TL-SG2452 48-Port Gigabit Smart Switch with 4 SFP Slots Rev: 1.0.
COPYRIGHT & TRADEMARKS Specifications are subject to change without notice. is a registered trademark of TP-LINK TECHNOLOGIES CO., LTD. Other brands and product names are trademarks or registered trademarks of their respective holders. No part of the specifications may be reproduced in any form or by any means or used to make any derivative such as translation, transformation, or adaptation without permission from TP-LINK TECHNOLOGIES CO., LTD. Copyright © 2013 TP-LINK TECHNOLOGIES CO., LTD.
Safety Information When product has power button, the power button is one of the way to shut off the product; When there is no power button, the only way to completely shut off power is to disconnect the product or the power adapter from the power source. Don’t disassemble the product, or make repairs yourself. You run the risk of electric shock and voiding the limited warranty. If you need service, please contact us. Avoid water and wet locations.
CONTENTS Package Contents ..........................................................................................................................1 Chapter 1 About this Guide...........................................................................................................2 1.1 Intended Readers .........................................................................................................2 1.2 Conventions.................................................................................
.2 5.3 5.4 5.1.3 Port Security ....................................................................................................24 5.1.4 Port Isolation ....................................................................................................26 LAG ............................................................................................................................26 5.2.1 LAG Table ..................................................................................................
8.2 8.3 8.4 Multicast IP .................................................................................................................78 8.2.1 Multicast IP Table .............................................................................................79 8.2.2 Static Multicast IP.............................................................................................79 Multicast Filter..........................................................................................................
11.3 11.4 Device Diagnostics ................................................................................................... 115 11.3.1 Cable Test ...................................................................................................... 115 11.3.2 Loopback ....................................................................................................... 116 Network Diagnostics .................................................................................................
Package Contents The following items should be found in your box: One 48-Port Gigabit Smart Switch with 4 SFP Slots One power cord Two mounting brackets and other fittings Installation Guide Resource CD for TL-SG2452 switch, including: This User Guide Other Helpful Information Note: Make sure that the package contains the above items. If any of the listed items are damaged or missing, please contact your distributor.
Chapter 1 About this Guide This User Guide contains information for setup and management of TL-SG2452 48-Port Gigabit Smart Switch with 4 SFP Slots. Please read this guide carefully before operation. 1.1 Intended Readers This Guide is intended for network managers familiar with IT concepts and network terminologies. 1.
Chapter Introduction Chapter 4 System This module is used to configure system properties of the switch. Here mainly introduces: System Info: Configure the description, system time and network parameters of the switch. User Management: Configure the user name and password for users to log on to the Web management page with a certain access level. System Tools: Manage the configuration file of the switch.
Chapter Introduction Chapter 10 SNMP This module is used to configure SNMP function to provide a management frame to monitor and maintain the network devices. Here mainly introduces: SNMP Config: Configure global settings of SNMP function. Notification: Configure notification function for the management station to monitor and process the events. RMON: Configure RMON function to monitor network more efficiently.
Chapter 2 Introduction Thanks for choosing the TL-SG2452 48-Port Gigabit Smart Switch with 4 SFP Slots! 2.1 Overview of the Switch Designed for workgroups and departments, TL-SG2452 from TP-LINK provides wire-speed performance and full set of layer 2 management features. It provides a variety of service features and multiple powerful functions with high security. The EIA-standardized framework and smart configuration capacity can provide flexible solutions for a variable scale of networks.
Reset: Press this button for five seconds or above to reset the software setting back to factory default setting. 10/100/1000Mbps Ports: Designed to connect to the device with a bandwidth of 10Mbps, 100Mbps or 1000Mbps. Each has a corresponding 1000Mbps LED. SFP Ports: Designed to install the SFP module. The TL-SG2452 features 4 individual SFP ports. Note: For TL-SG2452, the SFP port can only be used with a gigabit module. LEDs Name Status Indication On PWR Power is on.
Chapter 3 Login to the Switch 3.1 Login 1) To access the configuration utility, open a web-browser and type in the default address http://192.168.0.1 in the address field of the browser, then press the Enter key. Figure 3-1 Web-browser Tips: To log in to the switch, the IP address of your PC should be set in the same subnet addresses of the switch. The IP address is 192.168.0.x ("x" is any number from 2 to 254), Subnet Mask is 255.255.255.0.
Figure 3-3 Main Setup-Menu Note: Clicking Apply can only make the new configurations effective before the switch is rebooted. If you want to keep the configurations effective even the switch is rebooted, please click Save Config. You are suggested to click Save Config before cutting off the power or rebooting the switch to avoid losing the new configurations.
Chapter 4 System The System module is mainly for system configuration of the switch, including four submenus: System Info, User Management, System Tools and Access Security. 4.1 System Info The System Info, mainly for basic properties configuration, can be implemented on System Summary, Device Description, System Time, Daylight Saving Time and System IP pages. 4.1.1 System Summary On this page you can view the port connection status and the system information.
Figure 4-2 Port Information Port Info Port: Displays the port number of the switch. Type: Displays the type of the port. Rate: Displays the maximum transmission rate of the port. Status: Displays the connection status of the port. Click a port to display the bandwidth utilization on this port. The actual rate divided by theoretical maximum rate is the bandwidth utilization. The following figure displays the bandwidth utilization monitored every four seconds.
Figure 4-4 Device Description The following entries are displayed on this screen: Device Description Device Name: Enter the name of the switch. Device Location: Enter the location of the switch. System Contact: Enter your contact information. 4.1.3 System Time System Time is the time displayed while the switch is running. On this page you can configure the system time and the settings here will be used for other time-based functions.
Note: The system time will be restored to the default when the switch is restarted and you need reconfigure the system time of the switch. 4.1.4 Daylight Saving Time Here you can configure the Daylight Saving Time of the switch. Choose the menu System→System Info→Daylight Saving Time to load the following page. Figure 4-6 Daylight Saving Time The following entries are displayed on this screen: DST Config DST Status: Enable or disable the DST. Predefined Mode: Select a predefined DST configuration.
Date Mode: Specify the DST configuration in Date mode. This configuration is one-off in use. Offset: Specify the time adding in minutes when Daylight Saving Time comes. Start/End Time: Select starting time and ending time of Daylight Saving Time. Note: 1. When the DST is disabled, the predefined mode, recurring mode and date mode cannot be configured. 2. When the DST is enabled, the default daylight saving time is of European in predefined mode. 4.1.
Management VLAN: Enter the ID of management VLAN, the only VLAN through which you can get access to the switch. By default VLAN1 owning all the ports is the Management VLAN and you can access the switch via any port on the switch. However, if another VLAN is created and set to be the Management VLAN, you may have to reconnect the management station to a port that is a member of the Management VLAN. IP Address: Enter the system IP of the switch. The default system IP is 192.168.0.
switch. The Web management pages contained in this guide are subject to the admin’s login without any explanation. Choose the menu System→User Management→User Config to load the following page. Figure 4-9 User Config The following entries are displayed on this screen: User Info User Name: Create a name for users’ login. Access Level: Select the access level to login. Admin: Admin can edit, modify and view all the settings of different functions.
Operation: Click the Edit button of the desired entry, and you can edit the corresponding user information. After modifying the settings, please click the Modify button to make the modification effective. Access level and user status of the current user information can’t be modified. 4.3 System Tools The System Tools function, allowing you to manage the configuration file of the switch, can be implemented on Config Restore, Config Backup, Firmware Upgrade, System Reboot and System Reset pages. 4.3.
Figure 4-11 Config Backup The following entries are displayed on this screen: Config Backup Backup Config: Click the Backup Config button to save the current configuration as a file to your computer. You are suggested to take this measure before upgrading. Note: It will take a few minutes to backup the configuration. Please wait without any operation. 4.3.3 Firmware Upgrade The switch system can be upgraded via the Web management page.
4.3.4 System Reboot On this page you can reboot the switch and return to the login page. Please save the current configuration before rebooting to avoid losing the configuration unsaved Choose the menu System→System Tools→System Reboot to load the following page. Figure 4-13 System Reboot Note: To avoid damage, please don't turn off the device while rebooting. 4.3.5 System Reset On this page you can reset the switch to the default. All the settings will be cleared after the switch is reset.
Figure 4-15 Access Control The following entries are displayed on this screen: Access Control Config Control Mode: Select the control mode for users to log on to the Web management page. IP-based: Select this option to limit the IP-range of the users for login. MAC-based: Select this option to limit the MAC Address of the users for login. Port-based: Select this option to limit the ports for login.
Session Config Session Timeout: If you do nothing with the Web management page within the timeout time, the system will log out automatically. If you want to reconfigure, please login again. Access User Number Number Control; Select Enable/Disable the Number Control function. Admin Number: Enter the maximum number of the users logging on to the Web management page as Admin. Guest Number: Enter the maximum number of the users logging on to the Web management page as Guest.
Chapter 5 Switching Switching module is used to configure the basic functions of the switch, including four submenus: Port, LAG, Traffic Monitor and MAC Address. 5.1 Port The Port function, allowing you to configure the basic features for the port, is implemented on the Port Config, Port Mirror, Port Security and Port Isolation pages. 5.1.1 Port Config On this page, you can configure the basic parameters for the ports. When the port is disabled, the packets on the port will be discarded.
Description: Give a description to the port for identification. Status: Allows you to Enable/Disable the port. When Enable is selected, the port can forward the packets normally. Speed and Duplex: Select the Speed and Duplex mode for the port. The device connected to the switch should be in the same Speed and Duplex mode with the switch. When “Auto” is selected, the Speed and Duplex mode will be determined by auto-negotiation. For the SFP port, this switch does not support auto-negotiation.
The following entries are displayed on this screen. Mirror Group List Group: Displays the mirror group number. Mirroring: Displays the mirroring port number. Mode: Displays the mirror mode. The value will be "Ingress" or "Egress". Mirrored Port: Displays the mirrored ports. Operation: Click Edit to configure the mirror group. Click Edit to display the following figure. Figure 5-3 Mirroring Port The following entries are displayed on this screen.
Mirrored Port Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port as a mirrored port. It is multi-optional. Port: Displays the port number. Ingress: Select Enable/Disable the Ingress feature. When the Ingress is enabled, the incoming packets received by the mirrored port will be copied to the mirroring port. Egress: Select Enable/Disable the Egress feature.
Figure 5-4 Port Security The following entries are displayed on this screen: Port Security Select: Select the desired port for Port Security configuration. It is multi-optional. Port: Displays the port number. Max Learned MAC: Specify the maximum number of MAC addresses that can be learned on the port. Learned Num: Displays the number of MAC addresses that have been learned on the port. Learn Mode: Select the Learn Mode for the port.
Note: The Port Security function is disabled for the LAG port member. Only the port is removed from the LAG, will the Port Security function be available for the port. 5.1.4 Port Isolation Port Isolation provides a method of restricting traffic flow to improve the network security by forbidding the port to forward packets to the ports that are not on its forward portlist. Choose the menu Switching→Port→Port Isolation to load the following page.
high-bandwidth data path, so as to implement the traffic load sharing among the member ports in the group and to enhance the connection reliability. For the member ports in an aggregation group, their basic configuration must be the same. The basic configuration includes STP, QoS, VLAN, port attributes, MAC Address Learning mode and other associated settings. The further explains are following: If the ports, which are enabled for the 802.
Global Config Hash Algorithm: Select the applied scope of Aggregate Arithmetic, which results in choosing a port to transfer the packets. SRC MAC + DST MAC: When this option is selected, the Aggregate Arithmetic will apply to the source and destination MAC addresses of the packets. SRC IP + DST IP: When this option is selected, the Aggregate Arithmetic will apply to the source and destination IP addresses of the packets. LAG Table Select: Select the desired LAG. It is multi-optional.
Figure 5-8 Manually Config The following entries are displayed on this screen: LAG Config Group Number: Select a Group Number for the LAG. Description: Give a description to the LAG for identification. Member Port Member Port: Select the port as the LAG member. Clearing all the ports of the LAG will delete this LAG. Tips: 1. The LAG can be deleted by clearing its all member ports. 2. A port can only be added to a LAG.
Figure 5-9 Traffic Summary The following entries are displayed on this screen: Auto Refresh Auto Refresh: Allows you to Enable/Disable refreshing the Traffic Summary automatically. Refresh Rate: Enter a value in seconds to specify the refresh interval. Traffic Summary Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Port: Displays the port number. Packets Rx: Displays the number of packets received on the port.
5.3.2 Traffic Statistics Traffic Statistics screen displays the detailed traffic information of each port, which facilitates you to monitor the traffic and locate faults promptly. Choose the menu Switching→Traffic Monitor→Traffic Statistics to load the following page. Figure 5-10 Traffic Statistics The following entries are displayed on this screen: Auto Refresh Auto Refresh: Allows you to Enable/Disable refreshing the Traffic Summary automatically.
Unicast: Displays the number of good unicast packets received or transmitted on the port. The error frames are not counted in. Alignment Errors: Displays the number of the received packets that have a bad Frame Check Sequence (FCS) with a non-integral octet (Alignment Error). The length of the packet is between 64 bytes and 1518 bytes. UndersizePkts: Displays the number of the received packets (excluding error packets) that are less than 64 bytes long.
This function includes four submenus: Address Table, Static Address, Dynamic Address and Filtering Address. 5.4.1 Address Table On this page, you can view all the information of the Address Table. Choose the menu Switching→MAC Address→Address Table to load the following page. Figure 5-11 Address Table The following entries are displayed on this screen: Search Option MAC Address: Enter the MAC address of your desired entry. VLAN ID: Enter the VLAN ID of your desired entry.
5.4.2 Static Address The static address table maintains the static address entries which can be added or removed manually, independent of the aging time. In the stable networks, the static MAC address entries can facilitate the switch to reduce broadcast packets and remarkably enhance the efficiency of packets forwarding without learning the address. The static MAC address learned by the port with Port Security enabled in the static learning mode will be displayed in the Static Address Table.
MAC Address: Displays the static MAC Address. VLAN ID: Displays the corresponding VLAN ID of the MAC address. Port: Displays the corresponding Port number of the MAC address. Here you can modify the port number to which the MAC address is bound. The new port should be in the same VLAN. Type: Displays the Type of the MAC address. Aging Status: Displays the Aging Status of the MAC address. Note: 1.
Figure 5-13 Dynamic Address The following entries are displayed on this screen: Aging Config Auto Aging: Allows you to Enable/Disable the Auto Aging feature. Aging Time: Enter the Aging Time for the dynamic address. Search Option Search Option: Select a Search Option from the drop-down list and click the Search button to find your desired entry in the Dynamic Address Table. MAC: Enter the MAC address of your desired entry. VLAN ID: Enter the VLAN ID number of your desired entry.
Bind: Click the Bind button to bind the MAC address of your selected entry to the corresponding port statically. Tips: Setting aging time properly helps implement effective MAC address aging. The aging time that is too long or too short results decreases the performance of the switch. If the aging time is too long, excessive invalid MAC address entries maintained by the switch may fill up the MAC address table. This prevents the MAC address table from updating with network changes in time.
Search Option Search Option: Select a Search Option from the drop-down list and click the Search button to find your desired entry in the Filtering Address Table. MAC: Enter the MAC address of your desired entry. VLAN ID: Enter the VLAN ID number of your desired entry. Filtering Address Table Select: Select the entry to delete the corresponding filtering address. It is multi-optional. MAC Address: Displays the filtering MAC Address. VLAN ID: Displays the corresponding VLAN ID.
Chapter 6 VLAN The traditional Ethernet is a data network communication technology based on CSMA/CD (Carrier Sense Multiple Access/Collision Detect) via shared communication medium. Through the traditional Ethernet, the overfull hosts in LAN will result in serious collision, flooding broadcasts, poor performance or even breakdown of the Internet.
6.1 802.1Q VLAN VLAN tags in the packets are necessary for the switch to identify packets of different VLANs. The switch works at the data link layer in OSI model and it can identify the data link layer encapsulation of the packet only, so you can add the VLAN tag field into the data link layer encapsulation for identification. In 1999, IEEE issues the IEEE 802.1Q protocol to standardize VLAN implementation, defining the structure of VLAN-tagged packets. IEEE 802.
(3) GENERAL: The GENERAL port can be added in multiple VLANs and set various egress rules according to the different VLANs. The default egress rule is UNTAG. The PVID can be set as the VID number of any VLAN the port belongs to. PVID PVID (Port Vlan ID) is the default VID of the port. When the switch receives an un-VLAN-tagged packet, it will add a VLAN tag to the packet according to the PVID of its received port and forward the packets.
6.1.1 VLAN Config On this page, you can view the current created 802.1Q VLAN. Choose the menu VLAN→802.1Q VLAN→VLAN Config to load the following page. Figure 6-3 VLAN Table To ensure the normal communication of the factory switch, the default VLAN of all ports is set to VLAN1. VLAN1 can not be modified or deleted. The following entries are displayed on this screen: VLAN Table VLAN ID Select: Click the Select button to quick-select the corresponding entry based on the VLAN ID number you entered.
Figure 6-4 Create or Modify 802.1Q VLAN The following entries are displayed on this screen: VLAN Config VLAN ID: Enter the ID number of VLAN. Description: Give a description to the VLAN for identification. Check: Click the Check button to check whether the VLAN ID you entered is valid or not. VLAN Members Port Select: Click the Select button to quick-select the corresponding entry based on the port number you entered. Select: Select the desired port to be a member of VLAN or leave it blank.
Egress Rule: LAG: Select the Egress Rule for the VLAN port member. The default egress rule is UNTAG. TAG: All packets forwarded by the port are tagged. The packets contain VLAN information. UNTAG: Packets forwarded by the port are untagged. Displays the LAG to which the port belongs. 6.1.2 Port Config Before creating the 802.1Q VLAN, please acquaint yourself with all the devices connected to the switch in order to configure the ports properly. Choose the menu VLAN→802.
Link Type: Select the Link Type from the drop-down list for the port. ACCESS: The ACCESS port can be added in a single VLAN, and the egress rule of the port is UNTAG. The PVID is same as the current VLAN ID. If the current VLAN is deleted, the PVID will be set to 1 by default. TRUNK: The TRUNK port can be added in multiple VLANs, and the egress rule of the port is TAG. The PVID can be set as the VID number of any VLAN the port belongs to.
Configuration Procedure: Step Operation Description 1 Set the link type for port. Required. On the VLAN→802.1Q VLAN→Port Config page, set the link type for the port based on its connected device. 2 Create VLAN. Required. On the VLAN→802.1Q VLAN→VLAN Config page, click the Create button to create a VLAN. Enter the VLAN ID and the description for the VLAN. Meanwhile, specify its member ports. 3 Modify/View VLAN. Optional. On the VLAN→802.
Configuration Procedure Configure switch A Step Operation Description 1 Configure the Link Type of the ports Required. On VLAN→802.1Q VLAN→Port Config page, configure the link type of Port 2, Port 3 and Port 4 as ACCESS, TRUNK and ACCESS respectively 2 Create VLAN10 Required. On VLAN→802.1Q VLAN→VLAN Config page, create a VLAN with its VLANID as 10, owning Port 2 and Port 3. 3 Create VLAN20 Required. On VLAN→802.
Chapter 7 Spanning Tree STP (Spanning Tree Protocol), subject to IEEE 802.1D standard, is to disbranch a ring network in the Data Link layer in a local network. Devices running STP discover loops in the network and block ports by exchanging information, in that way, a ring network can be disbranched to form a tree-topological ring-free network to prevent packets from being duplicated and forwarded endlessly in the network. BPDU (Bridge Protocol Data Unit) is the protocol data that STP and RSTP use.
Figure 7-1 Basic STP diagram STP Timers Hello Time: Hello Time ranges from 1 to 10 seconds. It specifies the interval to send BPDU packets. It is used to test the links. Max. Age: Max. Age ranges from 6 to 40 seconds. It specifies the maximum time the switch can wait without receiving a BPDU before attempting to reconfigure. Forward Delay: Forward Delay ranges from 4 to 30 seconds. It specifies the time for the port to transit its state after the network topology is changed.
Comparing BPDUs Each switch sends out configuration BPDUs and receives a configuration BPDU on one of its ports from another switch. The following table shows the comparing operations. Step Operation 1 If the priority of the BPDU received on the port is lower than that of the BPDU if of the port itself, the switch discards the BPDU and does not change the BPDU of the port.
stops forwarding data and the designated port of the upstream switch begins to forward data. The condition for the designated port to transit its port state rapidly: The designated port is an edge port or connecting to a point-to-point link. If the designated port is an edge port, it can directly transit to forwarding state; if the designated port is connecting to a point-to-point link, it can transit to forwarding state after getting response from the downstream switch through handshake.
Figure 7-2 Basic MSTP diagram MSTP MSTP divides a network into several MST regions. The CST is generated between these MST regions, and multiple spanning trees can be generated in each MST region. Each spanning tree is called an instance. As well as STP, MSTP uses BPDUs to generate spanning tree. The only difference is that the BPDU for MSTP carries the MSTP configuration information on the switches.
Figure 7-3 Port roles The Spanning Tree module is mainly for spanning tree configuration of the switch, including four submenus: STP Config, Port Config, MSTP Instance and STP Security. 7.1 STP Config The STP Config function, for global configuration of spanning trees on the switch, can be implemented on STP Config and STP Summary pages. 7.1.1 STP Config Before configuring spanning trees, you should make clear the roles each switch plays in each spanning tree instance.
The following entries are displayed on this screen: Global Config STP: Select Enable/Disable STP function globally on the switch. Version: Select the desired STP version on the switch. STP: Spanning Tree Protocol. RSTP: Rapid Spanning Tree Protocol. MSTP: Multiple Spanning Tree Protocol. Parameters Config CIST Priority: Enter a value from 0 to 61440 to specify the priority of the switch for comparison in the CIST. CIST priority is an important criterion on determining the root bridge.
7.1.2 STP Summary On this page you can view the related parameters for Spanning Tree function. Choose the menu Spanning Tree→STP Config→STP Summary to load the following page. Figure 7-5 STP Summary 7.2 Port Config On this page you can configure the parameters of the ports for CIST Choose the menu Spanning Tree→Port Config to load the following page.
Figure 7-6 Port Config The following entries are displayed on this screen: Port Config Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port for STP configuration. It is multi-optional. Port: Displays the port number of the switch. Status: Select Enable /Disable STP function for the desired port. Priority: Enter a value from 0 to 240 divisible by 16.
Port Status: Displays the working status of the port. LAG: Designated Port: Indicates the port that forwards packets to a downstream network segment or switch. Master Port: Indicates the port that connects a MST region to the common root. The path from the master port to the common root is the shortest path between this MST region and the common root. Alternate Port: Indicates the port that can be a backup port of a root or master port.
Figure 7-7 Region Config The following entries are displayed on this screen: Region Config Region Name: Create a name for MST region identification using up to 32 characters. Revision: Enter the revision from 0 to 65535 for MST region identification. 7.3.2 Instance Config Instance Configuration, a property of MST region, is used to describe the VLAN to Instance mapping configuration. You can assign VLAN to different instances appropriate to your needs.
The following entries are displayed on this screen: Instance Table Instance ID Select: Click the Select button to quick-select the corresponding Instance ID based on the ID number you entered. Select: Select the desired Instance ID for configuration. It is multi-optional. Instance: Displays Instance ID of the switch. Status: Select Enable/Disable the instance. Priority: Enter the priority of the switch in the instance.
Figure 7-9 Instance Port Config The following entries are displayed on this screen: Port Config Instance ID: Select the desired instance ID for its port configuration. Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port to specify its priority and path cost. It is multi-optional. Port: Displays the port number of the switch. Priority: Enter the priority of the port in the instance.
Global configuration Procedure for Spanning Tree function: Step Operation Description 1 Make clear roles the switches play in spanning tree instances: root bridge or designated bridge Preparation. 2 Globally configure parameters MSTP Required. Enable Spanning Tree function on the switch and configure MSTP parameters on Spanning Tree→STP Config→STP Config page. 3 Configure MSTP parameters for ports Required. Configure MSTP parameters for ports on Spanning Tree→Port Config→Port Config page.
high-speed links may lead to low-speed links, and network congestion may occur. To avoid this, MSTP provides root protect function. Ports with this function enabled can only be set as designated ports in all spanning tree instances. When a port of this type receives BDPU packets with higher priority, it transits its state to blocking state and stops forwarding packets (as if it is disconnected from the link).
Figure 7-10 Port Protect The following entries are displayed on this screen: Port Protect Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port for port protect configuration. It is multi-optional. Port: Displays the port number of the switch. Loop Protect: Loop Protect is to prevent the loops in the network brought by recalculating STP because of link failures and network congestions.
7.4.2 TC Protect When TC Protect is enabled for the port on Port Protect page, the TC threshold and TC protect cycle need to be configured on this page. Choose the menu Spanning Tree→STP Security→TC Protect to load the following page. Figure 7-11 TC Protect The following entries are displayed on this screen: TC Protect TC Threshold: Enter a number from 1 to 100. It is the maximum number of the TC-BPDUs received by the switch in a TC Protect Cycle. The default value is 20.
Configuration Procedure Configure switch A: Step Operation Description 1 Configure ports On VLAN→802.1Q VLAN page, configure the link type of the related ports as Trunk, and add the ports to VLAN 101- VLAN 106. The detailed instructions can be found in the section 802.1Q VLAN. 2 Enable STP function On Spanning Tree→STP Config→STP Config page, enable STP function and select MSTP version. On Spanning Tree→STP Config→Port Config page, enable MSTP function for the port.
Configure switch C: Step Operation Description 1 Configure ports On VLAN→802.1Q VLAN page, configure the link type of the related ports as Trunk, and add the ports to VLAN 101- VLAN 106. The detailed instructions can be found in the section 802.1Q VLAN. 2 Enable STP function On Spanning Tree→STP Config→STP Config page, enable STP function and select MSTP version. On Spanning Tree→STP Config→Port Config page, enable MSTP function for the port.
links; the gray paths are the blocked links. For Instance 2 (VLAN 102, 104 and 106), the blue paths in the following figure are connected links; the gray paths are the blocked links. Suggestion for Configuration Enable TC Protect function for all the ports of switches. Enable Root Protect function for all the ports of root bridges. Enable Loop Protect function for the non-edge ports.
Chapter 8 Multicast Multicast Overview In the network, packets are sent in three modes: unicast, broadcast and multicast. In unicast, the source server sends separate copy information to each receiver. When a large number of users require this information, the server must send many pieces of information with the same content to the users. Therefore, large bandwidth will be occupied. In broadcast, the system transmits information to all users in a network.
Multicast Address 1. Multicast IP Address: As specified by IANA (Internet Assigned Numbers Authority), Class D IP addresses are used as destination addresses of multicast packets. The multicast IP addresses range from 224.0.0.0~239.255.255.255. The following table displays the range and description of several special multicast IP addresses. Multicast IP address range Description 224.0.0.0~224.0.0.255 Reserved multicast addresses for routing protocols and other network protocols 224.0.1.0~224.0.1.
IGMP Snooping In the network, the hosts apply to the near router for joining (leaving) a multicast group by sending IGMP (Internet Group Management Protocol) messages. When the up-stream device forwards down the multicast data, the switch is responsible for sending them to the hosts. IGMP Snooping is a multicast control mechanism, which can be used on the switch for dynamic registration of the multicast group.
3. IGMP Leave Message The host, running IGMPv1, does not send IGMP leave message when leaving a multicast group, as a result, the switch can not get the leave information of the host momentarily. However, after leaving the multicast group, the host does not send IGMP report message any more, so the switch will remove the port from the corresponding multicast address table when its member port time times out.
Figure 8-4 Basic Config The following entries are displayed on this screen: Global Config IGMP Snooping: Select Enable/Disable IGMP Snooping function globally on the switch. Unknown Multicast: Select the operation for the switch to process unknown multicast, Forward or Discard. IGMP Snooping Status Description: Displays IGMP Snooping status. Member: Displays the member of the corresponding status. 8.1.2 Port Config On this page you can configure the IGMP feature for ports of the switch.
Figure 8-5 Port Config The following entries are displayed on this screen: Port Config Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port for IGMP Snooping feature configuration. It is multi-optional. Port: Displays the port of the switch. IGMP Snooping: Select Enable/Disable IGMP Snooping for the desired port. Fast Leave: Select Enable/Disable Fast Leave feature for the desired port.
Figure 8-6 VLAN Config The following entries are displayed on this screen: VLAN Config VLAN ID: Enter the VLAN ID to enable IGMP Snooping for the desired VLAN. Router Port Time: Specify the aging time of the router port. Within this time, if the switch doesn’t receive IGMP query message from the router port, it will consider this port is not a router port any more. Member Port Time: Specify the aging time of the member port.
Router Port Time: Displays the router port time of the VLAN. Member Port Time: Displays the member port time of the VLAN. Leave Time: Displays the leave time of the VLAN. Router Port: Displays the router port of the VLAN. Note: The settings here will be invalid when multicast VLAN is enabled Configuration procedure: Step Operation 1 Enable function Snooping Required. Enable IGMP Snooping globally on the switch and for the port on Multicast→IGMP Snooping→Snooping Config and Port Config page.
Figure 8-7 Multicast VLAN The following entries are displayed on this screen: Multicast VLAN Multicast VLAN: Select Enable/Disable Multicast VLAN feature. VLAN ID: Enter the VLAN ID of the multicast VLAN. Router Port Time: Specify the aging time of the router port. Within this time, if the switch doesn’t receive IGMP query message from the router port, it will consider this port is not a router port any more. Member Port Time: Specify the aging time of the member port.
Configuration procedure: Step Operation Description 1 Enable IGMP function 2 Create a multicast VLAN Snooping Required. Enable IGMP Snooping globally on the switch and for the port on Multicast→IGMP Snooping→Snooping Config and Port Config page. Required. Create a multicast VLAN and add all the member ports and router ports to the VLAN on the VLAN→802.1Q VLAN page. Configure the link type of the member ports as GENERAL.
Configuration Procedure Step Operation Description 1 Create VLANs Create three VLANs with the VLAN ID 3, 4 and 5 respectively, and specify the description of VLAN3 as Multicast VLAN on VLAN→802.1Q VLAN page. 2 Configure ports On VLAN→802.1Q VLAN function pages. For port 3, configure its link type as GENERAL and its egress rule as TAG, and add it to VLAN3, VLAN4 and VLAN5. For port 4, configure its link type as GENERAL and its egress rule as UNTAG, and add it to VLAN3 and VLAN 4.
8.2.1 Multicast IP Table On this page you can view the multicast IP table on the switch. Choose the menu Multicast→Multicast IP→Multicast IP Table to load the following page. Figure 8-8 Multicast IP Table The following entries are displayed on this screen: Search Option Multicast IP: Enter the multicast IP address the desired entry must carry. VLAN ID: Enter the VLAN ID the desired entry must carry. Port: Select the port number the desired entry must carry.
Choose the menu Multicast→Multicast IP→Static Multicast IP to load the following page. Figure 8-9 Static Multicast IP Table The following entries are displayed on this screen: Create Static Multicast Multicast IP: Enter static multicast IP address. VLAN ID: Enter the VLAN ID of the multicast IP. Forward Port: Enter the forward port of the multicast group. Search Option Search Option: Select the rules for displaying multicast IP table to find the desired entries quickly.
When applying for a multicast group, the host will send IGMP report message. After receiving the report message, the switch will firstly check the multicast filter rules configured for the receiving port. If the port can be added to the multicast group, it will be added to the multicast address table; if the port can not be added to the multicast group, the switch will drop the IGMP report message.
Choose the menu Multicast→Multicast Filter→Port Filter to load the following page. Figure 8-11 Port Filter The following entries are displayed on this screen: Port Filter Config Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port for multicast filtering. It is multi-optional. Port: Displays the port number. Filter: Select Enable/Disable multicast filtering feature on the port.
Configuration Procedure: Step Operation Description 1 Configure IP-Range Required. Configure IP-Range to be Multicast→Multicast Filter→IP-Range page. 2 Configure multicast filter rules for ports Optional. Configure multicast filter rules for ports on Multicast→Multicast Filter→Port Filter page. filtered on 8.4 Packet Statistics On this page you can view the multicast data traffic on each port of the switch, which facilitates you to monitor the IGMP messages in the network.
IGMP Statistics Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Port: Displays the port number of the switch. Query Packet: Displays the number of query packets the port received. Report Packet (V1): Displays the number of IGMPv1 report packets the port received. Report Packet (V2): Displays the number of IGMPv2 report packets the port received. Report Packet (V3): Displays the number of IGMPv3 report packets the port received.
Chapter 9 QoS QoS (Quality of Service) functions to provide different quality of service for various network applications and requirements and optimize the bandwidth resource distribution so as to provide a network service experience of a better quality. QoS This switch classifies the ingress packets, maps the packets to different priority queues and then forwards the packets according to specified scheduling algorithms to implement QoS function.
2. 802.1P Priority Figure 9-2 802.1Q frame As shown in the figure above, each 802.1Q Tag has a Pri field, comprising 3 bits. The 3-bit priority field is 802.1p priority in the range of 0 to 7. 802.1P priority determines the priority of the packets based on the Pri value. On the Web management page of the switch, you can configure different priority tags mapping to the corresponding priority levels, and then the switch determine which packet is sent preferentially when forwarding packets.
Figure 9-4 SP-Mode 2. WRR-Mode: Weight Round Robin Mode. In this mode, packets in all the queues are sent in order based on the weight value for each queue and every queue can be assured of a certain service time. The weight value indicates the occupied proportion of the resource. WRR queue overcomes the disadvantage of SP queue that the packets in the queues with lower priority can not get service for a long time.
The QoS module is mainly for traffic control and priority configuration, including two submenus: DiffServ and Bandwidth Control. 9.1 DiffServ This switch classifies the ingress packets, maps the packets to different priority queues and then forwards the packets according to specified scheduling algorithms to implement QoS function. This switch implements three priority modes based on port, on 802.1P and on DSCP, and supports four queue scheduling algorithms.
Configuration Procedure: Step Operation Description 1 Select the port priority Required. On QoS→DiffServ→Port Priority page, configure the port priority. 2 Configure the mapping relation between the 802.1P priority and TC Required. On QoS→DiffServ→802.1P Priority page, configure the mapping relation between the 802.1P priority and TC. 3 Select a schedule mode Required. On QoS→DiffServ→Schedule Mode page, select a schedule mode. 9.1.
9.1.3 802.1P Priority On this page you can configure 802.1P priority. 802.1P gives the Pri field in 802.1Q tag a recommended definition. This field is used to divide packets into 8 priorities. When 802.1P Priority is enabled, the packets with 802.1Q tag are mapped to different priority levels based on 802.1P priority mode. The untagged packets are mapped based on port priority mode. Choose the menu QoS→DiffServ→802.1P Priority to load the following page. Figure 9-8 802.
Figure 9-9 DSCP Priority The following entries are displayed on this screen: DSCP Priority Config DSCP Priority: Select Enable or Disable DSCP Priority. Priority Level DSCP: Indicates the priority determined by the DS region of IP datagram. It ranges from 0 to 63. Priority: Indicates the priority the packets with tag are mapped to. The priority levels are labeled as TC0,TC1,TC2 and TC3.
Configuration Procedure: Step Operation Description 1 Log on to the DSCP Priority page 2 Enable DP priority function Required. By default, the DSCP priority function is disabled. 3 Map the DSCP priority to the priority level Required. Select DSCP priority and the corresponding priority level. 4 Select a schedule mode Required. Log on to the Schedule Mode page to select a schedule mode. 9.
The following entries are displayed on this screen: Rate Limit Config Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port for Rate configuration. It is multi-optional. Port: Displays the port number of the switch. Ingress Rate (bps): Configure the bandwidth for receiving packets on the port.
Figure 9-11 Storm Control The following entries are displayed on this screen: Storm Control Config Port Select: Click the Select button to quick-select the corresponding port based on the port number you entered. Select: Select the desired port for Storm Control configuration. It is multi-optional. Port: Displays the port number of the switch. Broadcast: Enable/Disable broadcast control feature for the port. Multicast: Enable/Disable multicast control feature for the port.
Chapter 10 SNMP SNMP Overview SNMP (Simple Network Management Protocol) has gained the most extensive application on the UDP/IP networks. SNMP provides a management frame to monitor and maintain the network devices. It is used for automatically managing the various network devices no matter the physical differences of the devices. Currently, the most network management systems are based on SNMP.
SNMP v1: SNMP v1 adopts Community Name authentication. The community name is used to define the relation between SNMP Management Station and SNMP Agent. The SNMP packets failing to pass community name authentication are discarded. The community name can limit access to SNMP Agent from SNMP NMS, functioning as a password. SNMP v2c: SNMP v2c also adopts community name authentication. It is compatible with SNMP v1 while enlarges the function of SNMP v1.
management station. The specified User Name and the Auth/Privacy Password are used for SNMP Management Station to access the SNMP Agent, functioning as the password. SNMP module is used to configure the SNMP function of the switch, including three submenus: SNMP Config, Notification and RMON. 10.1 SNMP Config The SNMP Config can be implemented on the Global Config, SNMP View, SNMP Group, SNMP User and SNMP Community pages. 10.1.
10.1.2 SNMP View The OID (Object Identifier) of the SNMP packets is used to describe the managed objects of the switch, and the MIB (Management Information Base) is the set of the OIDs. The SNMP View is created for the SNMP management station to manage MIB objects. Choose the menu SNMP→SNMP Config→SNMP View to load the following page. Figure 10-4 SNMP View The following entries are displayed on this screen: View Config View Name: Give a name to the View for identification.
Choose the menu SNMP→SNMP Config→SNMP Group to load the following page. Figure 10-5 SNMP Group The following entries are displayed on this screen: Group Config Group Name: Enter the SNMP Group name. The Group Name, Security Model and Security Level compose the identifier of the SNMP Group. The Groups with these three items the same are considered to be the same. Security Model: Select the Security Model for the SNMP Group. Security Level: v1: SNMPv1 is defined for the group.
Notify View: Select the View to be the Notify View. The management station can receive trap messages of the assigned SNMP view generated by the switch's SNMP agent. Group Table Select: Select the desired entry to delete the corresponding group. It is multi-optional. Group Name: Displays the Group Name here. Security Model: Displays the Security Model of the group. Security Level: Displays the Security Level of the group. Read View: Displays the Read View name in the entry.
The following entries are displayed on this screen: User Config User Name: Enter the User Name here. User Type: Select the type for the User. Local User: Indicates that the user is connected to a local SNMP engine. Remote User: Indicates that the user is connected to a remote SNMP engine. Group Name: Select the Group Name of the User. The User is classified to the corresponding Group according to its Group Name, Security Model and Security Level.
10.1.5 SNMP Community SNMP v1 and SNMP v2c adopt community name authentication. The community name can limit access to the SNMP agent from SNMP network management station, functioning as a password. If SNMP v1 or SNMP v2c is employed, you can directly configure the SNMP Community on this page without configuring SNMP Group and User. Choose the menu SNMP→SNMP Config→SNMP Community to load the following page.
Configuration Procedure: If SNMPv3 is employed, please take the following steps: Step Operation Description 1 Enable SNMP function globally. Required. On the SNMP→SNMP Config→Global Config page, enable SNMP function globally. 2 Create SNMP View. Required. On the SNMP→SNMP Config→SNMP View page, create SNMP View of the management agent. The default View Name is viewDefault and the default OID is 1. 3 Create SNMP Group. Required.
10.2 Notification With the Notification function enabled, the switch can initiatively report to the management station about the important events that occur on the Views (e.g., the managed device is rebooted), which allows the management station to monitor and process the events in time. The notification information includes the following two types: Trap : Trap is the information that the managed device initiatively sends to the Network management station without request.
Type: Select the type for the notifications. Trap: Indicates traps are sent. Inform: Indicates informs are sent. The Inform type has a higher security than the Trap type. Retry: Specify the amount of times the switch resends an inform request. The switch will resend the inform request if it doesn’t get the response from the management station during the Timeout interval, and it will terminate resending the inform request if the resending times reach the specified Retry times.
RMON Group Function History Group After a history group is configured, the switch collects and records network statistics information periodically, based on which the management station can monitor network effectively. Event Group Event Group is used to define RMON events. Alarms occur when an event is detected. Statistic Group Statistic Group is set to monitor the statistic of alarm variables on the specific ports. Alarm Group Alarm Group is configured to monitor the specific alarm variables.
10.3.2 Event Config On this page, you can configure the RMON events. Choose the menu SNMP→RMON→Event Config to load the following page. Figure 10-10 Event Config The following entries are displayed on this screen: Event Table Select: Select the desired entry for configuration. Index: Displays the index number of the entry. User: Enter the name of the User or the community to which the event belongs. Description: Give a description to the event for identification.
Figure 10-11 Alarm Config The following entries are displayed on this screen: Alarm Table Select: Select the desired entry for configuration. Index: Displays the index number of the entry. Variable: Select the alarm variables from the drop-down list. Port: Select the port on which the Alarm entry acts. Sample Type: Specify the sampling method for the selected variable and comparing the value against the thresholds.
Interval: Enter the alarm interval time in seconds. Owner: Enter the name of the device or user that defined the entry. Status: Select Enable/Disable the corresponding alarm entry. Note: When alarm variables exceed the Threshold on the same direction continuously for several times, an alarm event will only be generated on the first time, that is, the Rising Alarm and Falling Alarm are triggered alternately for that the alarm following to Rising Alarm is certainly a Falling Alarm and vice versa.
Chapter 11 Maintenance Maintenance module, assembling the commonly used system tools to manage the switch, provides the convenient method to locate and solve the network problem. (1) System Monitor: Monitor the utilization status of the memory and the CPU of switch. (2) Log: View the configuration parameters of the switch and find out the errors via the Logs. (3) Cable Test: Test the connection status of the cable to locate and diagnose the trouble spot of the network.
Click the Monitor button to enable the switch to monitor and display its CPU utilization rate every four seconds. 11.1.2 Memory Monitor Choose the menu Maintenance→System Monitor→Memory Monitor to load the following page. Figure 11-2 Memory Monitor Click the Monitor button to enable the switch to monitor and display its Memory utilization rate every four seconds. 11.
Severity Level Description informational 6 Informational messages debugging 7 Debug-level messages Table 11-1 Log Level The Log function is implemented on the Log Table, Local Log, Remote Log and Backup Log pages. 11.2.1 Log Table The switch supports logs output to two directions, namely, log buffer and log file.
11.2.2 Local Log Local Log is the log information saved in switch. By default, all system logs are saved in log buffer and the logs with severities from level_0 to level_4 are saved in log file meanwhile. On this page, you can set the output channel for logs. Choose the menu Maintenance→Log→Local Log to load the following page. Figure 11-4 Local Log The following entries are displayed on this screen: Local Log Config Select: Select the desired entry to configure the corresponding local log.
Figure 11-5 Log Host The following entries are displayed on this screen: Log Host Index: Displays the index of the log host. The switch supports 4 log hosts. Host IP: Configure the IP for the log host. UDP Port: Displays the UDP port used for receiving/sending log information. Here we use the standard port 514. Severity: Specify the severity level of the log information sent to each log host. Only the log with the same or smaller severity level value will be sent to the corresponding log host.
The following entry is displayed on this screen: Backup Log Backup Log: Click the Backup Log button to save the log as a file to your computer. Note: It will take a few minutes to backup the log file. Please wait without any operation. 11.3 Device Diagnostics This switch provides Cable Test and Loopback functions for device diagnostics. 11.3.
Note: 1. The Length displayed here is the length of pair cable not that of the physical cable. 2. The test result is just for your reference. 11.3.2 Loopback Loopback test function, looping the sender and the receiver of the signal, is used to test whether the port of the switch is available as well as to check and analyze the physical connection status of the port to help you locate and solve network malfunctions. Choose the menu Maintenance→Device Diagnostics→Loopback to load the following page.
Figure 11-9 Ping The following entries are displayed on this screen: Ping Config Destination IP: Enter the IP address of the destination node for Ping test. Ping Times: Enter the amount of times to send test data during Ping testing. The default value is recommended. Data Size: Enter the size of the sending data during Ping testing. The default value is recommended. Interval: Specify the interval to send ICMP request packets. The default value is recommended. 11.4.
Figure 11-10 Tracert The following entries are displayed on this screen: Tracert Config Destination IP: Enter the IP address of the destination device. Max Hop: Specify the maximum number of the route hops the test data can pass through.
Appendix A: Specifications IEEE802.3 10Base-T Ethernet IEEE802.3u 100Base-TX/100Base-FX Fast Ethernet IEEE802.3ab 1000Base-T Gigabit Ethernet Standards IEEE802.3z 1000Base-X Gigabit Ethernet IEEE802.3x Flow Control IEEE802.1p Priority IEEE802.1q VLAN Bridge Ethernet: 10Mbps HD,20Mbps FD Transmission Rate Fast Ethernet: 100Mbps HD,200Mbps FD Gigabit Ethernet: 2000Mbps FD 10Base-T: UTP/STP of Cat. 3 or above 100Base-TX: UTP/STP of Cat.
Appendix B: Configuring the PCs In this section, we’ll introduce how to install and configure the TCP/IP correctly in Windows 2000. First make sure your Ethernet Adapter is working, refer to the adapter’s manual if necessary. 1) On the Windows taskbar, click the Start button, and then click Control Panel. 2) Click the Network and Internet Connections icon, and then click on the Network Connections tab in the appearing window.
5) The following TCP/IP Properties window will display and the IP Address tab is open on this window by default. Figure B-3 6) Select Use the following IP address. And the following items will be available. If the switch's IP address is 192.168.0.1, specify IP address as 192.168.0.x (x is from 2 to 254), and the Subnet mask as 255.255.255.0. Now: Click OK to save your settings.
Appendix C: Glossary Boot Protocol (BOOTP) BOOTP is used to provide bootup information for network devices, including IP address information, the address of the TFTP server that contains the devices system files, and the name of the boot file. Class of Service (CoS) CoS is supported by prioritizing packets based on the required level of service, and then placing them in the appropriate output queue.
“querier” and assumes responsibility for keeping track of group membership. IGMP Snooping Listening to IGMP Query and IGMP Report packets transferred between IP Multicast routers and IP Multicast host groups to identify IP Multicast group members. IGMP Query On each subnetwork, one IGMP-capable device will act as the querier — that is, the device that asks all hosts to report on the IP multicast groups they wish to join or to which they already belong.
Remote Monitoring (RMON) RMON provides comprehensive network monitoring capabilities. It eliminates the polling required in standard SNMP, and can set alarms on a variety of traffic conditions, including specific error types. Rapid Spanning Tree Protocol (RSTP) RSTP reduces the convergence time for network topology changes to about 10% of that required by the older IEEE 802.1D STP standard.
