Tp-Link T2600G-18TS V1 [537/1010] Appendix default parameters

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 4

Explanation of the symbols on the product label 4

Please read and follow the above safety information when operating the device we cannot guarantee that no accidents or damage will occur due to improper use of the device please use this product with care and operate at your own risk 4

Safety information 4

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 4

About this guide 5

Accessing the switch 5

Command line interface access 11 5

Contents 5

Conventions 5

Intended readers 5

Managing system 5

More information 5

Overview 5

System 22 5

System info configurations 24 5

Web interface access 5

Access security configurations 58 6

System tools configurations 46 6

User management configurations 38 6

Appendix default parameters 76 7

Basic parameters configurations 81 7

Configuration examples 00 7

Loopback detection configuration 96 7

Managing physical interfaces 7

Physical interface 80 7

Port isolation configurations 93 7

Port mirror configuration 85 7

Port security configuration 89 7

Sdm template configuration 73 7

Appendix default parameters 08 8

Appendix default parameters 25 8

Appendix default parameters 31 8

Configuration example 21 8

Configuring lag 8

Lag 11 8

Lag configuration 12 8

Monitoring traffic 8

Traffic monitor 27 8

Address configurations 35 9

Appendix default parameters 52 9

Configuring ddm 9

Ddm configuration 55 9

Example for security configurations 49 9

Mac address table 33 9

Managing mac address table 9

Overview 54 9

Security configurations 43 9

Appendix default parameters 70 10

Appendix default parameters 81 10

Configuration example 78 10

Configuration example 91 10

Configuring 802 q vlan 10

Configuring l2pt 10

L2pt configuration 74 10

Overview 72 10

Overview 83 10

Q vlan configuration 84 10

Appendix default parameters 13 11

Appendix default parameters 97 11

Configuration example 05 11

Configuration example 22 11

Configuring mac vlan 11

Configuring protocol vlan 11

Mac vlan configuration 00 11

Overview 15 11

Overview 99 11

Protocol vlan configuration 16 11

Appendix default parameters 34 12

Appendix default parameters 55 12

Basic vlan vpn configuration 38 12

Configuration example 47 12

Configuration example 63 12

Configuring gvrp 12

Configuring vlan vpn 12

Flexible vlan vpn configuration 44 12

Gvrp configuration 58 12

Overview 57 12

Vlan vpn 36 12

Appendix default parameters 71 13

Appendix default parameters 89 13

Configuration example 83 13

Configuring private vlan 13

Configuring spanning tree 13

Overview 73 13

Private vlan configurations 75 13

Spanning tree 91 13

Stp rstp configurations 99 13

Appendix default parameters 54 14

Configuration example for mstp 35 14

Configuring oam 14

Ethernet oam 57 14

Ethernet oam configurations 61 14

Mstp configurations 09 14

Stp security configurations 29 14

Appendix default parameters 97 15

Configuration example 87 15

Configuring layer 2 multicast 15

Igmp snooping configurations 01 15

Layer 2 multicast 99 15

Viewing oam statistics 80 15

Configuring mld snooping 39 17

Configuration examples 78 19

Viewing multicast snooping configurations 74 19

Appendix default parameters 06 20

Appendix default parameters 22 20

Configuring logical interfaces 20

Configuring static routing 20

Example for static routing 33 20

Ipv4 static routing configuration 25 20

Ipv6 static routing configuration 27 20

Logical interfaces configurations 11 20

Overview 10 20

Overview 24 20

Viewing routing table 30 20

Appendix default parameter 37 21

Configuration examples 67 21

Configuring dhcp 21

Dhcp 39 21

Dhcp client configuration 55 21

Dhcp relay configuration 58 21

Dhcp server configuration 43 21

Appendix default parameters 75 22

Arp configurations 81 22

Bandwidth control configuration 01 22

Configuration examples 08 22

Configuring arp 22

Configuring qos 22

Diffserv configuration 88 22

Overview 80 22

Qos 87 22

Appendix default parameters 24 23

Appendix default parameters 53 23

Configuration example 36 23

Configuring poe 23

Configuring voice vlan 23

Overview 27 23

Poe 55 23

Poe power management configurations 56 23

Time range function configurations 64 23

Voice vlan configuration 29 23

Acl configuration 78 24

Appendix default parameters 22 24

Appendix default parameters 75 24

Configuration example for acl 14 24

Configuring acl 24

Example for poe configurations 71 24

Overview 77 24

Arp inspection configurations 59 25

Configuring network security 25

Dhcp snooping configuration 47 25

Dhcpv6 snooping configuration 56 25

Ip mac binding configurations 31 25

Ipv6 mac binding configurations 38 25

Network security 25 25

Aaa configuration 94 26

Dos defend configuration 72 26

Ip source guard configuration 69 26

Nd detection configuration 66 26

Pppoe id insertion configuration 90 26

X configuration 76 26

Appendix default parameters 41 27

Configuration examples 14 27

Configuring lldp 27

Lldp 49 27

Appendix default parameters 92 28

Configuration example 73 28

Lldp configurations 50 28

Lldp med configurations 58 28

Viewing lldp med settings 70 28

Viewing lldp settings 65 28

Configuring maintenance 29

Diagnosing the device 10 29

Diagnosing the network 12 29

Dldp configuration 16 29

Maintenance 94 29

Monitoring the system 95 29

Sflow configuration 98 29

System log configurations 03 29

Appendix default parameters 25 30

Configuration examples 20 30

Configuring snmp rmon 30

Notification configurations 43 30

Rmon configurations 53 30

Rmon overview 52 30

Snmp configurations 29 30

Snmp overview 28 30

Appendix default parameters 76 31

Configuration example 64 31

About this guide 32

Conventions 32

Intended readers 32

More information 33

Accessing the switch 34

Chapters 34

Part 1 34

Overview 35

Web interface access 36

Save config function 37

Disable the web server 38

Http config disable the http server and click apply 38

You can shut down the http server or https server to block any access to the web interface 38

Configure the switch s ip address and default gateway 39

Check the routing table to verify the default gateway you configured the entry marked in red box displays the valid default gateway 41

Click save config to save the settings 41

Command line interface access 42

Console login only for switch with console port 42

Enter enable to enter the user exec mode to further configure the switch 43

Telnet login 44

Password authentication mode 45

Ssh login 45

Key authentication mode 46

After the keys are successfully generated click save public key to save the public key to a tftp server click save private key to save the private key to the host pc 47

After negotiation is completed enter the username to log in if you can log in without entering the password the key authentication completed successfully 49

Disable telnet login 49

Telnet config disable the telnet function and click apply 49

Using the gui 49

You can shut down the telnet function to block any telnet access to the cli interface 49

Copy running config startup config 50

Disable ssh login 50

Change the switch s ip address and default gateway 51

Chapters 52

Managing system 52

Part 2 52

Access security 53

Overview 53

Supported features 53

System 53

System info 53

System tools 53

User management 53

Sdm template 54

System info configurations 55

Using the gui 55

Viewing the system summary 55

Click a port to view the bandwidth utilization on this port 56

Move the cursor to the port to view the detailed information of the port 56

Setting the system time 57

Specifying the device description 57

Choose one method to set the system time and specify the information 58

In the time config section follow these steps to configure the system time 58

In the time info section view the current time information of the switch 58

Choose one method to set the daylight saving time of the switch and specify the information 59

Click apply 59

Daylight saving time to load the following page 59

Follow these steps to configure daylight saving time 59

In the dst config section select enable to enable the daylight saving time function 59

Setting the daylight saving time 59

Click apply 60

In the serial port settings section specify the baud rate and click apply 60

Serial port setting to load the following page 60

Specifying the serial port parameter 60

Using the cli 61

Viewing the system summary 61

Follow these steps to specify the device description 62

Running time 2 day 4 hour 55 min 36 sec 62

Serial number 62

Specifying the device description 62

Switch config contact info http www tp link com 62

Switch config hostname switch_a 62

Switch config location beijing 62

Switch config show system info 62

Switch configure 62

System description jetstream 48 port gigabit smart switch with 4 sfp slots 62

The following example shows how to set the device name as switch_a set the location as beijing and set the contact information as http www tp link com 62

Contact information http www tp link com 63

Follow these steps and choose one method to set the system time 63

Setting the system time 63

Switch config end 63

Switch copy running config startup config 63

System location beijing 63

System name switch_a 63

Backup ntp server 139 8 00 63 65

Follow these steps and choose one method to set the daylight saving time 65

Last successful ntp server 133 00 65

Prefered ntp server 133 00 65

Setting the daylight saving time 65

Switch config end 65

Switch config show system time ntp 65

Switch config system time ntp utc 08 00 133 00 139 8 00 63 11 65

Switch configure 65

Switch copy running config startup config 65

The following example shows how to set the system time by get time from ntp server and set the time zone as utc 08 00 set the ntp server as 133 00 set the backup ntp server as 139 8 00 63 and set the update rate as 11 65

Time zone utc 08 00 65

Update rate 11 hour s 65

Dst configuration is one off 67

Dst ends at 01 00 00 on sep 1 2016 67

Dst offset is 50 minutes 67

Dst starts at 01 00 00 on aug 1 2016 67

Follow these steps to specify the serial port parameter 67

Specifying the serial port parameter 67

Switch config end 67

Switch config show system time dst 67

Switch config system time dst date aug 1 01 00 2016 sep 1 01 00 2016 50 67

Switch configure 67

Switch copy running config startup config 67

The following example shows how to set the daylight saving time by date mode set the start time as 01 00 august 1st 2016 set the end time as 01 00 september 1st 2016 and set the offset as 50 67

Baud rate 9600 68

Data bits 8 68

Parity bits none 68

Serial port settings 68

Stop bits 1 68

Switch config 68

Switch config end 68

Switch config serial_port baud_rate 9600 68

Switch config show serial_port 68

Switch copy running config startup config 68

The following example shows how to set the baud rate as 9600 and view the serial port parameters 68

Creating admin accounts 69

User management configurations 69

Using the gui 69

Click create 70

Creating accounts of other types 70

Creating an account 70

Follow these steps to create an account of other types 70

In the user info section select the access level from the drop down list and specify the user name and password 70

User config to load the following page 70

You can create accounts with the access level of operator power user and user here you also need to go to the aaa section to create an enable password for these accounts the enable password is used to change the users access level to admin 70

Creating admin accounts 72

Follow these steps to create an admin account 72

Using the cli 72

Creating accounts of other types 73

Follow these steps to create an account of other type 73

You can create accounts with the access level of operator power user and user here you also need to go to the aaa section to create an enable password for these accounts the enable password is used to change the users access level to admin 73

The aaa function applies another method to manage the access users name and password for details refer to aaa configuration in configuring network security 75

The logged in users can enter the enable password on this page to get the administrative privileges 75

Configuring the boot file 77

System tools configurations 77

Using the gui 77

Click apply 78

Click import to import the configuration file 78

Config restore to load the following page 78

Follow these steps to restore the configuration of the switch 78

In the config restore section select one unit and one configuration file 78

Restoring the configuration of the switch 78

Backing up the configuration file 79

Upgrading the firmware 79

Auto install to load the following page 80

Configuring auto install function 80

In the auto install configuration section specify the parameters and click apply 80

Configuring the reboot schedule 81

Rebooting the switch 81

Configuring the boot file 82

Follow these steps to configure the boot file 82

In the system reset section select the desired unit and click reset 82

Reseting the switch 82

System reset to load the following page 82

Using the cli 82

Backup image image2 bin 83

Boot config 83

Current startup image image1 bin 83

Follow these steps to restore the configuration of the switch 83

Next startup image image1 bin 83

Restoring the configuration of the switch 83

Switch config boot application filename image1 startup 83

Switch config boot application filename image2 backup 83

Switch config end 83

Switch config show boot 83

Switch configure 83

Switch copy running config startup config 83

The following example shows how to set the next startup image as image 1 and set the backup image as image 2 83

Backing up the configuration file 84

Backup user config file ok 84

Enable 84

Follow these steps to back up the current configuration of the switch in a file 84

Follow these steps to upgrade the firmware 84

Operation ok now rebooting system 84

Start to backup user config file 84

Start to load user config file 84

Switch copy startup config tftp ip address 192 68 00 filename file2 84

Switch copy tftp startup config ip address 192 68 00 filename file1 84

The following example shows how to backup the configuration file named file2 from tftp server with ip address 192 68 00 84

The following example shows how to restore the configuration file named file1 from the tftp server with ip address 192 68 00 84

Upgrading the firmware 84

Configuring auto install function 85

Enable 85

Follow these steps to configure the auto install function 85

It will only upgrade the backup image continue y n y 85

Operation ok 85

Reboot with the backup image y n y 85

Switch firmware upgrade ip address 192 68 00 filename file3 bin 85

The following example shows how to upgrade the firmware using the configuration file named file3 bin the tftp server is 190 68 00 85

Auto insatll mode stop 86

Auto insatll persistent mode enabled 86

Auto insatll retry count 86

Auto insatll sate stopped 86

Auto reboot mode enabled 86

Auto save mode enabled 86

Follow these steps to reboot the switch 86

Rebooting the switch 86

Switch config boot autoinstall auto reboot 86

Switch config boot autoinstall auto save 86

Switch config boot autoinstall persistent mode 86

Switch config boot autoinstall retry count 2 86

Switch config show boot autoinstall 86

Switch configure 86

The following example shows how to configure the auto install function 86

Configuring the reboot schedule 87

Follow these steps and choose one type to configure the reboot schedule 87

Reboot schedule at 2016 01 15 12 00 in 17007 minutes 87

Reboot schedule settings 87

Reboot system at 15 01 2016 12 00 continue y n y 87

Switch config reboot schedule at 12 00 15 01 2016 save_before_reboot 87

Switch configure 87

The following example shows how to set the switch to reboot at 12 00 on 15 01 2016 87

Follow these steps to reset the switch 88

Reseting the switch 88

Save before reboot yes 88

Switch config end 88

Switch copy running config startup config 88

Access security configurations 89

Configuring the access control feature 89

Using the gui 89

Click apply 90

When the ip based mode is selected the following section will display 90

When the port based mode is selected the following section will display 90

Configuring the http function 91

Configuring the https function 92

In the access user number section select enable and specify the parameters click apply 93

In the certificate download and key download section download the certificate and key 93

In the ciphersuite config section select the algorithm to be enabled and click apply 93

In the session config section specify the session timeout and click apply 93

Configuring the ssh feature 94

In the global config section select enable to enable ssh function and specify other parameters 94

Ssh config to load the following page 94

Configuring the access control 95

Enabling the telnet function 95

Using the cli 95

Switch config show user configuration 96

Switch config user access control ip based 192 68 00 255 55 55 snmp telnet http https 96

Switch configure 96

The following example shows how to set the type of access control as ip based set the ip address as 192 68 00 set the subnet mask as 255 55 55 and make the switch support snmp telnet http and https 96

68 24 snmp telnet http https 97

Configuring the http function 97

Follow these steps to configure the http function 97

Index ip address access interface 97

Switch config end 97

Switch configure 97

Switch copy running config startup config 97

The following example shows how to set the session timeout as 9 set the maximum admin number as 6 and set the maximum guest number as 5 97

User authentication mode ip based 97

Configuring the https function 98

Follow these steps to configure the https function 98

Http max admin users 6 98

Http max guest users 5 98

Http session timeout 9 98

Http status enabled 98

Http user limitation enabled 98

Switch config end 98

Switch config ip http max user 6 5 98

Switch config ip http server 98

Switch config ip http session timeout 9 98

Switch config show ip http configuration 98

Switch copy running config startup config 98

Switch config ip http secure protocol ssl3 tls1 99

Switch config ip http secure server 99

Switch configure 99

The following example shows how to configure the https function enable ssl3 and tls1 protocol enable the ciphersuite of 3des ede cbc sha set the session timeout time as 15 the admin number as 1 and the guest number as 2 download the certificate named ca crt and the key named ca key from the tftp server with the ip address 192 68 00 99

Configuring the ssh feature 100

Switch config ip ssh server 101

Switch config ip ssh version v1 101

The following example shows how to configure the ssh function set the version as ssh v1 and ssh v2 enable the aes128 cbc and cast128 cbc encryption algorithm enable the hmac md5 data integrity algorithm choose the key type as ssh 2 rsa dsa 101

Enabling the telnet function 103

Follow these steps enable the telnet function 103

Switch config end 103

Switch copy running config startup config 103

In select options section select one template and click apply the setting will be effective after the reboot 104

Sdm template configuration 104

Sdm template function is used to configure system resources in the switch to optimize support for specific features the switch provides three templates and the hardware resources allocation is different users can choose one according to how the switch is used in the network 104

Sdm template to load the following page 104

Using the gui 104

Follow these steps to configure the sdm template function 105

The template table displays the resources allocation of each template 105

Using the cli 105

Appendix default parameters 107

Default settings of system info are listed in the following tables 107

Default settings of system tools are listed in the following table 107

Default settings of user management are listed in the following table 107

Default settings of access security are listed in the following tables 108

Default settings of sdm template are listed in the following table 109

Chapters 110

Managing physical interfaces 110

Part 3 110

Basic parameters 111

Loopback detection 111

Overview 111

Physical interface 111

Port isolation 111

Port mirror 111

Port security 111

Supported features 111

Basic parameters configurations 112

Follow these steps to set basic parameters for ports 112

Port config to load the following page 112

Select and configure your desired ports or lags then click apply 112

Using the gui 112

Follow these steps to set basic parameters for the ports 113

Using the cli 113

Switch configure 114

The following example shows how to implement the basic configurations of port1 0 1 including setting a description for the port making the port autonegotiate speed and duplex with the neighboring port and enabling the flow control and jumbo feature 114

Port mirror configuration 116

Using the gui 116

Follow these steps to configure port mirror 117

In the destination port section specify a monitoring port for the mirror session and click apply 117

In the source port section select one or multiple monitored ports for configuration then set the parameters and click apply 117

Follow these steps to configure port mirror 118

Monitor session 1 118

Switch config monitor session 1 destination interface gigabitethernet 1 0 10 118

Switch config monitor session 1 source interface gigabitethernet 1 0 1 3 both 118

Switch config show monitor session 118

Switch configure 118

The following example shows how to copy the received and transmitted packets on port 1 0 1 2 3 to port 1 0 10 118

Using the cli 118

Follow these steps to configure port security 120

Port security configuration 120

Port security to load the following page 120

Select one or multiple ports for security configuration 120

Specify the maximum number of the mac addresses that can be learned on the port and then select the learn mode of the mac addresses 120

Using the gui 120

Click apply 121

Follow these steps to configure port security 121

Select the status of the port security feature 121

Using the cli 121

Gi1 0 1 30 0 permanent drop 122

Port max learn current learn mode status 122

Switch config if mac address table max mac count max number 30 mode permanent status drop 122

Switch config if show mac address table max mac count interface gigabitethernet 1 0 1 122

Switch config interface gigabitethernet 1 0 1 122

Switch configure 122

The following example shows how to set the maximum number of mac addresses that can be learned on port 1 0 1 as 30 and configure the mode as permanent and the status as drop 122

Switch config if end 123

Switch copy running config startup config 123

Port isolation configurations 124

Using the gui 124

Click apply 125

Follow these steps to configure port isolation 125

In the forward portlist section select the forward ports or lags which the isolated ports can only communicate with it is multi optional 125

In the port section select one or multiple ports to be isolated 125

Using the cli 125

Loopback detection configuration 127

Using the gui 127

In the port config section select one or multiple ports for configuration then set the parameters and click apply 128

View the loopback detection information on this page 128

Follow these steps to configure loopback detection 129

Using the cli 129

Configuration examples 131

Configuration scheme 131

Example for port mirror 131

Network requirements 131

Using the gui 131

As shown below three hosts and a server are connected to the switch and all belong to vlan 10 with the vlan configuration unchanged host a is not allowed to communicate with the other hosts except the server even if the mac address or ip address of host a is changed 133

Destination port gi1 0 1 133

Example for port isolation 133

Monitor session 1 133

Network requirements 133

Source ports egress gi1 0 2 5 133

Source ports ingress gi1 0 2 5 133

Switch config end 133

Switch config monitor session 1 destination interface gigabitethernet 1 0 1 133

Switch config monitor session 1 source interface gigabitethernet 1 0 2 5 both 133

Switch configure 133

Switch copy running config startup config 133

Switch show monitor session 1 133

Using the cli 133

Verify the configuration 133

Configuration scheme 134

Using the gui 134

Using the cli 135

Verify the configuration 135

Configuration scheme 136

Example for loopback detection 136

Network requirements 136

Using the gui 136

Using the cli 137

Verify the configuration 138

Appendix default parameters 139

Default settings of switching are listed in th following tables 139

Chapters 141

Configuring lag 141

Part 4 141

Overview 142

Static lag 142

Supported features 142

Configuration guidelines 143

Lag configuration 143

Configuring load balancing algorithm 144

In the global config section select the load balancing algorithm click apply 144

Lag table to load the following page 144

Load balancing algorithm is effective only for outgoing traffic if the data stream is not well shared by each link you can change the algorithm of the outgoing interface 144

Please properly choose the load balancing algorithm to avoid data stream transferring only on one physical link for example switch a receives packets from several hosts and forwards them to the server with the fixed mac address and ip address you can set the algorithm as src mac src ip to allow switch a to determine the forwarding port based on the source mac addresses and source ip addresses of the received packets 144

Using the gui 144

Configuring static lag or lacp 145

Configuring lacp 146

Follow these steps to configure lacp 146

Lacp to load the following page 146

Select member ports for the lag and configure the related parameters click apply 146

Specify the system priority for the switch and click apply 146

Configuring load balancing algorithm 147

Follow these steps to configure the load balancing algorithm 147

Using the cli 147

Configuring static lag 148

Configuring static lag or lacp 148

Etherchannel load balancing addresses used per protocol 148

Etherchannel load balancing configuration src dst mac 148

Follow these steps to configure static lag 148

Ipv4 source xor destination mac address 148

Ipv6 source xor destination mac address 148

Non ip source xor destination mac address 148

Switch config end 148

Switch config port channel load balance src dst mac 148

Switch config show etherchannel load balance 148

Switch configure 148

Switch copy running config startup config 148

The following example shows how to set the global load balancing mode as src dst mac 148

You can choose only one lag mode for a port static lag or lacp and make sure both ends of a link use the same lag mode 148

Configuration example 152

Configuration scheme 152

Network requirements 152

Using the gui 153

Using the cli 154

Verify the configuration 154

Appendix default parameters 156

Default settings of switching are listed in the following tables 156

Monitoring traffic 157

Traffic monitor 158

Using the gui 158

Viewing the traffic summary 158

Follow these steps to view the traffic statistics in detail 159

To get the real time traffic statistics enable auto refresh in the auto refresh section or click refresh at the bottom of the page 159

Traffic statistics to load the following page 159

Viewing the traffic statistics in detail 159

In port select select a port or lag and click select 160

In the statistics section view the detailed information of the selected port or lag 160

On privileged exec mode or any other configuration mode you can use the following command to view the traffic information of each port or lag 161

Using the cli 161

Appendix default parameters 162

Chapters 163

Managing mac address table 163

Part 6 163

Address configurations 164

Mac address table 164

Overview 164

Supported features 164

Security configurations 165

Adding static mac address entries 166

Address configurations 166

Using the gui 166

Click apply 168

Dynamic address to load the following page 168

Follow these steps to modify the aging time of dynamic address entries 168

In the aging config section enable auto aging and enter your desired length of time 168

Modifying the aging time of dynamic address entries 168

Adding mac filtering address entries 169

Viewing address table entries 169

Adding static mac address entries 170

Address table to load the following page 170

Follow these steps to add static mac address entries 170

Using the cli 170

Modifying the aging time of dynamic address entries 171

Adding mac filtering address entries 172

Aging time is 500 sec 172

Follow these steps to add mac filtering address entries 172

Switch config end 172

Switch config mac address table aging time 500 172

Switch config show mac address table aging time 172

Switch configure 172

Switch copy running config startup config 172

The following example shows how to modify the aging time to 500 seconds a dynamic entry remains in the mac address table for 500 seconds after the entry is used or updated 172

Configuring mac notification traps 174

Security configurations 174

Using the gui 174

Configure snmp and set a management host for detailed snmp configurations please refer to configuring snmp rmon 175

Follow these steps to configure mac notification traps 175

In the mac notification global config section enable this feature configure the relevant options and click apply 175

In the mac notification port config section select your desired port and enable its notification traps you can enable these three types learned mode change exceed max learned and new mac learned click apply 175

Choose the mode that the switch adopts when the maximum number of mac addresses in the specified vlan is exceeded 176

Click create 176

Enter the vlan id to limit the number of mac addresses that can be learned in the specified vlan 176

Enter your desired value in max learned mac to set a threshold 176

Follow these steps to limit the number of mac addresses in vlans 176

Limiting the number of mac addresses in vlans 176

Mac vlan security to load the following page 176

Configuring mac notification traps 177

Follow these steps to configure mac notification traps 177

Using the cli 177

Limiting the number of mac addresses in vlans 178

100 0 drop 179

Switch config end 179

Switch config mac address table security vid 10 max learn 100 drop 179

Switch config show mac address table security vid 10 179

Switch configure 179

Switch copy running config startup config 179

The following example shows how to limit the number of mac addresses to 100 in vlan 10 and configure the switch to drop packets of new source mac addresses when the limit is exceeded 179

Vlanid max learn current learn status 179

Configuration scheme 180

Example for security configurations 180

Network requirements 180

Using the gui 181

Using the cli 182

Verify the configurations 182

Appendix default parameters 183

Default settings of the mac address table are listed in the following tables 183

Chapters 184

Configuring ddm 184

Part 7 184

Overview 185

Configuring ddm globally 186

Ddm configuration 186

Using the gui 186

Click apply 187

Configuring the temperature threshold 187

Configuring the voltage threshold 187

Follow these steps to configure ddm s temperature threshold 187

In the port config table configure temperature threshold of the sfp ports 187

Temperature threshold to load the following page 187

Voltage threshold to load the following page 187

Bias current threshold to load the following page 188

Click apply 188

Configuring the bias current threshold 188

Follow these steps to configure ddm s bias current threshold 188

Follow these steps to configure ddm s voltage threshold 188

In the port config table configure bias current threshold on the sfp ports 188

In the port config table configure voltage threshold on the sfp ports 188

Click apply 189

Configuring the tx power threshold 189

Follow these steps to configure ddm s tx power threshold 189

In the port config table configure tx power threshold on the sfp ports 189

Tx power threshold to load the following page 189

Click apply 190

Configuring the rx power threshold 190

Ddm status to load the following page 190

Follow these steps to configure ddm s rx power threshold 190

In the port config table configure rx power threshold on the sfp ports 190

Rx power threshold to load the following page 190

Viewing ddm status 190

Configure the shutdown condition 191

Configure the specified threshold for warning or alarm 191

Configuring ddm globally 191

Enable ddm on the sfp port 191

Follow these steps to enable ddm on specified sfp ports 191

In the port config table view the current operating parameters for the sfp modules inserted into the sfp ports 191

To complete ddm configuration follow these steps 191

Using the cli 191

Configuring ddm shutdown 192

Ddm status ddm status shutdown 192

Follow these steps to configure settings for shutting down sfp ports when the alarm threshold or warning threshold is exceeded 192

Gi1 0 17 enable none 192

Gi1 0 18 enable none 192

Switch config if ddm state enable 192

Switch config if end 192

Switch config if show ddm configuration state 192

Switch config interface gigabitethernet 1 0 17 192

Switch configure 192

Switch copy running config startup config 192

The following example shows how to enable ddm on sfp port 1 0 17 192

Configuring temperature threshold 193

Ddm status ddm status shutdown 193

Follow these steps to configure the threshold of the ddm temperature on the specified sfp port 193

Gi1 0 17 enable warning 193

Gi1 0 18 enable none 193

Switch config if ddm shutdown warning 193

Switch config if end 193

Switch config if show ddm configuration state 193

Switch config interface gigabitethernet 1 0 17 193

Switch configure 193

Switch copy running config startup config 193

The following example shows how to set sfp port 1 0 17 to shut down when the warning threshold is exceeded 193

Configuring voltage threshold 194

Follow these steps to configure the threshold of the ddm voltage on the specified sfp port 194

Gi1 0 17 110 00000 194

Gi1 0 18 194

High alarm high alarm low alarm high warning low warning 194

Switch config if ddm temperature_threshold high_alarm 110 194

Switch config if end 194

Switch config if show ddm configuration temperature 194

Switch config interface gigabitethernet 1 0 17 194

Switch configure 194

Switch copy running config startup config 194

Temperature threshold celsius 194

The following example shows how to set sfp port 1 0 17 s high alarm temperature threshold as 110 celsius 194

Configuring bias current threshold 195

Gi1 0 17 120 00000 196

Gi1 0 18 196

High alarm high alarm low alarm high warning low warning 196

Switch config if ddm vlotage_threshold high_alarm 120 196

Switch config if end 196

Switch config if show ddm configuration bias_current 196

Switch config interface gigabitethernet 1 0 17 196

Switch configure 196

Switch copy running config startup config 196

The following example shows how to set sfp port 1 0 17 s high alarm threshold bias current as 120 ma 196

Voltage threshold v 196

Configuring tx power threshold 197

Follow these steps to configure the threshold of the ddm tx power on the specified sfp port 197

Gi1 0 17 6 00000 197

Gi1 0 18 197

High alarm high alarm low alarm high warning low warning 197

Switch config if ddm tx_power_threshold high_alarm 6 197

Switch config if show ddm configuration tx_power 197

Switch config interface gigabitethernet 1 0 17 197

Switch configure 197

The following example shows how to set sfp port 1 0 17 s high alarm threshold tx power as 6 mw 197

Tx power threshold mw 197

Configuring rx power threshold 198

Follow these steps to configure the threshold of the ddm rx power on the specified sfp port 198

Switch config if ddm rx_power_threshold high_alarm 6 198

Switch config if end 198

Switch config if show ddm configuration rx_power 198

Switch config interface gigabitethernet 1 0 17 198

Switch configure 198

Switch copy running config startup config 198

The following example shows how to set sfp port 1 0 17 s high alarm threshold rx power as 6 mw 198

Viewing ddm configuration 199

Viewing ddm status 200

Appendix default parameters 201

Default settings of ddm are listed in the following table 201

Chapters 202

Configuring l2pt 202

Part 8 202

Overview 203

Follow these steps to configure l2pt 205

In the global config section enable l2pt globally and click apply 205

In the port config section configure the port that is connected to the customer network as a uni port and specify your desired protocols on the port in addition you can also set the threshold for packets per second to be processed on the uni port 205

L2pt config to load the following page 205

L2pt configuration 205

Using the gui 205

Click apply 206

Follow these steps to configure l2pt feature 206

In the port config section configure the port that is connected to the isp network as an nni port note that the protocols and threshold cannot be configured on the nni port 206

Using the cli 206

Configuration example 209

Configuration scheme 209

Network requirements 209

Using the gui 209

Using the cli 210

Verify the configuration 211

Appendix default parameters 212

Default settings of l2pt are listed in the following table 212

Chapters 213

Configuring 802 q vlan 213

Part 9 213

Overview 214

Configuring the pvid of the port 215

Q vlan configuration 215

Using the gui 215

Click apply 217

Configuring the vlan 217

Enter a vlan id and a description for identification to create a vlan 217

Follow these steps to configure vlan 217

Select the untagged port s and the tagged port s respectively to add to the created vlan based on the network topology 217

Vlan config and click create to load the following page 217

Creating a vlan 218

Follow these steps to create a vlan 218

Rd active 218

Switch config vlan 2 218

Switch config vlan end 218

Switch config vlan name rd 218

Switch config vlan show vlan id 2 218

Switch configure 218

The following example shows how to create vlan 2 and name it as rd 218

Using the cli 218

Vlan name status ports 218

Configuring the port 219

Follow these steps to configure the port 219

Link type trunk 219

Member in lag n a 219

Member in vlan 219

Port gi1 0 5 219

Pvid 2 219

Switch config if show interface switchport gigabitethernet 1 0 5 219

Switch config if switchport mode trunk 219

Switch config if switchport pvid 2 219

Switch config interface gigabitethernet 1 0 5 219

Switch configure 219

Switch copy running config startup config 219

The following example shows how to configure the link type of port 1 0 5 as trunk the pvid of port 1 0 5 as vlan 2 219

Adding the port to the specified vlan 220

Follow these steps to add the port to the specified vlan 220

Switch config if end 220

Switch config interface gigabitethernet 1 0 5 220

Switch configure 220

Switch copy running config startup config 220

System vlan tagged 220

The following example shows how to add the general port 1 0 5 to vlan 2 and specify its egress rule as tagged 220

Vlan name egress rule 220

Configuration example 222

Configuration scheme 222

Network requirements 222

Network topology 223

Using the gui 223

Using the cli 226

Verify the configurations 226

Appendix default parameters 228

Default settings of 802 q vlan are listed in the following table 228

Chapters 229

Configuring mac vlan 229

Part 10 229

Overview 230

Ptops department a uses server a and laptop a while department b uses server b and laptop b server a is in vlan 10 while server b is in vlan 20 it is required that laptop a can only access server a and laptop b can only access server b no matter which meeting room the laptops are being used in to meet this requirement simply bind the mac addresses of the laptops to the corresponding vlans respectively in this way the mac address rather than the access port determines the vlan each laptop joins each laptop can access only the server in the vlan it joins 230

The figure below shows a common application scenario of mac vlan 230

Two departments share all the meeting rooms in the company but use different servers and l 230

Vlan is generally divided by ports this way of division is simple but isn t suitable for those networks that require frequent topology changes with the popularity of mobile office a terminal device may access the switch via different ports for example a terminal device that accessed the switch via port 1 last time may change to port 2 this time if port 1 and port 2 belong to different vlans the user has to re configure the switch to access the original vlan using mac vlan can free the user from such a problem it divides vlans based on the mac addresses of terminal devices in this way terminal devices always belong to their original vlans even when their access ports change 230

Configuring 802 q vlan 231

Mac vlan configuration 231

Using the gui 231

Binding the mac address to the vlan 232

By default mac vlan is disabled on all ports you need to enable mac vlan for your desired ports manually 232

Click create to create the mac vlan 232

Enabling mac vlan for the port 232

Enter the mac address of the device give it a description and enter the vlan id to bind it to the vlan 232

Follow these steps to bind the mac address to the vlan 232

Mac vlan to load the following page 232

Before configuring mac vlan create an 802 q vlan and set the port type according to network requirements for details refer to configuring 802 q vlan 233

Binding the mac address to the vlan 233

Configuring 802 q vlan 233

Follow these steps to bind the mac address to the vlan 233

Follow these steps to enable mac vlan for the port 233

Port enable to load the following page 233

Select your desired ports to enable mac vlan and click apply 233

Using the cli 233

19 56 8a 4c 71 dept a 10 234

Enabling mac vlan for the port 234

Follow these steps to enable mac vlan for the port 234

Mac addr name vlan id 234

Switch config end 234

Switch config mac vlan mac address 00 19 56 8a 4c 71 vlan 10 description dept a 234

Switch config show mac vlan vlan 10 234

Switch configure 234

Switch copy running config startup config 234

The following example shows how to bind the mac address 00 19 56 8a 4c 71 to vlan 10 with the address description as dept a 234

Configuration example 236

Configuration scheme 236

Create vlan 10 and vlan 20 on each of the three switches set different port types and add the ports to the vlans based on the network topology note for the ports connecting the laptops set the link type as general and set the egress rule as 236

Network requirements 236

Two departments share all the meeting rooms in the company but use different servers and laptops department a uses server a and laptop a while department b uses server b and laptop b server a is in vlan 10 while server b is in vlan 20 it is required that laptop a can only access server a and laptop b can only access server b no matter which meeting room the laptops are being used in the figure below shows the network topology 236

You can configure mac vlan to meet this requirement on switch 1 and switch 2 bind the mac addresses of the laptops to the corresponding vlans respectively in this way each laptop can access only the server in the vlan it joins no matter which meeting room the laptops are being used in the overview of the configuration is as follows 236

Using the gui 237

Using the cli 241

Verify the configurations 243

Appendix default parameters 244

Default settings of mac vlan are listed in the following table 244

Chapters 245

Configuring protocol vlan 245

Part 11 245

Overview 246

Protocol vlan is a technology that divides vlans based on the network layer protocol with the protocol vlan rule configured on the basis of the existing 802 q vlan the switch can analyze special fields of received packets encapsulate the packets in specific formats and forward the packets of different protocols to the corresponding vlans since different applications and services use different protocols network administrators can use protocol vlan to manage the network based on specific applications and services of network users 246

The figure below shows a common application scenario of protocol vlan with protocol vlan configured switch 2 can forward ipv4 and ipv6 packets from different vlans to the ipv4 and ipv6 networks respectively 246

Configuring 802 q vlan 247

Protocol vlan configuration 247

Using the gui 247

Creating protocol template 248

Configuring 802 q vlan 249

Configuring protocol vlan 249

Using the cli 249

Arp ethernetii ether type 0806 250

At snap ether type 809b 250

Creating a protocol template 250

Follow these steps to create a protocol template 250

Index protocol name protocol type 250

Ip ethernetii ether type 0800 250

Ipv6 ethernetii ether type 86dd 250

Ipx snap ether type 8137 250

Rarp ethernetii ether type 8035 250

Switch config protocol vlan template name ipv6 frame ether_2 ether type 86dd 250

Switch config show protocol vlan template 250

Switch configure 250

The following example shows how to create an ipv6 protocol template 250

Configuring protocol vlan 251

Follow these steps to configure protocol vlan 251

Switch config end 251

Switch config show protocol vlan template 251

Switch configure 251

Switch copy running config startup config 251

The following example shows how to bind the ipv6 protocol template to vlan 10 251

A company uses both ipv4 and ipv6 hosts and these hosts access the ipv4 network and ipv6 network respectively via different routers it is required that ipv4 packets are forwarded to the ipv4 network ipv6 packets are forwarded to the ipv6 network and other packets are dropped 253

Configuration example 253

Configuration scheme 253

Network requirements 253

The figure below shows the network topology the ipv4 host belongs to vlan 10 the ipv6 host belongs to vlan 20 and these hosts access the network via switch 1 switch 2 is connected to two routers to access the ipv4 network and ipv6 network respectively the routers belong to vlan 10 and vlan 20 respectively 253

You can configure protocol vlan on port 1 0 1 of switch 2 to meet this requirement when this port receives packets switch 2 will forward them to the corresponding vlans according to their protocol types the overview of the configuration on switch 2 is as follows 253

Using the gui 254

Using the cli 260

Verify the configurations 263

Appendix default parameters 265

Default settings of protocol vlan are listed in the following table 265

Chapters 266

Configuring vlan vpn 266

Part 12 266

Overview 267

Vlan vpn 267

Basic vlan vpn 268

Flexible vlan vpn 268

Supported features 268

Basic vlan vpn configuration 269

Configuring 802 q vlan 269

Using the gui 269

Configuring global vlan vpn and up link ports 270

Configuring 802 q vlan 271

Configuring vpn ports 271

Using the cli 271

Configuring basic vlan vpn 272

Follow these steps to configure basic vlan vpn 272

Vlan add ports connecting the customer network and ports connecting the isp network to the isp network vlan for details refer to configuring 802 q vlan 272

Switch config if end 274

Switch copy running config startup config 274

Configuration guidelines 275

Flexible vlan vpn configuration 275

Using the gui 275

Follow these steps to configure flexible vlan vpn 276

In the vlan mapping config section choose a vpn port to enable vlan mapping enter customer network vlan id in the c vlan field enter isp network vlan id in the sp vlan field and enter a name to identify the entry then click create to add a mapping entry 276

Using the cli 276

Configuration example 278

Configuration scheme 278

Configure 802 q vlan before vlan vpn configuration create isp network vlan 1050 on the switch and add port1 0 1 tagged and port 1 0 2 untagged to the vlan create client network vlan 100 and vlan 200 and add port 1 0 2 tagged to both the vlans set the pvid of port 1 0 1 and port 1 0 2 as 1050 278

Demonstrated with t2600g 28ts this chapter provides configuration procedures in two ways using the gui and using the cli 278

Enable the vpn feature globally and set global tpid as 0x9100 278

Figure 4 1 shows the network topology switches of the two divisions are connected to customer networks vlan 100 and vlan 200 respectively and they communicate across isp network vlan 1050 devices in the isp network adopt tpid value 0x9100 278

Network requirements 278

Set port 1 0 1 as the vpn up link port and port 1 0 2 as the vpn port 278

Two divisions of the company are located in different areas and have to communicate across an isp network a normal communication is required 278

Users can configure vlan vpn on switch 1 and switch 2 to allow packets sent with double vlan tags and thus ensure the communication between them the general configuration procedure is as follows 278

Using the gui 279

Using the cli 283

Verify the configurations 284

Appendix default parameters 286

Default settings of vlan vpn are listed in the following table 286

Chapters 287

Configuring gvrp 287

Part 13 287

Gvrp garp vlan registration protocol is a garp generic attribute registration protocol application that allows registration and deregistration of vlan attribute values and dynamic vlan creation 288

Overview 288

The configuration may seem easy in this situation however for a larger or more complex network such manual configuration would be time costing and fallible gvrp can be applied to implement dynamic vlan configuration with gvrp the switch can exchange vlan configuration information with the adjacent gvrp switches and dynamically create and manage the vlans this reduces vlan configuration workload and ensures correct vlan configuration 288

Without gvrp operating configuring the same vlan on a network would require manual configuration on each device as shown in figure 1 1 switch a b and c are connected through trunk ports vlan 10 is configured on switch a and vlan 1 is configured on switch b and switch c switch c can receive messages sent from switch a in vlan 10 only when the network administrator has manually created vlan 10 on switch b and switch c 288

Configuration guidelines 289

Gvrp configuration 289

Using the gui 289

Click apply 291

Gvrp requires vlan creation first and you need to set the link type of the ports as trunk for gvrp can be enabled only on trunk interfaces for details refer to configuring 802 q vlan 291

Using the cli 291

Enabled 293

Gi1 0 1 enabled fixed 1000 20 60 n a 293

Gvrp global status 293

Port status reg mode leaveall joinin leave lag 293

Switch config gvrp 293

Switch config if end 293

Switch config if gvrp 293

Switch config if gvrp registration fixed 293

Switch config if show gvrp global 293

Switch config if show gvrp interface gigabitethernet 1 0 1 293

Switch config interface gigabitethernet 1 0 1 293

Switch configure 293

Switch copy running config startup config 293

The following example shows how to enable gvrp globally and on trunk port 1 0 1 configure the gvrp registration mode as fixed and keep the values of timers as default 293

Before enabling gvrp set the link type for all ports in the link as trunk 294

Configuration example 294

Configuration scheme 294

Demonstrated with t2600g 52ts the following sections provide configuration procedure in two ways using the gui and using the cli 294

Department a and department b of a company are connected using switches offices of one department are distributed on different floors as shown in figure 3 1 the network topology is complicated configuration of the same vlan on different switches is required so that computers in the same department can communicate with each other 294

Network requirements 294

The two departments are in separate vlans to make sure the switches only dynamically create vlan of their own department you need to set the registration mode for ports on switch 1 to switch 4 as fixed to prevents dynamic registration and deregistration of vlans and allow the port to transmit only the static vlan registration information 294

To configure dynamic vlan creation on other switches set the registration mode of the corresponding ports as normal to allow dynamic registration and de registration of vlans 294

To reduce manual configuration and maintenance workload gvrp can be enabled to implement dynamic vlan registration and update on the switches 294

When configuring gvrp please note the following 294

Using the gui 295

Using the cli 298

Verify the configuration 300

Appendix default parameters 302

Default settings of gvrp are listed in the following tables 302

Chapters 303

Configuring private vlan 303

Part 14 303

Overview 304

If private vlan is configured on switch b switch a only needs to recognize primary vlan vlan5 and end users can be isolated by secondary vlans vlan2 vlan3 and vlan4 saving vlan resources for switch a 305

Creating private vlan 306

Private vlan configurations 306

Using the gui 306

Click create 307

Configuring the up link port 307

In the port config section select the port to be configured set the port type as promiscuous and enter the ids of primary vlan and secondary vlan 307

Port config to load the following page 307

The switch requires that only access port can be added to a private vlan 307

Click apply 308

Configuring the down link port 308

In the port config section select the port to be configured set the port type as host and enter the ids of primary vlan and secondary vlan 308

Port config to load the following page 308

The switch requires that only access port can be added to a private vlan 308

Click apply 309

Creating private vlan 309

Using the cli 309

Community 310

Primary secondary type ports 310

Switch config end 310

Switch config show vlan private vlan 310

Switch config vlan 5 310

Switch config vlan 6 310

Switch config vlan exit 310

Switch config vlan private vlan association 5 310

Switch config vlan private vlan community 310

Switch config vlan private vlan primary 310

Switch configure 310

Switch copy running config startup config 310

The following example shows how to create primary vlan 6 and secondary vlan 5 set the secondary vlan type as community and pair primary vlan 6 with secondary vlan 5 as a private vlan 310

Configuring the up link port 311

Switch config interface gigabitethernet 1 0 2 311

Switch configure 311

The following example shows how to configure the port type of port 1 0 2 as promiscuous and add it to the private vlan composed of primary vlan 6 and secondary vlan 5 311

The switch requires that only access port can be added to a private vlan 311

Community gi1 0 2 312

Configuring the down link port 312

Gi1 0 2 promiscuous 312

Port type 312

Primary secondary type ports 312

Switch config end 312

Switch config if exit 312

Switch config if switchport private vlan promiscuous 312

Switch config show vlan private vlan 312

Switch config show vlan private vlan interface gigabitethernet 1 0 2 312

Switch copy running config startup config 312

Swtich config if switchport private vlan mapping 6 5 312

The switch requires that only access port can be added to a private vlan 312

Community gi1 0 3 313

Gi1 0 3 host 313

Port type 313

Primary secondary type ports 313

Switch config end 313

Switch config if exit 313

Switch config if switchport private vlan host 313

Switch config interface gigabitethernet 1 0 3 313

Switch config show vlan private vlan 313

Switch config show vlan private vlan interface gigabitethernet 1 0 3 313

Switch configure 313

Switch copy running config startup config 313

Swtich config if switchport private vlan host association 6 5 community 313

The following example shows how to configure the port type of port 1 0 3 as host and add it to the private vlan composed of primary vlan 6 and secondary vlan 5 313

Configuration example 314

Configuration scheme 314

Network requirements 314

Network topology 314

Configurations for switch a 315

Creating private vlan 315

Pvlan config to load the following page create primary vlan 6 and secondary vlan 5 select community as the secondary vlan type click create and primary vlan 6 is paired with secondary vlan 5 similarly create primary vlan 6 and secondary vlan 7 select community as the secondary vlan type click create and primary vlan 6 is paired with secondary vlan 7 315

Using the gui 315

Using the cli 317

Verify the configurations 319

Appendix default parameters 320

Default settings of private vlan are listed in the following tables 320

Chapters 321

Configuring spanning tree 321

Part 16 321

Basic concepts 322

Overview 322

Spanning tree 322

Stp rstp concepts 322

Bridge id 323

Port role 323

Root bridge 323

Port status 324

Path cost 325

Root path cost 325

Mst instance 326

Mst region 326

Mstp concepts 326

Stp security 327

Vlan instance mapping 327

Configuring stp rstp parameters on ports 330

Stp rstp configurations 330

Using the gui 330

Click apply 332

Configuring stp rstp globally 332

Stp config to load the following page 332

Follow these steps to configure stp rstp globally 333

In the global config section enable spanning tree function choose the stp mode as stp rstp and click apply 333

In the parameters config section configure the global parameters of stp rstp and click apply 333

Stp summary to load the following page 334

The stp summary section shows the summary information of spanning tree 334

Verify the stp rstp information of your switch after all the configurations are finished 334

Verifying the stp rstp configurations 334

Configuring stp rstp parameters on ports 335

Follow these steps to configure stp rstp parameters on ports 335

Using the cli 335

Switch config if show spanning tree interface gigabitethernet 1 0 3 336

Switch config if spanning tree 336

Switch config if spanning tree common config port priority 32 336

Switch config interface gigabitethernet 1 0 3 336

Switch configure 336

The following example shows how to enable spanning tree function on port 1 0 3 and configure the port priority as 32 336

Configuring global stp rstp parameters 337

Follow these steps to configure global stp rstp parameters of the switch 337

Gi1 0 3 enable 32 auto auto no no auto n a n a lnkdwn 337

Interface state prio ext cost int cost edge p2p mode role status 337

Switch config if end 337

Switch copy running config startup config 337

Enable rstp 36864 2 12 20 5 20 338

Enabling stp rstp globally 338

Follow these steps to configure the spanning tree mode as stp rstp and enable spanning tree function globally 338

State mode priority hello time fwd time max age hold count max hops 338

Switch config end 338

Switch config show spanning tree bridge 338

Switch config spanning tree priority 36864 338

Switch config spanning tree timer forward time 12 338

Switch configure 338

Switch copy running config startup config 338

This example shows how to configure the priority of the switch as 36864 the forward delay as 12 seconds 338

Configuring parameters on ports in cist 340

Mstp configurations 340

Using the gui 340

Besides configure the priority of the switch the priority and path cost of ports in the desired instance 342

Click apply 342

Configure the region name revision level vlan instance mapping of the switch the switches with the same region name the same revision level and the same vlan instance mapping are considered as in the same region 342

Configuring the mstp region 342

Configuring the region name and revision level 342

Region config to load the following page 342

Configuring mstp globally 347

Follow these steps to configure mstp globally 347

In the parameters config section configure the global parameters of mstp and click apply 347

Stp config to load the following page 347

In the global config section enable spanning tree function and choose the stp mode as mstp and click apply 348

Stp summary to load the following page 349

The stp summary section shows the summary information of cist 349

Verifying the mstp configurations 349

Configuring parameters on ports in cist 350

Follow these steps to configure the parameters of the port in cist 350

The mstp summary section shows the information in mst instances 350

Using the cli 350

Switch configure 351

This example shows how to enable spanning tree function for port 1 0 3 and configure the port priority as 32 351

Configuring the mst region 352

Configuring the mstp region 352

Follow these steps to configure the mst region and the priority of the switch in the instance 352

Gi1 0 3 144 200 n a lnkdwn 352

Gi1 0 3 enable 32 auto auto no no auto n a n a lnkdwn 352

Interface prio cost role status 352

Interface state prio ext cost int cost edge p2p mode role status 352

Mst instance 0 cist 352

Mst instance 5 352

Switch config if end 352

Switch config if show spanning tree interface gigabitethernet 1 0 3 352

Switch config if spanning tree 352

Switch config if spanning tree common config port priority 32 352

Switch config interface gigabitethernet 1 0 3 352

Switch copy running config startup config 352

Region name r1 353

Revision 100 353

Switch config mst instance 5 vlan 2 6 353

Switch config mst name r1 353

Switch config mst revision 100 353

Switch config mst show spanning tree mst configuration 353

Switch config spanning tree mst configuration 353

Switch configure 353

This example shows how to create an mst region of which the region name is r1 the revision level is 100 and vlan 2 vlan 6 are mapped to instance 5 353

7 4094 354

Configuring the parameters on ports in instance 354

Follow these steps to configure the priority and path cost of ports in the specified instance 354

Mst instance vlans mapped 354

Switch config mst end 354

Switch copy running config startup config 354

Configuring global mstp parameters 355

Switch config if spanning tree timer forward time 12 356

Switch config spanning tree priority 36864 356

Switch configure 356

This example shows how to configure the cist priority as 36864 the forward delay as 12 seconds the hold count as 8 and the max hop as 25 356

Enable mstp 36864 2 12 20 8 25 357

Enabling spanning tree globally 357

Follow these steps to configure the spanning tree mode as mstp and enable spanning tree function globally 357

Spanning tree is enabled 357

State mode priority hello time fwd time max age hold count max hops 357

Switch config if end 357

Switch config if show spanning tree bridge 357

Switch config if spanning tree hold count 8 357

Switch config if spanning tree max hops 25 357

Switch config show spanning tree active 357

Switch config spanning tree 357

Switch config spanning tree mode mstp 357

Switch configure 357

Switch copy running config startup config 357

This example shows how to configure the spanning tree mode as mstp and enable spanning tree function globally 357

Configuring the stp security 360

Stp security configurations 360

Using the gui 360

Configure the port protect features for the selected ports and click apply 361

Optional configuring the threshold and tc protect cycle 361

Configure the parameters of tc protect feature and click apply 362

Configuring the stp security 362

Featur 362

Follow these steps to configure the root protect feature bpdu protect feature and bpdu filter feature for ports 362

Tc protect to load the following page 362

Using the cli 362

When you enable tc protect function on ports set the tc threshold and tc protect cycle here if the number of the received tc bpdus exceeds the maximum number you set in the tc threshold field the switch will not remove mac address entries in the tc protect cycle 362

Switch config if show spanning tree interface security gigabitethernet 1 0 3 363

Switch config if spanning tree bpdufilter 363

Switch config if spanning tree bpduguard 363

Switch config if spanning tree guard loop 363

Switch config if spanning tree guard root 363

Switch config interface gigabitethernet 1 0 3 363

Switch configure 363

This example shows how to enable loop protect root protect bpdu filter and bpdu protect functions on port 1 0 3 363

Configuring the tc protect 364

Follow these steps to configure tc protect feature for ports 364

Gi1 0 3 enable enable enable enable disable 364

Interface bpdu filter bpdu guard loop protect root protect tc protect 364

Switch config if end 364

Switch copy running config startup config 364

As shown in figure 5 1 the network consists of three switches traffic in vlan 101 vlan 106 is transmitted in this network the link speed between the switches is 100mb s the default path cost of the port is 200000 366

Configuration example for mstp 366

Configuration scheme 366

Here we configure two instances to meet the requirement as is shown below 366

It is required that traffic in vlan 101 vlan 103 and traffic in vlan 104 vlan 106 should be transmitted along different paths 366

Mstp backwards compatible with stp and rstp can map vlans to instances to enable load balancing thus providing a more flexible method in network management here we take the mstp configuration as an example 366

Network requirements 366

To meet this requirement you are suggested to configure mstp function on the switches map the vlans to different instances to ensure traffic can be transmitted along the respective instance 366

Using the gui 367

Instance port config to load the following page set the path cost of port 1 0 1 in instance 1 as 400000 369

Instance port config to load the following page set the path cost of port 1 0 2 in instance 2 as 400000 373

Using the cli 378

Verify the configurations 380

Appendix default parameters 385

Default settings of the spanning tree feature are listed in the following table 385

Chapters 387

Configuring oam 387

Part 17 387

Ethernet oam 388

Oam connection 388

Oam entity 388

Oampdus 388

Overview 388

As the above figure shows the oam entity on switch a is in active mode and that on switch b is in passive mode switch a initiates an oam connection by sending an information oampdu switch b compares the oam information in the received oampdu with its own and sends back an information oampdu to switch a if the oam information of the two entities matches an oam connection will be established after that the two oam entities will exchange information oampdus periodically to keep the oam connection valid 389

Link monitoring 389

Link monitoring is for monitoring link performance under various circumstances when problems are detected on the link the oam entity will send its remote peer the event notification oampdus to report link events 389

Supported features 389

The link events are described as follows 389

The switch supports the following oam features link monitoring remote failure indication rfi and remote loopback 389

As the above figure shows the oam connection has been established between the two entities the oam entity on switch a is in active mode and that on switch b is in passive mode 390

Critical event unspecified critical event occurs 390

Dying gasp an unrecoverable fault such as power failure occurs 390

Remote failure indication 390

Remote loopback 390

T2600g 18ts does not support this feature 390

With remote failure indication an oam entity can send the failure conditions of the link such as disruption in traffic because of the device failure to its peer through information oampdus so the network administrator can get informed of the link faults and take action in time the switch supports two kinds of failure conditions 390

With remote loopback administrators can test the link performance like delay jitter and frame loss rate during installation or for troubleshooting 390

Enabling oam and configuring oam mode 392

Ethernet oam configurations 392

Using the gui 392

Click apply 393

Configuring link monitoring 393

Follow these steps to complete the basic oam configuration 393

Link monitoring to load the following page 393

Select one or more ports configure the oam mode and enable oam 393

Click apply 394

Follow these steps to configure link monitoring 394

In the current link event section select a link event type to be configured 394

In the link monitoring config section select one or more ports and configure the threshold and period for the selected link event 394

Click apply 395

Configuring rfi 395

Follow these steps to configure remote failure indication 395

Remote failure indication config to load the following page 395

Select one or more ports and configure the dying gasp notify and critical event notify features 395

Click apply 396

Configuring remote loopback 396

Follow these steps to configure remote loopback 396

Remote loopback to load the following page 396

Select one or more ports and configure the relevant options 396

T2600g 18ts does not support this feature 396

Discovery info to load the following page 397

Select a port to view whether the oam connection is established with the peer additionally you can view the oam information of the local and the remote entities 397

The oam information of the local entity is as follows 397

Viewing oam status 397

The oam information of the remote entity is as follows 398

Enabling oam and configuring oam mode 399

Follow these steps to enable oam and configure oam mode on the port 399

Using the cli 399

Configuring link monitoring 400

Gi1 0 1 401

Notify state enabled 401

Switch config if end 401

Switch config if ethernet oam link monitor symbol period threshold 1 window 10 notify enable 401

Switch config if show ethernet oam configuration interface gigabitethernet 1 0 1 401

Switch config interface gigabitethernet 1 0 1 401

Switch configure 401

Symbol period error 401

The following example shows how to enable frame error notifying and configure the threshold as 1 and the window as 1000 ms 10 100 ms on port 1 0 1 401

Threshold 1 error symbol 401

Window 1000 milliseconds 401

Configuring frame error 402

Follow these steps to configure frame error 402

Switch config if ethernet oam link monitor frame threshold 1 window 20 notify enable 402

Switch config if show ethernet oam configuration interface gigabitethernet 1 0 1 402

Switch config interface gigabitethernet 1 0 1 402

Switch configure 402

Switch copy running config startup config 402

The following example shows how to enable frame error notifying and configure the threshold as 1 and the window as 2000 ms 20 100 ms on port 1 0 1 402

With frame error enabled a frame error event occurs if the number of frame errors exceeds the defined threshold within a specific period of time 402

Configuring frame period error 403

Follow these steps to configure frame period error 403

Frame error 403

Gi1 0 1 403

Notify state enabled 403

Switch config if end 403

Switch copy running config startup config 403

Threshold 1 error frame 403

Window 2000 milliseconds 403

With frame period error enabled a frame period error event occurs if the number of frame errors in specific number of received frames exceeds the defined threshold 403

Frame seconds error 405

Gi1 0 1 405

Notify state enabled 405

Switch config if end 405

Switch config if ethernet oam link monitor frame seconds threshold 1 window 800 notify enable 405

Switch config if show ethernet oam configuration interface gigabitethernet 1 0 1 405

Switch config interface gigabitethernet 1 0 1 405

Switch configure 405

The following example shows how to enable frame seconds error notifying and configure the threshold as 1 and the window as 80000 ms 800 100 ms on port 1 0 1 405

Threshold 1 error seconds 405

Window 80000 milliseconds 405

Configuring remote failure indication 406

Follow these steps to configure remote failure indication 406

Switch config if ethernet oam dying gasp notify enable 406

Switch config if ethernet oam remote failure notify enable 406

Switch config if show ethernet oam configuration interface gigabitethernet 1 0 1 406

Switch config interface gigabitethernet 1 0 1 406

Switch configure 406

Switch copy running config startup config 406

The following example shows how to enable dying gasp and critical event on port 1 0 1 406

Configuring remote loopback 407

Critical event enabled 407

Dying gasp enabled 407

Follow these steps to configure remote loopback 407

Gi1 0 1 407

Switch config if end 407

Switch configure 407

Switch copy running config startup config 407

T2600g 18ts does not support this feature 407

The following example shows how to start the oam remote loopback mode of the peer on port 1 0 1 407

On privileged exec mode or any other configuration mode you can use the following command to view whether the oam connection is established with the peer additionally you can view the oam information of the local entity and the remote entity 408

Switch config if ethernet oam remote loopback start 408

Switch config interface gigabitethernet 1 0 1 408

Verifying oam connection 408

Gi1 0 1 409

Local client 409

Max oampdu 1518 bytes 409

Mode active 409

Oam enabled 409

Remote loopback supported 409

Switch config show ethernet oam status interface gigabitethernet 1 0 1 409

The following example shows how to view the oam status of port 1 0 1 409

Unidirection not supported 409

Using the gui 411

Viewing oam statistics 411

Viewing oampdus 411

Event log to load the following page 413

Select a port and view the local and remote event logs on this port in the event log statistics section 413

Viewing event logs 413

Additionally you can view the detailed information of the event logs in the event log table section 414

Gi1 0 1 414

Information oampdu rx 28 414

Information oampdu tx 28 414

On privileged exec mode or any other configuration mode you can use the following command to view the number of oampdus received and sent on the specified port 414

Switch show ethernet oam statistics interface gigabitethernet 1 0 1 414

The following example shows how to view the transmitted and received oamdpus on port 1 0 1 414

Unique event notification oampdu rx 0 414

Unique event notification oampdu tx 0 414

Using the cli 414

Viewing oampdus 414

Critical event remote 2016 01 01 08 08 00 416

Event listing 416

Gi1 0 1 416

Local event statistics 416

On privileged exec mode or any other configuration mode you can use the following command to view the local and remote event logs on the specified port 416

Switch show ethernet oam event log interface gigabitethernet 1 0 1 416

The following example shows how to view the event logs on port 1 0 1 416

Type location time stamp 416

Viewing event logs 416

Configuration example 418

Configuration scheme 418

Network requirements 418

Using the gui 418

Using the cli 423

Verify the configuration 424

Critical event 1 427

Appendix default parameters 428

Default settings of ethernet oam are listed in the following tables 428

Chapters 429

Configuring layer 2 multicast 429

Part 18 429

Layer 2 multicast 430

Overview 430

Configuration guide 400 431

Configuring layer 2 multicast layer 2 multicast 431

Demonstrated as below 431

Figure 1 1 igmp snooping 431

Layer 2 multicast protocol for ipv4 igmp snooping 431

Layer 2 multicast protocol for ipv6 mld snooping 431

On the layer 2 device igmp snooping transmits data on demand on data link layer by analyzing igmp packets between layer 3 devices and users to build and maintain layer 2 multicast forwarding table 431

On the layer 2 device mld snooping multicast listener discovery snooping transmits data on demand on data link layer by analyzing igmp packets between layer 3 devices and users to build and maintain layer 2 multicast forwarding table 431

Supported layer 2 multicast protocols 431

Configuring igmp snooping globally 432

Igmp snooping configurations 432

Using the gui 432

Click apply 433

Configure unknown multicast as forward or discard 433

Configuring router port time and member port time 433

Enable or disable report message suppression globally 433

Enabling report message suppression can reduce the number of packets in the network 433

Follow these steps to configure report message suppression 433

Follow these steps to configure the aging time of the router ports and the member ports 433

Follow these steps to configure unknown multicast 433

Optional configuring report message suppression 433

Snooping config page at the same time 433

Specify the aging time of the member ports 433

Specify the aging time of the router ports 433

Click apply 434

Configure the last listener query interval and last listener query count when the switch receives an igmp leave message if specified count of multicast address specific queries masqs are sent and no report message is received the switch will delete the multicast address from the multicast forwarding table 434

Configuring igmp snooping last listener query 434

Follow these steps to configure last listener query interval and last listener query count in the global config section 434

Igmp snooping status table displays vlans and ports with igmp snooping enabled 434

Specify the interval between masqs 434

Specify the number of masqs to be sent 434

Verifying igmp snooping status 434

Configuring the port s basic igmp snooping features 435

Enabling igmp snooping on the port 435

Optional configuring fast leave 435

Configuring igmp snooping globally in the vlan 436

Configuring igmp snooping in the vlan 436

Click create 437

Configure the forbidden router ports in the designate vlan 437

Configure the router ports in the designate vlan 437

Configuring the multicast vlan 437

Follow these steps to configure static router ports in the designate vlan 437

Follow these steps to forbid the selected ports to be the router ports in the designate vlan 437

In old multicast transmission mode when users in different vlans apply for data from the same multicast group the layer 3 device will duplicate this multicast data and deliver copies to the layer 2 devices 437

Optional configuring the forbidden router ports in the vlan 437

Optional configuring the static router ports in the vlan 437

With multicast vlan configured all multicast group members will be added to a vlan layer 3 device only need to send one piece of multicast data to a layer 2 device and the layer 2 device will send the data to all member ports of the vlan in this way multicast vlan saves bandwidth and reduces network load of layer 3 devices 437

Creating multicast vlan and configuring basic settings 438

Enable multicast vlan configure the specific vlan to be the multicast vlan and configure the router port time and member port time 438

In the multicast vlan section follow these steps to enable multicast vlan and to finish the basic settings 438

Multicast vlan to load the following page 438

Set up the vlan that the router ports and the member ports are in for details please refer to configuring 802 q vlan 438

Click apply 439

Configure the new multicast source ip 439

Configure the router ports in the designate vlan 439

Configure the router ports in the multicast vlan 439

Follow these steps to configure static router ports in the multicast vlan 439

Follow these steps to forbid the selected ports to be the router ports in the multicast vlan 439

Optional configuring the forbidden router ports 439

Optional configuring the static router ports 439

Optional creating replace source ip 439

This function allows you to use a new ip instead of the source ip to send data to multicast group members in the multicast vlan section follow these steps to configure replace source ip 439

This table displays all the dynamic router ports in the multicast vlan 439

Viewing dynamic router ports in the multicast vlan 439

Click add 440

Configuring the querier 440

Follow these steps to configure the querier 440

Optional configuring the querier 440

Querier config to load the following page 440

Specify a vlan and configure the querier on this vlan 440

The igmp snooping querier table displays all the related settings of the igmp querier 440

Viewing settings of igmp querier 440

You can edit the settings in the igmp snooping querier table 440

Click create 441

Configuring igmp profile 441

Create a profile and configure its filtering mode 441

Creating profile 441

Enter the search condition in the search option field to search the profile in the igmp profile info table 441

Follow these steps to create a profile and configure its filtering mode 441

Profile config to load the following page 441

Searching profile 441

Binding profile and member ports 442

Click edit in the igmp profile info table edit its ip range and click add to save the settings 442

Click submit to save the settings click back to go back to the previous page 442

Editing ip range of the profile 442

Follow these steps to edit profile mode and its ip range 442

In the ip range table you can select an ip range and click delete to delete an ip range 442

Profile binding to load the following page 442

Binding profile and member ports 443

Click apply 443

Configuring max groups a port can join 443

Follow these steps to bind the profile to the port 443

Follow these steps to configure the maximum groups a port can join and overflow action 443

Select a port to configure its max group and overflow action 443

Select the port to be bound and enter the profile id in the profile id column 443

Click apply 444

Configuring auto refresh 444

Enable or disable auto refresh 444

Follow these steps to configure auto refresh 444

Packet statistic to load the following page 444

Viewing igmp statistics on each port 444

Click apply 445

Enabling igmp accounting and authentication 445

Igmp authentication to load the following 445

The igmp statistics table displays all kinds of igmp statistics of all the ports 445

Viewing igmp statistics 445

Configuring igmp accounting globally 446

Configuring igmp authentication on the port 446

Configuring static member port 446

Click create 447

Configuring static member port 447

Enter the multicast ip and vlan id specify the static member port 447

Follow these steps to configure static member port 447

Static multicast ip table displays details of all igmp static multicast groups 447

Viewing igmp static multicast groups 447

You can search igmp static multicast entries by using multicast ip vlan id or forward port as the search option 447

Enabling igmp snooping globally 448

Enabling igmp snooping on the port 448

Switch config ip igmp snooping 448

Switch configure 448

The following example shows how to enable igmp snooping globally and enable igmp snooping on port 1 0 3 448

Using the cli 448

Configuring igmp snooping parameters globally 449

Configuring report message suppression 449

Enable port gi1 0 3 449

Enable vlan 449

Global authentication accounting disable 449

Global member age time 260 449

Global report suppression disable 449

Global router age time 300 449

Igmp snooping enable 449

Last query interval 1 449

Last query times 2 449

Switch config if end 449

Switch config if ip igmp snooping 449

Switch config if show ip igmp snooping 449

Switch config interface gigabitethernet 1 0 3 449

Switch copy running config startup config 449

Unknown multicast pass 449

Configuring unknown multicast 450

Enable port 450

Enable vlan 450

Global authentication accounting disable 450

Global member age time 260 450

Global report suppression enable 450

Global router age time 300 450

Igmp snooping enable 450

Last query interval 1 450

Last query times 2 450

Switch config if end 450

Switch config ip igmp snooping 450

Switch config ip igmp snooping report suppression 450

Switch config show ip igmp snooping 450

Switch configure 450

Switch copy running config startup config 450

The following example shows how to enable report message suppression 450

Unknown multicast pass 450

Configuring igmp snooping parameters on the port 451

Configuring router port time and member port time 451

Configuring fast leave 452

Enable port 452

Enable vlan 452

Global authentication accounting disable 452

Global member age time 200 452

Global report suppression disable 452

Global router age time 200 452

Igmp snooping enable 452

Last query interval 1 452

Last query times 2 452

Switch config if end 452

Switch config ip igmp snooping 452

Switch config ip igmp snooping mtime 200 452

Switch config ip igmp snooping rtime 200 452

Switch config show ip igmp snooping 452

Switch configure 452

Switch copy running config startup config 452

The following example shows how to configure the global router port time and member port time as 200 seconds 452

Unknown multicast pass 452

Configuring max group and overflow action on the port 453

Gi1 0 3 enable enable 453

Port igmp snooping fast leave 453

Switch config if end 453

Switch config if ip igmp snooping 453

Switch config if ip igmp snooping immediate leave 453

Switch config if show ip igmp snooping interface gigabitethernet 1 0 3 basic config 453

Switch config interface gigabiteternet 1 0 3 453

Switch config ip igmp snooping 453

Switch configure 453

Switch copy running config startup config 453

The following example shows how to enable fast leave on port 1 0 3 453

Configuring igmp snooping last listener query 454

Gi1 0 3 500 drop 454

Port max groups overflow action 454

Switch config if end 454

Switch config if ip igmp snooping 454

Switch config if ip igmp snooping max groups 500 454

Switch config if ip igmp snooping max groups action drop 454

Switch config if show ip igmp snooping interface gigabitethernet 1 0 3 max groups 454

Switch config interface gigabiteternet 1 0 3 454

Switch config ip igmp snooping 454

Switch configure 454

Switch copy running config startup config 454

The following example shows how to configure the max group as 500 and the overflow action as drop on port 1 0 3 454

Enable port 455

Enable vlan 455

Global authentication accounting disable 455

Global member age time 260 455

Global report suppression disable 455

Global router age time 300 455

Igmp snooping enable 455

Last query interval 5 455

Last query times 5 455

Switch config end 455

Switch config ip igmp snooping 455

Switch config ip igmp snooping last listener query count 5 455

Switch config ip igmp snooping last listener query interval 5 455

Switch config show ip igmp snooping 455

Switch configure 455

Switch copy running config startup config 455

The following example shows how to configure the last listener query count as 5 and the last listener query interval as 5 seconds 455

Unknown multicast pass 455

Configuring igmp snooping parameters in the vlan 456

Configuring router port time and member port time 456

Dynamic router port none 456

Forbidden router port none 456

Member time 400 456

Router time 500 456

Static router port none 456

Switch config ip igmp snooping 456

Switch config ip igmp snooping vlan config 2 3 mtime 400 456

Switch config ip igmp snooping vlan config 2 3 rtime 500 456

Switch config show ip igmp snooping vlan 2 456

Switch config show ip igmp snooping vlan 3 456

Switch configure 456

The following example shows how to enable igmp snooping in vlan 2 and vlan 3 configure the router port time as 500 seconds and the member port time as 400 seconds 456

Vlan id 2 456

Vlan id 3 456

Configuring static router port 457

Dynamic router port none 457

Forbidden router port none 457

Member time 0 457

Member time 400 457

Router time 0 457

Static router port gi1 0 2 457

Static router port none 457

Switch config end 457

Switch config ip igmp snooping 457

Switch config ip igmp snooping vlan config 2 rport interface gigabitethernet 1 0 2 457

Switch config show ip igmp snooping vlan 2 457

Switch configure 457

Switch copy running config startup config 457

The following example shows how to enable igmp snooping in vlan 2 and configure port 1 0 2 as the static router port 457

Vlan id 2 457

Configuring forbidden router port 458

Dynamic router port none 458

Forbidden router port gi1 0 4 6 458

Member time 0 458

Router time 0 458

Static router port none 458

Switch config end 458

Switch config ip igmp snooping 458

Switch config ip igmp snooping vlan config 2 router ports forbidden interface gigabitethernet 1 0 4 6 458

Switch config show ip igmp snooping vlan 2 458

Switch configure 458

Switch copy running config startup config 458

The following example shows how to enable igmp snooping in vlan 2 and forbid port 1 0 4 6 from becoming router ports port 1 0 4 6 will drop all multicast data from layer 3 devices 458

Vlan id 2 458

2 static gi1 0 9 10 459

Configuring igmp snooping parameters in the multicast vlan 459

Configuring router port time and member port time 459

Configuring static multicast multicast ip and forward port 459

Multicast ip vlan id addr type switch port 459

Switch config end 459

Switch config ip igmp snooping 459

Switch config ip igmp snooping vlan config 2 static 226 interface gigabitethernet 1 0 9 10 459

Switch config show ip igmp snooping groups static 459

Switch configure 459

Switch copy running config startup config 459

The following example shows how to configure 226 as the static multicast ip and specify port 1 0 9 10 as the forward ports 459

Configuring static router port 460

Dynamic router port none 460

Forbidden router port none 460

Member time 400 460

Multicast vlan enable 460

Replace source ip 0 460

Router time 500 460

Static router port none 460

Switch config end 460

Switch config ip igmp snooping 460

Switch config ip igmp snooping multi vlan config 5 mtime 400 460

Switch config ip igmp snooping multi vlan config 5 rtime 500 460

Switch config show ip igmp snooping multi vlan 460

Switch configure 460

Switch copy running config startup config 460

The following example shows how to configure vlan 5 as the multicast vlan set the router port time as 500 seconds and the member port time as 400 seconds 460

Vlan id 5 460

Configuring forbidden router port 461

Dynamic router port none 461

Forbidden router port none 461

Member time 260 461

Multicast vlan enable 461

Replace source ip 0 461

Router time 300 461

Static router port gi1 0 5 461

Switch config end 461

Switch config ip igmp snooping 461

Switch config ip igmp snooping multi vlan config 5 rport interface gigabitethernet 1 0 5 461

Switch config show ip igmp snooping multi vlan 461

Switch configure 461

Switch copy running config startup config 461

The following example shows how to configure vlan 5 as the multicast vlan and set port 1 0 5 as the static router port 461

Vlan id 5 461

Configuring replace source ip 462

Dynamic router port none 462

Forbidden router port gi1 0 6 462

Member time 260 462

Multicast vlan enable 462

Replace source ip 0 462

Router time 300 462

Static router port none 462

Switch config end 462

Switch config ip igmp snooping 462

Switch config ip igmp snooping multi vlan config 5 router ports forbidden interface gigabitethernet 1 0 6 462

Switch config show ip igmp snooping multi vlan 462

Switch configure 462

Switch copy running config startup config 462

The following example shows how to configure vlan 5 as the multicast vlan and set port 1 0 6 as the forbidden router port 462

Vlan id 5 462

Configuring the querier 463

Dynamic router port none 463

Enabling igmp querier 463

Forbidden router port none 463

Member time 260 463

Multicast vlan enable 463

Replace source ip 192 68 463

Router time 300 463

Static router port none 463

Switch config end 463

Switch config ip igmp snooping 463

Switch config ip igmp snooping multi vlan config 5 replace sourceip 192 68 463

Switch config show ip igmp snooping multi vlan 463

Switch configure 463

Switch copy running config startup config 463

The following example shows how to configure vlan 5 as the multicast vlan and replace the source ip in the igmp packets sent by the switch with 192 68 463

Vlan id 5 463

Configuring query interval max response time and general query source ip 464

General query source ip 192 68 464

Maximum response time 10 464

Query interval 60 464

Switch config end 464

Switch config ip igmp snooping 464

Switch config ip igmp snooping querier vlan 4 464

Switch config show ip igmp snooping querier 464

Switch configure 464

Switch copy running config startup config 464

The following example shows how to enable igmp snooping and igmp querier in vlan 4 464

Vlan 4 464

Configuring multicast filtering 465

Creating profile 465

Binding profile to the port 466

Igmp profile 1 466

Range 226 226 0 466

Switch config end 466

Switch config igmp profile deny 466

Switch config igmp profile range 226 226 0 466

Switch config igmp profile show ip igmp profile 466

Switch config ip igmp profile 1 466

Switch config ip igmp snooping 466

Switch configure 466

Switch copy running config startup config 466

The following example shows how to configure profile 1 so that the switch filters multicast data sent to 226 226 0 466

Binding port s 467

Gi1 0 2 467

Igmp profile 1 467

Range 226 226 0 467

Switch config end 467

Switch config if ip igmp filter 1 467

Switch config if ip igmp snooping 467

Switch config if show ip igmp profile 467

Switch config igmp profile deny 467

Switch config igmp profile exit 467

Switch config igmp profile range 226 226 0 467

Switch config interface gigabitethernet 1 0 2 467

Switch config ip igmp profile 1 467

Switch config ip igmp snooping 467

Switch configure 467

Switch copy running config startup config 467

The following example shows how to bind profile 1 to port 1 0 2 so that port 1 0 2 filters multicast data sent to 226 226 0 467

Enabling igmp accounting and authentication 468

Enabling igmp authentication on the port 468

Gi1 0 2 enable 468

Port igmp authentication 468

Switch config end 468

Switch config if ip igmp snooping 468

Switch config if ip igmp snooping authentication 468

Switch config if show ip igmp snooping interface gigabitethernet 1 0 2 authentication 468

Switch config interface gigabitethernet 1 0 2 468

Switch config ip igmp snooping 468

Switch configure 468

Switch copy running config startup config 468

The following example shows how to enable igmp authentication on port 1 0 2 468

Enabling igmp accounting globally 469

Configuring mld snooping 470

Configuring mld snooping globally 470

Using the gui 470

Click apply 471

Configure unknown multicast as forward or discard 471

Configuring router port time and member port time 471

Enable or disable report message suppression globally 471

Enabling report message suppression can reduce the number of packets in the network 471

Follow these steps to configure report message suppression 471

Follow these steps to configure the aging time of the router ports and the member ports 471

Follow these steps to configure unknown multicast 471

Optional configuring report message suppression 471

Snooping config page at the same time 471

Specify the aging time of the member ports 471

Specify the aging time of the router ports 471

Click apply 472

Configure the last listener query interval and last listener query count when the switch receives an mld leave message if specified count of multicast address specific queries masqs are sent and no report message is received the switch will delete the multicast address from the multicast forwarding table 472

Configuring mld snooping last listener query 472

Follow these steps to configure last listener query interval and last listener query count in the global config section 472

Mld snooping status table displays vlans and ports with mld snooping enabled 472

Specify the interval between masqs 472

Specify the number of masqs to be sent 472

Verifying mld snooping status 472

Configuring the port s basic mld snooping features 473

Enabling mld snooping on the port 473

Optional configuring fast leave 473

Configuring mld snooping globally in the vlan 474

Configuring mld snooping in the vlan 474

Click create 475

Configure the forbidden router ports in the designate vlan 475

Configure the router ports in the designate vlan 475

Configuring the multicast vlan 475

Follow these steps to configure static router ports in the designate vlan 475

Follow these steps to forbid the selected ports to be the router ports in the designate vlan 475

In old multicast transmission mode when users in different vlans apply for data from the same multicast group the layer 3 device will duplicate this multicast data and deliver copies to the layer 2 devices 475

Optional configuring the forbidden router ports in the vlan 475

Optional configuring the static router ports in the vlan 475

With multicast vlan configured all multicast group members will be added to a vlan layer 3 device only need to send one piece of multicast data to a layer 2 device and the layer 2 device will send the data to all member ports of the vlan in this way multicast vlan saves bandwidth and reduces network load of layer 3 devices 475

Creating multicast vlan and configuring basic settings 476

Enable multicast vlan configure the specific vlan to be the multicast vlan and configure the router port time and member port time 476

In the multicast vlan section follow these steps to enable multicast vlan and to finish the basic settings 476

Multicast vlan to load the following page 476

Set up the vlan that the router ports and the member ports are in for details please refer to configuring 802 q vlan 476

Click apply 477

Configure the new multicast source ip 477

Configure the router ports in the designate vlan 477

Configure the router ports in the multicast vlan 477

Follow these steps to configure static router ports in the multicast vlan 477

Follow these steps to forbid the selected ports to be the router ports in the multicast vlan 477

Optional configuring the forbidden router ports 477

Optional configuring the static router ports 477

Optional creating replace source ip 477

This function allows you to use a new ip instead of the source ip to send data to multicast group members in the multicast vlan section follow these steps to configure replace source ip 477

This table displays all the dynamic router ports in the multicast vlan 477

Viewing dynamic router ports in the multicast vlan 477

Click add 478

Configuring the querier 478

Follow these steps to configure the querier 478

Optional configuring the querier 478

Querier config to load the following page 478

Specify a vlan and configure the querier on this vlan 478

The mld snooping querier table displays all the related settings of the mld querier 478

Viewing settings of mld querier 478

You can edit the settings in the mld snooping querier table 478

Click create 479

Configuring mld profile 479

Create a profile and configure its filtering mode 479

Creating profile 479

Enter the search condition in the search option field to search the profile in the mld profile info table 479

Follow these steps to create a profile and configure its filtering mode 479

Profile config to load the following page 479

Searching profile 479

Editing ip range of the profile 480

Binding profile and member ports 481

Click apply 481

Follow these steps to bind the profile to the port 481

Profile binding to load the following page 481

Select the port to be bound and enter the profile id in the profile id column 481

Click apply 482

Configuring max groups a port can join 482

Follow these steps to configure the maximum groups a port can join and overflow action 482

Select a port to configure its max group and overflow action 482

Click apply 483

Configuring auto refresh 483

Enable or disable auto refresh 483

Follow these steps to configure auto refresh 483

Packet statistic to load the following page 483

The mld statistics table displays all kinds of mld statistics of all the ports 483

Viewing mld statistics 483

Viewing mld statistics on each port 483

Configuring static member port 484

Viewing mld static multicast groups 484

Enabling mld snooping globally 485

Enabling mld snooping on the port 485

Switch config interface gigabitethernet 1 0 3 485

Switch config ipv6 mld snooping 485

The following example shows how to enable mld snooping globally and enable mld snooping switch configure 485

Using the cli 485

Configuring mld snooping parameters globally 486

Configuring report message suppression 486

Enable port gi1 0 3 486

Enable vlan 486

Global member age time 260 486

Global report suppression disable 486

Global router age time 300 486

Last query interval 1 486

Last query times 2 486

Mld snooping enable 486

Switch config if end 486

Switch config if ipv6 mld snooping 486

Switch config if show ipv6 mld snooping 486

Switch config ipv6 mld snooping 486

Switch configure 486

Switch copy running config startup config 486

The following example shows how to enable report message suppression 486

Unknown multicast pass 486

Configuring unknown multicast 487

Enable port 487

Enable vlan 487

Global member age time 260 487

Global report suppression enable 487

Global router age time 300 487

Igmp snooping and mld snooping share the setting of unknown multicast so you have to enable igmp snooping globally at the same time 487

Last query interval 1 487

Last query times 2 487

Mld snooping enable 487

Switch config end 487

Switch config ipv6 mld snooping 487

Switch config ipv6 mld snooping report suppression 487

Switch config show ipv6 mld snooping 487

Switch configure 487

Switch copy running config startup config 487

The following example shows how to configure the switch to discard unknown multicast data 487

Unknown multicast pass 487

Configuring mld snooping parameters on the port 488

Configuring router port time and member port time 488

Enable port 488

Enable vlan 488

Global member age time 260 488

Global report suppression disable 488

Global router age time 300 488

Last query interval 1 488

Last query times 2 488

Mld snooping enable 488

Switch config end 488

Switch config ip igmp snooping 488

Switch config ipv6 mld snooping drop unknown 488

Switch config show ipv6 mld snooping 488

Switch configure 488

Switch copy running config startup config 488

The following example shows how to configure the global router port time and member port time as 200 seconds 488

Unknown multicast discard 488

Configuring fast leave 489

Enable port 489

Enable vlan 489

Global member age time 200 489

Global report suppression disable 489

Global router age time 200 489

Last query interval 1 489

Last query times 2 489

Mld snooping enable 489

Switch config end 489

Switch config ipv6 mld snooping 489

Switch config ipv6 mld snooping mtime 200 489

Switch config ipv6 mld snooping rtime 200 489

Switch config show ipv6 mld snooping 489

Switch copy running config startup config 489

Unknown multicast pass 489

Configuring max group and overflow action on the port 490

Gi1 0 3 enable enable 490

Port mld snooping fast leave 490

Switch config if end 490

Switch config if ipv6 mld snooping 490

Switch config if ipv6 mld snooping immediate leave 490

Switch config if show ipv6 mld snooping interface gigabitethernet 1 0 3 basic config 490

Switch config interface gigabiteternet 1 0 3 490

Switch config ipv6 mld snooping 490

Switch configure 490

Switch copy running config startup config 490

The following example shows how to enable fast leave on port 1 0 3 490

Configuring mld snooping last listener query 491

Gi1 0 3 500 drop 491

Port max groups overflow action 491

Switch config if end 491

Switch config if ipv6 mld snooping 491

Switch config if ipv6 mld snooping max groups 500 491

Switch config if ipv6 mld snooping max groups action drop 491

Switch config if show ipv6 mld snooping interface gigabitethernet 1 0 3 max groups 491

Switch config interface gigabiteternet 1 0 3 491

Switch config ipv6 mld snooping 491

Switch configure 491

Switch copy running config startup config 491

The following example shows how to configure the max group as 500 and the overflow action as drop on port 1 0 3 491

Configuring mld snooping parameters in the vlan 492

Configuring router port time and member port time 492

Enable port 492

Enable vlan 492

Global member age time 260 492

Global report suppression disable 492

Global router age time 300 492

Last query interval 5 492

Last query times 5 492

Mld snooping enable 492

Switch config end 492

Switch config ipv6 mld snooping 492

Switch config ipv6 mld snooping last listener query count 5 492

Switch config ipv6 mld snooping last listener query interval 5 492

Switch config show ipv6 mld snooping 492

Switch configure 492

Switch copy running config startup config 492

The following example shows how to configure the last listener query count as 5 and the last listener query interval as 5 seconds 492

Unknown multicast pass 492

Configuring static router port 493

Configuring forbidden router port 494

Dynamic router port none 494

Forbidden router port none 494

Member time 0 494

Router time 0 494

Static router port gi1 0 2 494

Switch config end 494

Switch config ipv6 mld snooping 494

Switch config ipv6 mld snooping vlan config 2 rport interface gigabitethernet 1 0 2 494

Switch config show ipv6 mld snooping vlan 2 494

Switch configure 494

Switch copy running config startup config 494

The following example shows how to enable mld snooping in vlan 2 and configure port 1 0 2 as the static router port 494

Vlan id 2 494

Configuring static multicast multicast ip and forward port 495

Dynamic router port none 495

Forbidden router port gi1 0 4 6 495

Member time 0 495

Router time 0 495

Static router port none 495

Switch config 495

Switch config end 495

Switch config ipv6 mld snooping 495

Switch config ipv6 mld snooping vlan config 2 router ports forbidden interface gigabitethernet 1 0 4 6 495

Switch config show ipv6 mld snooping vlan 2 495

Switch copy running config startup config 495

The following example shows how to enable mld snooping in vlan 2 and forbid port 1 0 4 6 from becoming router ports port 1 0 4 6 will drop all multicast data from layer 3 devices 495

Vlan id 2 495

Configuring mld snooping parameters in the multicast vlan 496

Configuring router port time and member port time 496

Ff01 1234 02 2 static gi1 0 9 10 496

Multicast ip vlan id addr type switch port 496

Switch config end 496

Switch config ipv6 mld snooping 496

Switch config ipv6 mld snooping vlan config 2 static ff01 1234 02 interface gigabitethernet 1 0 9 10 496

Switch config show ipv6 mld snooping groups static 496

Switch configure 496

Switch copy running config startup config 496

The following example shows how to configure ff01 1234 02 as the static multicast ip and specify port 1 0 9 10 as the forward ports 496

Configuring static router port 497

Dynamic router port none 497

Forbidden router port none 497

Member time 400 497

Multicast vlan enable 497

Replace source ip 497

Router time 500 497

Static router port none 497

Switch config end 497

Switch config ipv6 mld snooping 497

Switch config ipv6 mld snooping multi vlan config 5 mtime 400 497

Switch config ipv6 mld snooping multi vlan config 5 rtime 500 497

Switch config show ipv6 mld snooping multi vlan 497

Switch configure 497

Switch copy running config startup config 497

The following example shows how to configure vlan 5 as the multicast vlan set the router port time as 500 seconds and the member port time as 400 seconds 497

Vlan id 5 497

Configuring forbidden router port 498

Dynamic router port none 498

Forbidden router port none 498

Member time 260 498

Multicast vlan enable 498

Replace source ip 498

Router time 300 498

Static router port gi1 0 5 498

Switch config end 498

Switch config ipv6 mld snooping 498

Switch config ipv6 mld snooping multi vlan config 5 rport interface gigabitethernet 1 0 5 498

Switch config show ipv6 mld snooping multi vlan 498

Switch configure 498

Switch copy running config startup config 498

The following example shows how to configure vlan 5 as the multicast vlan and set port 1 0 5 as the static router port 498

Vlan id 5 498

Configuring replace source ip 499

Dynamic router port none 499

Forbidden router port gi1 0 6 499

Member time 260 499

Multicast vlan enable 499

Replace source ip 499

Router time 300 499

Static router port none 499

Switch config end 499

Switch config ipv6 mld snooping 499

Switch config ipv6 mld snooping multi vlan config 5 router ports forbidden interface gigabitethernet 1 0 6 499

Switch config show ipv6 mld snooping multi vlan 499

Switch configure 499

Switch copy running config startup config 499

The following example shows how to configure vlan 5 as the multicast vlan and set port 1 0 6 as the forbidden router port 499

Vlan id 5 499

Configuring the querier 500

Dynamic router port none 500

Enabling mld querier 500

Forbidden router port none 500

Member time 260 500

Multicast vlan enable 500

Replace source ip fe80 2ff ffff fe00 1 500

Router time 300 500

Static router port none 500

Switch config end 500

Switch config ipv6 mld snooping 500

Switch config ipv6 mld snooping multi vlan config 5 replace sourceip fe80 02ff ffff fe00 0001 500

Switch config show ipv6 mld snooping multi vlan 500

Switch configure 500

Switch copy running config startup config 500

The following example shows how to configure vlan 5 as the multicast vlan and replace the source ip in the mld packets sent by the switch with fe80 02ff ffff fe00 0001 500

Vlan id 5 500

Configuring query interval max response time and general query source ip 501

General query source ip fe80 2ff ffff fe00 1 501

Maximum response time 10 501

Query interval 60 501

Switch config end 501

Switch config ipv6 mld snooping 501

Switch config ipv6 mld snooping querier vlan 4 501

Switch config show ipv6 mld snooping querier 501

Switch configure 501

Switch copy running config startup config 501

The following example shows how to enable mld snooping and mld querier in vlan 4 501

The following example shows how to enable mld snooping and mld querier in vlan 4 set the query interval as 100 seconds the max response time as 20 seconds and the general query source ip as fe80 2ff ffff fe00 1 501

Vlan 4 501

Configuring multicast filtering 502

Creating profile 502

General query source ip fe80 2ff ffff fe00 1 502

Maximum response time 20 502

Query interval 100 502

Switch config end 502

Switch config ipv6 mld snooping 502

Switch config ipv6 mld snooping querier vlan 4 general query source ip fe80 2ff ffff fe00 1 502

Switch config ipv6 mld snooping querier vlan 4 max response time 20 502

Switch config ipv6 mld snooping querier vlan 4 query interval 100 502

Switch config show ipv6 mld snooping querier 502

Switch copy running config startup config 502

Vlan 4 502

Binding profile to the port 503

Mld profile 1 503

Range ff01 1234 5 ff01 1234 8 503

Switch config end 503

Switch config ipv6 mld profile 1 503

Switch config ipv6 mld snooping 503

Switch config mld profile deny 503

Switch config mld profile range ff01 1234 5 ff01 1234 8 503

Switch config mld profile show ipv6 mld profile 503

Switch configure 503

Switch copy running config startup config 503

The following example shows how to configure profile 1 so that the switch filters multicast data sent to ff01 1234 5 ff01 1234 8 503

Using the gui 505

Viewing ipv4 multicast snooping configurations 505

Viewing multicast snooping configurations 505

Ipv6 multicast table to view all valid multicast ip vlan port entries 506

Using the cli 506

Viewing ipv4 multicast snooping configurations 506

Viewing ipv6 multicast snooping configurations 506

Viewing ipv6 multicast snooping configurations 507

Configuration examples 509

Configuration scheme 509

Example for configuring basic igmp snooping 509

Network requirements 509

Using the gui 510

Vlan config to load the following page create vlan 10 and add untagged port 1 0 1 3 and tagged port 1 0 4 to vlan 10 511

Using the cli 513

Verify the configurations 514

Configuration scheme 515

Example for configuring multicast vlan 515

Network requirements 515

Network topology 515

Demonstrated with t2600g 52ts this section provides configuration procedures in two ways using the gui and using the cli 516

Internet 516

Snooping config to load the following page enable igmp snooping globally and keep the default values in the router port time and member port time fields 516

Using the gui 516

Snooping config to load the following page enable igmp snooping on port 1 0 1 4 517

Using the cli 519

Verify the configurations 520

Example for configuring unknown multicast and fast leave 521

Network requirement 521

Configuration scheme 522

Using the gui 522

Port config to load the following page enable igmp snooping on port 1 0 2 and port 1 0 4 and enable fast leave on port 1 0 2 523

Vlan config to load the following page enable igmp snooping in vlan 10 524

Using the cli 525

Verify the configurations 525

Configuration scheme 526

Example for configuring multicast filtering 526

Network requirements 526

Network topology 526

Demonstrated with t2600g 52ts this section provides configuration procedures in two ways using the gui and using the cli 527

Internet 527

Snooping config to load the following page enable igmp snooping globally and keep the default values in the router port time and member port time fields 527

Using the gui 527

Snooping config to load the following page 528

Using the cli 534

Verify the configurations 536

Appendix default parameters 537

Default parameters for igmp snooping 537

Default parameters for mld snooping 538

Chapters 540

Configuring logical interfaces 540

Part 19 540

Interfaces of a device are used to exchange data and interact with interfaces of other network devices interfaces are classified into physical interfaces and logical interfaces 541

Logical interfaces are manually configured and do not physically exist such as loopback interfaces and routing interfaces 541

Overview 541

Physical interfaces are the ports on the front panel or rear panel of the switch 541

This chapter introduces the configurations for logical interfaces the supported types of logical interfaces are shown as below 541

Creating a layer 3 interface 542

Logical interfaces configurations 542

Using the gui 542

Configuring ipv4 parameters of the interface 543

Figure 2 543

In the interface list section you can view the corresponding interface entry you create 543

In the modify interface section specify an interface id and configure relevant parameters for the interface according to your actual needs then click apply 543

List section on the corresponding interface entry click edit to load the following page and configure the ipv4 parameters of the interface 543

You can view the corresponding interface entry you create in the interface 543

Configuring ipv6 parameters of the interface 544

Figure 2 544

In the secondary ip create section configure the secondary ip for the specified interface which allows you to have two logical subnets using one physical subnet then click create 544

In the secondary ip list section you can view the corresponding secondary ip entry you create 544

List section on the corresponding interface entry click edit ipv6 to load the following page and configure the ipv6 parameters of the interface 544

You can view the corresponding interface entry you create in the interface 544

Configure the ipv6 link local address of the interface manually or automatically in the link local address config section then click apply 545

Enable ipv6 function on the interface of switch in the general config section then click apply 545

Configure one or more ipv6 global addresses of the interface via following three ways 546

Manually 546

Via dhcpv6 server 546

Via ra message 546

View the global address entry in the global address table 546

Creating a layer 3 interface 547

Figure 2 547

Follow these steps to create a layer 3 interface you can create a vlan interface a loopback interface a routed port or a port channel interface according to your needs 547

List section on the corresponding interface entry click detail to load the following page and view the detail information of the interface 547

Using the cli 547

Viewing detail information of the interface 547

You can view the corresponding interface entry you create in the interface 547

Switch config if description vlan 2 548

Switch config if end 548

Switch config interface vlan 2 548

Switch configure 548

Switch copy running config startup config 548

The following example shows how to create a vlan interface with a description of vlan 2 548

Configuring ipv4 parameters of the interface 549

Follow these steps to configure the ipv4 parameters of the interface 549

Switch config if ip address 192 68 00 255 55 55 549

Switch config if no switchport 549

Switch config if show ip interface brief 549

Switch config interface gigabitethernet 1 0 1 549

Switch configure 549

The following example shows how to configure the ipv4 parameters of a routed port including setting a static ip address for the port and enabling the layer 3 capabilities 549

Configuring ipv6 parameters of the interface 550

Follow these steps to configure the ipv6 parameters of the interface 550

Interface ip address method status protocol shutdown gi1 0 1 192 68 00 24 static up up no 550

Switch config if end 550

Switch copy running config startup config 550

Global address dhcpv6 enable 551

Global address ra disable 551

Global unicast address es ff02 1 ff13 237b 551

Ipv6 is enable link local address fe80 20a ebff fe13 237bnor 551

Joined group address es ff02 1 551

Switch config if ipv6 address autoconfig 551

Switch config if ipv6 address dhcp 551

Switch config if ipv6 enable 551

Switch config if show ipv6 interface 551

Switch config interface vlan 2 551

Switch configure 551

The following example shows how to enable the ipv6 function and configure the ipv6 parameters of a vlan interface 551

Vlan2 is up line protocol is up 551

Appendix default parameters 553

Default settings of interface are listed in the following tables 553

Chapters 554

Configuring static routing 554

Part 20 554

Overview 555

In the ipv4 static route table section you can view and modify the ipv4 static routing entries 556

In the ipv4 static routing config section configure the corresponding parameters to add an ipv4 static route then click create 556

Ipv4 static routing config to load the following page 556

Ipv4 static routing configuration 556

Using the gui 556

C 192 68 24 is directly connected vlan1 557

Candidate default 557

Codes c connected s static 557

Follow these steps to create an ipv4 static route 557

S 192 68 24 1 0 via 192 68 vlan1 557

Switch config end 557

Switch config ip route 192 68 255 55 55 192 68 557

Switch config show ip route 557

Switch configure 557

Switch copy running config startup config 557

The following example shows how to create an ipv4 static route with the destination ip address as 192 68 the subnet mask as 255 55 55 and the next hop address as 192 68 557

Using the cli 557

In the ipv6 routing section enable ipv6 routing function and click apply 558

In the ipv6 static routing config section configure corresponding parameters to add an ipv6 static route then click create 558

Ipv6 static routing config to load the following page 558

Ipv6 static routing configuration 558

Using the gui 558

C 3000 64 is directly connected vlan1 559

Candidate default 559

Codes c connected s static 559

Follow these steps to enable ipv6 routing function and create an ipv6 static route 559

In the ipv6 static route table section you can view and modify the ipv6 static routing entries 559

S 3200 64 1 0 via 3100 1234 vlan2 559

Switch config ipv6 route 3200 64 3100 1234 559

Switch config show ipv6 route static 559

Switch configure 559

The following example shows how to create an ipv6 static route with the destination ip address as 3200 64 and the next hop address as 3100 1234 559

Using the cli 559

Switch config end 560

Switch copy running config startup config 560

Using the gui 561

Viewing ipv4 routing table 561

Viewing routing table 561

Ipv6 routing table to load the following page 562

On privileged exec mode or any other configuration mode you can use the following command to view ipv4 routing table 562

Using the cli 562

View the ipv6 routes in the ipv6 routing information summary section 562

Viewing ipv4 routing table 562

Viewing ipv6 routing table 562

On privileged exec mode or any other configuration mode you can use the following command to view ipv6 routing table 563

Viewing ipv6 routing table 563

Configuration scheme 564

Example for static routing 564

Network requirements 564

Using the gui 564

Using the cli 565

Verify the configurations 566

Appendix default parameter 568

Default setting of static routing is listed in the following table 568

Chapters 569

Configuring dhcp 569

Part 21 569

Dhcp client 570

Dhcp server 570

Overview 570

Supported features 570

Dhcp relay 571

As the following figure shows no ip addresses are assigned to vlan 10 and vlan 20 but a default relay agent interface is configured with the ip address 192 68 24 the switch uses ip address of the default agent interface 192 68 24 to apply for ip addresses for clients in both vlan 10 and vlan 20 as a result the dhcp server will assign ip addresses on 192 68 24 the same subnet with the ip address of the default agent interface to clients in both vlan 10 and vlan 20 572

Dhcp vlan relay 572

Dhcp vlan relay allows clients in different vlans to obtain ip addresses from the dhcp server using a single agent interface ip address 572

In dhcp interface relay to assign ip addresses to clients in different vlans you need to create a layer 3 interface for each vlan to ensure the reachability 572

In dhcp vlan relay you can simply specify a layer 3 interface as default agent interface for all vlans the swith will fill this default agent interface s ip address in the relay agent ip address field of the dhcp packets from all vlans 572

Dhcp server configuration 574

Enabling dhcp server 574

Using the gui 574

In the excluded ip address section enter the start ip address and end ip address to specify the range of reserved ip addresses click create 575

In the ping time config section configure ping packets and ping timeout for ping tests click apply 575

Configuring dhcp server pool 576

Follow these steps to configure dhcp server pool 576

In the dhcp server pool section configure the relevant parameters 576

Pool setting to load the following page 576

Click create 577

Configuring manual binding 577

Some hosts www server for example requires a static ip address to satisfy this requirement you can manually bind the mac address or client id of the host to an ip address and the dhcp server will reserve the bound ip address to this host at all times 577

Click create 578

Follow these steps to configure manual binding 578

In the manual binding section select a pool name and enter the ip address to be bound select a binding mode and finish the configuration accordingly 578

Manual binding to load the following page 578

Enabling dhcp server 579

Follow these steps to enable dhcp server and to configure ping packets and ping timeout 579

Using the cli 579

Dhcp server is enable 580

Ping packet number 2 580

Ping packet timeout 200 milliseconds 580

Switch config end 580

Switch config ip dhcp server ping packets 2 580

Switch config ip dhcp server ping timeout 200 580

Switch config service dhcp server 580

Switch config show ip dhcp server status 580

Switch configure 580

Switch copy running config startup config 580

The following example shows how to enable dhcp server globally on switch configure the number of ping packets as 2 and configure the ping timeout period as 200 ms 580

Configuring dhcp server pool 581

Switch config ip dhcp server pool pool1 583

Switch configure 583

Switch dhcp config bootfile bootfile 583

Switch dhcp config default gateway 192 68 583

Switch dhcp config dns server 192 68 583

Switch dhcp config domain name com 583

Switch dhcp config lease 180 583

Switch dhcp config netbios name server 192 68 9 583

Switch dhcp config netbios node type b node 583

Switch dhcp config network 192 68 255 55 55 583

Switch dhcp config next server 192 68 0 583

The following example shows how to create a dhcp server pool and name it as pool1 and configure its network address as 192 68 subnet mask as 255 55 55 lease time as 180 minute default gateway as 192 68 dns server as 192 68 netbios server as 192 68 9 netbios type as broadcast tftp server as 192 68 0 domain name as com and bootfile name as bootfile 583

Configuring manual binding 584

Pool name client id hardware address ip address hardware type bind mode 585

Pool1 74 d4 68 22 3f 34 192 68 3 ethernet mac address 585

Switch config 585

Switch config ip dhcp server pool pool1 585

Switch copy running config startup config 585

Switch dhcp config address 192 68 3 hardware address 74 d4 68 22 3f 34 hardware type ethernet 585

Switch dhcp config end 585

Switch dhcp config show ip dhcp server manual binding 585

The following example shows how to bind the ip address 192 68 3 in pool1 on the subnet of 192 68 to the host with the mac address 74 d4 68 22 3f 34 585

Click create 586

Dhcp client configuration 586

Follow these steps to configure dhcp client 586

In the creating interface section select interface vlan or routed port as the interface type and enter the interface id select dhcp or bootp as the ip address mode set the admin status as enable and enter the interface name optional 586

Interface config to load the following page 586

Using the gui 586

Follow these steps to configure dhcp client 587

Switch configure 587

The following example shows how to configure port 1 0 5 as an layer 3 interface and to configure its ip address mode as dhcp 587

Using the cli 587

Dhcp relay configuration 589

Enabling dhcp relay and configuring option 82 589

Using the gui 589

Click apply 590

Dhcp interface relay 590

Dhcp interface relay to load the following page 590

Dhcp server to load the following page 590

Specifying dhcp server for the interface or vlan 590

You can specify dhcp server for an layer 3 interface or for a vlan the following respectively introduces how to configure dhcp interface relay and dhcp vlan relay 590

Enabling dhcp relay 592

Follow these steps to enable dhcp relay 592

In the add dhcp server address section specify the vlan in which the clients needs ip addresses and the server address click add 592

The following example shows how to enable dhcp relay 592

Using the cli 592

Dhcp relay is enabled 593

Follow these steps to configure option 82 593

Optional configuring option 82 593

Switch config end 593

Switch config service dhcp relay 593

Switch config show ip dhcp relay 593

Switch configure 593

Switch copy running config startup config 593

Specifying dhcp server for interface or vlan 594

Switch config if ip helper address 192 68 595

Switch config interface vlan 66 595

Switch configure 595

The following example shows how to configure the dhcp server address as 192 68 on vlan interface 66 595

Dhcp relay helper address is configured on the following interfaces 596

Dhcp vlan relay 596

Follow these steps to configure dhcp vlan relay 596

Interface helper address 596

Switch config if end 596

Switch config if show ip dhcp relay 596

Switch copy running config startup config 596

T2600g 28mps does not support this feature 596

Vlan 66 192 68 596

Dhcp vlan relay helper address is configured on the following vlan 597

Switch config end 597

Switch config if exit 597

Switch config if ip dhcp relay default interface 597

Switch config interface gigabitethernet 1 0 2 597

Switch config ip dhcp relay vlan 10 helper address 192 68 597

Switch config show ip dhcp relay 597

Switch configure 597

Switch copy running config startup config 597

The following example shows how to set the routed port 1 0 2 as the default relay agent interface and configure the dhcp server address as 192 68 on vlan 10 597

Vlan 10 192 68 597

Vlan helper address 597

Configuration examples 598

Configuration scheme 598

Example for dhcp server 598

Network requirements 598

Using the gui 598

Using the cli 601

Verify the configuration 601

Configuration scheme 602

Example for dhcp interface relay 602

Network requirements 602

Using the gui 603

Using the cli 604

Verify the configurations 604

Appendix default parameters 606

Default settings of dhcp server are listed in the following table 606

Default settings of dhcp relay are listed in the following table 607

Default setting of dhcp client is listed in the following table 608

Arp address resolution protocol is used to map ip addresses to mac addresses taking an ip address as input arp learns the associated mac address and stores the ip mac address association in an arp entry for rapid retrieval 611

Overview 611

Arp configurations 612

Using the gui 612

Viewing the arp entries 612

Adding static arp entries 613

Adding static arp entries manually 613

Configuring arp function 613

Follow these steps to add arp entries 613

Follow these steps to add static arp entries 613

In the arp config section enter the ip address and mac address and click create 613

Static arp to load the following page 613

Using the cli 613

You can add desired static arp entries by mannually specifying the ip addresses and mac addresses 613

Configuring the aging time of dynamic arp entries 614

Follow these steps to configure the aging time of dynamic arp entries 614

Interface address hardware addr type 614

Switch config arp 192 68 00 11 22 33 44 55 arpa 614

Switch config end 614

Switch config show arp 192 68 614

Switch configure 614

Switch copy running config startup config 614

This example shows how to create a static arp entry with the ip as 192 68 and the mac as 00 11 22 33 44 55 614

Vlan1 192 68 00 11 22 33 44 55 static 614

Clearing dynamic entries 615

On privileged exec mode or any other configuration mode you can use the following command to view arp entries 615

Switch config if arp timeout 1000 615

Switch config if end 615

Switch config interface vlan 2 615

Switch configure 615

Switch copy running config startup config 615

This example shows how to configure the aging time of dynamic arp entries as 1000 seconds for vlan interface 2 615

Viewing arp entries 615

Chapters 617

Configuring qos 617

Part 23 617

Bandwidth control 618

Diffserv 618

Overview 618

Supported features 618

802 p priority 619

Configuration guidelines 619

Diffserv configuration 619

Dscp priority 619

Port priority 619

Click apply 620

Configure the tag id cos id tc mapping relations 620

Configuring 802 p priority 620

Configuring priority mode 620

Follow these steps to configure the 802 p priority 620

P priority to load the following page 620

The instructions of the three priority modes are described respectively in this section 620

Using the gui 620

Configure the dscp tc mapping relations 621

Configuring dscp priority 621

Dscp priority to load the following page 621

Enable dscp priority and click apply dscp priority is disabled by default 621

Follow these steps to configure the dscp priority 621

Click apply 622

Configuring port priority 622

Follow these steps to configure the port priority 622

Port priority to load the following page 622

Select the desired port or lag to set its priority 622

Configure the schedule mode to control the forwarding sequence of different tc queues when congestion occurs 623

Configuring schedule mode 623

Follow these steps to configure the schedule mode 623

Schedule mode to load the following page 623

Select a schedule mode 623

Click apply 624

Configuring 802 priority 624

Configuring priority mode 624

Optional configure the weight value of the each tc queue if the schedule mode is wrr of sp wrr 624

The instructions of the three priority modes are described respectively in this section 624

Using cli 624

Dscp priority is disabled 625

P priority is enabled 625

Switch config end 625

Switch config qos queue cos map 2 0 625

Switch config show qos cos map 625

Switch config show qos status 625

Switch configure 625

Switch copy running config startup config 625

Tag 0 1 2 3 4 5 6 7 625

Tc tc1 tc0 tc0 tc3 tc4 tc5 tc6 tc7 625

The following example shows how to map cos2 to tc0 and keep other cos id tc as default 625

Configuring dscp priority 626

Switch configure 626

The following example shows how to map dscp values 10 14 to tc1 and keep other mapping relations as default 626

Switch config show qos cos map 628

Switch configure 628

Tag 0 1 2 3 4 5 6 7 628

Tc tc1 tc0 tc2 tc3 tc4 tc5 tc6 tc7 628

The following example shows how to map port 1 3 to tc1 and keep other mapping relations as default 628

Configuring schedule mode 629

Follow these steps to configure the schedule mode to control the forwarding sequence of different tc queues when congestion occurs 629

Gi1 0 1 cos 0 n a 629

Gi1 0 2 cos 0 n a 629

Gi1 0 3 cos 0 n a 629

Port cos value lag 629

Switch config if range end 629

Switch config if range qos 0 629

Switch config if range show qos interface gigabitethernet 1 0 1 3 629

Switch config interface range gigabitethernet 1 0 1 3 629

Switch copy running config startup config 629

Switch config qos queue mode wrr 630

Switch config qos queue weight 0 4 630

Switch config qos queue weight 1 7 630

Switch config qos queue weight 2 10 630

Switch config qos queue weight 3 13 630

Switch config qos queue weight 4 16 630

Switch config qos queue weight 5 19 630

Switch config qos queue weight 6 22 630

Switch configure 630

The following example shows how to configure the schedule mode as wrr with the weight values of tc0 to tc7 as 4 7 10 13 16 19 22 25 630

Bandwidth control configuration 632

Configuring rate limit 632

Using the gui 632

Click apply 633

Configuring storm control 633

Follow these steps to configure the storm control function 633

Select the port s and configure the upper rate limit for forwarding broadcast packets multicast packets and ul frames 633

Storm control to load the following page 633

Click apply 634

Configure the upper rate limit for the port to receive and send packets 635

Configuring rate limit on port 635

Switch config interface gigabitethernet 1 0 5 635

Switch configure 635

The following example shows how to configure the ingress rate as 5120 kbps and egress rate as 1024 kbps for port 1 0 5 635

Using the cli 635

Configuring storm control 636

Configuration examples 639

Configuration scheme 639

Example for configuring sp mode 639

Network requirements 639

Using the gui 640

Using the cli 641

Example for configuring wrr mode 642

Network requirements 642

Verify the configuration 642

Configuration scheme 643

Configurations for switch a demonstrated with t1600g 52ts 643

Configure switch a to add different vlan tags to the packets from the two departments respectively 643

Configure switch b to classify the incoming packets from the two departments according to the vlan tags and to map them into different tc queues configure the schedule mode as wrr mode to implement the qos feature 643

This chapter provides configuration procedures in two ways using the gui and using the cli 643

Using the gui 643

Vlan config and click create to load the following page create vlan 10 with the description of rd add port 1 0 1 as an untagged port and port 1 0 3 as a tagged port to vlan 10 then click apply 643

Using the cli 650

Verify the configuration 653

Appendix default parameters 655

Diffserv 655

Bandwidth control 656

Chapters 657

Configuring voice vlan 657

Part 24 657

Overview 658

Because the voice vlan in automatic mode supports only tagged voice traffic you need to make sure traffic from the voice device is tagged to do so there are mainly two ways 660

Before configuring voice vlan you need to create a vlan for voice traffic for details about vlan configuration please refer to configuring 802 q vlan 660

Configuration guidelines 660

Configure oui addresses 660

Configure voice vlan globally 660

Configure voice vlan mode on ports 660

Configuring lld 660

Create a vlan 660

If your switch provides the lldp med feature you can also configure it to instruct the voice device to send tagged voice traffic for details about lldp med please refer to 660

Only one vlan can be set as the voice vlan on the switch 660

To apply the voice vlan configuration you may need to further configure pvid port vlan id and the link type of the port which is connected to voice devices we recommend that you choose the mode according to your needs and configure the port as the following table shows 660

To complete the voice vlan configuration follow these steps 660

Vlan 1 is a default vlan and cannot be configured as the voice vlan 660

Voice vlan configuration 660

You can configure the voice device to forward traffic with a voice vlan tag 660

Click create to add an oui address to the table 661

Configuring oui addresses 661

Enter an oui address and the corresponding mask and give a description about the oui address 661

Follow these steps to add oui addresses 661

If the oui address of your voice device is not in the oui table you need to add the oui address to the table 661

Oui config to load the following page 661

Using the gui 661

Click apply 662

Configuring voice vlan globally 662

Enable the voice vlan feature and enter a vlan id 662

Follow these steps to configure the voice vlan globally 662

Global config to load the following page 662

Set the aging time for the voice vlan 662

Specify a priority for the voice vlan 662

Configuring voice vlan mode on ports 663

Follow these steps to configure voice vlan mode on ports 663

Port config to load the following page 663

Select your desired ports and choose the port mode 663

Set the security mode for selected ports 663

Click apply 664

Follow these steps to configure the voice vlan 664

Using the cli 664

Avoid attacks from malicious data flows 667

Configuration example 667

Configuration scheme 667

Ip phones share switch ports used by computers because no more ports are available for ip phones 667

Network requirements 667

Network topology 667

Transmit voice traffic in an exclusive path with high quality 667

Demonstrated with t2600g 28ts this chapter provides configuration procedures in two ways using the gui and using the cli 668

In the meeting room computers and ip phones are connected to different ports of switch b ports connected to ip phones use the voice vlan for voice traffic and ports connected to computers use the default vlan for data traffic 668

Internet 668

Voice traffics from switch a and switch b are forwarded to voice gateway and internet through switch c 668

Using the gui 669

Vlan config and edit vlan 10 to load the following page add port 1 0 2 to the voice vlan 671

Using the cli 679

Verify the configurations 682

Appendix default parameters 684

Default settings of voice vlan are listed in the following tables 684

Chapters 685

Configuring poe 685

Part 25 685

Overview 686

Poe power management 686

Supported features 686

Time range function 686

Configuring the poe parameters manually 687

Poe power management configurations 687

Using the gui 687

In the port config section select the port you want to configure and specify the parameters click apply 688

Click apply 689

Configuring the poe parameters using the profile 689

Creating a poe profile 689

Follow these steps to create a poe profile 689

In the create poe profile section specify the desired configurations of the profile 689

Poe profile to load the following page 689

Binding the profile to the corresponding ports 690

Follow these steps to bind the profile to the corresponding ports 690

In the global config section specify the system power limit and click apply 690

In the port config section select a profile and bind it to the corresponding ports click apply 690

Configuring the poe parameters manually 691

Follow these steps to configure the basic poe parameters 691

Using the cli 691

Gi1 0 5 enable middle class3 no limit none 692

Interface poe status poe prio power limit w time range poe profile 692

Switch config if power inline consumption class3 692

Switch config if power inline priority middle 692

Switch config if power inline supply enable 692

Switch config if show power inline 692

Switch config if show power inline configuration interface gigabitethernet 1 0 5 692

Switch config interface gigabitethernet 1 0 5 692

Switch config power inline consumption 160 692

Switch configure 692

System power consumption 0 w 692

System power limit 160 w 692

System power remain 160 w 692

The following example shows how to set the system power limit as 160w set the priority as middle and set the power limit as class3 in the port 1 0 5 692

Configuring the poe parameters using the profile 693

Follow these steps to configure the poe profile 693

Gi1 0 5 1 26 53 class 2 on 693

Interface power w current ma voltage v pd class power status 693

Switch config end 693

Switch config if show power inline information interface gigabitethernet 1 0 5 693

Switch copy running config startup config 693

Creating a time range 695

Time range function configurations 695

Using the gui 695

Click apply 696

In the add absolute or periodic section specify the parameters and click add 696

When the absolute mode is selected the following section will be shown 696

When the periodic mode is selected the following section will be shown 696

Configuring the holiday parameters 697

Viewing the time range table 697

Configuring a time range 698

Follow these steps to create a time range 698

Using the cli 698

01 00 to 23 00 on 5 699

09 08 2016 00 00 to 09 10 2016 24 00 699

Holiday include 699

Number of absolute time 1 699

Number of periodic time 1 699

Switch config power time range time range1 699

Switch config show power time range time range1 699

Switch config time range absolute from 09 08 2016 00 00 to 09 10 2016 24 00 699

Switch config time range exit 699

Switch config time range holiday include 699

Switch config time range periodic start 01 00 end 23 00 day of the week 5 699

Switch configure 699

The following example shows how to create a time range named time range1 select include to make the settings take affected on holiday set absolute mode from 2016 09 08 00 00 to 2016 09 10 24 00 set the periodic mode from 01 00 to 23 00 in friday bind the time range to the port 1 0 7 699

Time range entry time range1 active 699

Configuring the holiday parameters 700

Follow these steps to configure the holiday parameters 700

Holiday1 08 6 08 0 700

Index holiday name start end 700

Switch config end 700

Switch config if end 700

Switch config if power inline time range time range1 700

Switch config interface gigabitethernet 1 0 7 700

Switch config power holiday holiday1 start date 08 16 end date 08 20 700

Switch config show power holiday 700

Switch configure 700

Switch copy running config startup config 700

The following example shows how to create a holiday named holiday1 set the starting date as 08 16 set the ending date as 08 20 700

01 01 2000 00 00 to 12 31 2099 24 00 by default 701

08 30 to 18 00 on 1 2 3 4 5 701

Holiday include 701

Number of absolute time 0 701

Number of periodic time 1 701

On privileged exec mode or any other configuration mode you can use the following command to view the time range table 701

Switch copy running config startup config 701

Switch end 701

Switch show power time range 701

The following example shows how to view the time range table 701

Time range entry office time active 701

Viewing the time range table 701

Configuring scheme 702

Example for poe configurations 702

Network requirements 702

Using the gui 702

Using the cli 704

Verify the configuration 705

Appendix default parameters 706

Chapters 707

Configuring acl 707

Part 26 707

Introduction 708

Overview 708

Supported features 708

Acl configuration 709

Configuration guidelines 709

Click apply to make the settings effective 710

Configuring time range 710

Create time rang 710

Create time slic 710

Follow these steps to create the time range 710

Some acl based services or features may need to be limited to take effect only during a specified time period in this case you can configure time range for the acl 710

Time range create to load the following page 710

Using the gui 710

Creating an acl 711

Optional configuring holiday 711

Add rules to the acl for details refer to mac acl rule standard ip acl rule extend ip acl rule combined acl rule ipv6 acl rule and packet content acl rule 713

Configuring acl rules 713

Configuring the mac acl rule 713

Define the rule s packet matching criteria 713

Follow these steps to create the mac acl 713

Mac acl to load the following page 713

Select an mac acl id from the drop down list enter a rule id then specify the operation for the matched packets 713

Click apply to make the settings effective 714

Configuring the standard ip acl rule 714

Define the rule s packet matching criteria 714

Follow these steps to create the standard ip acl 714

Optional select a time range from the drop down list 714

Select a standard ip acl id from the drop down list enter a rule id then specify the operation for the matched packets 714

Standard i 714

Standard ip acl to load the following page 714

Configuring the extend ip acl rule 715

Define the rule s packet matching criteria 715

Extend ip acl to load the following page 715

Follow these steps to create the extend ip acl 715

Select an extend ip acl id from the drop down list enter a rule id then specify the operation for the matched packets 715

Optional select a time range from the drop down list 716

Combined acl to load the following page 717

Configuring the combined acl rule 717

Define the rule s packet matching criteria 717

Follow these steps to create the combined acl 717

Select a combined acl id from the drop down list enter a rule id then specify the operation for the matched packets 717

Configuring the ipv6 acl rule 718

Follow these steps to create the ipv6 acl 718

Ipv6 acl to load the following page 718

Optional select a time range from the drop down list 718

Select an ipv6 acl id from the drop down list enter a rule id then specify the operation for the rule 718

Configuring the packet content acl rule 719

Define the rule s packet matching criteria 719

Optional select a time range from the drop down list 719

Create packet conten 720

Follow these steps to create the packet content acl 720

Packet content acl to load the following page 720

Packet content offset profil 720

Rule id specify the operation for the rule and define the rule s packet matching criteria 720

Section 720

Section enter the offset of a chunk all the 4 chunks must be set at the same time 720

Select a packet content acl from the drop down list enter a 720

Acl summary to load the following page 721

Configure the action of the policy 721

Configuring policy 721

Create a policy 721

In the acl rule table you can view all the acls and their rules 721

Optional select a time range from the drop down list 721

Policy allows you to further process the matched packets through operations such as mirroring rate limiting redirecting or changing priority 721

The rules in an acl are listed in ascending order of configuration time regardless of their rule ids by default a rule configured earlier is listed before a rule configured later 721

The switch matches a received packet with the rules in order when a packet matches a rule the device stops the match process and performs the action defined in the rule 721

To configure the policy follow these steps 721

View the rule table 721

You can also delete an acl or an acl rule or change the matching order if needed 721

Creating a policy 722

Enter a policy name then click apply 722

Follow these steps to create a policy 722

Policy create to load the following page 722

Action create to load the following page 723

Apply an acl to the policy and specify the action to be taken for the matched packets 723

Configure the actions to be taken for the matched packets 723

Configuring the action of the policy 723

Follow these steps to configure the action of the policy 723

Select your preferred policy and acl 723

An acl or policy takes effect only after it is bound to a port or vlan 724

Click apply to make the settings effective 724

Configuring the acl binding and policy binding 724

You can select acl binding or policy binding according to your needs 724

Configuring the acl binding 725

Binding the acl to a vlan 726

Follow these steps to bind the acl to a vlan 726

Select the acl and enter the vlan id and click apply 726

Vlan binding to load the following page 726

Configuring the policy binding 727

Verifying the binding configuration 728

Binding table to load the following page 729

Configuring time range 729

Some services or features that use acl need to be limited to a specified time period in this case you can configure time range for the acl 729

Using the cli 729

Configuring acl 731

Switch config mac access list 50 732

Switch config mac acl exit 732

Switch config mac acl rule 5 permit smac 00 34 a2 d4 34 b5 smask ff ff ff ff ff ff 732

Switch config show access list 50 732

Switch configure 732

The following example shows how to create mac acl 50 and configure rule 5 to permit packets with source mac address 00 34 a2 d4 34 b5 732

Mac access list 50 733

Rule 5 permit smac 00 34 a2 d4 34 b5 smask ff ff ff ff ff ff 733

Standard ip acl 733

Switch config end 733

Switch configure 733

Switch copy running config startup config 733

The following example shows how to create standard ip acl 600 and configure rule 1 to permit packets with source ip address 192 68 00 733

Switch config access list create 1700 735

Switch config access list extended 1700 rule 7 deny sip 192 68 00 smask 255 55 55 55 protocol 6 d port 23 735

Switch config show access list 1700 735

Switch configure 735

The following example shows how to create extend ip acl 1700 and configure rule 7 to deny telnet packets with source ip192 68 00 735

Combined acl 736

Extended ip access list 1700 736

Rule 7 deny sip 192 68 00 smask 255 55 55 55 protocol 6 d port 23 736

Switch config end 736

Switch copy running config startup config 736

Switch config access list create 3600 738

Switch config access list ipv6 3600 rule 1 deny sip cdcd 910a 2222 5498 8475 1111 3900 2020 sip mask ffff ffff ffff ffff 738

Switch config show access list 3600 738

Switch configure 738

The following example shows how to create ipv6 acl 3600 and configure rule 1 to deny packets with source ipv6 address cdcd 910a 2222 5498 8475 1111 3900 2020 738

Ff ffff ffff 739

Ipv6 access list 3600 739

Packet content acl 739

Rule 1 deny sip cdcd 910a 2222 5498 8475 1111 3900 2020 sip mask ffff ff 739

Switch config end 739

Switch copy running config startup config 739

Configuring policy 740

Follow the steps below to create a policy and configure the policy actions 740

Packet content access list 4500 740

Policy allows you to further process the matched packets through operations such as mirroring rate limiting redirecting or changing priority 740

Rule 10 deny chunk1 value 0x58 mask 0xffffffff 740

Switch config access list create 4500 740

Switch config access list packet content profile chunk offset0 offset0 chunk offset1 offset1 chunk offset2 offset2 chunk offset3 offset3 740

Switch config end 740

Switch config packet content config 4500 rule 10 deny chunk 1 58 mask1 ffffffff 740

Switch config show access list 4500 740

Switch configure 740

Switch copy running config startup config 740

The following example shows how to create packet content acl 4500 and deny the packets with the value of its chunk1 0x58 740

Access list 600 redirect port gi1 0 4 741

Create policy rd apply acl 600 to policy rd and redirect the matched packets to port 1 0 4 741

Policy name rd 741

Switch config access list policy action rd 600 741

Switch config access list policy name rd 741

Switch config action exit 741

Switch config action redirect interface gigabitethernet 1 0 4 741

Switch config show access list policy rd 741

Switch configure 741

Acl binding and policy binding 742

Policy binding 742

Switch config end 742

Switch config if access list bind 1 742

Switch config if exit 742

Switch config interface gigabitethernet 1 0 2 742

Switch configure 742

Switch copy running config startup config 742

The following example shows how to bind policy 1 to port 2 and policy 2 to vlan 2 742

You can bind the policy to a port or a vlan then the received packets will be matched and operated based on the policy 742

You can select acl binding or policy binding according to your needs an acl rule and policy takes effect only after they are bound to a port or vlan 742

2 ingress vlan 743

Acl binding 743

Gi1 0 2 ingress port 743

Index acl id interface vid direction type 743

Index policy name interface vid direction type 743

Switch config end 743

Switch config if access list bind 2 743

Switch config if exit 743

Switch config interface vlan 2 743

Switch config show access list bind 743

Switch copy running config startup config 743

You can bind the acl to a port or a vlan the received packets will then be matched and processed according to the acl rules 743

A company s internal server group can provide different types of services it is required that 745

As is shown below computers in the marketing department are connected to the switch via port 1 0 1 and the internal server group is connected to the switch via port 1 0 2 745

Configuration example for acl 745

Configuration scheme 745

Network requirements 745

Network topology 745

The marketing department can only access internal server group in the intranet 745

The marketing department can only visit http and https websites on the internet 745

To meet the requirements above you can set up packet filtering by creating an extend ip acl and configuring rules for it 745

Using the gui 746

Extend ip acl to load the the following page configure rule 2 and rule 3 to permit packets with source ip 10 0 0 and destination port tcp 80 http service port and udp 443 https service port 747

Extend ip acl to load the following page configure rule 4 and rule 5 to permit packets with source ip 10 0 0 and with destination port tcp 53 or udp 53 dns service port 748

Using the cli 751

Verify the configurations 752

Appendix default parameters 753

For extend ip acl 753

For ipv6 acl 753

For mac acl 753

For standard ip acl 753

For combined acl 754

For packet content acl 754

Chapters 755

Configuring network security 755

Part 27 755

Dhcp snooping 756

Ip mac binding 756

Ipv6 mac binding 756

Network security 756

Overview 756

Supported features 756

Dhcpv6 snooping 757

Arp inspection 758

Nd detection 758

Dos defend 759

Ip source guard 759

Pppoe id insertion 760

Binding entries manually 762

Ip mac binding configurations 762

Using the gui 762

Arp scanning 763

Binding entries dynamically 763

Click bind 763

Select protect type for the entry 763

Select the port that is connected to this host 763

The binding entries can be dynamically learned from arp scanning and dhcp snooping 763

With arp scanning the switch sends the arp request packets of the specified ip field to the hosts upon receiving the arp reply packet the switch can get the ip address mac address vlan id and the connected port number of the host you can bind these entries conveniently 763

Arp scanning to load the following page 764

Follow these steps to configure ip mac binding via arp scanning 764

In the scanning option section specify an ip address range and a vlan id then click scan to scan the entries in the specified ip address range and vlan 764

In the scanning result section select one or more entries and configure the relevant parameters then click apply 764

Binding table to load the following page 765

Dhcp snooping 765

For instructions on how to configure dhcp snooping refer to dhcp snooping configurations 765

In the search section specify the search criteria to search your desired entries 765

Viewing the binding entries 765

With dhcp snooping enabled the switch can monitor the ip address obtaining process of the host and record the ip address mac address vlan id and the connected port number of the host 765

With the binding table you can view and search the specified binding entries 765

Binding entries via arp scanning is not supported by the cli binding entries via dhcp snooping is introduced in dhcp snooping configurations the following sections introduce how to bind entries manually and view the binding entries 766

In the binding table section you can view the searched entries additionally you can configure the host name and protect type for one or more entries and click apply 766

Using the cli 766

Binding entries manually 767

Follow these steps to manually bind entries 767

Switch config ip source binding host1 192 68 5 aa bb cc dd ee ff vlan 10 interface gigabitethernet 1 0 5 arp detection 767

Switch configure 767

The following example shows how to bind an entry with the hostname host1 ip address 192 68 5 mac address aa bb cc dd ee ff vlan id 10 port number 1 0 5 and enable this entry for the arp detection feature 767

You can manually bind the ip address mac address vlan id and the port number together on the condition that you have got the related information of the hosts 767

Host1 192 68 5 aa bb cc dd ee ff 10 gi1 0 5 arp d 768

On privileged exec mode or any other configuration mode you can use the following command to view binding entries 768

Switch config end 768

Switch config show ip source binding 768

Switch copy running config startup config 768

U no host ip addr mac addr vid port acl col 768

Viewing binding entries 768

Binding entries manually 769

Ipv6 mac binding configurations 769

Using the gui 769

Binding entries dynamically 770

Click bind 770

Nd snooping 770

Select protect type for the entry 770

Select the port that is connected to this host 770

The binding entries can be dynamically learned from nd snooping and dhcpv6 snooping 770

With nd snooping the switch monitors the nd packets and records the ipv6 addresses mac addresses vlan ids and the connected port numbers of the ipv6 hosts you can bind these entries conveniently 770

Binding table to load the following page 772

Dhcpv6 snooping 772

For instructions on how to configure dhcpv6 snooping refer to dhcpv6 snooping configuration 772

In the port configure section select one or more ports and configure the maximum number of entries that can be learned on this port via nd snooping then click apply 772

In the search section specify the search criteria to search your desired entries 772

Viewing the binding entries 772

With dhcpv6 snooping enabled the switch can monitor the ipv6 address obtaining process of the host and record the ipv6 address mac address vlan id and the connected port number of the host 772

With the binding table you can view and search the specified binding entries 772

In the binding table section you can view the search results additionally you can configure the host name and protect type for one or more entries and click apply 773

Binding entries manually 774

Binding entries via dhcpv6 snooping is introduced in dhcpv6 snooping configuration the following sections introduce how to bind entries manually and via nd snooping and how to view the binding entries 774

Follow these steps to manually bind entries 774

The following example shows how to bind an entry with the hostname host1 ipv6 address 2001 0 9d38 90d5 34 mac address aa bb cc dd ee ff vlan id 10 port number 1 0 5 and enable this entry for nd detection 774

Using the cli 774

You can manually bind the ipv6 address mac address vlan id and the port number together on the condition that you have got the related information of the hosts 774

Binding entries via nd snooping 775

Follow these steps to bind entries via nd snooping 775

Host1 2001 0 9d38 90d5 34 aa bb cc dd ee ff 10 gi1 0 5 nd d nd d manual 775

Switch config end 775

Switch config ipv6 source binding host1 2001 0 9d38 90d5 34 aa bb cc dd ee ff vlan 10 interface gigabitethernet 1 0 5 nd detection 775

Switch config show ipv6 source binding 775

Switch configure 775

Switch copy running config startup config 775

U no host ip addr mac addr vid port acl active source col 775

Viewing binding entries 776

Dhcp snooping configuration 778

Enabling dhcp snooping on vlan 778

Using the gui 778

Click apply 779

Configuring dhcp snooping on ports 779

Enable dhcp snooping on a vlan or range of vlans 779

Follow these steps to configure dhcp snooping on the specified port 779

Port config to load the following page 779

Select one or more ports and configure the parameters 779

Click apply 780

Follow these steps to configure option 82 780

Option 82 config to load the following page 780

Option 82 records the location of the dhcp client the switch can add option 82 to the dhcp request packet and then transmit the packet to the dhcp server administrators can check the location of the dhcp client via option 82 the dhcp server supporting option 82 can also set the distribution policy of ip addresses and other parameters providing a more flexible address distribution way 780

Optional configuring option 82 780

Select one or more ports and configure the parameters 780

Click apply 781

Enabling dhcp snooping on vlan 781

Follow these steps to globally configure dhcp snooping 781

Using the cli 781

Configuring dhcp snooping on ports 782

Follow these steps to configure dhcp snooping on the specified ports 782

Global status enable 782

Switch config if end 782

Switch config ip dhcp snooping 782

Switch config ip dhcp snooping vlan 5 782

Switch config show ip dhcp snooping 782

Switch configure 782

Switch copy running config startup config 782

The following example shows how to enable dhcp snooping globally and on vlan 5 782

Vlan id 5 782

Switch config if ip dhcp snooping decline rate 20 783

Switch config if ip dhcp snooping limit rate 10 783

Switch config if ip dhcp snooping mac verify 783

Switch config if ip dhcp snooping trust 783

Switch config interface gigabitethernet 1 0 1 783

Switch configure 783

The following example shows how to configure port 1 0 1 as a trusted port enable the mac verify feature and set the limit rate as 10 pps and decline rate as 20 pps on this port 783

Follow these steps to configure option 82 784

Gi1 0 1 enable enable 10 20 n a 784

Interface trusted mac verify limit rate dec rate lag 784

Option 82 records the location of the dhcp client the switch can add the option 82 to the dhcp request packet and then transmit the packet to the dhcp server administrators can check the location of the dhcp client via option 82 the dhcp server supporting option 82 can also set the distribution policy of ip addresses and other parameters providing more flexible address distribution way 784

Optional configuring option 82 784

Switch config if end 784

Switch config if show ip dhcp snooping interface gigabitethernet 1 0 1 784

Switch copy running config startup config 784

Switch config if ip dhcp snooping information circut id vlan20 785

Switch config if ip dhcp snooping information format normal 785

Switch config if ip dhcp snooping information option 785

Switch config if ip dhcp snooping information remote id host1 785

Switch config if ip dhcp snooping information strategy replace 785

Switch config if show ip dhcp snooping information interface gigabitethernet 1 0 7 785

Switch config interface gigabitethernet 1 0 7 785

Switch configure 785

The following example shows how to enable option 82 on port 1 0 7 and configure the strategy as replace the format as normal the circuit id as vlan20 and the remote id as host1 785

Dhcpv6 snooping configuration 787

Using the gui 787

Click apply 788

Follow these steps to configure dhcpv6 snooping 788

In the trusted port section select 788

Switch config ipv6 dhcp snooping 788

Switch configure 788

The following example shows how to enable dhcp snooping globally and on vlan 5 and configure port 1 0 1 as a trusted port 788

Using the cli 788

Arp inspection configurations 790

Configuring arp detection 790

Using the gui 790

Arp defend to load the following page 791

Configuring arp defend 791

Follow these steps to configure arp defend 791

Select one or more ports and configure the parameters 791

With arp defend enabled the switch can terminate receiving the arp packets for 300 seconds when the transmission speed of the legal arp packet on the port exceeds the defined value so as to avoid arp attack flood 791

Arp statistics to load the following page 792

Click apply 792

In the auto refresh section you can enable the auto refresh feature and specify the refresh interval and thus the web page will be automatically refreshed 792

Viewing arp statistics 792

You can view the number of the illegal arp packets received on each port which facilitates you to locate the network malfunction and take the related protection measures 792

Configuring arp detection 793

Follow these steps to configure arp detection 793

In the illegal arp packet section you can view the number of illegal arp packets on each port 793

Switch configure 793

The arp detection feature allows the switch to detect the arp packets basing on the binding entries in the ip mac binding table and filter the illegal arp packets before configuring arp detection complete ip mac binding configuration for details refer to ip mac binding configurations 793

The following example shows how to globally enable arp detection and configure port 1 0 1 as a trusted port 793

Using the cli 793

Arp detection global status enabled 794

Configuring arp defend 794

Follow these steps to configure arp defend 794

Gi1 0 1 yes 794

Gi1 0 2 no 794

Port trusted 794

Switch config if end 794

Switch config if ip arp inspection trust 794

Switch config if show ip arp inspection 794

Switch config interface gigabitethernet 1 0 1 794

Switch config ip arp inspection 794

Switch copy running config startup config 794

With arp defend enabled the switch can terminate receiving the arp packets for 300 seconds when the transmission speed of the legal arp packet on the port exceeds the defined value so as to avoid arp attack flood 794

Gi1 0 1 disabled 15 n a normal n a 796

On privileged exec mode or any other configuration mode you can use the following command to view arp statistics 796

Port overspeed rate current status lag 796

Switch config if end 796

Switch copy running config startup config 796

Viewing arp statistics 796

In the nd detection section enable nd detection globally and specify one or more vlan ids to enable dhcpv6 snooping on the vlan s 797

Nd detection configuration 797

The nd detection feature allows the switch to detect the nd packets based on the binding entries in the ipv6 mac binding table and filter out the illegal nd packets before configuring nd detection complete ipv6 mac binding configuration for details refer to ipv6 mac binding configurations 797

Using the gui 797

Click apply 798

Follow these steps to configure nd detection 798

In the trusted port section select one or more ports to be configured as the trusted port s on which the nd packets will not be checked the specific ports such as up link ports and routing ports are suggested to be set as trusted 798

The nd detection feature allows the switch to detect the nd packets based on the binding entries in the ipv6 mac binding table and filter out the illegal nd packets before configuring nd detection complete ipv6 mac binding configuration for details refer to ipv6 mac binding configuration 798

Using the cli 798

Ip source guard configuration 800

Using the gui 800

Click apply 801

Follow these steps to configure ip source guard 801

The ip source guard feature allows the switch to filter the packets that do not match the rules of ip mac binding table or ipv6 mac binding table before configuring ip source guard complete ip mac binding or ipv6 mac binding configurations for details refer to ip mac binding configurations and ipv6 mac binding configuration 801

Using the cli 801

Gi1 0 1 sipv6 mac n a 802

Port security type lag 802

Switch config if end 802

Switch config if ipv6 verify source sipv6 mac 802

Switch config if show ipv6 verify source interface gigabitethernet 1 0 1 802

Switch config interface gigabitethernet 1 0 1 802

Switch configure 802

Switch copy running config startup config 802

The following example shows how to enable ip source guard on port 1 0 1 for ipv6 packets 802

Dos defend configuration 803

Follow these steps to configure dos defend 803

In the configure section enable dos protection 803

In the defend table section select one or more defend types according to your needs the following table introduces each type of dos attack 803

Using the gui 803

Click apply 804

Follow these steps to configure dos defend 804

Using the cli 804

Switch configure 805

The following example shows how to enable the dos defend type named land 805

Configuring the radius server 807

Using the gui 807

X configuration 807

Adding the radius server 808

Click apply 808

Follow these steps to create a protocol template 808

In the server config section configure the parameters of radius server 808

Radius config to load the following page 808

Configuring 802 x globally 811

Follow these steps to configure 802 x global parameters 811

Global config to load the following page 811

In the global config section enable 802 x globally and click apply 811

In the authentication config section enable quiet configure the quiet timer and click apply 812

Configure 802 x authentication on the desired port and click apply 813

Configuring 802 x on ports 813

Port config to load the following page 813

Configuring the radius server 814

Follow these steps to configure radius 814

Using the cli 814

The following example shows how to enable aaa add a radius server to the server group named radius1 and apply this server group to the 802 x authentication the ip address of 815

Configuring 802 x globally 816

Authentication method pap 818

Guest vlan id n a 818

Guest vlan state disabled 818

Handshake state enabled 818

Quiet period state disable 818

Quiet period timer 10 sec 818

Switch config dot1x auth method pap 818

Switch config dot1x system auth control 818

Switch config show dot1x global 818

Switch configure 818

The following example shows how to enable 802 x authentication configure pap as the authentication method and keep other parameters as default 818

X accounting state disabled 818

X state enabled 818

X vlan assignment state disabled 818

Configuring 802 x on ports 819

Follow these steps to configure the port 819

Max retry times for radius packet 3 819

Supplicant timeout 3 sec 819

Switch config end 819

Switch copy running config startup config 819

Gi1 0 2 enabled disabled disabled auto port based unauthorized n a 820

Port state mab state guestvlan portcontrol portmethod authorized lag 820

Switch config if dot1x 820

Switch config if dot1x port control auto 820

Switch config if dot1x port method port based 820

Switch config if end 820

Switch config if show dot1x interface gigabitethernet 1 0 2 820

Switch config interface gigabitethernet 1 0 2 820

Switch configure 820

Switch copy running config startup config 820

The following example shows how to enable 802 x authentication on port 1 0 2 configure the control type as port based and configure the control mode as auto 820

Pppoe id insertion configuration 821

Using the gui 821

Follow these steps to configure pppoe id insertion 822

Using the cli 822

Pppoe id insertion state enabled 823

Switch config if interface gigabitethernet 1 0 1 823

Switch config if pppoe circuit id 823

Switch config if pppoe circuit id type udf only 123 823

Switch config if pppoe remote id host1 823

Switch config if show pppoe id insertion global 823

Switch config pppoe id insertion 823

Switch configure 823

The following example shows how to enable pppoe id insertion globally and on port 1 0 1 and configure the circuit id as 123 without other information and remote id as host1 823

Aaa configuration 825

Configuration guidelines 825

Adding servers 826

Globally enabling aaa 826

Using the gui 826

Adding tacacs server 827

Click add to add the radius server on the switch 827

Follow these steps to add a radius server 827

Follow these steps to add a tacacs server 827

In the server config section configure the following parameters 827

Tacacs conifg to load the following page 827

Click add to add the tacacs server on the switch 828

Configuring server groups 828

In the add new server group section configure the group name and the server type and click add to add the new server group 828

Select the newly added group and click edit in the operation column 828

Server group to load the following page 828

The switch has two built in server groups one for radius servers and the other for tacacs servers the servers running the same protocol are automatically added to the default server group you can add new server groups as needed 828

The two default server groups in the list cannot be edited or deleted you can follow these steps to configure a new server group 828

Configuring the method list 829

Click add to add the new method 830

In the add method list section configure the parameters for the method to be added 830

Method list to load the following page 830

There are two default methods respectively for the login authentication and the enable authentication 830

You can edit the default methods or follow these steps to add a new method 830

Configuring login account and enable password 831

Configuring the aaa application list 831

Globally enabling aaa 832

Using the cli 832

Adding servers 833

68 0 1812 1813 5 2 000aeb132397 123456 834

Server ip auth port acct port timeout retransmit nas identifier shared key 834

Switch config end 834

Switch config radius server host 192 68 0 auth port 1812 timeout 8 retransmit 3 key 123456 834

Switch config show radius server 834

Switch configure 834

The following example shows how to add a radius server on the switch set the ip address of the server as 192 68 0 the authentication port as 1812 the shared key as 123456 the timeout as 8 seconds and the retransmit number as 3 834

68 0 49 8 123456 835

Adding tacacs server 835

Follow these steps to add tacacs server on the switch 835

Server ip port timeout shared key 835

Switch config end 835

Switch config show tacacs server 835

Switch config tacacs server host 192 68 0 auth port 49 timeout 8 key 123456 835

Switch configure 835

Switch copy running config startup config 835

The following example shows how to add a tacacs server on the switch set the ip address of the server as 192 68 0 the authentication port as 49 the shared key as 123456 and the timeout as 8 seconds 835

Configuring server groups 836

Switch aaa group server 192 68 0 836

Switch aaa group show aaa group radius1 836

Switch config aaa group radius radius1 836

Switch configure 836

Switch copy running config startup config 836

The following example shows how to create a radius server group named radius1 and add the existing two radius servers whose ip address is 192 68 0 and 192 68 0 to the group 836

The switch has two built in server groups one for radius and the other for tacacs the servers running the same protocol are automatically added to the default server group you can add new server groups as needed 836

The two default server groups cannot be deleted or edited follow these steps to add a server group 836

A method list describes the authentication methods and their sequence to authenticate the users the switch supports login method list for users of all types to gain access to the switch and enable method list for guests to get administrative privileges 837

Configuring the method list 837

Follow these steps to configure the method list 837

Switch aaa group end 837

Switch config aaa authentication login login1 radius local 837

Switch configure 837

Switch copy running config startup config 837

The following example shows how to create a login method list named login1 and configure the method 1 as the default radius server group and the method 2 as local 837

Configuring the aaa application list 838

Console login1 enable1 839

Http default default 839

Module login list enable list 839

Ssh default default 839

Switch config line console 0 839

Switch config line enable authentication enable1 839

Switch config line end 839

Switch config line login authentication login1 839

Switch config line show aaa global 839

Switch configure 839

Switch copy running config startup config 839

Telnet default default 839

The following example shows how to apply the existing login method list named login1 and enable method list named enable1 for the application console 839

Console default default 840

Follow these steps to apply the login and enable method lists for the application telnet 840

Module login list enable list 840

Ssh default default 840

Switch config line enable authentication enable1 840

Switch config line login authentication login1 840

Switch config line show aaa global 840

Switch config line telnet 840

Switch configure 840

Telnet 840

Telnet login1 enable1 840

The following example shows how to apply the existing login method list named login1 and enable method list named enable1 for the application telnet 840

Follow these steps to apply the login and enable method lists for the application ssh 841

Http default default 841

Module login list enable list 841

Switch config line enable authentication enable1 841

Switch config line end 841

Switch config line login authentication login1 841

Switch config line show aaa global 841

Switch config line ssh 841

Switch configure 841

Switch copy running config startup config 841

The following example shows how to apply the existing login method list named login1 and enable method list named enable1 for the application ssh 841

Console default default 842

Follow these steps to apply the login and enable method lists for the application http 842

Http default default 842

Module login list enable list 842

Ssh login1 enable1 842

Switch config ip http enable authentication enable1 842

Switch config ip http login authentication login1 842

Switch config line end 842

Switch config show aaa global 842

Switch configure 842

Switch copy running config startup config 842

Telnet default default 842

The following example shows how to apply the existing login method list named login1 and enable method list named enable1 for the application http 842

Configuring login account and enable password 843

Console default default 843

Http login1 enable1 843

On the switch 843

Ssh default default 843

Switch config end 843

Switch copy running config startup config 843

Telnet default default 843

The local username and password for login can be configured in the user management feature for details refer to managing system 843

The login account and enable password can be configured locally on the switch or centrally on the radius tacacs server s 843

To configure the local enable password for getting administrative privileges follow these steps 843

Configuration examples 845

Configuration scheme 845

Example for dhcp snooping and arp detection 845

Network requirements 845

Using the gui 846

Using the cli 849

Verify the configuration 850

Example for dhcpv6 snooping and nd detection 851

Network requirements 851

Configuration scheme 852

Configure dhcpv6 snooping on switch a set port 1 0 4 that is connected to the illegal dhcpv6 server as the trusted port and other ports as untrusted ports so that the illegal dhcpv6 server on any other port cannot assign ipv6 addresses for the clients 852

Configure ipv6 mac binding on switch a the binding entries for user 1 and user 2 will be automatically learned via dhcpv6 snooping and you need to manually bind the entry for user 3 852

Demonstrated with t2600g 18ts the following sections provide configuration procedure in two ways using the gui and using the cli 852

Enable nd detection on switch a to prevent nd attacks 852

Global config to load the following page because all users are in the default vlan 1 enable dhcpv6 snooping on vlan 1 set port 1 0 4 as a trusted port click apply after that the ipv6 mac binding entries of the dhcpv6 clients will be automatically learned via dhcpv6 snooping 852

To meet these requirements you can configure dhcpv6 snooping to filter the untrusted dhcpv6 packets from the illegal dhcpv6 server and configure nd detection to prevent the network from nd attacks the overview of configuration is as follows 852

Using the gui 852

Using the cli 854

Verify the configuration 855

Configuration scheme 856

Example for ip source guard 856

Network requirements 856

Using the gui 857

Using the cli 858

Configuration scheme 859

Example for 802 x 859

Network requirements 859

Verify the configuration 859

Network topology 860

Using the gui 860

Using the cli 863

Verify the configurations 864

Example for aaa 865

Network requirements 865

Configuration scheme 866

Using the gui 866

Using the cli 869

Verify the configuration 870

Appendix default parameters 872

Default settings of network security are listed in the following tables 872

Chapters 879

Configuring lldp 879

Part 28 879

Overview 880

Supported features 880

Global config 881

Lldp configurations 881

Using the gui 881

Follow these steps to enable lldp and configure the lldp feature globally 882

In the global config section enable lldp you can also enable the switch to forward lldp messages when lldp function is disabled click apply 882

In the parameters config section configure the lldp parameters click apply 882

Follow these steps to configure the lldp feature for the interface 883

Policy config to load the following page 883

Port config 883

Select the desired port and set its admin status and notification mode 883

Select the tlvs type length value included in the lldp packets according to your needs 883

Enable the lldp feature on the switch and configure the lldp parameters 884

Global config 884

Optional configure the port s management address for identifying the devices 884

Using the cli 884

Lldp status enabled 885

Switch config lldp 885

Switch config lldp hold multiplier 4 885

Switch config lldp timer tx interval 30 tx delay 2 reinit delay 3 notify interval 5 fast count 3 885

Switch config show lldp 885

Switch configure 885

The following example shows how to configure the following parameters lldp timer 4 tx interval 30 seconds tx delay 2 seconds reinit delay 3 seconds notify iinterval 5 seconds fast count 3 885

Fast packet count 3 886

Initialization delay 2 seconds 886

Lldp forward message disabled 886

Lldp med fast start repeat count 4 886

Port config 886

Select the desired port and set its admin status notification mode and the tlvs included in the lldp packets 886

Switch config end 886

Switch copy running config startup config 886

Trap notification interval 5 seconds 886

Ttl multiplier 4 886

Tx delay 2 seconds 886

Tx interval 30 seconds 886

Global config 889

Lldp med configurations 889

Using the gui 889

Port config 890

Global config 892

Lldp status enabled 892

Switch config lldp 892

Switch config lldp med fast count 4 892

Switch config show lldp 892

Switch configure 892

The following example shows how to configure lldp med fast count as 4 892

Tx interval 30 seconds 892

Using the cli 892

Fast packet count 3 893

Initialization delay 2 seconds 893

Lldp med fast start repeat count 4 893

Port config 893

Select the desired port enable lldp med and select the tlvs type length value included in the outgoing lldp packets according to your needs 893

Switch config end 893

Switch copy running config startup config 893

Trap notification interval 5 seconds 893

Ttl multiplier 4 893

Tx delay 2 seconds 893

Using gui 896

Viewing lldp device info 896

Viewing lldp settings 896

Follow these steps to view the local information 897

In the auto refresh section enable the auto refresh feature and set the refresh rate according to your needs click apply 897

In the local info section select the desired port and view its associated local device information 897

Viewing lldp statistics 899

Using cli 900

Viewing lldp statistics 900

Viewing the local info 900

Viewing the neighbor info 900

Using gui 901

Viewing lldp med settings 901

Follow these steps to view lldp med neighgbor information 902

In the auto refresh section enable the auto refresh feature and set the refresh rate according to your needs click apply 902

In the lldp med neighbor info section select the desired port and view the lldp med settings 902

Viewing the neighbor info 902

Using cli 903

Viewing lldp statistics 903

Viewing the local info 903

Viewing the neighbor info 903

Configuration example 904

Configuration scheme 904

Example for configuring lldp 904

Network requirements 904

Network topology 904

Using the gui 904

Using cli 905

Verify the configurations 906

Configuration scheme 911

Example for configuring lldp med 911

Network requirements 911

Network topology 911

Using the gui 912

Using the cli 916

Verify the configurations 917

Appendix default parameters 923

Default lldp med settings 923

Default lldp settings 923

Default settings of lldp are listed in the following tables 923

Chapters 924

Configuring maintenance 924

Part 29 924

Device diagnose 925

Maintenance 925

Network diagnose 925

Overview 925

Supported features 925

System monitor 925

Monitoring the cpu 926

Monitoring the system 926

Using the gui 926

Monitoring the memory 927

Monitoring the cpu 928

Monitoring the memory 928

Using the cli 928

Configuring the sflow collector 929

Sflow configuration 929

Using the gui 929

Configuring the sflow sampler 930

In the collector config section select a collector to configure relevant parameters and click apply 930

Sflow sampler to load the following page 930

Click apply 931

Follow these steps to configure the sflow 931

Follow these steps to configure the sflow sampler 931

In the sampler config section set one or more ports to be a sampler and configure relevant parameters one port can be bound to only one collector 931

Using the cli 931

Switch config if sflow sampler collector id 1 932

Switch config interface gigabitethernet 1 0 1 932

Switch config sflow address 192 68 932

Switch config sflow collector collector id 1 ip 192 68 00 932

Switch config sflow collector collector id 1 port 6343 932

Switch config sflow enable 932

Switch configure 932

The following example shows how to configure the switch whose ip address is 192 68 to send sflow packets to the host whose ip address is 192 68 00 set the sflow agent ip address as 192 68 the sflow collector ip address 1 as 192 68 00 configure gigabit ethernet port 1 as the sflow sampler the collector id as 1 and the ingress rate as 1024 932

Backing up log files 934

Configuration guidelines 934

Configuring the local log 934

Configuring the remote log 934

Logs are classified into the following eight levels messages of levels 0 to 4 mean the functionality of the switch is affected please take actions according to the log message 934

System log configurations 934

System log configurations include 934

Viewing the log table 934

Click apply 935

Configuring the local log 935

Follow these steps to configure the local log 935

Local log to load the following page 935

Select your desired channel and configure the corresponding severity and status 935

Using the gui 935

Backing up the log file 936

Configuring the remote log 936

Configuring the local log 937

Follow these steps to configure the local log 937

Log table to load the following page 937

Select a module and a severity to view the corresponding log information 937

Using the cli 937

Viewing the log table 937

Switch config logging buffer 938

Switch config logging buffer level 5 938

Switch config logging file flash 938

Switch config logging file flash frequency periodic 10 938

Switch config logging file flash level 2 938

Switch config show logging local config 938

Switch configure 938

The following example shows how to configure the local log on the switch save logs of levels 0 to 5 to the log buffer and synchronize logs of levels 0 to 2 to the flash every 10 hours 938

Buffer 5 enable immediately 939

Channel level status sync periodic 939

Configuring the remote log 939

Flash 2 enable 10 hour s 939

Follow these steps to set the remote log 939

Monitor 5 enable immediately 939

Remote log enables the switch to send system logs to a host to display the logs the host should run a log server that complies with the syslog standard 939

Switch config end 939

Switch config logging host index 2 192 68 48 5 939

Switch configure 939

Switch copy running config startup config 939

The following example shows how to set the remote log on the switch enable log host 2 set its ip address as 192 68 48 and allow logs of levels 0 to 5 to be sent to the host 939

Cable test to load the following page 941

Diagnosing the device 941

In the port section select your desired port for the test 941

In the result section click apply and check the test results 941

Using the gui 941

Gi1 0 2 pair a normal 2 10m 942

On privileged exec mode or any other configuration mode you can use the following command to check the connection status of the cable that is connected to the switch 942

Pair b normal 2 10m 942

Pair c normal 0 10m 942

Pair d normal 2 10m 942

Port pair status length error 942

Switch show cable diagnostics interface gigabitehternet 1 0 2 942

The following example shows how to check the cable diagnostics of port 1 0 2 942

Using the cli 942

Configuring the ping test 943

Diagnosing the network 943

Using the gui 943

Configuring the tracert test 944

Follow these steps to test connectivity between the switch and routers along the path from the source to the destination 944

In the ping result section check the test results 944

In the tracert config section enter the ip address of the destination set the max hop and then click tracert to start the test 944

In the tracert result section check the test results 944

Tracert to load the following page 944

Approximate round trip times in milli seconds 945

Configuring the ping test 945

Minimum 0ms maximum 0ms average 0ms 945

On privileged exec mode or any other configuration mode you can use the following command to test the connectivity between the switch and one node of the network 945

Packets sent 3 received 3 lost 0 0 loss 945

Ping statistics for 192 68 0 945

Pinging 192 68 0 with 1000 bytes of data 945

Reply from 192 68 0 bytes 1000 time 16ms ttl 64 945

Switch ping ip 192 68 0 n 3 l 1000 i 500 945

The following example shows how to test the connectivity between the switch and the destination device with the ip address 192 68 0 specify the ping times as 3 the data size as 1000 bytes and the interval as 500 milliseconds 945

Using the cli 945

Configuring the tracert test 946

Ms 1 ms 2 ms 192 68 946

Ms 2 ms 2 ms 192 68 00 946

On privileged exec mode or any other configuration mode you can use the following command to test the connectivity between the switch and routers along the path from the source to the destination 946

Switch tracert 192 68 00 2 946

The following example shows how to test the connectivity between the switch and the network device with the ip address 192 68 00 set the maxhops as 2 946

Trace complete 946

Tracing route to 192 68 00 over a maximum of 2 hops 946

Dldp configuration 947

Using the gui 947

In the port config section select one or more ports enable dldp and click apply then you can view the relevant dldp information in the table 948

Follow these steps to configure dldp 949

Using the cli 949

Configuration examples 951

Configuration scheme 951

Example for configuring sflow 951

Network requirements 951

Using the gui 951

Using the cli 952

Verify the configurations 953

Configuration scheme 954

Example for configuring remote log 954

Network requirements 954

Using the cli 954

Using the gui 954

Verify the configurations 955

Appendix default parameters 956

Default settings of maintenance are listed in the following tables 956

Chapters 958

Configuring snmp rmon 958

Part 30 958

Snmp overview 959

Snmp simple network management protocol is a standard network management protocol widely used on tcp ip networks it facilitates device management using nms network management system software with snmp network managers can view or modify network device information and troubleshoot according to notifications sent by those devices in a timely manner 959

The device supports three snmp versions snmpv1 snmpv2c and snmpv3 table 1 1 lists features supported by different snmp versions and table 1 2 shows corresponding application scenarios 959

Snmp configurations 960

Creating an snmp view 961

Enabling snmp 961

Using the gui 961

Create an snmp group and configure related parameters 962

Creating an snmp group 962

Set the view name and one mib variable that is related to the view choose the view type and click create to add the view entry 962

Follow these steps to create an snmp group 963

Set the group name and security model if you choose snmpv3 as the security model you need to further configure security level 963

Set the read write and notify view of the snmp group click create 963

Snmp group to load the following page 963

Creating snmp users 964

Follow these steps to create an snmp user 964

Snmp user to load the following page 964

Specify the user name user type and the group which the user belongs to set the security model according to the related parameters of the specified group if you choose snmpv3 you need to configure the security level 964

Click create 965

Creating snmp communities 965

If you have chosen authnopriv or authpriv as the security level you need to set corresponding auth mode or privacy mode if not skip the step 965

If you want to use snmpv1 or snmpv2c as the security model you can create snmp communities directly 965

Enabling snmp 966

Set the community name access rights and the related view click create 966

Snmp community to load the following page 966

Using the cli 966

Bad snmp version errors 967

Encoding errors 967

Get request pdus 967

Illegal operation for community name supplied 967

Number of altered variables 967

Number of requested variables 967

Snmp agent is enabled 967

Snmp packets input 967

Switch config show snmp server 967

Switch config snmp server 967

Switch config snmp server engineid remote 123456789a 967

Switch configure 967

The following example shows how to enable snmp and set 123456789a as the remote engine id 967

Unknown community name 967

Bad value errors 968

Creating an snmp view 968

General errors 968

Get next pdus 968

Local engine id 80002e5703000aeb132397 968

No such name errors 968

Remote engine id 123456789a 968

Response pdus 968

Set request pdus 968

Snmp packets output 968

Specify the oid object identifier of the view to determine objects to be managed 968

Switch config end 968

Switch config show snmp server engineid 968

Switch copy running config startup config 968

Too big errors maximum packet size 1500 968

Trap pdus 968

Creating an snmp group 969

No name sec mode sec lev read view write view notify view 1 nms monitor v3 authpriv view view 970

Switch config end 970

Switch config show snmp server group 970

Switch config snmp server group nms monitor smode v3 slev authpriv read view notify view 970

Switch configure 970

Switch copy running config startup config 970

The following example shows how to create an snmpv3 group name the group as nms monitor enable auth mode and privacy mode and set the view as read view and notify view 970

Configure users of the snmp group users belong to the group and use the same security level and access rights as the group 971

Creating snmp users 971

The following example shows how to create an snmp user on the switch name the user as admin and set the user as a remote user snmpv3 as the security mode authpriv as the 971

Admin remote nms monitor v3 authpriv sha des 972

Creating snmp communities 972

For snmpv1 and snmpv2c the community name is used for authentication functioning as the password 972

No u name u type g name s mode s lev a mode p mode 972

Security level sha as the authentication algorithm 1234 as the authentication password des as the privacy algorithm and 1234 as the privacy password 972

Switch config end 972

Switch config show snmp server user 972

Switch config snmp server user admin remote nms monitor smode v3 slev authpriv cmode sha cpwd 1234 emode des epwd 1234 972

Switch configure 972

Switch copy running config startup config 972

The following example shows how to set an snmp community name the community as the nms monitor and allow the nms to view and modify parameters of view 972

Configuration guidelines 974

Notification configurations 974

Using the gui 974

Choose a notification type based on the snmp version if you choose the inform type you need to set retry times and timeout interval 975

Click create 975

Specify the user name or community name used by the nms and configure the security model and security level based on the settings of the user or community 975

Configure parameters of the nms host and packet handling mechanism 976

Configuring the host 976

Using the cli 976

68 22 162 admin v3 authpriv inform 3 100 977

Enabling snmp notification 977

Enabling the snmp standard trap 977

No des ip udp name secmode seclev type retry timeout 977

Switch config end 977

Switch config show snmp server host 977

Switch config snmp server host 172 68 22 162 admin smode v3 slev authpriv type inform retries 3 timeout 100 977

Switch configure 977

Switch copy running config startup config 977

The following example shows how to set the nms host ip address as 172 68 22 udp port as port 162 name used by the nms as admin security model as snmpv3 security level as authpriv notification type as inform retry times as 3 and the timeout interval as 100 seconds 977

Optional enabling the snmp extended trap 978

Switch config end 978

Switch config snmp server traps snmp linkup 978

Switch configure 978

Switch copy running config startup config 978

The following example shows how to configure the switch to send linkup traps 978

Switch config end 979

Switch config snmp server traps bandwidth control 979

Switch configure 979

Switch copy running config startup config 979

The following example shows how to configure the switch to enable bandwidth control traps 979

Optional enabling the ddm trap 980

Switch config end 980

Switch config snmp server traps ddm create 980

Switch configure 980

Switch copy running config startup config 980

The following example shows how to configure the switch to enable ddm created trap 980

Optional enabling the illegal dhcp server trap 981

Optional enabling the link status trap 981

Switch config end 981

Switch config snmp server traps ddm 981

Switch config snmp server traps security dhcp snoop 981

Switch configure 981

Switch copy running config startup config 981

The following example shows how to configure the switch to enable all the snmp ddm trap 981

The following example shows how to configure the switch to enable illegal dhcp server trap 981

Switch config if end 982

Switch config if snmp server traps link status 982

Switch config interface gigabitethernet 1 0 1 982

Switch configure 982

Switch copy running config startup config 982

The following example shows how to configure the switch to enable link status trap 982

Rmon overview 983

Configuring statistics 984

Rmon configurations 984

Using the gui 984

Configuring history 985

Follow these steps to configure history 985

History to load the following page 985

Select a history entry and specify a port to be monitored 985

Set the sample interval and the maximum buckets of history entries 985

Specify the entry id the port to be monitored and the owner name of the entry set the entry as valid or undercreation and click create 985

Choose an event entry and set the snmp user of the entry 986

Configuring event 986

Enter the owner name and set the status of the entry click apply 986

Event to load the following page 986

Follow these steps to configure event 986

Set the description and type of the event 986

Alarm to load the following page 987

Before you begin please complete configurations of statistics entries and event entries because the alarm entries must be associated with statistics and event entries 987

Configuring alarm 987

Enter the owner name and set the status of the entry click apply 987

Follow these steps to configure alarm 987

Select an alarm entry choose a variable to be monitored and associate the entry with a statistics entry 987

Set the sample type the rising and falling threshold the corresponding event action and the alarm type of the entry 988

Configuring statistics 989

Enter the owner name and set the status of the entry click apply 989

Using the cli 989

Configuring history 990

Gi1 0 1 monitor valid 990

Gi1 0 2 monitor valid 990

Index port owner state 990

Switch config end 990

Switch config rmon statistics 1 interface gigabitethernet 1 0 1 owner monitor status valid 990

Switch config rmon statistics 2 interface gigabitethernet 1 0 2 owner monitor status valid 990

Switch config show rmon statistics 990

Switch configure 990

Switch copy running config startup config 990

The following example shows how to create two statistics entries on the switch to monitor port 1 0 1 and 1 0 2 respectively the owner of the entry is monitor and the entry is valid 990

Configuring event 991

Gi1 0 1 100 50 monitor enable 991

Index port interval buckets owner state 991

Switch config end 991

Switch config rmon history 1 interface gigabitethernet 1 0 1 interval 100 owner monitor buckets 50 991

Switch config show rmon history 991

Switch configure 991

Switch copy running config startup config 991

The following example shows how to create a history entry on the switch to monitor port 1 0 1 set the sample interval as 100 seconds max buckets as 50 and the owner as monitor 991

Admin rising notify notify monitor enable 992

Index user description type owner state 992

Switch config end 992

Switch config rmon event 1 user admin description rising notify type notify owner monitor 992

Switch config show rmon event 992

Switch configure 992

Switch copy running config startup config 992

The following example shows how to create an event entry on the switch set the user name as admin the event type as notify set the switch to initiate notifications to the nms and the owner as monitor 992

Configuring alarm 993

Configuration example 995

Configuration scheme 995

Network requirements 995

Network topology 996

Using the gui 996

Using the cli 1001

Verify the configurations 1003

Appendix default parameters 1007

Default settings of snmp are listed in the following table 1007

Default settings of notification are listed in the following table 1008

Tp-Link T2600G-18TS V1 [537/1010] Appendix default parameters

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