clause 13 – Multiple Spanning Tree Protocol. MSTP allows frames assigned to different VLANs to follow separate paths, each based on an independent Multiple Spanning Tree Instance (MSTI), within Multiple Spanning Tree (MST) Regions composed of LANs and or MST Bridges. Proper configuration of MSTP in an 802.1Q VLAN environment can ensure a loop-free data path for a group of vlans within an MSTI.
3-12-2 Region Config Function name: MSTP Region Config Function description: To configure the basic identification of a MSTP bridge. Bridges participating in a common MST region must have the same Region Name and Revision Level. Fig. 3-52 Parameter description: Region Name: 0-32 characters.(A variable length text string encoded within a fixed field of 32 octets , conforming to RFC 2271’s definition of SnmpAdminString.
3-12-3 Instance View Function name: MSTP Instance Config Function description: Providing an MST instance table which include information(vlan membership of a MSTI ) of all spanning instances provisioned in the particular MST region which the bridge belongs to. Through this table, additional MSTP configuration data can be applied and MSTP status can be retrieved. Fig. 3-53 Parameter description: Instance ID: Every spanning tree instance need to have a unique instance ID within 0~4095.
Instance Configuration: Fig. 3-55 To provision spanning tree performance parameters per instance. Port Config: Fig. 3-56 To provision spanning tree performance parameters per instance per port. Instance Status: Fig. 3-57 To show the status report of a particular spanning tree instance. Port Status: Fig. 3-58 To show the status report of all ports regarding a specific spanning tree instance. Fig. 3-54 Parameter description: Vlan Mapping: VID STRING VID STRING Example: 2.5-7.100-200.301.303.
/ 40960 / 45056 / 49152 / 53248 / 57344 / 61440 MAX. Age: 6-40sec. The same definition as in the RSTP protocol. Forward Delay: 4-30sec. The same definition as in the RSTP protocol. MAX. Hops: 6-40sec. It’s a new parameter for the multiple spanning tree protocol. It is used in the internal spanning tree instances. “CIST Remaining Hops” or “MSTI Remaining Hops” in the Spanning tree protocol message would decreased by one when the message is propagated to the neighboring bridge.
MSTI. Hello Time: 1/2 In contrast with RSTP, Hello Time in MSTP is a per port setting for the CIST. Admin Edge: Yes / No The same definition as in the RSTP specification for the CIST ports. Admin P2P: Auto / True / False The same definition as in the RSTP specification for the CIST ports. Restricted Role: Yes / No If “Yes” causes the Port not to be selected as Root Port for the CIST or any MSTI, even it has the best spanning tree priority vector.
Fig. 3-57 Parameter description: MSTP State: MSTP protocol is Enable or Disable. Force Version: It shows the current spanning tree protocol version configured. Bridge Max Age: It shows the Max Age setting of the bridge itself. Bridge Forward Delay: It shows the Forward Delay setting of the bridge itself. Bridge Max Hops: It shows the Max Hops setting of the bridge itself.
Root path cost value from the point of view of the bridge’s MST region. CIST ROOT PORT ID: The port ID of the bridge’s root port. In MSTP, peer port of a root port may reside in defferent MST region or in the same MST region.The first case indicates that the root port’s owner is the CIST regional root bridge. CIST REGIONAL ROOT PRIORITY: Spanning tree priority value of the CIST regional root bridge.Note that CIST Regional Root bridge is different from CIST Root bridge.
Fig. 3-58 Parameter description: Port No: 1-26 Status: The forwarding status.Same definition as of the RSTP specification Possible values are “FORWARDING” , “LEARNING” , “DISCARDING” Role: The role that a port plays in the spanning tree topology. Possible values are “dsbl”(disable port) , ”alt”(alternate port) , “bkup”(backup port) , “ROOT”(root port) , “DSGN”(designated port) , “MSTR”(master port).
Restricted Role: Same as mentioned in “Port Config” Restricted Tcn: Same as mentioned in “Port Config” 113
3-13. Trunking Configuration The Port Trunking Configuration is used to configure the settings of Link Aggregation. You can bundle more than one port with the same speed, full duplex and the same MAC to be a single logical port, thus the logical port aggregates the bandwidth of these ports. This means you can apply your current Ethernet equipments to build the bandwidth aggregation.
Per Trunking Group supports a maximum of 4 ready member-ports. Please note that some decisions will automatically be made by the system while you are configuring your trunking ports.
ports also using LACP. Static: A port use Static Trunk as its trunk method to get aggregated with other ports also using Static Trunk. Group: Ports choosing the same trunking method other than “None” must be assigned a unique Group number (i.e. Group ID, valid value is from 1 to 8) in order to declare that they wish to aggregate with each other. Active LACP: This field is only referenced when a port’s trunking method is LACP.
Function name: Aggregator View Function description: To display the current port trunking information from the aggregator point of view. Fig.3-40 Parameter description: Aggregator: It shows the aggregator ID (from 1 to 26) of every port. In fact, every port is also an aggregator, and its own aggregator ID is the same as its own Port No.. Method: Show the method a port uses to aggregate with other ports. Member Ports: Show all member ports of an aggregator (port).
Function name: LACP Detail (LACP Aggregator Detailed Information) Function description: Show the detailed information of the LACP trunking group. Fig. 4-41 Parameter description: Actor: The switch you are watching on. Partner: The peer system from this aggregator’s view. System Priority: Show the System Priority part of a system ID. MAC Address: Show the MAC Address part of a system ID. Port: Show the port number part of an LACP port ID. Key: Show the key value of the aggregator.
Function name: LACP System Configuration Function description: It is used to set the priority part of the LACP system ID. LACP will only aggregate together the ports whose peer link partners are all on a single system. Each system supports LACP will be assigned a globally unique System Identifier for this purpose. A system ID is a 64-bit field comprising a 48-bit MAC Address and 16-bit priority value. Fig.3-42 Parameter description: System Priority: The System Priority can be set by the user.
3-14. 802.1x Configuration 802.1x port-based network access control provides a method to restrict users to access network resources via authenticating user’s information. This restricts users from gaining access to the network resources through a 802.1x-enabled port without authentication. If a user wishes to touch the network through a port under 802.
The overview of operation flow for the Fig. 3-43 is quite simple. When Supplicant PAE issues a request to Authenticator PAE, Authenticator and Supplicant exchanges authentication message. Then, Authenticator passes the request to RADIUS server to verify. Finally, RADIUS server replies if the request is granted or denied.
C Fig. 3-44 Authenticator B Supplicant A The Fig. 3-45 shows the procedure of 802.1x authentication. There are steps for the login based on 802.1x port access control management. The protocol used in the right side is EAPOL and the left side is EAP. 1. At the initial stage, the supplicant A is unauthenticated and a port on switch acting as an authenticator is in unauthorized state. So the access is blocked in this stage. 2. Initiating a session.
8. If user ID and password is correct, the authentication server will send a Radius-Access-Accept to the authenticator. If not correct, the authentication server will send a Radius-Access-Reject. 9. When the authenticator PAE receives a Radius-Access-Accept, it will send an EAP-Success to the supplicant. At this time, the supplicant is authorized and the port connected to the supplicant and under 802.1x control is in the authorized state.
Only MultiHost 802.1X is the type of authentication supported in the switch. In this mode, for the devices connected to this port, once a supplicant is authorized, the devices connected to this port can access the network resource through this port. 802.1x Port-based Network Access Control function supported by the switch is little bit complex, for it just support basic Multihost mode, which can distinguish the device’s MAC address and its VID.
Function name: 802.1x State Setting Function description: This function is used to configure the global parameters for RADIUS authentication in 802.1x port security application. Fig. 3-46 Parameter description: Radius Server: RADIUS server IP address for authentication. Default: 192.168.1.1 Port Number: The port number to communicate with RADIUS server for the authentication service. The valid value ranges 1-65535. Default port number is 1812.
Secret Key: The secret key between authentication server and authenticator. It is a string with the length 1 – 31 characters. The character string may contain upper case, lower case and 0-9. It is character sense. It is not allowed for putting a blank between any two characters.
Function name: 802.1x Mode Setting Function description: Set the operation mode of 802.1X for each port. In this device, it supports only Multi-host operation mode. Fig. 3-47 Parameter description: Port Number: Indicate which port is selected to configure the 802.1x operation mode. 802.1x Mode: 802.1x operation mode. There are two options, including Disable and Multi-host mode. Default is Disable. Disable It will have the chosen port acting as a plain port, that is no 802.
Function name: Port Security Management Function description: Shows each port status. In Multihost mode, it shows the port number and its status, authorized or unauthorized. Fig. 3-48 Parameter description: Disable Mode: When selecting Disable mode for a port in the function 802.1X Port Mode Configuration, the port is in the uncontrolled port state and does not apply 802.1X authenticator on it. Any node attached on this port can access the network without the admittance of 802.1X authenticator.
Function name: Param. Setting Function description: This function is used to configure the parameters for each port in 802.1x port security application. Refer to the following parameters description for details. Fig. 3-49 Parameter description: Port: It is the port number to be selected for configuring its associated 802.1x parameters which are Port control, reAuthMax, txPeriod, Quiet Period, reAuthEnabled, reAuthPeriod, max. Request, suppTimeout, serverTimeout and Controlled direction.
reAuthMax(1-10): The number of authentication attempt that is permitted before the port becomes unauthorized. Default: 2 txPeriod(1-65535 s): A time period to transmitted EAPOL PDU between the authenticator and the supplicant. Default: 30 Quiet Period(0-65535 s): A period of time during which we will not attempt to access the supplicant. Deafult: 60 seconds reAuthEnabled: Choose whether regular authentication will take place in this port.
3-15. Alarm Configuration Alarm Configuration Events Configuration Email Configuration Function name: Events Configuration Function description: The Trap Events Configuration function is used to enable the switch to send out the trap information while pre-defined trap events occurred. The switch offers 22 different trap events to users for switch management. The trap information can be sent out in three ways, including email, mobile phone SMS (short message system) and trap.
Function description: Alarm configuration is used to configure the persons who should receive the alarm message via either email, or both. It depends on your settings. An email address or a mobile phone number has to be set in the web page of alarm configuration (See Fig. 3-51). Then, user can read the trap information from the email or the mobile phone. This function provides 6 email addresses and 6 mobile phone numbers at most.
3-16. Configuration The switch supports three copies of configuration, including the default configuration, working configuration and user configuration for your configuration management. All of them are listed and described below respectively. Default Configuration: This is LevelOne’s setting and cannot be altered. In Web UI, two restore default functions are offered for the user to restore to the default setting of the switch.
3-14-1. Save/Restore Function name: Save As Start Configuration Function description: Save the current configuration as a start configuration file in flash memory. Fig. 3-53 Function name: Save As User Configuration Function description: Save the current configuration as a user configuration file in flash memory. Fig.
Function name: Restore Default Configuration (includes default IP address) Function description: Restore Default Configuration function can retrieve LevelOne’s setting to replace the start configuration. And the IP address of the switch will also be restored to 192.168.1.1. Fig. 3-55 Function name: Restore Default Configuration (excludes current IP address) Function description: Restore Default Configuration function can retrieve LevelOne’s setting to replace the start configuration.
Function name: Restore User Configuration Function description: Restore User Configuration function can retrieve the previous confirmed working configuration stored in the flash memory to update start configuration. When completing to restore the configuration, the system’s start configuration is updated and will be changed its system settings after rebooting the system. Fig.
3-14-2. Config File Function name: Config File Function description: With this function, user can back up or reload the config files of Save As Start or Save As User via TFTP. Fig. 3-58 Parameter description: Export File Path: Export Start: Export Save As Start’s config file stored in the flash. Export User-Conf: Export Save As User’s config file stored in the flash. Import File Path: Import Start: Import Save As Start’s config file stored in the flash.
3-17. Security Function name: Mirror Configuration Function description: Mirror Configuration is to monitor the traffic of the network. For example, we assume that Port A and Port B are Monitoring Port and Monitored Port respectively, thus, the traffic received by Port B will be copied to Port A for monitoring. Fig. 3-59 Parameter description: Mode: Used for the activation or de-activation of Port Mirror function. Default is disable. Monitoring Port: Set up the port for monitoring.
Function description: Isolated Group function can let the port be independent of other ports in the Isolated group, and the communication is also forbidden between these ports. But, the ports of the Isolated group are still able to communicate with the ports of the non-Isolated group. With this design, it will be helpful to the administrator to immediately find and solve the port that results in the occurrence of looping problems in the network. Fig.
3-18. Bandwidth Management Function name: Ingress Bandwidth Setting Function description: Ingress Bandwidth Setting function is used to set up the limit of Ingress bandwidth for each port. Fig. 3-62 Parameter description: Port No.: Choose the port that you would like this function to work on it. Valid range of the port is 1~26. Rate: Set up the limit of Ingress bandwidth for the port you choose. Incoming traffic will be discarded if the rate exceeds the value you set up in Data Rate field.
Function name: Egress Bandwidth Setting Function description: Egress Bandwidth Setting function is used to set up the limit of Egress bandwidth for each port. Fig. 3-63 Parameter description: Port No.: Choose the port that you would like this function to work on it. Valid range of the port is 1~26. Rate: Set up the limit of Egress bandwidth for the port you choose. Packet transmission will be delayed if the rate exceeds the value you set up in Data Rate field.
Function name: Storm Setting Function description: Bandwidth Management function is used to set up the limit of Ingress and Egress bandwidth for each port. Fig. 3-64 Parameter description: Storm Type: Disable: Disable the function of the bandwidth storm control. Broadcast Storm Control: Enable the function of bandwidth storm control for broadcast packets. Multicast Storm Control: Enable the function of bandwidth storm control for multicast packets.
3-19. QoS (Quality of Service) Configuration The switch supports 5 kinds of QoS, are as follows, MAC Priority, 802.1p Priority, IP TOS Priority, and DiffServ DSCP Priority. Port Based Priority has a special name called VIP Port in the switch. Any packets enter VIP Port will have highest transmitting priority. MAC Priority act on the destination address of MAC in packets. VLAN tagged Priority field is effected by 802.1p Priority setting.
7. enable both 802.1p and DSCP and TOS Choose "DSCP". 8. enable both 802.1p and DSCP and TOS and VIP Choose priorities of VIP and DSCP. ** VIP/DSCP > TOS > 802.1p (Final result) Function name: QoS Global Setting Function description: When you want to use QoS function, please enable QoS Mode in advance. Then you can use MAC Priority, 802.1p Priority, IP TOS Priority, DiffServ DSCP Priority, or VIP Port functions and take effect. In this function, you can Enable QoS Mode.
Weight (1~55): Over here, you can make an arrangement to Weight values of Queue 0 to Queue 3. The range of Weight you can set is 1~55. In default, the weight of Queue 0 is 1, the weight of Queue 1 is 2, the weight of Queue 2 is 4, and the weight of Queue 3 is 8.
Function name: VIP Port Setting Function description: When the port is set as VIP Port, the packets enter this port and will have highest transmitting priority. For example, as you choose port 2 is VIP Port, simultaneously transmit packets from port 2 and port 3 to port 1 at speed of 100MB and let congestion happen. The packets for port 3 will be dropped because the packets from port 2 owns highest precedence.
Function name: 802.1p Setting Function description: This function will affect the priority of VLAN tag. Based on priority of VLAN tag, it can arrange 0~8 priorities, priorities can map to 4 queues of the switch (queue 0~3) and possess different bandwidth distribution according to your weight setting. Fig. 3-67 Parameter description: 802.1p Priority Mapping: Each Priority can select any of Queue 0 ~ Queue 3.
Function name: D-Type TOS Function description: IP TOS Priority affect TOS fields of IP header, you can find it has 8-bit SERVICE TYPE field that specifies how the datagram should be handled. The field could be divided into six subfields as follows, PRECEDENCE (3 bits), DType (Delay Priority, 1 bit ), T-Type (Throughput Priority, 1bit), R-Type (Reliability Priority, 1bit ), M-Type (Monetary Cost Priority, 1bit ), and UNUSED.
Function name: T-Type TOS Function description: IP TOS Priority affect TOS fields of IP header, you can find it has 8-bit SERVICE TYPE field that specifies how the datagram should be handled. The field could be divided into six subfields as follows, PRECEDENCE (3 bits), DType (Delay Priority, 1 bit ), T-Type (Throughput Priority, 1bit), R-Type (Reliability Priority, 1bit ), M-Type (Monetary Cost Priority, 1bit ), and UNUSED.
Function name: R-Type TOS Function description: IP TOS Priority affect TOS fields of IP header, you can find it has 8-bit SERVICE TYPE field that specifies how the datagram should be handled. The field could be divided into six subfields as follows, PRECEDENCE (3 bits), DType (Delay Priority, 1 bit ), T-Type (Throughput Priority, 1bit), R-Type (Reliability Priority, 1bit ), M-Type (Monetary Cost Priority, 1bit ), and UNUSED.
Function name: M-Type TOS Function description: IP TOS Priority affect TOS fields of IP header, you can find it has 8-bit SERVICE TYPE field that specifies how the datagram should be handled. The field could be divided into six subfields as follows, PRECEDENCE (3 bits), DType (Delay Priority, 1 bit ), T-Type (Throughput Priority, 1bit), R-Type (Reliability Priority, 1bit ), M-Type (Monetary Cost Priority, 1bit ), and UNUSED.
Function name: DSCP Setting Function description: In the late 1990s, the IETF redefined the meaning of the 8-bit SERVICE TYPE field to accommodate a set of differentiated services (DS). Under the differentiated services interpretation, the first six bits comprise a codepoint, which is sometimes abbreviated DSCP, and the last two bits are left unused. DSCP can form total 64 (0~63) kinds of Traffic Class based on the arrangement of 6-bit field in DSCP of the IP packet.
3-20. Diagnostics Three functions, including Diagnostics, Loopback Test and Ping Test are contained in this function folder for device self-diagnostics. Each of them will be described in detail orderly in the following sections. Diagnostics Diagnostics Loopback Test Ping Test Function name: Diagnostics Function description: Diagnostics function provides a set of basic system diagnosis. It let users know that whether the system is health or needs to be fixed.
Function name: Loopback Test Function description: In the Loopback Test function, there are two different loopback tests. One is Internal Loopback Test and the other is External Loopback Test. The former test function will not send the test signal outside the switch box. The test signal only wraps around in the switch box. As to the latter test function, it will send the test signal to its link partner. If you do not have them connected to active network devices, i.e.
Function name: Ping Test Function description: Ping Test function is a tool for detecting if the target device is alive or not through ICMP protocol which abounds with report messages. The switch provides Ping Test function to let you know that if the target device is available or not. You can simply fill in a known IP address and then click button. After a few seconds later, the switch will report you the pinged device is alive or dead in the field of Ping Result. Fig.
3-21. TFTP Server Function name: TFTP Server Function description: Set up IP address of TFTP server. Fig. 3-76 Parameter description: Specify the IP address where the TFTP server locates. Fill in the IP address of your TFTP server, then press button to have the setting taken effect.
3-22. Log This function shows the log data. The switch provides system log data for users. There are 17 private trap logs, 5 public trap logs. The switch supports total 120 log entries. For more details on log items, please refer to the section of Trap/Alarm Configuration and SNMP Configuration. Function name: Log Data Function description: The Trap Log Data is displaying the log items including all SNMP Private Trap events, SNMP Public traps and user logs occurred in the system. In the report table, No.
3-23. Firmware Upgrade Software upgrade tool is used to help upgrade the software function in order to fix or improve the function. The switch provides a TFTP client for software upgrade. This can be done through Ethernet. Function name: Firmware Upgrade Function description: The switch supports TFTP upgrade tool for upgrading software. If you assure to upgrade software to a newer version one, you must follow two procedures: 1.) Specifying the IP address where TFTP server locates.
3-24. Reboot We offer you many ways to reboot the switch, including power up, hardware reset and software reset. You can press the RESET button in the front panel to reset the switch. After upgrading software, changing IP configuration or changing VLAN mode configuration, then you must reboot to have the new configuration taken effect. Here we are discussing is software reset for the “reboot” in the main menu. Function name: Reboot Function description: Reboot the switch.
3-25. Logout You can manually logout by performing Logout function. In the switch, it provides another way to logout. You can configure it to logout automatically. Function name: Logout Function description: The switch allows you to logout the system to prevent other users from the system without the permission. If you do not logout and exit the browser, the switch will automatically have you logout.
4. Operation of CLI Management 4-1. CLI Management Refer to Chapter 2 for basic installation. The following description is the brief of the network connection. -- Locate the correct DB-9 null modem cable with female DB-9 connector. Null modem cable comes with the management switch. Refer to the Appendix B for null modem cable configuration. -- Attach the DB-9 female connector to the male DB-9 serial port connector on the Management board.
Fig. 4-1 Fig.
4-2. Commands of CLI To see the commands of the mode, please input “?” after the prompt, then all commands will be listed in the screen. All commands can be divided into two categories, including global commands and local commands. Global commands can be used wherever the mode you are. They are “exit”, “end”, “help”, “history”, “logout”, “save start”, “save user”, “restore default” and “restore user”. For more details, please refer to Section 4-2-1.
4-2-1. Global Commands of CLI end Syntax: end Description: Back to the top mode. When you enter this command, your current position would move to the top mode. If you use this command in the top mode, you are still in the position of the top mode. Argument: None. Possible value: None. Example: FGP-2472# alarm FGP-2472(alarm)# events FGP-2472(alarm-events)# end FGP-2472# exit Syntax: exit Description: Back to the previous mode.
help Syntax: help Description: To show available commands. Some commands are the combination of more than two words. When you enter this command, the CLI would show the complete commands. Besides, the command would help you classify the commands between the local commands and the global ones. Argument: None. Possible value: None.
history Syntax: history [#] Description: To show a list of previous commands that you had ever run. When you enter this command, the CLI would show a list of commands which you had typed before. The CLI supports up to 256 records. If no argument is typed, the CLI would list total records up to 256. If optional argument is given, the CLI would only show the last numbers of records, given by the argument. Argument: [#]: show last number of history records. (optional) Possible value: [#]: 1, 2, 3, ….
logout Syntax: logout Description: When you enter this command via Telnet connection, you would logout the system and disconnect. If you connect the system through direct serial port with RS-232 cable, you would logout the system and be back to the initial login prompt when you run this command. Argument: None. Possible value: None.
restore user Syntax: restore user Description: To restore the startup configuration as user defined configuration. If restoring default successfully, the CLI would prompt if reboot immediately or not. If you press Y or y, the system would reboot immediately; others would back to the CLI system. After restoring user-defined configuration, all the changes in the startup configuration would be lost. After rebooting, the entire startup configuration would replace as user defined one. Argument: None.
save user Syntax: save user Description: To save the current configuration as the user-defined configuration. When you enter this command, the CLI would save your current configuration into the non-volatile FLASH as user-defined configuration. Argument: None. Possible value: None. Example: FGP-2472# save user Saving user...
4-2-2. Local Commands of CLI 802.1x set max-request Syntax: set max-request Description: The maximum number of times that the state machine will retransmit an EAP Request packet to the Supplicant before it times out the authentication session. Argument: : syntax 1,5-7, available from 1 to 26 : max-times, range 1-10 Possible value: : 1 to 26 : 1-10, default is 2 Example: FGP-2472(802.
set port-control Syntax: set port-control Description: To set up 802.1X status of each port. Argument: : syntax 1,5-7, available from 1 to 26 : set up the status of each port 0:ForceUnauthorized 1:ForceAuthorized 2:Auto Possible value: : 1 to 26 : 0,1 or 2 Example: FGP-2472(802.
Syntax: set reAuthMax Description: The number of reauthentication attempts that are permitted before the port becomes Unauthorized. Argument: : syntax 1,5-7, available from 1 to 26 : max. value , range 1-10 Possible value: : 1 to 26 : 1-10, default is 2 Example: FGP-2472(802.
Description: To configure the settings related with 802.1X Radius Server. Argument: : the IP address of Radius Server, and the IP format is xxx.xxx.xxx.xxx : the service port of Radius Server(Authorization port), range 1~65535 : set up the value of secret-key, and the length of secret-key is from 1 to 31 Possible value: : 1~65535, default 1812 Example: FGP-2472(802.1x)# set state 192.168.1.
To display the mode of each port. Argument: None. Possible value: None. Example: FGP-2472(802.1x)# show mode Port Mode ====== ============ 1 Disable 2 Multi-host 3 Disable 4 Disable 5 Disable 6 Disable : : : show parameter Syntax: show parameter Description: To display the parameter settings of each port. Argument: None. Possible value: None. Example: FGP-2472(802.1x)# show parameter port 1) port control : Auto reAuthMax : 2 txPeriod : 30 Quiet Period : 60 reAuthEnabled : ON reAuthPeriod : 3600 max.
show security Syntax: show security Description: To display the authentication status of each port. Argument: None. Possible value: None. Example: FGP-2472(802.1x)# show security Port Mode Status ====== ============ ============== 1 Disable 2 Multi-host Unauthorized 3 Disable 4 Disable 5 Disable 6 Disable : : : show state Syntax: show state Description: To display the Radius server configuration. Argument: None. Possible value: None. Example: FGP-2472(802.1x)# show state Radius Server: 192.168.1.
account add Syntax: add Description: To create a new guest user. When you create a new guest user, you must type in password and confirm password. Argument: : new account name Possible value: : A string must be at least 5 character. Example: FGP-2472(account)# add aaaaa Password: Confirm Password: FGP-2472(account)# del Syntax: del Description: To delete an existing account. Argument: : existing user account Possible value: None.
modify Syntax: modify Description: To change the username and password of an existing account. Argument: : existing user account Possible value: None. Example: FGP-2472(account)# modify aaaaa username/password: the length is from 5 to 15. Current username (aaaaa):bbbbb New password: Confirm password: Username changed successfully. Password changed successfully. show Syntax: show Description: To show system account, including account name and identity. Argument: None. Possible value: None.
alarm <> del mail-address Syntax: del mail-address <#> Description: To remove the e-mail address. Argument: <#>: email address number, range: 1 to 6 Possible value: <#>: 1 to 6 Example: FGP-2472(alarm-email)# del mail-address 2 del server-user Syntax: del server-user Description: To remove the server, user account and password. Argument: None. Possible value: None.
set server Syntax: set server Description: To set up the IP address of the email server. Argument: :email server ip address or domain name Possible value: None. Example: FGP-2472(alarm-email)# set server 192.168.1.6 set user Syntax: set user Description: To set up the account of the email server. Argument: : email server account Possible value: None.
<> del all Syntax: del all Description: To disable email, sms and trap of events. Argument: :del the range of email, sms and trap of events, syntax 1,5-7 Possible value: : 1~22 Example: FGP-2472(alarm-events)# del all 1-3 del email Syntax: del email Description: To disable the email of the events.
del trap Syntax: del trap Description: To disable the trap of the events. Argument: :del the range of trap, syntax 1,5-7 Possible value: : 1~22 Example: FGP-2472(alarm-events)# del trap 1-3 set all Syntax: set all Description: To enable email, sms and trap of events.
set sms Syntax: set sms Description: To enable the sms of the events. Argument: :set the range of sms, syntax 1,5-7 Possible value: : 1~22 Example: FGP-2472(alarm-events)# set sms 1-3 set trap Syntax: set trap Description: To enable the trap of the events.
show Syntax: show Description: The Show here is used to display the configuration of alarm event. Argument: None. Possible value: None.
show (alarm) Syntax: show Description: The Show for alarm here is used to display the configuration of Trap, SMS or E-mail. Argument: None. Possible value: None. Example: FGP-2472(alarm)# show email FGP-2472(alarm)# show events FGP-2472(alarm)# show sms <> del phone-number Syntax: del phone-number <#> Description: To delete sms phone number.
set phone-number Syntax: set phone-number <#> Description: To add sms phone number. Argument: <#>: mobile phone number, range: 1 to 6 : phone number Possible value: <#>: 1 to 6 Example: FGP-2472(alarm-sms)# set phone-number 1 0968777777 set server Syntax: set server Description: To set up the IP address of sms server. Argument: : SMS server ip address or domain name Possible value: None. Example: FGP-2472(alarm-sms)# set server 192.168.1.
show Syntax: show Description: To display the configuration of SMS trap event. Argument: None. Possible value: None. Example: FGP-2472(alarm-sms)# show SMS Server : 192.168.1.
autologout autologout Syntax: autologout
Syntax: set storm-rate Description: To set up the storm-rate of the ports. Argument: :syntax: 1,3-5, available from 1 to 5 1: Disable 2: Broadcast Storm Control 3: Multicast Storm Control 4: Unknown Unicast Storm Control 5: Broadcast, Multicast, Unknown Unicast Storm Control : 1-100. The value must be the integer. The value 100 disables broadcast storm control. Possible value: : 1 to 5 : 1-100.
config-file export start Syntax: export start Description: To run the export start function. Argument: None. Possible value: None. Example: FGP-2472(config-file)# export start Export successful. export user-conf Syntax: export user-conf Description: To run the export user-conf function. Argument: None. Possible value: None. Example: FGP-2472(config-file)# export user-conf Export successful. import start Syntax: import start Description: To run the import start function. Argument: None.
import user-conf Syntax: import user-conf Description: To run the import user-conf function. Argument: None. Possible value: None. Example: FGP-2472(config-file)# import user-conf Import successful. set export-path Syntax: set export-path Description: To set up the file path and filename that user would like to export. Argument: :filepath and filename Possible value: :filepath and filename Example: FGP-2472(config-file)# set export-path log/21511.
show Syntax: show Description: To display the information of the config file. Argument: None. Possible value: None. Example: FGP-2472(config-file)# show TFTP Server IP Address: 192.168.3.111 Export Path and Filename: log/21511.txt Import Path and Filename: log/21511.txt dhcp-boot set dhcp-boot Syntax: set Description: To set up the delay time for DHCP Boot. Argument: :range syntax: 0, 1-30.
diag diag Syntax: diag Description: Diag is used to test whether EEPROM, UART, DRAM and Flash is normal or not. Argument: None. Possible value: None. Example: FGP-2472(diag)# diag EEPROM Test : OK UART Test : OK DRAM Test : OK Flash Test : OK Loopback Syntax: loopback Description: For Internal/External Loopback Test. Argument: None. Possible value: None.
firmware set upgrade-path Syntax: set upgrade-path Description: To set up the image file that will be upgraded. Argument: : upgrade file path and name Possible value: : upgrade file path and name Example: FGP-2472(firmware)# set upgrade-path FGP2472_v2.05.img show Syntax: show Description: To display the information of tftp server and upgrade-path and file name. Argument: None. Possible value: None. Example: FGP-2472(firmware)# show TFTP Server IP Address: 192.168.3.
gvrp disable Syntax: disable Description: To disable the gvrp function Argument: None. Possible value: None. Example: FGP-2472(gvrp)# disable enable Syntax: enable Description: To enable the gvrp function. Argument: None. Possible value: None. Example: FGP-2472(gvrp)# enable group Syntax: group Description: To enter any of gvrp group for changing gvrp group setting. You can change the applicant or registrar mode of existing gvrp group per port.
FGP-2472(gvrp)# group 2 FGP-2472(gvrp-group-2)# set applicant 1-6 non-participant FGP-2472(gvrp-group-2)# show GVRP group VID: 2 Port Applicant Registrar ---- --------------- --------1 Non-Participant Normal 2 Non-Participant Normal 3 Non-Participant Normal 4 Non-Participant Normal 5 Non-Participant Normal 6 Non-Participant Normal 7 Normal Normal 8 Normal Normal 12 Normal Normal 13 Normal Normal : : 23 Normal Normal 24 Normal Normal 25 Normal Normal 26 Normal Normal FGP-2472(gvrp-group-2)# set registrar 1-1
Syntax: set applicant Description: To set default applicant mode for each port.
Example: FGP-2472(gvrp)# set restricted 1-10 enable FGP-2472(gvrp)# show config GVRP state: Enable Port Join Time Leave Time LeaveAll Time ---- --------- ---------- ------------1 20 60 1000 2 20 60 1000 3 20 60 1000 4 20 60 1000 5 20 60 1000 6 20 60 1000 7 20 60 1000 8 20 60 1000 9 20 60 1000 10 20 60 1000 22 23 24 25 26 20 20 20 20 20 60 60 60 60 60 1000 1000 1000 1000 1000 Applicant --------------Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal : : : Normal Normal Normal Normal N
set timer Syntax: set timer Description: To set gvrp join time, leave time, and leaveall time for each port. Argument: : port range, syntax 1,5-7, available from 1 to 26 : join timer, available from 20 to 100 : leave timer, available from 60 to 300 : leaveall timer, available from 1000 to 5000 Leave Time must equal double Join Time at least.
show counter Syntax: show counter Description: To show counter of the port.
hostname hostname Syntax: hostname Description: To set up the hostname of the switch. Argument: : hostname, max. 40 characters. Possible value: : hostname, max. 40 characters. Example: FGP-2472# hostname Company Company# igmp-snooping add allowed-group Syntax: add allowed-group Description: To add the entry of allowed IP multicast group. Argument: : the range of IP multicast. : vlan ID. 1-4094 or any.
set mode Syntax: set mode Description: To set up the mode of IGMP Snooping. Argument: : 0:disable, 1:active, 2:passive Possible value: : 0,1or 2 Example: FGP-2472(igmp-snooping)# set mode 2 show igmp-snooping Syntax: show igmp-snooping Description: To display IGMP snooping mode and allowed IP multicast entry. Argument: None. Possible value: None. Example: FGP-2472(igmp-snooping)# show igmp-snooping Snoop Mode: Active IP Multicast: 1) IP Address : 224.1.1.
IP disable dhcp Syntax: disable dhcp Description: To disable the DHCP function of the system. Argument: None. Possible value: None. Example: FGP-2472(ip)# disable dhcp DHCP is already stopped. enable dhcp Syntax: enable dhcp Description: To enable the system DHCP function and set DNS server via manual or auto mode. Argument: : set DNS by using manual or auto mode.
set ip Syntax: set ip Description: To set the system IP address, subnet mask and gateway. Argument: : ip address : subnet mask : default gateway Possible value: : 192.168.1.1 or others : 255.255.255.0 or others : 192.168.1.253 or others Example: FGP-2472(ip)# set ip 192.168.1.2 255.255.255.0 192.168.1.
log clear Syntax: clear Description: To clear the log data. Argument: None. Possible value: None. Example: FGP-2472(log)# clear disable auto-upload Syntax: disable auto-upload Description: To disable the auto-upload function. Argument: None. Possible value: None. Example: FGP-2472(log)# disable auto-upload enable auto-upload Syntax: enable auto-upload Description: To enable the auto-upload function. Argument: None. Possible value: None.
show Syntax: show Description: To show a list of trap log events. When any of log events happens, it will be recorded and using show command in log function to query. Up to 120 log records are supported. Argument: None. Possible value: None. Example: FGP-2472(log)# show Tftp Server : 0.0.0.
mac-table <> del Syntax: del Description: To delete the mac alias entry. Argument: : mac address, format: 00-02-03-04-05-06 Possible value: : mac address Example: FGP-2472(mac-table-alias)# del 00-44-33-44-55-44 set Syntax: set Description: To set up the mac alias entry. Argument: : mac address, format: 00-02-03-04-05-06 : mac alias name, max. 15 characters Possible value: : mac address : max.
search Syntax: search Description: To look for the relative mac information in mac table.
<> set aging Syntax: set aging
Example: FGP-2472(mac-table-maintain)# show Mac table ageout time: 300 seconds Port Dynamically learn limit ------ ------------------------1 8191 2 8191 3 8191 4 8191 5 8191 : : : 21 8191 22 8191 23 8191 24 8191 25 8192 26 8192 <> add Syntax: add Description: To add the static mac entry.
del Syntax: del Description: To remove the static mac entry. Argument: : mac address, format: 00-02-03-04-05-06 Possible value: : mac address Example: FGP-2472(mac-table-static-mac)# del 00-02-03-04-05-06 show Syntax: show Description: To display static mac entry. Argument: None. Possible value: None.
management add Syntax: Usage: set [ ] [ ] [ ] [ ] [ ] Synopsis: set name Mary vid 20 ip 192.168.1.1-192.168.1.90 port 2-5,8 type h,s action a Synopsis: set name Mary vid 20 ip 192.168.1.1-192.168.1.90 Description: To save the adding management policy records.
delete Syntax: delete # Description: To delete a specific record or range. Argument: [#]: a specific or range management security entry(s) Possible value: None. Example: FGP-2472(management)# show #: 1 Name : Tom Type : SNMP VlanID : 2 Action : Deny IP : 192.168.1.30-192.168.1.80 Port : 1,2 FGP-2472(management)# delete 1 FGP-2472(management)# show Security rule list is empty now edit [#]: the specific management policy entry. Available range: 1 to 65536.
Example: FGP-2472(management)# edit 1 FGP-2472(management-edit-1)# set name Tom vid 2 ip 192.168.1.30192.168.1.80 port 1-2 type s action d FGP-2472(management-edit-1)# show #: 1 Name : Tom Type : SNMP VlanID : 2 Action : Deny IP : 192.168.1.30-192.168.1.80 Port : 1,2 show Syntax: show Description: To show the specific management policy record. Argument: None. Possible value: None. Example: FGP-2472(management)# show #: 1 Name : Tom Type : SNMP VlanID : 2 Action : Deny 213 IP : 192.168.1.30-192.168.1.
poe set priority Syntax: set priority Description: To set the PoE priority on ports. Argument: :which port(s) you want to set, syntax 1,5-7, available from 1 to 24 : set priority as 0:Low, 1:Normal, 2:High Possible value: : 1 to 24 : 0, 1 or 2 Example: FGP-2472(poe)# set priority 1-12 2 set state Syntax: set state Description: To set the PoE state on ports.
show Syntax: show Description: To display the PoE status. Argument: None. Possible value: None. Example: FGP-2472(poe)# show Vmain : 48.3 V Imain : 0.0 A Pconsume : 0.0 W Power Limit : 185 W Temperature : 37 'C / 98 'F Port No ------------------------Port On AC Disconnect Port Off DC Disconnect Port Off Overload Port Off Short Circuit Port Off Over Temp.
Port ---1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Status -----Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal State Priority Power(W) Current(mA) Class ------- -------- -------- ----------- ----Enable Normal 0.0 0 0 Enable Normal 0.0 0 0 Enable Normal 0.0 0 0 Enable Normal 0.0 0 0 Enable Normal 0.0 0 0 Enable Normal 0.0 0 0 Enable Normal 0.0 0 0 Enable Normal 0.
port clear counter Syntax: clear counter Description: To clear all ports’ counter (include simple and detail port counter) information. Argument: None. Possible value: None. Example: FGP-2472(port)# clear counter disable state Syntax: disable state Description: To disable the communication capability of the port.
set flow-control Syntax: set flow-control Description: To set up the flow control function of all ports.
show conf Syntax: show conf Description: To display the each port’s configuration about state, speed-duplex and flow control. Argument: None. Possible value: None. Example: FGP-2472(port)# show conf show detail-counter Syntax: show detail-counter <#> Description: To display the detailed counting number of each port’s traffic.
Port 25 Fiber Media Information --------------------------------------------------------------------Connector Type : SFP - LC Fiber Type : Multi-mode (MM) Tx Central Wavelength : 850 Baud Rate : 1G Vendor OUI : 00:40:c7 Vendor Name : LevelOne Vendor PN : SFP-9321 Vendor Rev : 0000 Vendor SN : 5425011140 Date Code : 050530 Temperature : none Vcc : none Mon1 (Bias) mA : none Mon2 (TX PWR) : none Mon3 (RX PWR) : none show simple-counter Syntax: show simple-counter Description: To display the summary counting
show status Syntax: show status Description: To display the port’s current status. Argument: None. Possible value: None. Example: FGP-2472(port)# show status Port Media Link State Auto Nego.
qos disable 1p Syntax: disable 1p Description: To disable 802.1p qos. Argument: None. Possible value: None. Example: FGP-2472(qos)# disable 1p disable dscp Syntax: disable dscp Description: To disable IP DSCP qos. Argument: None. Possible value: None. Example: FGP-2472(qos)# disable dscp disable qos Syntax: disable qos Description: To disable qos function. Argument: None. Possible value: None.
disable tos Syntax: disable tos Description: To disable IP TOS qos. Argument: None. Possible value: None. Example: FGP-2472(qos)# disable tos enable 1p Syntax: enable 1p Description: To enable 802.1p qos. Argument: None. Possible value: None. Example: FGP-2472(qos)# enable 1p enable dscp Syntax: enable dscp Description: To enable IP DSCP qos. Argument: None. Possible value: None.
enable qos Syntax: enable qos Description: To enable qos function. Argument: None. Possible value: None. Example: FGP-2472(qos)# enable qos enable tos Syntax: enable tos Description: To enable IP TOS qos. Argument: None. Possible value: None. Example: FGP-2472(qos)# enable tos set dscp Syntax: set dscp [] [] [] [] Description: To set IP DSCP qos weighting for 4 queues. Argument: : queue level, q0: queue 0; q1: queue 1; q2: queue 2; q3: queue 3.
set pri-tag Syntax: set pri-tag [] [] [] [] Description: To set 802.1p qos weighting for 4 queues. Argument: : queue level, q0: queue 0; q1: queue 1; q2: queue 2; q3: queue 3. : priority level. One queue has been assigned 2 different priorities. You don't need to use all of queues, but must assign queues in order. Syntax: 1,2 or 2,5-7, available from 0 to 7. Possible value: : 0 to 7.
Possible value: : 0~3 : 0 to 7. Example: FGP-2472(qos)# set tos 0 q0 1 q1 2 q2 4 q3 6 set vip Syntax: set vip Description: To set vip port for strict priority. Argument: : syntax 1,5-7, available from 1 to 26 : enable/disable vip port for each port. 1: enable. 0: disable. Possible value: : 1 to 26 : 1 or 0 Example: FGP-2472(qos)# set vip 1-6 1 show dscp Syntax: show dscp Description: To show IP DSCP Qos configuration.
DiffServ Queue DiffServ Queue DiffServ Queue DiffServ Queue ---------- ------- ---------- ------- ---------- ------- ---------- -----0 0 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 0 10 0 11 0 12 0 13 0 14 0 15 0 16 1 17 1 18 1 19 1 20 1 21 1 22 1 23 1 24 1 25 1 26 1 27 1 28 1 29 1 30 1 31 1 32 2 33 2 34 2 35 2 36 2 37 2 38 2 39 2 40 2 41 2 42 2 43 2 44 2 45 2 46 2 47 2 48 3 49 3 50 3 51 3 52 3 53 3 54 3 55 3 56 3 57 3 58 3 59 3 60 3 61 3 62 3 63 3 show port Syntax: show port Description: To show VIP port configurati
show priority-tag Syntax: show priority-tag Description: To show 802.1p Qos configuration. Argument: None. Possible value: None. Example: FGP-2472(qos)# show priority-tag 802.1p priority ==================== Global QoS mode: Enable QoS Enable 802.1p Priority Disable ip tos classification Disable ip diffserv classification Scheduling: weighted round robin method. weight: wrr 0 = 1; wrr 1 = 1; wrr 2 = 8; wrr 3 = 16. weighted range: 1~55. P0~7: Priority 0~7.
show tos Syntax: show tos Description: To show IP tos Qos configuration. Argument: None. Possible value: None. Example: FGP-2472(qos)# show tos ip tos classification ==================== Global QoS mode: Enable QoS Disable 802.1p Priority Enable ip tos classification Disable ip diffserv classification Scheduling: weighted round robin method. weight: wrr 0 = 1; wrr 1 = 1; wrr 2 = 8; wrr 3 = 16. weighted range: 1~55. P0~7: Priority 0~7. Default mode: Queue0: P0,P1; Queue1: P2,P3; Queue2: P4,P5; Queue3: P6,P7.
reboot Syntax: reboot Description: To reboot the system. Argument: None. Possible value: None. Example: FGP-2472# reboot security <> set Syntax: set Description: To set up the function of the isolated group. Argument: : isolated port; range syntax: 1,5-7, available from 0 to 26 set 0 as disabled Possible value: :0 to 26 Example: FGP-2472(security-isolated-group)# set 2,3,4 show Syntax: show Description: To display the current setting status of isolated group.
<> disable Syntax: disable Description: To disable the function of mirror. Argument: None. Possible value: None. Example: FGP-2472(security-mirror)# disable enable Syntax: enable Description: To enable the function of mirror. Argument: None. Possible value: None. Example: FGP-2472(security-mirror)# enable set Syntax: set Description: To set up the monitoring port and monitored ports of the mirror function. User can monitor the ports that receive or transmit the packets.
show Syntax: show Description: To display the current setting status of mirror. Argument: None. Possible value: None. Example: FGP-2472(security-mirror)# show Mirror: Monitoring Port :1 Monitored Ingress :4 Monitored Egress :2 3 snmp disable Syntax: disable set-community disable snmp Description: The Disable here is used for the de-activation of snmp or set-community. Argument: None. Possible value: None.
set Syntax: set get-community set set-community set trap <#> [port] [community] Description: The Set here is used for the setup of get-community, set-community, trap host ip, host port and trap- community.
stp MCheck Syntax: MCheck Description: To force the port to transmit RST BPDUs. Argument: : syntax 1,5-7, available from 1 to 26 Possible value: : 1 to 26 Example: FGP-2472(stp)# Mcheck 1-8 disable Syntax: disable Description: To disable the function of STP. Argument: None. Possible value: None. Example: FGP-2472(stp)# disable enable Syntax: enable Description: To enable the function of STP. Argument: None. Possible value: None.
set config Syntax: set config Description: To set up the parameters of STP. Argument: : priority must be a multiple of 4096,available from 0 to 61440. : available from 1 to 10. : available from 6 to 40. : available from 4 to 30. Note: 2*(Forward Delay -1) >= Max Age Max Age >= 2*(Hello Time +1) Possible value: : 0 to 61440. : 1 to 10. : 6 to 40.
Syntax: show config Description: To display the STP configuration data. Argument: None. Possible value: None. Example: FGP-2472(stp)# show config STP State Configuration : Spanning Tree Protocol : Enabled Bridge Priority (0-61440) : 61440 Hello Time (1-10 sec) : 2 Max. Age (6-40 sec) : 20 Forward Delay (4-30 sec) : 15 Force Version : RSTP show port Syntax: show port Description: To display the port information of STP. Argument: None. Possible value: None.
show status Syntax: show status Description: To display of the status of STP. Argument: None. Possible value: None. Example: FGP-2472(stp)# show status STP Status : STP State Bridge ID Bridge Priority Designated Root Designated Priority Root Port Root Path Cost Current Max.
system set contact Syntax: set contact Description: To set the contact description of the switch. Argument: :string length up to 40 characters. Possible value: : A, b, c, d, ... ,z and 1, 2, 3, …. etc. Example: FGP-2472(system)# set contact Taipei set device-name Syntax: set device-name Description: To set the device name description of the switch. Argument: : string length up to 40 characters. Possible value: : A, b, c, d, ...
show Syntax: show Description: To display the basic information of the switch. Argument: None. Possible value: None. Example: FGP-2472(system)# show Model Name : FGP-2472 System Description : 24-Port 10/100BaseT/TX Managed PoE Switch Location : Contact : Device Name : FGP-2472 System Up Time : 0 Days 0 Hours 4 Mins 50 Secs Current Time : Wed Feb 08 16:55:29 2006 BIOS Version : v1.05 Firmware Version : v2.07 Hardware-Mechanical Version : v1.01-v1.01 Serial Number : 031203000004 Host IP Address : 192.168.1.
tftp set server Syntax: set server Description: To set up the IP address of tftp server. Argument: : the IP address of tftp server Possible value: : tftp server IP Example: FGP-2472(tftp)# set server 192.168.3.111 show Syntax: show Description: To display the information of tftp server. Argument: None. Possible value: None. Example: FGP-2472(tftp)# show Tftp Server : 192.168.3.
time set daylightsaving Syntax: set daylightsaving
Description: To set up the daylight saving.set ntp Syntax: set ntp Description: To set up the current time via NTP server. Argument: : ntp server ip address or domain name : time zone (GMT), range: -12 to +13 Possible value: : -12,-11…,0,1…,13 Example: FGP-2472(time)# set ntp clock.via.net 8 Synchronizing...
trunk del trunk Syntax: del trunk Description: To remove the trunk port. Argument: : syntax 1,5-7, available from 1 to 26 Possible value: : 1 to 26 Example: FGP-2472(trunk)# del trunk 1 set hash Syntax: set hash Description: To set up trunk hash method. Argument: : lacp hash method 0: DA and SA 1: SA 2: DA Note : This hash method applies to both LACP and static trunk.
set trunk Syntax: set trunk Description: To set up the status of trunk, including the group number and mode of the trunk as well as LACP mode. Argument: : syntax 1,5-7, available from 1 to 26 : static : adopt the static link aggregation lacp : adopt the dynamic link aggregation- link aggregation control protocol : 1-3.
show lacp-config Syntax: show lacp-config Description: To display the value of LACP Priority. Argument: None. Possible value: None. Example: FGP-2472(trunk)# show lacp-config LACP System Priority : 33333 Hash Method : DA show lacp-detail Syntax: show lacp-detail Description: To display the detailed information of the LACP trunk group.
show status Syntax: show status Description: To display the aggregator status and the settings of each port. Argument: None. Possible value: None.
vlan del port-group Syntax: del port-group Description: To delete the port-based vlan group. Argument: : port-vlan name Possible value: : port-vlan name Example: FGP-2472(vlan)# del port-group vlan-2 del tag-group Syntax: del tag-group Description: To delete the tag-based vlan group.
disable drop-untag Syntax: disable drop-untag Description: To disable drop-untag. Argument: : which port(s) you want not to drop untagged frames. Syntax: 1,5-7, available from 1 to 26 Possible value: : 1 to 26 Example: FGP-2472(vlan)# disable drop-untag 2,4,5-7 disable svl Syntax: disable svl Description: To enable Independent VLAN Learning. Argument: None. Possible value: None.
enable double-tag Syntax: enable double-tag Description: To enable double-tag. Argument: None. Possible value: None. Example: FGP-2472(vlan)# enable double-tag enable drop-untag Syntax: enable drop-untag Description: To enable drop-untag. Argument: : which port(s) you want to drop untagged frames.
enable symmetric Syntax: enable symmetric Description: To drop frames from the non-member port. Argument: None. Possible value: None. Example: FGP-2472(vlan)# enable symmetric set mode Syntax: set mode Description: To switch vlan mode between port-based and tag-based modes.
set pvid Syntax: set pvid Description: To set vlan PVID and port pripority. Argument: : which port(s) you want to set PVID(s).
show config Syntax: show config Description: To display the current vlan mode, Symmetric vlan, SVL and Double tag states. Argument: None. Possible value: None. Example: FGP-2472(vlan)# show config Current vlan mode:Tag-based vlan Global setting: Symmetric vlan : Disable (Asymmetric) SVL : Disable (IVL) Double tag : Disable show group Syntax: show group Description: To display vlan mode and vlan group. Argument: None. Possible value: None. Example: FGP-2472(vlan)# show group Vlan mode is tag-based.
Syntax: show pvid Description: To display pvid, priority and drop untag result. Argument: None. Possible value: None.
vs disable Syntax: disable Description: To disable the virtual stack. Argument: None. Possible value: None. Example: FGP-2472(vs)# disable enable Syntax: enable Description: To enable the virtual stack. Argument: None. Possible value: None. Example: FGP-2472(vs)# enable set gid Syntax: set gid Description: To set the group id.
set role Syntax: set role Description: To set role. Argument: : master: act as master, slave : act as slave Possible value: : master or slave Example: FGP-2472(vs)# set role master show Syntax: show Description: To display the configuration of the virtual stack. Argument: None. Possible value: None.
5. Maintenance 5-1. Resolving No Link Condition The possible causes for a no link LED status are as follows: The attached device is not powered on The cable may not be the correct type or is faulty The installed building premise cable is faulty The port may be faulty 5-2. Q&A 1. Computer A can connect to Computer B, but cannot connect to Computer C through the Managed Switch. The network device of Computer C may fail to work. Please check the link/act status of Computer C on the LED indicator.
Appendix A Technical Specifications Features • • • The switch included 24-Port 10/100Mbps TP and 2-Port Gigabit Dual Media TP/SFP. Supports 24-port 10/100M TP ports with Nway and auto MDIX function. FGP-2472 switch supports 2 Gigabit dual media ports(TP/SFP) and 2 slots for removable SFP module supporting 1000M SFP fiber module. • Supports on-line plug/unplug SFP transceiver modules. • Non-blocking, store-and-forward and shared-memory L2 managed switch.
Hardware Specifications Standard Compliance: IEEE802.3ab / 802.3z / 802.3u / 802.3x 802.3z and 802.
Power Requirement : AC Line Voltage : 100∼240 V Frequency : 50∼60 Hz Consumption : 380W for FGP-2472 Ambient Temperature : 0° to 40°C Humidity : 5% to 90% Dimensions : 44(H) x 442 (W) x 366 (D) mm for FGP-2472 Comply with FCC Part 15 Class A & CE Mark Approval Management Software Specifications System Configuration Management Agent Networking Convergence Algorithm VLAN Function Trunk Function Bandwidth Control Quality of Service (QoS) Security Multicast Network Management Power over Ethern
Appendix B Null Modem Cable Specifications The DB-9 cable is used for connecting a terminal or terminal emulator to the Managed Switch’s RS-232 port to access the command-line interface. The table below shows the pin assignments for the DB-9 cable.
