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TL-SG3210/TL-SG3216/TL-SG3424
JetStream L2 Managed Switch
REV1.1.0
1910010729
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. All rights
reserved.
http://www.tp-link.com
FCC STATEMENT
This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a commercial environment. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed and used
in accordance with the instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely to cause harmful
interference in which case the user will be required to correct the interference at his own expense.
This device complies with part 15 of the FCC Rules. Operation is subject to the following two
conditions:
1) This device may not cause harmful interference.
2) This device must accept any interference received, including interference that may cause
undesired operation.
Any changes or modifications not expressly approved by the party responsible for compliance
could void the user’s authority to operate the equipment.
CE Mark Warning
This is a Class A product. In a domestic environment, this product may cause radio interference, in
which case the user may be required to take adequate measures.
Продукт сертифіковано згідно с правилами системи УкрСЕПРО на відповідність вимогам
нормативних документів та вимогам, що передбачені чинними законодавчими актами
України.
I
Safety Information
z 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.
z 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.
z Avoid water and wet locations.
This product can be used in the following countries:
AT BG BY CA CZ DE DK EE
ES FI FR GB GR HU IE IT
LT LV MT NL NO PL PT RO
RU SE SK TR UA
II
CONTENTS
Package Contents ..........................................................................................................................1
Chapter 1 About this Guide...........................................................................................................2
1.1 Intended Readers .........................................................................................................2
1.2 Conventions..................................................................................................................2
1.3 Overview of This Guide ................................................................................................2
Chapter 2 Introduction ..................................................................................................................6
2.1 Overview of the Switch .................................................................................................6
2.2 Main Features...............................................................................................................6
2.3 Appearance Description ...............................................................................................7
2.3.1 Front Panel ........................................................................................................7
2.3.2 Rear Panel .........................................................................................................8
Chapter 3 Login to the Switch.......................................................................................................9
3.1 Login.............................................................................................................................9
3.2 Configuration ................................................................................................................9
Chapter 4 System ....................................................................................................................... 11
4.1 System Info................................................................................................................. 11
4.1.1 System Summary............................................................................................. 11
4.1.2 Device Description ...........................................................................................13
4.1.3 System Time ....................................................................................................13
4.1.4 Daylight Saving Time .......................................................................................15
4.1.5 System IP.........................................................................................................16
4.2 User Manage ..............................................................................................................17
4.2.1 User Table........................................................................................................17
4.2.2 User Config ......................................................................................................17
4.3 System Tools ..............................................................................................................19
4.3.1 Config Restore .................................................................................................19
4.3.2 Config Backup..................................................................................................19
4.3.3 Firmware Upgrade ...........................................................................................20
4.3.4 System Reboot ................................................................................................21
4.3.5 System Reset...................................................................................................21
4.4 Access Security ..........................................................................................................21
4.4.1 Access Control.................................................................................................21
III
4.4.2 SSL Config.......................................................................................................23
4.4.3 SSH Config ......................................................................................................24
Chapter 5 Switching....................................................................................................................30
5.1 Port .............................................................................................................................30
5.1.1 Port Config .......................................................................................................30
5.1.2 Port Mirror ........................................................................................................31
5.1.3 Port Security ....................................................................................................34
5.1.4 Port Isolation ....................................................................................................36
5.1.5 Loopback Detection .........................................................................................37
5.2 LAG ............................................................................................................................38
5.2.1 LAG Table ........................................................................................................39
5.2.2 Static LAG........................................................................................................40
5.2.3 LACP Config ....................................................................................................41
5.3 Traffic Monitor .............................................................................................................43
5.3.1 Traffic Summary...............................................................................................43
5.3.2 Traffic Statistics ................................................................................................44
5.4 MAC Address..............................................................................................................46
5.4.1 Address Table ..................................................................................................46
5.4.2 Static Address ..................................................................................................48
5.4.3 Dynamic Address .............................................................................................49
5.4.4 Filtering Address ..............................................................................................51
Chapter 6 VLAN..........................................................................................................................54
6.1 802.1Q VLAN..............................................................................................................55
6.1.1 VLAN Config ....................................................................................................57
6.1.2 Port Config .......................................................................................................59
6.2 MAC VLAN .................................................................................................................61
6.3 Protocol VLAN ............................................................................................................62
6.3.1 Protocol Group Table .......................................................................................65
6.3.2 Protocol Group.................................................................................................65
6.3.3 Protocol Template ............................................................................................66
6.4 Application Example for 802.1Q VLAN .......................................................................67
6.5 Application Example for MAC VLAN...........................................................................69
6.6 Application Example for Protocol VLAN......................................................................70
6.7 GVRP .........................................................................................................................72
Chapter 7 Spanning Tree............................................................................................................76
IV
7.1 STP Config .................................................................................................................81
7.1.1 STP Config.......................................................................................................81
7.1.2 STP Summary..................................................................................................83
7.2 Port Config..................................................................................................................83
7.3 MSTP Instance ...........................................................................................................85
7.3.1 Region Config ..................................................................................................85
7.3.2 Instance Config ................................................................................................86
7.3.3 Instance Port Config.........................................................................................87
7.4 STP Security...............................................................................................................89
7.4.1 Port Protect ......................................................................................................89
7.4.2 TC Protect........................................................................................................92
7.5 Application Example for STP Function .......................................................................92
Chapter 8 Multicast.....................................................................................................................96
8.1 IGMP Snooping ..........................................................................................................98
8.1.1 Snooping Config ..............................................................................................99
8.1.2 Port Config .....................................................................................................100
8.1.3 VLAN Config ..................................................................................................101
8.1.4 Multicast VLAN ..............................................................................................103
8.2 Multicast IP ...............................................................................................................106
8.2.1 Multicast IP Table ...........................................................................................106
8.2.2 Static Multicast IP...........................................................................................107
8.3 Multicast Filter...........................................................................................................108
8.3.1 IP-Range........................................................................................................108
8.3.2 Port Filter .......................................................................................................109
8.4 Packet Statistics........................................................................................................ 111
Chapter 9 QoS.......................................................................................................................... 113
9.1 DiffServ..................................................................................................................... 116
9.1.1 Port Priority .................................................................................................... 116
9.1.2 DSCP Priority................................................................................................. 117
9.1.3 802.1P/CoS mapping..................................................................................... 118
9.1.4 Schedule Mode .............................................................................................. 119
9.2 Bandwidth Control ....................................................................................................120
9.2.1 Rate Limit.......................................................................................................120
9.2.2 Storm Control .................................................................................................121
9.3 Voice VLAN ..............................................................................................................123
V
9.3.1 Global Config .................................................................................................125
9.3.2 Port Config .....................................................................................................125
9.3.3 OUI Config .....................................................................................................127
Chapter 10 ACL ..........................................................................................................................129
10.1 Time-Range ..............................................................................................................129
10.1.1 Time-Range Summary ...................................................................................129
10.1.2 Time-Range Create........................................................................................130
10.1.3 Holiday Config................................................................................................131
10.2 ACL Config ...............................................................................................................131
10.2.1 ACL Summary................................................................................................132
10.2.2 ACL Create ....................................................................................................132
10.2.3 MAC ACL .......................................................................................................133
10.2.4 Standard-IP ACL ............................................................................................134
10.2.5 Extend-IP ACL ...............................................................................................134
10.3 Policy Config.............................................................................................................136
10.3.1 Policy Summary .............................................................................................136
10.3.2 Policy Create..................................................................................................136
10.3.3 Action Create .................................................................................................137
10.4 Policy Binding ...........................................................................................................138
10.4.1 Binding Table .................................................................................................138
10.4.2 Port Binding ...................................................................................................139
10.4.3 VLAN Binding.................................................................................................139
10.5 Application Example for ACL ....................................................................................140
Chapter 11 Network Security ...................................................................................................... 143
11.1 IP-MAC Binding ........................................................................................................143
11.1.1 Binding Table .................................................................................................143
11.1.2 Manual Binding ..............................................................................................144
11.1.3 ARP Scanning................................................................................................146
11.1.4 DHCP Snooping.............................................................................................147
11.2 ARP Inspection .........................................................................................................153
11.2.1 ARP Detect ....................................................................................................157
11.2.2 ARP Defend ...................................................................................................158
11.2.3 ARP Statistics ................................................................................................159
11.3 DoS Defend ..............................................................................................................160
11.4 802.1X ......................................................................................................................162
VI
11.4.1 Global Config .................................................................................................166
11.4.2 Port Config .....................................................................................................168
11.4.3 Radius Server ................................................................................................169
Chapter 12 SNMP.......................................................................................................................171
12.1 SNMP Config............................................................................................................173
12.1.1 Global Config .................................................................................................173
12.1.2 SNMP View....................................................................................................174
12.1.3 SNMP Group..................................................................................................175
12.1.4 SNMP User ....................................................................................................176
12.1.5 SNMP Community..........................................................................................178
12.2 Notification................................................................................................................180
12.3 RMON.......................................................................................................................182
12.3.1 History Control ...............................................................................................183
12.3.2 Event Config ..................................................................................................183
12.3.3 Alarm Config ..................................................................................................184
Chapter 13 Cluster......................................................................................................................187
13.1 NDP ..........................................................................................................................188
13.1.1 Neighbor Info .................................................................................................188
13.1.2 NDP Summary ...............................................................................................189
13.1.3 NDP Config ....................................................................................................191
13.2 NTDP........................................................................................................................192
13.2.1 Device Table ..................................................................................................192
13.2.2 NTDP Summary.............................................................................................193
13.2.3 NTDP Config..................................................................................................194
13.3 Cluster ......................................................................................................................196
13.3.1 Cluster Summary ...........................................................................................196
13.3.2 Cluster Config ................................................................................................197
13.4 Application Example for Cluster Function .................................................................199
Chapter 14 Maintenance ............................................................................................................202
14.1 System Monitor.........................................................................................................202
14.1.1 CPU Monitor ..................................................................................................202
14.1.2 Memory Monitor.............................................................................................203
14.2 Log............................................................................................................................204
14.2.1 Log Table .......................................................................................................205
14.2.2 Local Log .......................................................................................................206
VII
VIII
14.2.3 Remote Log ...................................................................................................206
14.2.4 Backup Log....................................................................................................207
14.3 Device Diagnose.......................................................................................................208
14.3.1 Cable Test ......................................................................................................208
14.3.2 Loopback .......................................................................................................209
14.4 Network Diagnose ....................................................................................................209
14.4.1 Ping................................................................................................................209
14.4.2 Tracert............................................................................................................210
Appendix A: Specifications .........................................................................................................212
Appendix B: Configuring the PCs ............................................................................................... 213
Appendix C: Load Software using FTP.......................................................................................216
Appendix D: 802.1X Client Software ..........................................................................................221
Appendix E: Glossary .................................................................................................................229
Package Contents
The following items should be found in your box:
¾ One JetStream L2 Managed Switch
¾ One power cord
¾ One console cable
¾ Two mounting brackets and other fittings
¾ Installation Guide
¾ Resource CD for TL-SG3210/TL-SG3216/TL-SG3424 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.
1
Chapter 1 About this Guide
This User Guide contains information for setup and management of TL-SG3210/TL-SG3216/
TL-SG3424 JetStream L2 Managed Switch. 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.
1.2 Conventions
In this Guide the following conventions are used:
¾ The switch or device mentioned in this Guide stands for JetStream L2 Managed Switch
without any explanation.
Tips:
The TL-SG3210/TL-SG3216/TL-SG3424 switchs are sharing this User Guide. For simplicity, we will
take TL-SG3216 for example throughout this Guide. They just differ in the number of LED indicators
and ports and all gures in this guide are of TL-SG3216.
¾ Menu NameSubmenu NameTab page indicates the menu structure. SystemSystem
InfoSystem Summary means the System Summary page under the System Info menu
option that is located under the System menu.
¾ Bold font indicates a button, a toolbar icon, menu or menu item.
Symbols in this Guide
Symbol Description
Note:
Ignoring this type of note might result in a malfunction or damage to the
device.
Tips:
This format indicates important information that helps you make better use
of your device.
1.3 Overview of This Guide
Chapter Introduction
Chapter 1 About This Guide Introduces the guide structure and conventions.
Chapter 2 Introduction Introduces the features, application and appearance of TL-SG3216
switch.
Chapter 3 Login to the Switch Introduces how to log on to the Web management page.
2
Chapter Introduction
Chapter 4 System This module is used to configure system properties of the switch.
Here mainly introduces:
z System Info: Configure the description, system time and network
parameters of the switch.
z User Manage: Configure the user name and password for users
to log on to the Web management page with a certain access
level.
z System Tools: Manage the configuration file of the switch.
z Access Security: Provide different security measures for the
login to enhance the configuration management security.
Chapter 5 Switching This module is used to configure basic functions of the switch. Here
mainly introduces:
z Port: Configure the basic features for the port.
z LAG: Configure Link Aggregation Group. LAG is to combine a
number of ports together to make a single high-bandwidth data
path.
z Traffic Monitor: Monitor the traffic of each port
z MAC Address: Configure the address table of the switch.
Chapter 6 VLAN This module is used to configure VLANs to control broadcast in
LANs. Here mainly introduces:
z 802.1Q VLAN: Configure port-based VLAN.
z MAC VLAN: Configure MAC-based VLAN without changing the
802.1Q VLAN configuration.
z Protocol VLAN: Create VLANs in application layer to make some
special data transmitted in the specified VLAN.
z GVRP: GVRP allows the switch to automatically add or remove
the VLANs via the dynamic VLAN registration information and
propagate the local VLAN registration information to other
switches, without having to individually configure each VLAN.
Chapter 7 Spanning Tree This module is used to configure spanning tree function of the
switch. Here mainly introduces:
z STP Config: Configure and view the global settings of spanning
tree function.
z Port Config: Configure CIST parameters of ports.
z MSTP Instance: Configure MSTP instances.
z STP Security: Configure protection function to prevent devices
from any malicious attack against STP features.
Chapter 8 Multicast This module is used to configure multicast function of the switch.
Here mainly introduces:
z IGMP Snooping: Configure global parameters of IGMP Snooping
function, port properties, VLAN and multicast VLAN.
z Multicast IP: Configure multicast IP table.
z Multicast Filter: Configure multicast filter feature to restrict users
ordering multicast programs.
z Packet Statistics: View the multicast data traffic on each port of
the switch, which facilitates you to monitor the IGMP messages
in the network.
3
Chapter Introduction
Chapter 9 QoS This module is used to configure QoS function to provide different
quality of service for various network applications and
requirements. Here mainly introduces:
z DiffServ: Configure priorities, port priority, 802.1P priority and
DSCP priority.
z Bandwidth Control: Configure rate limit feature to control the
traffic rate on each port; configure storm control feature to filter
broadcast, multicast and UL frame in the network.
z Voice VLAN: Configure voice VLAN to transmit voice data
stream within the specified VLAN so as to ensure the
transmission priority of voice data stream and voice quality.
Chapter 10 ACL This module is used to configure match rules and process policies
of packets to filter packets in order to control the access of the
illegal users to the network. Here mainly introduces:
z Time-Range: Configure the effective time for ACL rules.
z ACL Config: ACL rules.
z Policy Config: Configure operation policies.
z Policy Binding: Bind the policy to a port/VLAN to take its effect on
a specific port/VLAN.
Chapter 11 Network Security This module is used to configure the multiple protection measures
for the network security. Here mainly introduces:
z IP-MAC Binding: Bind the IP address, MAC address, VLAN ID
and the connected Port number of the Host together.
z ARP Inspection: Configure ARP inspection feature to prevent the
network from ARP attacks.
z DoS Defend: Configure DoS defend feature to prevent DoS
attack.
z 802.1X: Configure common access control mechanism for LAN
ports to solve mainly authentication and security problems.
Chapter 12 SNMP This module is used to configure SNMP function to provide a
management frame to monitor and maintain the network devices.
Here mainly introduces:
z SNMP Config: Configure global settings of SNMP function.
z Notification: Configure notification function for the management
station to monitor and process the events.
z RMON: Configure RMON function to monitor network more
efficiently.
Chapter 13 Cluster This module is used to configure cluster function to central manage
the scattered devices in the network. Here mainly introduces:
z NDP: Configure NDP function to get the information of the directly
connected neighbor devices.
z NTDP: Configure NTDP function for the commander switch to
collect NDP information.
z Cluster: Configure cluster function to establish and maintain
cluster.
4
Chapter Introduction
Chapter 14 Maintenance This module is used to assemble the commonly used system tools
to manage the switch. Here mainly introduces:
z System Monitor: Monitor the memory and CPU of the switch.
z Log: View configuration parameters on the switch.
z Device Diagnose: Test the connection status of the cable
connected to the switch, test if the port of the switch and the
connected device are available.
z Network Diagnose: Test if the destination is reachable and the
account of router hops from the switch to the destination.
Appendix A Specifications Lists the hardware specifications of the switch.
Appendix B Configure the PCs Introduces how to configure the PCs.
Appendix C Load Software
Using FTP
Introduces how to load firmware of the switch via FTP function.
Appendix D 802.1X Client
Software
Introduces how to use 802.1X Client Software provided for
authentication.
Appendix E Glossary Lists the glossary used in this manual.
Return to CONTENTS
5
Chapter 2 Introduction
Thanks for choosing the TL-SG3210/TL-SG3216/TL-SG3424 JetStream L2 Managed Switch!
2.1 Overview of the Switch
Designed for workgroups and departments, TL-SG3210/TL-SG3216/TL-SG3424 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. ACL, 802.1x and Dynamic ARP Inspection provide robust security
strategy. QoS and IGMP snooping/filtering optimize voice and video application. Link aggregation
(LACP) increases aggregated bandwidth, optimizing the transport of business critical data. SNMP,
RMON, WEB/CLI/Telnet Log-in bring abundant management policies. TL-SG3210/TL-SG3216/
TL-SG3424 switch integrates multiple functions with excellent performance, and is friendly to
manage, which can fully meet the need of the users demanding higher networking performance.
2.2 Main Features
Resiliency and Availability
+ Link aggregation (LACP) increases aggregated bandwidth, optimizing the transport of
business critical data.
+ IEEE 802.1s Multiple Spanning Tree provides high link availability in multiple VLAN
environments.
+ Multicast snooping automatically prevents flooding of IP multicast traffic.
+ Root Guard protects root bridge from malicious attack or configuration mistakes
Layer 2 Switching
+ GVRP (GARP VLAN Registration Protocol) allows automatic learning and dynamic
assignment of VLANs.
+ Supports up to 4K VLANs simultaneously (out of 4K VLAN IDs).
Quality of Service
+ Supports L2/L3 granular CoS with 4 priority queues per port.
+ Rate limiting confines the traffic flow accurately according to the preset value.
Security
+ Supports multiple industry standard user authentication methods such as 802.1x, RADIUS.
+ Dynamic ARP Inspection blocks ARP packets from unauthorized hosts, preventing
man-in-the-middle attacks.
+ L2/L3/L4 Access Control Lists restrict untrusted access to the protected resource.
+ Provides SSHv1/v2, SSL 2.0/3.0 and TLS v1 for access encryption.
Manageability
+ IP Clustering provides high scalability and easy Single-IP-Management.
+ Supports Telnet, CLI, SNMP v1/v2c/v3, RMON and web access.
+ Port Mirroring enables monitoring selected ingress/egress traffic.
6
2.3 Appearance Description
2.3.1 Front Panel
Figure 2-1 Front Panel
The following parts are located on the front panel of the switch:
¾ 10/100/1000Mbps Ports: Designed to connect to the device with a bandwidth of 10Mbps,
100Mbps or 1000Mbps. Each has a corresponding 1000Mbps LED.
¾ SFP Ports: Designed to install the SFP module. TL-SG3216/TL-SG3424 switch features some
SFP transceiver slots that are shared with the associated RJ45 ports. The associated two ports
are referred to as “Combo” ports, which means they cannot be used simultaneously, otherwise
only SFP ports work. TL-SG3210 features two individual SFP ports.
Note:
For TL-SG3216/TL-SG3424 switch, when using the SFP port with a 100M module or a gigabit
module, you need to configure its corresponding Speed and Duplex mode on
SwitchingPortPort Config page. For 100M module, please select 100MFD while select
1000MFD for gigabit module. By default, the Speed and Duplex mode of SFP port is 1000MFD.
For TL-SG3210, it only supports 1000MFD mode.
¾ Console Port: Designed to connect with the serial port of a computer or terminal for monitoring
and configuring the switch.
¾ LEDs
Name Status Indication
On Power is on.
Flashing Power supply is abnormal.
Power
Off Power is off or power supply is abnormal.
On The switch is working abnormally.
Flashing The switch is working normally.
System
Off The switch is working abnormally.
On
A 1000Mbps device is connected to the corresponding
port.
1000Mbps
Off
A 10/100Mbps device or no device is connected to the
corresponding port.
On
A device is connected to the corresponding port, but not
activity.
Flashing Data is being transmitted or received.
Link/Act
Off No device is connected to the corresponding port.
7
2.3.2 Rear Panel
The rear panel of the switch features a power socket and a Grounding Terminal (marked with ).
Figure 2-2 Rear Panel
¾ Grounding Terminal: The switch already comes with Lightning Protection Mechanism. You
can also ground the switch through the PE (Protecting Earth) cable of AC cord or with Ground
Cable.
¾ AC Power Socket: Connect the female connector of the power cord here, and the male
connector to the AC power outlet. Please make sure the voltage of the power supply meets the
requirement of the input voltage (100-240V~ 50/60Hz 0.6A).
Return to CONTENTS
8
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. For the detailed instructions as to how to do this, please refer to Appendix B.
2) After a moment, a login window will appear, as shown in Figure 3-2. Enter admin for the User
Name and Password, both in lower case letters. Then click the Login button or press the Enter
key.
Figure 3-2 Login
3.2 Configuration
After a successful login, the main page will appear as Figure 3-3, and you can configure the
function by clicking the setup menu on the left side of the screen.
9
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 Saving
Config. You are suggested to click Saving Config before cutting off the power or rebooting the
switch to avoid losing the new configurations.
Return to CONTENTS
10
Chapter 4 System
The System module is mainly for system configuration of the switch, including four submenus:
System Info, User Manage, 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.
The port status diagram shows the working status of 16 10/100/1000Mbps RJ45 ports and 2 SFP
ports of the switch. Ports 1-14 and ports 15T-16T are 10/100/1000Mbps ports and ports 15T-16T
are Combo ports with SFP ports labeled as 15F-16F.
Choose the menu SystemSystem InfoSystem Summary to load the following page.
Figure 4-1 System Summary
¾ Port Status
Indicates the 1000Mbps port is not connected to a device.
Indicates the 1000Mbps port is at the speed of 1000Mbps.
Indicates the 1000Mbps port is at the speed of 10Mbps or 100Mbps.
11
Indicates the SFP port is not connected to a device.
Indicates the SFP port is at the speed of 1000Mbps.
Indicates the SFP port is at the speed of 100Mbps.
When the cursor moves on the port, the detailed information of the port will be displayed.
Figure 4-2 Port Information
¾ 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. Monitoring the bandwidth utilization on each port facilitates you to
monitor the network traffic and analyze the network abnormities.
Figure 4-3 Bandwidth Utilization
12
¾ Bandwidth Utilization
Rx: Select Rx to display the bandwidth utilization of receiving packets
on this port.
Tx: Select Tx to display the bandwidth utilization of sending packets
on this port.
4.1.2 Device Description
On this page you can configure the description of the switch, including device name, device location
and system contact.
Choose the menu SystemSystem InfoDevice Description to load the following page.
Figure 4-4 Device Description
The following entries are displayed on this screen:
¾ 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 like ACL.
You can manually set the system time, get time from NTP server automatically if it has connected to
a NTP server or synchronize with PC’s clock as the system time.
Choose the menu SystemSystem InfoSystem Time to load the following page.
13
Figure 4-5 System Time
The following entries are displayed on this screen:
¾ Time Info
Current System
Date:
Displays the current date and time of the switch.
Current Time
Source:
Displays the current time Source of the switch.
¾ Time Config
Manual: When this option is selected, you can set the date and time
manually.
Get time from NTP
Server:
When this option is selected, you can configure the time zone and
the IP Address for the NTP server. The switch will get time from
NTP server automatically if it has connected to a NTP server.
z Time Zone: Select your local time.
z Primary/Secondary NTP Server: Enter the IP Address for the
NTP server.
z Update Rate: Specify the rate fetching time from NTP server.
Synchronize with
PC’S Clock:
When this option is selected, the administrator PC’s clock is
utilized.
Note:
1. The system time will be restored to the default when the switch is restarted and you need
reconfigure the system time of the switch.
2. When Get time from NTP Server is selected and no time server is configured, the switch will
get time from the time server of the Internet if it has connected to the Internet.
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4.1.4 Daylight Saving Time
Here you can configure the Daylight Saving Time of the switch.
Choose the menu SystemSystem InfoDaylight Saving Time to load the following page.
Figure 4-6 Daylight Saving Time
The following entries are displayed on this screen:
¾ DST Config
DST Status: Enable or disable the DST.
Predefined Mode: Select a predefined DST configuration.
z USA: First Sunday in April, 02:00 ~ Last Sunday in October,
02:00.
z Australia: First Sunday in October, 02:00 ~ First Sunday in
April, 03:00.
z European: Last Sunday in March, 01:00 ~ Last Sunday in
October, 01:00.
z New Zealand: First Sunday in October, 02:00 ~ Last Sunday
in March, 03:00.
Recurring Mode: Specify the DST configuration in recurring mode. This
configuration is recurring in use.
z Offset: Specify the time adding in minutes when Daylight
Saving Time comes.
z Start/End Time: Select starting time and ending time of
Daylight Saving Time.
15
Date Mode: Specify the DST configuration in Date mode. This configuration is
one-off in use.
z Offset: Specify the time adding in minutes when Daylight
Saving Time comes.
z Start/End Time: Select starting time and ending time of
Daylight Saving Time.
Note:
1. When disable the DST, the predefined mode, recurring mode and date mode cannot be
configured.
2. When enable the DST, the default daylight saving time is of European in predefined mode.
4.1.5 System IP
Each device in the network possesses a unique IP Address. You can log on to the Web
management page to operate the switch using this IP Address. The switch supports three modes
to obtain an IP address: Static IP, DHCP and BOOTP. The IP address obtained using a new mode
will replace the original IP address. On this page you can configure the system IP of the switch.
Choose the menu SystemSystem InfoSystem IP to load the following page.
Figure 4-7 System IP
The following entries are displayed on this screen:
¾ IP Config
MAC Address: Displays MAC Address of the switch.
IP Address Mode: Select the mode to obtain IP Address for the switch.
z Static IP: When this option is selected, you should enter IP
Address, Subnet Mask and Default Gateway manually.
z DHCP: When this option is selected, the switch will obtain
network parameters from the DHCP Server.
z BOOTP: When this option is selected, the switch will obtain
network parameters from the BOOTP Server.
IP Address: Enter the system IP of the switch. The default system IP is
192.168.0.1 and you can change it appropriate to your needs.
16
Subnet Mask: Enter the subnet mask of the switch.
Default Gateway: Enter the default gateway of the switch.
Note:
1. Changing the IP address to a different IP segment will interrupt the network communication,
so please keep the new IP address in the same IP segment with the local network.
2. The switch only possesses an IP address. The IP address configured will replace the original
IP address.
3. If the switch gets the IP address from DHCP server, you can see the configuration of the
switch in the DHCP server; if DHCP option is selected but no DHCP server exists in the
network, a few minutes later, the switch will restore the setting to the default.
4. If DHCP or BOOTP option is selected, the switch will gets network parameters dynamically
from the Internet, so IP address, subnet mask and default gateway can not be configured.
5. By default, the default IP address is 192.168.0.1.
4.2 User Manage
User Manage functions to configure the user name and password for users to log on to the Web
management page with a certain access level so as to protect the settings of the switch from being
randomly changed.
The User Manage function can be implemented on User Table and User Config pages.
4.2.1 User Table
On this page you can view the information about the current users of the switch.
Choose the menu SystemUser ManageUser Table to load the following page.
Figure 4-8 User Table
4.2.2 User Config
On this page you can configure the access level of the user to log on to the Web management
page. The switch provides two access levels: Guest and Admin. The guest only can view the
settings without the right to configure the switch; the admin can configure all the functions of the
switch. The Web management pages contained in this guide are subject to the admin’s login without any
explanation.
Choose the menu SystemUser ManageUser Config to load the following page.
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Figure 4-9 User Config
The following entries are displayed on this screen:
¾ User Info
User Name: Create a name for users’ login.
Access Level: Select the access level to login.
z Admin: Admin can edit, modify and view all the settings of
different functions.
z Guest: Guest only can view the settings without the right to edit
and modify.
User Status: Select Enable/Disable the user configuration.
Password: Type a password for users’ login.
Confirm Password: Retype the password.
¾ User Table
Select: Select the desired entry to delete the corresponding user
information. It is multi-optional The current user information can’t
be deleted.
User ID, Name,
Access Level and
status:
Displays the current user ID, user name, access level and user
status.
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.
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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.
4.3.1 Config Restore
On this page you can upload a backup configuration file to restore your switch to this previous
configuration.
Choose the menu SystemSystem ToolsConfig Restore to load the following page.
Figure 4-10 Config Restore
The following entries are displayed on this screen:
¾ Config Restore
Restore Config: Click the Restore Config button to restore the backup
configuration file. It will take effect after the switch automatically
reboots.
Note:
1. It will take a few minutes to restore the configuration. Please wait without any operation.
2. To avoid any damage, please don’t power down the switch while being restored.
3. After being restored, the current settings of the switch will be lost. Wrong uploaded
configuration file may cause the switch unmanaged.
4.3.2 Config Backup
On this page you can download the current configuration and save it as a file to your computer for
your future configuration restore.
Choose the menu SystemSystem ToolsConfig Backup to load the following page.
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Figure 4-11 Config Backup
The following entries are displayed on this screen:
¾ 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. To upgrade the system is to
get more functions and better performance. Go to http:// www.tp-link.com to download the updated
firmware.
Choose the menu SystemSystem ToolsFirmware Upgrade to load the following page.
Figure 4-12 Firmware Upgrade
Note:
1. Don’t interrupt the upgrade.
2. Please select the proper software version matching with your hardware to upgrade.
3. To avoid damage, please don't turn off the device while upgrading.
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4. After upgrading, the device will reboot automatically.
5. You are suggested to backup the configuration before upgrading.
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 SystemSystem ToolsSystem 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.
Choose the menu SystemSystem ToolsSystem Reset to load the following page.
Figure 4-14 System Reset
Note:
After the system is reset, the switch will be reset to the default and all the settings will be cleared.
4.4 Access Security
Access Security provides different security measures for the remote login so as to enhance the
configuration management security. It can be implemented on Access Control, SSL Config and
SSH Config pages.
4.4.1 Access Control
On this page you can control the users logging on to the Web management page to enhance the
configuration management security. The definitions of Admin and Guest refer to 4.2 User Manage
.
Choose the menu SystemAccess SecurityAccess Control to load the following page.
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Figure 4-15 Access Control
The following entries are displayed on this screen:
¾ Access Control Config
Control Mode: Select the control mode for users to log on to the Web
management page.
z IP-based: Select this option to limit the IP-range of the users for
login.
z MAC-based: Select this option to limit the MAC Address of the
users for login.
z Port-based: Select this option to limit the ports for login.
IP Address&Mask These fields can be available for configuration only when IP-based
mode is selected. Only the users within the IP-range you set here
is allowed for login.
MAC Address: The field can be available for configuration only when MAC-based
mode is selected. Only the user with this MAC Address you set
here is allowed for login.
Port: The field can be available for configuration only when Port-based
mode is selected. Only the users connected to these ports you set
here is allowed for login.
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¾ 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.
¾ 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.
4.4.2 SSL Config
SSL (Secure Sockets Layer), a security protocol, is to provide a secure connection for the
application layer protocol (e.g. HTTP) communication based on TCP. SSL is widely used to secure
the data transmission between the Web browser and servers. It is mainly applied through
ecommerce and online banking.
SSL mainly provides the following services:
1. Authenticate the users and the servers based on the certificates to ensure the data are
transmitted to the correct users and servers;
2. Encrypt the data transmission to prevent the data being intercepted;
3. Maintain the integrality of the data to prevent the data being altered in the transmission.
Adopting asymmetrical encryption technology, SSL uses key pair to encrypt/decrypt information. A
key pair refers to a public key (contained in the certificate) and its corresponding private key. By
default the switch has a certificate (self-signed certificate) and a corresponding private key. The
Certificate/Key Download function enables the user to replace the default key pair.
After SSL is effective, you can log on to the Web management page via https://192.168.0.1
. For
the first time you use HTTPS connection to log into the switch with the default certificate, you will
be prompted that “The security certificate presented by this website was not issued by a trusted
certificate authority” or “Certificate Errors”. Please add this certificate to trusted certificates or
continue to this website.
On this page you can configure the SSL function.
Choose the menu SystemAccess SecuritySSL Config to load the following page.
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Figure 4-16 SSL Config
The following entries are displayed on this screen:
¾ Global Config
SSL: Select Enable/Disable the SSL function on the switch.
¾ Certificate Download
Certificate File: Select the desired certificate to download to the switch. The
certificate must be BASE64 encoded.
¾ Key Download
Key File: Select the desired SSL Key to download to the switch. The key
must be BASE64 encoded.
Note:
1. The SSL certificate and key downloaded must match each other; otherwise the HTTPS
connection will not work.
2. The SSL certificate and key downloaded will not take effect until the switch is rebooted.
3. To establish a secured connection using https, please enter https:// into the URL field of the
browser.
4. It may take more time for https connection than that for http connection, because https
connection involves authentication, encryption and decryption etc.
4.4.3 SSH Config
As stipulated by IETF (Internet Engineering Task Force), SSH (Secure Shell) is a security protocol
established on application and transport layers. SSH-encrypted-connection is similar to a telnet
connection, but essentially the old telnet remote management method is not safe, because the
password and data transmitted with plain-text can be easily intercepted. SSH can provide
information security and powerful authentication when you log on to the switch remotely through
24
an insecure network environment. It can encrypt all the transmission data and prevent the
information in a remote management being leaked.
Comprising server and client, SSH has two versions, V1 and V2 which are not compatible with
each other. In the communication, SSH server and client can auto-negotiate the SSH version and
the encryption algorithm. After getting a successful negotiation, the client sends authentication
request to the server for login, and then the two can communicate with each other after successful
authentication. This switch supports SSH server and you can log on to the switch via SSH
connection using SSH client software.
SSH key can be downloaded into the switch. If the key is successfully downloaded, the certificate
authentication will be preferred for SSH access to the switch.
Choose the menu SystemAccess SecuritySSH Config to load the following page.
Figure 4-17 SSH Config
The following entries are displayed on this screen:
¾ Global Config
SSH: Select Enable/Disable SSH function.
Protocol V1: Select Enable/Disable SSH V1 to be the supported protocol.
Protocol V2: Select Enable/Disable SSH V2 to be the supported protocol.
Idle Timeout: Specify the idle timeout time. The system will automatically
release the connection when the time is up. The default time is
500 seconds.
Max Connect: Specify the maximum number of the connections to the SSH
server. No new connection will be established when the number of
the connections reaches the maximum number you set. The
default value is 5.
25
¾ Key Download
Key Type: Select the type of SSH Key to download. The switch supports
three types: SSH-1 RSA, SSH-2 RSA and SSH-2 DSA.
Key File: Select the desired key file to download.
Download: Click the Download button to download the desired key file to the
switch.
Note:
1. Please ensure the key length of the downloaded file is in the range of 256 to 3072 bits.
2. After the Key File is downloaded, the user’s original key of the same type will be replaced.
The wrong uploaded file will result in the SSH access to the switch via Password
authentication.
Application Example 1 for SSH:
¾ Network Requirements
1. Log on to the switch via password authentication using SSH and the SSH function is enabled
on the switch.
2. PuTTY client software is recommended.
¾ Configuration Procedure
1. Open the software to log on to the interface of PuTTY. Enter the IP address of the switch into
Host Name field; keep the default value 22 in the Port field; select SSH as the Connection
type.
2. Click the Open button in the above figure to log on to the switch. Enter the login user name and
password, and then you can continue to configure the switch.
26
Application Example 2 for SSH:
¾ Network Requirements
1. Log on to the switch via password authentication using SSH and the SSH function is enabled
on the switch.
2. PuTTY client software is recommended.
¾ Configuration Procedure
1. Select the key type and key length, and generate SSH key.
Note:
1. The key length is in the range of 256 to 3072 bits.
2. During the key generation, randomly moving the mouse quickly can accelerate the key
generation.
2. After the key is successfully generated, please save the public key and private key to the
computer.
27
3. On the Web management page of the switch, download the public key file saved in the
computer to the switch.
Note:
1. The key type should accord with the type of the key file.
2. The SSH key downloading can not be interrupted.
4. Download the private key file to SSH client software.
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5. After the public key and private key are downloaded, please log on to the interface of PuTTY
and enter the IP address for login.
After successful authentication, please enter the login user name. If you log on to the switch
without entering password, it indicates that the key has been successfully downloaded.
Return to CONTENTS
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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, Port Isolation and Loopback detection 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. Disabling the port which is vacant for a long time can reduce
the power consumption effectively. And you can enable the port when it is in need.
The parameters will affect the working mode of the port, please set the parameters appropriate to
your needs.
Choose the menu SwitchingPortPort Config to load the following page.
Figure 5-1 Port Config
Here you can view and configure the port parameters.
The following entries are displayed on this screen.
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 configuration. It is multi-optional.
30
Port: Displays the port number.
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.
Flow Control: Allows you to Enable/Disable the Flow Control feature. When
Flow Control is enabled, the switch can synchronize the speed
with its peer to avoid the packet loss caused by congestion.
LAG: Displays the LAG number which the port belongs to.
Note:
1. The switch can not be managed through the disabled port. Please enable the port which is
used to manage the switch.
2. The parameters of the port members in a LAG should be set as the same.
3. For TL-SG3216/TL-SG3424, when using the SFP port with a 100M module or a gigabit
module, you need to configure its corresponding Speed and Duplex mode. For 100M
module, please select 100MFD while select 1000MFD for gigabit module. By default, the
Speed and Duplex mode of SFP port is 1000MFD. For TL-SG3210, it only supports
1000MFD mode.
5.1.2 Port Mirror
Port Mirror, the packets obtaining technology, functions to forward copies of packets from
one/multiple ports (mirrored port) to a specific port (mirroring port). Usually, the mirroring port is
connected to a data diagnose device, which is used to analyze the mirrored packets for monitoring
and troubleshooting the network.
Choose the menu SwitchingPortPort Mirror to load the following page.
31
Figure 5-2 Mirroring Port
The following entries are displayed on this screen.
¾ 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.
32
Figure 5-3 Mirroring Port
The following entries are displayed on this screen.
¾ Mirror Group
Number: Select the mirror group number you want to configure.
¾ Mirroring Port
Mirroring Port: Select the mirroring port number.
¾ 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.
33
Egress: Select Enable/Disable the Egress feature. When the Egress is
enabled, the outgoing packets sent by the mirrored port will be
copied to the mirroring port.
LAG: Displays the LAG number which the port belongs to. The LAG
member can not be selected as the mirrored port or mirroring
port.
Note:
1. The LAG member can not be selected as the mirrored port or mirroring port.
2. A port can not be set as the mirrored port and the mirroring port simultaneously.
3. The Port Mirror function can take effect span the multiple VLANs.
5.1.3 Port Security
MAC Address Table maintains the mapping relationship between the port and the MAC address of
the connected device, which is the base of the packet forwarding. The capacity of MAC Address
Table is fixed. MAC Address Attack is the attack method that the attacker takes to obtain the
network information illegally. The attacker uses tools to generate the cheating MAC address and
quickly occupy the MAC Address Table. When the MAC Address Table is full, the switch will
broadcast the packets to all the ports. At this moment, the attacker can obtain the network
information via various sniffers and attacks. When the MAC Address Table is full, the packets
traffic will flood to all the ports, which results in overload, lower speed, packets drop and even
breakdown of the system.
Port Security is to protect the switch from the malicious MAC Address Attack by limiting the
maximum number of MAC addresses that can be learned on the port. The port with Port Security
feature enabled will learn the MAC address dynamically. When the learned MAC address number
reaches the maximum, the port will stop learning. Thereafter, the other devices with the MAC
address unlearned can not access to the network via this port.
Choose the menu SwitchingPortPort Security to load the following page.
34
Figure 5-4 Port Security
The following entries are displayed on this screen:
¾ 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.
Dynamic: When Dynamic mode is selected, the learned
MAC address will be deleted automatically after the aging
time.
Static: When Static mode is selected, the learned MAC
address will be out of the influence of the aging time and
can only be deleted manually. The learned entries will be
cleared after the switch is rebooted.
Permanent: When Permanent mode is selected, the
learned MAC address will be out of the influence of the
aging time and can only be deleted manually. The learned
entries will be saved even the switch is rebooted.
Status: Select Enable/Disable the Port Security feature for the port.
35
Note:
1. 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.
2. The Port Security function is disabled when the 802.1X function is enabled.
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 SwitchingPortPort Isolation to load the following page.
Figure 5-5 Port Isolation Config
The following entries are displayed on this screen:
¾ Port Isolation Config
Port: Select the port number to set its Forward Portlist.
Forward Portlist: Select the port that to be forwarded to.
36
¾ Port Isolation List
Port: Display the port number.
Forward Portlist: Display the Forward Portlist.
5.1.5 Loopback Detection
With loopback detection feature enabled, the switch can detect loops using loopback detection
packets. When a loop is detected, the switch will display an alert or further block the corresponding
port according to the port configuration.
Choose the menu “SwitchingPortLoopbackDetection” to load the following page.
Figure 5-1 Loopback Detection Config
The following entries are displayed on this screen:
37
¾ Global Config
LoopbackDetection
Status:
Here you can enable or disable Loopback Detection function
globally.
Detection Interval: Set a Loopback Detection interval between 1 and 1000 seconds.
By default, it’s 30 seconds.
Automatic Recovery
Time:
Time after which the blocked port would automatically recover to
normal status. It can be set as integral times of detection interval.
Web Refresh Status: Here you can enable or disable web automatic refresh.
Web Refresh
Interval:
Set a web refresh interval between 3 and 100 seconds. By default,
it’s 6 seconds.
¾ 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 Loopback Detection configuration. It is
multi-optional.
Port Displays the port number.
Status Enable or disable Loopback Detection function for the port.
Operation Mode Select the mode how the switch processes the detected loops.
z Alert: When a loop is detected, display an alert.
z Port based: When a loop is detected, display an alert and
block the port.
Recovery Mode Select the mode how the blocked port recovers to normal status.
z Auto: Block status can be automatically removed after
recovery time.
z Manual: Block status only can be removed manually.
Loop Status Displays the port status whether a loopback is detected.
Block Status Displays the port status about block or unblock.
LAG Displays the LAG number the port belongs to.
Manual Recover Manually remove the block status of selected ports.
Note:
1. Recovery Mode is not selectable when Alert is chosen in Operation Mode.
2. Loopback Detection must coordinate with storm control.
5.2 LAG
LAG (Link Aggregation Group) is to combine a number of ports together to make a single
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, GVRP, VLAN, port attributes, MAC Address Learning
mode and other associated settings. The further explains are following:
38
z If the ports, which are enabled for the GVRP, 802.1Q VLAN, Voice VLAN, STP, QoS, DHCP
Snooping and Port Configuration (Speed and Duplex, Flow Control), are in a LAG, their
configurations should be the same.
z The ports, which are enabled for the Port Security, Port Mirror, MAC Address Filtering,
Static MAC Address Binding and 802.1X Authentication, can not be added to the LAG.
z It’s not suggested to add the ports with ARP Inspection and DoS Defend enabled to the
LAG.
If the LAG is needed, you are suggested to configure the LAG function here before configuring the
other functions for the member ports.
Tips:
1. Calculate the bandwidth for a LAG: If a LAG consists of the four ports in the speed of
1000Mbps Full Duplex, the whole bandwidth of the LAG is up to 8000Mbps (2000Mbps * 4)
because the bandwidth of each member port is 2000Mbps counting the up-linked speed of
1000Mbps and the down-linked speed of 1000Mbps.
2. The traffic load of the LAG will be balanced among the ports according to the Aggregate
Arithmetic. If the connections of one or several ports are broken, the traffic of these ports will
be transmitted on the normal ports, so as to guarantee the connection reliability.
Depending on different aggregation modes, aggregation groups fall into two types: Static LAG
and LACP Config. The LAG function is implemented on the LAG Table, Static LAG and LACP
Config configuration pages.
5.2.1 LAG Table
On this page, you can view the information of the current LAG of the switch.
Choose the menu SwitchingLAGLAG Table to load the following page.
Figure 5-6 LAG Table
The following entries are displayed on this screen:
¾ Global Config
Aggregate Arithmetic: Select the applied scope of Aggregate Arithmetic, which
results in choosing a port to transfer the packets.
39
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.
¾ LAG Table
Select: Select the desired LAG. It is multi-optional.
Group Number: Displays the LAG number here.
Description: Displays the description of LAG.
Member: Displays the LAG member.
Operation: Allows you to view or modify the information for each LAG.
Edit: Click to modify the settings of the LAG.
Detail: Click to get the information of the LAG.
Click the Detail button for the detailed information of your selected LAG.
Figure 5-7 Detail Information
5.2.2 Static LAG
On this page, you can manually configure the LAG. The LACP feature is disabled for the member
ports of the manually added Static LAG.
Choose the menu SwitchingLAGStatic LAG to load the following page.
40
Figure 5-8 Static LAG Config
The following entries are displayed on this screen:
¾ LAG Config
Group Number: Select a Group Number for the LAG.
Description: Give a description to the LAG for identification.
¾ LAG Table
Member Port: Select the port as the LAG member. Clearing all the ports o
f
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. If a port is the member of a LAG or is dynamically
aggregated as the LACP member, the port number will be displayed in gray and can not be
selected.
5.2.3 LACP Config
LACP (Link Aggregation Control Protocol) is defined in IEEE802.3ad and enables the dynamic link
aggregation and disaggregation by exchanging LACP packets with its partner. The switch can
dynamically group similarly configured ports into a single logical link, which will highly extend the
bandwidth and flexibly balance the load.
With the LACP feature enabled, the port will notify its partner of the system priority, system MAC,
port priority, port number and operation key (operation key is determined by the physical
properties of the port, upper layer protocol and admin key). The device with higher priority will lead
the aggregation and disaggregation. System priority and system MAC decide the priority of the
device. The smaller the system priority, the higher the priority of the device is. With the same
system priority, the device owning the smaller system MAC has the higher priority. The device with
the higher priority will choose the ports to be aggregated based on the port priority, port number
and operation key. Only the ports with the same operation key can be selected into an aggregation
group. In an aggregation group, the port with smaller port priority will be considered as the
41
preferred one. If the two port priorities are equal; the port with smaller port number is preferred.
After an aggregation group is established, the selected ports can be aggregated together as one
port to transmit packets.
On this page, you can configure the LACP feature of the switch.
Choose the menu SwitchingLAGLACP Config to load the following page.
Figure 5-9 LACP Config
The following entries are displayed on this screen:
¾ Global Config
System Priority: Specify the system priority for the switch. The system priority and
MAC address constitute the system identification (ID). A lower system
priority value indicates a higher system priority. When exchanging
information between systems, the system with higher priority
determines which link aggregation a link belongs to, and the system
with lower priority adds the proper links to the link aggregation
according to the selection of its partner.
¾ LACP Config
Port Select: Click the Select button to quick-select the corresponding port based
on the port number you entered.
42
Select: Select the desired port for LACP configuration. It is multi-optional.
Port: Displays the port number.
Admin Key: Specify an Admin Key for the port. The member ports in a dynamic
aggregation group must have the same Admin Key.
Port Priority: Specify a Port Priority for the port. This value determines the priority
of the port to be selected as the dynamic aggregation group
member. The port with smaller Port Priority will be considered as the
preferred one. If the two port priorities are equal; the port with
smaller port number is preferred.
Status: Enable/Disable the LACP feature for your selected port.
LAG: Displays the LAG number which the port belongs to.
5.3 Traffic Monitor
The Traffic Monitor function, monitoring the traffic of each port, is implemented on the Traffic
Summary and Traffic Statistics pages.
5.3.1 Traffic Summary
Traffic Summary screen displays the traffic information of each port, which facilitates you to
monitor the traffic and analyze the network abnormity.
Choose the menu SwitchingTraffic MonitorTraffic Summary to load the following page.
Figure 5-10 Traffic Summary
43
The following entries are displayed on this screen:
¾ 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.
¾ 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. The erro
r
packets are not counted in.
Packets Tx: Displays the number of packets transmitted on the port.
Octets Rx: Displays the number of octets received on the port. The error octets
are counted in.
Octets Tx: Displays the number of octets transmitted on the port.
Statistics: Click the Statistics button to view the detailed traffic statistics of 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 SwitchingTraffic MonitorTraffic Statistics to load the following page.
44
Figure 5-11 Traffic Statistics
The following entries are displayed on this screen:
¾ 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.
¾ Statistics
Port: Enter a port number and click the Select button to view the traffic
statistics of the corresponding port.
Received: Displays the details of the packets received on the port.
Sent: Displays the details of the packets transmitted on the port.
Broadcast: Displays the number of good broadcast packets received or
transmitted on the port. The error frames are not counted in.
Multicast: Displays the number of good multicast packets received or
transmitted on the port. The error frames are not counted in.
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
45
(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.
Pkts64Octets: Displays the number of the received packets (including error
packets) that are 64 bytes long.
Pkts65to127Octets: Displays the number of the received packets (including error
packets) that are between 65 and 127 bytes long.
Pkts128to255Octets: Displays the number of the received packets (including error
packets) that are between 128 and 255 bytes long.
Pkts256to511Octets: Displays the number of the received packets (including error
packets) that are between 256 and 511 bytes long.
Pkts512to1023Octets: Displays the number of the received packets (including error
packets) that are between 512 and 1023 bytes long.
PktsOver1023Octets: Displays the number of the received packets (including error
packets) that are over 1023 bytes.
Collisions: Displays the number of collisions experienced by a port during
packet transmissions.
5.4 MAC Address
The main function of the switch is forwarding the packets to the correct ports based on the
destination MAC address of the packets. Address Table contains the port-based MAC address
information, which is the base for the switch to forward packets quickly. The entries in the Address
Table can be updated by auto-learning or configured manually. Most the entries are generated and
updated by auto-learning. In the stable networks, the static MAC address entries can enhance the
efficiency of packets forwarding remarkably, and the address filtering feature allows the switch to
filter the undesired packets and forbid its forwarding so as to improve the network security.
The types and the features of the MAC Address Table are listed as the following:
Type Configuration Way Aging out
after
reboot
Relationship between the address
and the port
Static Manually binding No Being kept The MAC address can not be learned
by the other ports in the same VLAN.
Dynamic Auto-learning Yes Clear The MAC address can be learned by
the other ports in the same VLAN.
Filtering Manually binding No Being kept -
Table 5-1 Types and features of Address Table
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 SwitchingMAC AddressAddress Table to load the following page.
46
VLAN ID: Displays the corresponding VLAN ID of the MAC address.
Port: Displays the corresponding Port number of the MAC address.
Type: Displays the Type of the MAC address.
Aging Status: Displays the Aging status of the MAC address.
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.
Choose the menu SwitchingMAC AddressStatic Address to load the following page.
Figure 5-13 Static Address
The following entries are displayed on this screen:
¾ Create Static Address
MAC Address: Enter the static MAC Address to be bound.
VLAN ID: Enter the corresponding VLAN ID of the MAC address.
Port: Select a port from the pull-down list to be bound.
¾ Search Option
Search Option: Select a Search Option from the pull-down list and click the Search
48
¾ Dynamic Address Table
Select: Select the entry to delete the dynamic address or to bind the MAC
address to the corresponding port statically. It is multi-optional.
MAC Address: Displays the dynamic MAC Address.
VLAN ID: Displays the corresponding VLAN ID of the MAC address.
Port: Displays the corresponding port number of the MAC address.
Type: Displays the Type of the MAC address.
Aging Status: Displays the Aging Status of the MAC address.
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. If the aging time
is too short, the switch may remove valid MAC address entries. This decreases the forwarding
performance of the switch. It is recommended to keep the default value.
5.4.4 Filtering Address
The filtering address is to forbid the undesired packets to be forwarded. The filtering address can
be added or removed manually, independent of the aging time. The filtering MAC address allows
the switch to filter the packets which includes this MAC address as the source address or
destination address, so as to guarantee the network security. The filtering MAC address entries
act on all the ports in the corresponding VLAN.
Choose the menu SwitchingMAC AddressFiltering Address to load the following page.
51
Figure 5-15 Filtering Address
The following entries are displayed on this screen:
¾ Create Filtering Address
MAC Address: Enter the MAC Address to be filtered.
VLAN ID: Enter the corresponding VLAN ID of the MAC address.
¾ Search Option
Search Option: Select a Search Option from the pull-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.
¾ 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.
Port: Here the symbol “__” indicates no specified port.
Type: Displays the Type of the MAC address.
Aging Status: Displays the Aging Status of the MAC address.
52
Note:
1. The MAC address in the Filtering Address Table can not be added to the Static Address Table
or bound to a port dynamically.
2. This MAC address filtering function is not available if the 802.1X feature is enabled.
Return to CONTENTS
53
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. Though connecting the LANs through
switches can avoid the serious collision, the flooding broadcasts cannot be prevented, which will
occupy plenty of bandwidth resources, causing potential serious security problems.
A Virtual Local Area Network (VLAN) is a network topology configured according to a logical
scheme rather than the physical layout. The VLAN technology is developed for switches to control
broadcast in LANs. By creating VLANs in a physical LAN, you can divide the LAN into multiple
logical LANs, each of which has a broadcast domain of its own. Hosts in the same VLAN
communicate with one another as if they are in a LAN. However, hosts in different VLANs cannot
communicate with one another directly. Therefore, broadcast packets are limited in a VLAN. Hosts
in the same VLAN communicate with one another via Ethernet whereas hosts in different VLANs
communicate with one another through the Internet devices such as router, the Lay3 switch, etc.
The following figure illustrates a VLAN implementation.
Figure 6-1 VLAN implementation
Compared with the traditional Ethernet, VLAN enjoys the following advantages.
1 Broadcasts are confined to VLANs. This decreases bandwidth utilization and improves
network performance.
2 Network security is improved. VLANs cannot communicate with one another directly. That
is, a host in a VLAN cannot access resources in another VLAN directly, unless routers or
Layer 3 switches are used.
3 Network configuration workload for the host is reduced. VLAN can be used to group
specific hosts. When the physical position of a host changes within the range of the VLAN,
you need not change its network configuration.
A VLAN can span across multiple switches, or even routers. This enables hosts in a VLAN to be
dispersed in a looser way. That is, hosts in a VLAN can belong to different physical network
segments. This switch supports three ways, namely, 802.1Q VLAN, MAC VLAN and Protocol
VLAN, to classify VLANs. VLAN tags in the packets are necessary for the switch to identify
54
is TAG. The TRUNK port is generally used to connect the
cascaded network devices for it
can receive and forward the packets of multiple VLANs. When the packets are forwarded
by the TRUNK port, its VLAN tag will not be changed.
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.
¾ PVID
PVID (Port Vlan ID) is the default VID of the port. When the switch receives an untagged packet, it
will add a VLAN tag to the packet according to the PVID of its received port and forward the
packets.
When creating VLANs, the PVID of each port, indicating the default VLAN to which the port
belongs, is an important parameter with the following two purposes:
1 When the switch receives an untagged packet, it will add a VLAN tag to the packet
according to the PVID of its received port
2 PVID determines the default broadcast domain of the port, i.e. when the port receives UL
packets or broadcast packets, the port will broadcast the packets in its default VLAN.
Different packets, tagged or untagged, will be processed in different ways, after being received by
ports of different link types, which is illustrated in the following table.
Receiving Packets
Port Type
Untagged Packets Tagged Packets
Forwarding Packets
Access
If the VID of packet is
the same as the PVID
of the port, the packet
will be received.
If the VID of packet is
not the same as the
PVID of the port, the
packet will be dropped.
The packet will be
forwarded after removing its
VLAN tag.
Trunk
The packet will be
forwarded with its current
VLAN tag.
General
When untagged
packets are
received, the port
will add the default
VLAN tag, i.e. the
PVID of the ingress
port, to the packets.
If the VID of packet is
allowed by the port, the
packet will be received.
If the VID of packet is
forbidden by the port,
the packet will be
dropped.
If the egress rule of port is
TAG, the packet will be
forwarded with its current
VLAN tag.
If the egress rule of port is
UNTAG, the packet will be
forwarded after removing its
VLAN tag.
Table 6-1 Relationship between Port Types and VLAN Packets Processing
IEEE 802.1Q VLAN function is implemented on the VLAN Config and Port Config pages.
56
6.1.1 VLAN Config
On this page, you can view the current created 802.1Q VLAN.
Choose the menu VLAN802.1Q VLANVLAN 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 cannot be modified or deleted.
The following entries are displayed on this screen:
¾ VLAN Table
VLAN ID Select
Click the Select button to quick-select the corresponding entry
based on the VLAN ID number you entered.
Select
Select the desired entry to delete the corresponding VLAN. It is
multi-optional.
VLAN ID
Displays the ID number of VLAN.
Description
Displays the user-defined description of VLAN.
Members
Displays the port members in the VLAN.
Operation
Allows you to view or modify the information for each entry.
Edit: Click to modify the settings of VLAN.
Detail: Click to get the information of VLAN.
Click Edit button to modify the settings of the corresponding VLAN. Click Create button to create a
new VLAN.
57
Figure 6-4 Create or Modify 802.1Q VLAN
The following entries are displayed on this screen:
¾ 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.
¾ 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.
It's multi-optional.
Port: Displays the port number.
Link Type: Displays the Link Type of the port. It can be reset on Port Config
screen.
58
Egress Rule: 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.
LAG: 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 VLAN802.1Q VLANPort Config to load the following page.
Figure 6-5 802.1Q VLAN – Port Config
The following entries are displayed on this screen:
¾ VLAN Port Config
Port Select: Click the Select button to quick-select the corresponding entry
based on the port number you entered.
Select:
Select the desired port for configuration. It is multi-optional.
Port:
Displays the port number.
59
Link Type:
Select the Link Type from the pull-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.
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: Enter the PVID number of the port.
LAG: Displays the LAG to which the port belongs.
VLAN: Click the Detail button to view the information of the VLAN to
which the port belongs.
Click the Detail button to view the information of the corresponding VLAN
Figure 6-6 View the Current VLAN of Port
The following entries are displayed on this screen:
¾ VLAN of Port
VLAN ID Select:
Click the Select button to quick-select the corresponding entry
based on the VLAN ID number you entered.
VLAN ID
Displays the ID number of VLAN.
VLAN Name:
Displays the user-defined description of VLAN.
Operation:
Allows you to remove the port from the current VLAN.
Configuration Procedure:
Step Operation Description
1 Set the link type for
port.
Required. On the VLAN802.1Q VLANPort Config page, set
the link type for the port based on its connected device.
2 Create VLAN. Required. On the VLAN802.1Q VLANVLAN 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.
60
3 Modify/View VLAN. Optional. On the VLAN802.1Q VLANVLAN Config page,
click the Edit/Detail button to modify/view the information of the
corresponding VLAN.
4 Delete VLAN Optional. On the VLAN802.1Q VLANVLAN Config page,
select the desired entry to delete the corresponding VLAN by
clicking the Delete button.
6.2 MAC VLAN
MAC VLAN technology is the way to classify VLANs according to the MAC addresses of Hosts. A
MAC address corresponds to a single VLAN ID. For the device in a MAC VLAN, if its MAC address
is bound to VLAN, the device can be connected to another member port in this VLAN and still
takes its member role effect without changing the configuration of VLAN members.
The packet in MAC VLAN is processed in the following way:
1. When receiving an untagged packet, the switch matches the packet with the current MAC
VLAN. If the packet is matched, the switch will add a corresponding MAC VLAN tag to it. If no
MAC VLAN is matched, the switch will add a tag to the packet according to the PVID of the
received port. Thus, the packet is assigned automatically to the corresponding VLAN for
transmission.
2. When receiving tagged packet, the switch will process it based on the 802.1Q VLAN. If the
received port is the member of the VLAN to which the tagged packet belongs, the packet will
be forwarded normally. Otherwise, the packet will be discarded.
3. If the MAC address of a Host is classified into 802.1Q VLAN, please set its connected port of
switch to be a member of this 802.1Q VLAN so as to ensure the packets forwarded normally.
On this page, you can create MAC VLAN and view the current MAC VLANs in the table.
Choose the menu VLANMAC VLAN to load the following page.
Figure 6-7 Create and View MAC VLAN
The following entries are displayed on this screen:
¾ VLAN Table
61
¾ Encapsulation Format of Ethernet Data
This section simply introduces the common used encapsulation format of Ethernet data to
understand the procedure for the switch to identify the protocol of packets. At present there are
two encapsulation formats of Ethernet data, Ethernet II encapsulation and 802.2/802.3
encapsulation, shown as follows:
z Ethernet II encapsulation
z 802.2/802.3 encapsulation
DA and SA respectively refer to destination MAC address and source MAC address. The
number indicates the length of the field in bytes, for example, the length of source MAC
address is 12 bytes.
As the maximum length of Ethernet data is 1500 bytes, that is, 0x05DC in hexadecimal, the
Length field in 802.2/802.3 encapsulation ranges from 0x0000 to 0x05DC, but the Type field
in Ethernet II encapsulation ranges from 0x0600 to 0xFFF. The Type or Length field in the
range of 0x05DD to 0x05FF is recognized as illegal and will be directly discarded. The switch
identifies whether a packet is Ethernet II packet or 802.2/802.3 packet according to the
ranges of the two fields.
802.2/802.3 encapsulation contains the following three extended formats:
z 802.3 raw encapsulation
Only the Length field is encapsulated after source MAC address field and destination MAC
address field, followed by DATA field without other fields. Currently only IPX protocol supports
802.3 raw encapsulation format. The last two bytes of the Length field in 802.3 raw
encapsulation is 0xFFFF.
z 802.2LLC (Logic Link Control) encapsulation
The Length field, DSAP (Destination Service Access Point) field, SSAP (Source Service
Access Point) field and Control field are encapsulated after source MAC address field and
destination MAC address field. The value of Control field is always 3. DSAP field and SSAP
field in 802.2 LLC encapsulation are used to identify the upper layer protocol, for example,
when both the two fields are 0xE0, it indicates the upper layer protocol is IPX.
z 802.2 SNAP (Sub-Network Access Protocol) is encapsulated based on 802.3 standard
packets. In 802.2 SNAP encapsulation, the values of both DSAP field and SSAP field are
always 0XAA, and the value of Control field is 3. The switch differentiates 802.2 LLC and
802.2 SNAP encapsulation formats according to the values of DSAP field and SSAP field.
The device determines the encapsulation format of its sending packets, and a device can send out
packets of two encapsulation formats. Ethernet II encapsulation format is the most common used
one currently.
802.3 and Ethernet II encapsulation formats are supported in IP protocol, ARP protocol and RARP
protocol, but not supported in all protocols. The switch identifies the protocol of the packets by
matching eigenvalues of two encapsulation formats.
63
¾ The Procedure for the Switch to Identify Packet Protocol
¾ The Implementation of Protocol VLAN
This switch can match packets through protocol template and transmit packets in the specific
VLAN according to the protocol. Protocol template, comprising encapsulation format and protocol
type, is the standard to determine the protocol which a packet belongs to. The following table
shows the common used encapsulation formats supported in network layer protocol and the
protocol templates are for reference. Meanwhile some protocol templates has been preset in the
switch, you can create protocol VLAN according to the corresponding protocol template.
Encapsulation
Protocol
Ethernet II
802.3 raw 802.2 LLC 802.2 SNAP
IP0x0800
Supported
Not
supported
Not
supported
Supported
IPX0x8137
Supported Supported Supported Supported
AppleTalk0x809B
Supported
Not
supported
Not
supported
Supported
Table 6-2 Protocol types in common use
The packet in Protocol VLAN is processed in the following way:
64
Figure 6-9 Create Protocol VLAN
The following entries are displayed on this screen:
¾ Protocol Group Config
Protocol: Select the defined protocol template.
VLAN ID: Enter the ID number of the Protocol VLAN. This VLAN should be one
of the 802.1Q VLANs the ingress port belongs to.
¾ Protocol Group Member
Select your desired port for Protocol VLAN Group.
6.3.3 Protocol Template
The Protocol Template should be created before configuring the Protocol VLAN. By default, the
switch has defined the IP Template, ARP Template, RARP Template, etc. You can add more
Protocol Template on this page.
Choose the menu VLANProtocol VLANProtocol Template to load the following page.
Figure 6-10 Create and View Protocol Template
66
z Switch B is connecting to PC B and Server A;
z PC A and Server A is in the same VLAN;
z PC B and Server B is in the same VLAN;
z PCs in the two VLANs cannot communicate with each other.
¾ Network Diagram
¾ Configuration Procedure
z Configure Switch A
Step Operation Description
1 Configure the
Link Type of the
ports
Required. On VLAN802.1Q VLANPort 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 VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 10, owning Port 2 and Port 3.
3 Create VLAN20 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 20, owning Port 3 and Port 4.
z Configure Switch B
Step Operation Description
1 Configure the
Link Type of the
ports
Required. On VLAN802.1Q VLANPort Config page, configure
the link type of Port 7, Port 6 and Port 8 as ACCESS, TRUNK and
ACCESS respectively.
2 Create VLAN10 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 10, owning Port 6 and Port 8.
3 Create VLAN20 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 20, owning Port 6 and Port 7.
68
6.5 Application Example for MAC VLAN
¾ Network Requirements
z Switch A and switch B are connected to meeting room A and meeting room B respectively, and
the two rooms are for all departments;
z Notebook A and Notebook B, special for meeting room, are of two different departments;
z The two departments are in VLAN10 and VLAN20 respectively. The two notebooks can just
access the server of their own departments, that is, Server A and Server B, in the two meeting
rooms;
z The MAC address of Notebook A is 00-19-56-8A-4C-71, Notebook B’s MAC address is
00-19-56-82-3B-70.
¾ Network Diagram
¾ Configuration Procedure
z Configure Switch A
Step Operation Description
1
Configure the
Link Type of the
ports
Required. On VLAN802.1Q VLANPort Config page, configure the
link type of Port 11 and Port 12 as GENERAL and TRUNK respectively.
2
Create VLAN10
Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 10, owning Port 11 and Port 12, and configure
the egress rule of Port 11 as Untag.
3
Create VLAN20
Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 20, owning Port 11 and Port 12, and configure
the egress rule of Port 11 as Untag.
4
Configure MAC
VLAN 10
On VLANMAC VLAN page, create MAC VLAN10 with the MAC
address as 00-19-56-8A-4C-71.
5
Configure MAC
VLAN 20
On VLANMAC VLAN page, create MAC VLAN10 with the MAC
address as 00-19-56-82-3B-70.
69
z Configure Switch B
Step Operation Description
1 Configure the
Link Type of the
ports
Required. On VLAN802.1Q VLANPort Config page, configure the
link type of Port 21 and Port 22 as GENERAL and TRUNK respectively.
2 Create VLAN10 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 10, owning Port 21 and Port 22, and
configure the egress rule of Port 21 as Untag.
3 Create VLAN20 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 20, owning Port 21 and Port 22, and
configure the egress rule of Port 21 as Untag.
4 Configure MAC
VLAN 10
On VLANMAC VLAN page, create MAC VLAN10 with the MAC
address as 00-19-56-8A-4C-71.
5 Configure MAC
VLAN 20
On VLANMAC VLAN page, create MAC VLAN10 with the MAC
address as 00-19-56-82-3B-70.
z Configure Switch C
Step Operation Description
1 Configure the
Link Type of the
ports
Required. On VLAN802.1Q VLANPort Config page, configure the
link type of Port 2 and Port 3 as GENERAL, and configure the link type
of Port 4 and Port 5 as ACCESS.
2 Create VLAN10 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 10, owning Port 2, Port 3 and Port 5,
3 Create VLAN20 Required. On VLAN802.1Q VLANVLAN Config page, create a
VLAN with its VLANID as 20, owning Port 2, Port 3 and Port 4,
6.6 Application Example for Protocol VLAN
¾ Network Requirements
z Department A is connected to the company LAN via Port12 of switch A;
z Department A has IP host and AppleTalk host;
z IP host, in VLAN10, is served by IP server while AppleTalk host is served by AppleTalk server;
z Switch B is connected to IP server and AppleTalk server.
70
Join Timer: To transmit the Join messages reliably to other entities, a GARP entity sends
each Join message two times. The Join timer is used to define the interval between the two
sending operations of each Join message.
Leave Timer: When a GARP entity expects to deregister a piece of attribute information, it
sends out a Leave message. Any GARP entity receiving this message starts its Leave timer,
and deregisters the attribute information if it does not receives a Join message again before
the timer times out.
LeaveAll Timer: Once a GARP entity starts up, it starts the LeaveAll timer, and sends out a
LeaveAll message after the timer times out, so that other GARP entities can re-register all the
attribute information on this entity. After that, the entity restarts the LeaveAll timer to begin a
new cycle.
¾ GVRP
GVRP, as an implementation of GARP, maintains dynamic VLAN registration information and
propagates the information to other switches by adopting the same mechanism of GARP.
After the GVRP feature is enabled on a switch, the switch receives the VLAN registration
information from other switches to dynamically update the local VLAN registration information,
including VLAN members, ports through which the VLAN members can be reached, and so on.
The switch also propagates the local VLAN registration information to other switches so that all the
switching devices in the same switched network can have the same VLAN information. The VLAN
registration information includes not only the static registration information configured locally, but
also the dynamic registration information, which is received from other switches.
In this switch, only the port with TRUNK link type can be set as the GVRP application entity to
maintain the VLAN registration information. GVRP has the following three port registration modes:
Normal, Fixed, and Forbidden.
Normal: In this mode, a port can dynamically register/deregister a VLAN and propagate the
dynamic/static VLAN information.
Fixed: In this mode, a port cannot register/deregister a VLAN dynamically. It only propagates
static VLAN information. That is, the port in Fixed mode only permits the packets of its static
VLAN to pass.
Forbidden: In this mode, a port cannot register/deregister VLANs. It only propagates VLAN 1
information. That is, the port in Forbidden mode only permits the packets of the default VLAN
(namely VLAN 1) to pass.
Choose the menu VLANGVRP to load the following page.
73
Figure 6-11 GVRP Config
Note:
If the GVRP feature is enabled for a member port of LAG, please ensure all the member ports of
this LAG are set to be in the same status and registration mode.
The following entries are displayed on this screen:
¾ Global Config
GVRP: Allows you to Enable/Disable the GVRP function.
¾ Port Config
Port Select: Click the Select button to quick-select the corresponding entry based
on the port number you entered.
Select: Select the desired port for configuration. It is multi-optional.
Port: Displays the port number.
Status: Enable/Disable the GVRP feature for the port. The port type should be
set to TRUNK before enabling the GVRP feature.
Registration
Mode:
Select the Registration Mode for the port.
Normal: In this mode, a port can dynamically register/deregiste
r
a VLAN and propagate the dynamic/static VLAN information.
Fixed: In this mode, a port cannot register/deregister a VLAN
dynamically. It only propagates static VLAN information.
74
Figure 7-2 Basic MSTP diagram
¾ 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.
¾ Port States
In an MSTP, ports can be in the following four states:
z Forwarding: In this status the port can receive/forward data, receive/send BPDU packets as
well as learn MAC address.
z Learning: In this status the port can receive/send BPDU packets and learn MAC address.
z Blocking: In this status the port can only receive BPDU packets.
z Disconnected: In this status the port is not participating in the STP.
¾ Port Roles
In an MSTP, the following roles exist:
z Root Port: Indicates the port that has the lowest path cost from this bridge to the Root Bridge
and forwards packets to the root.
z Designated Port: Indicates the port that forwards packets to a downstream network segment
or switch.
z 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.
z Alternate Port: Indicates the port that can be a backup port of a root or master port.
z Backup Port: Indicates the port that is the backup port of a designated port.
z Disabled: Indicates the port that is not participating in the STP.
The following diagram shows the different port roles.
80
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. Only one switch can be the root bridge in each spanning tree instance. On
this page you can globally configure the spanning tree function and related parameters.
Choose the menu Spanning TreeSTP ConfigSTP Config to load the following page.
Figure 7-4 STP Config
81
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