Netgear S3300-28X-PoE+ (GS728TXP) - ProSAFE S3300 Smart Switch Series Guia Do Administrador
Configuration Examples
326
S3300 Smart Switch
a force-Authorized state and does not require any authentication. When the Port Control
setting is Auto, the authenticator PAE sets the controlled port mode.
setting is Auto, the authenticator PAE sets the controlled port mode.
3.
In the Guest VLAN field for ports g1–g8, enter 150 to assign these ports to the guest VLAN.
You can configure additional settings to control access to the network through the ports.
See
See
241 for information about the settings.
4.
Click the Apply button.
5.
From the 802.1X Configuration screen, set the Port Based Authentication State and Guest
VLAN Mode to Enable.
VLAN Mode to Enable.
6.
Click the Apply button.
This example uses the default values for the port authentication settings, but there are
several additional settings that you can configure. For example, the EAPOL Flood Mode
field allows you to enable the forwarding of EAPoL frames when 802.1X is disabled on
the device.
several additional settings that you can configure. For example, the EAPOL Flood Mode
field allows you to enable the forwarding of EAPoL frames when 802.1X is disabled on
the device.
7.
From the RADIUS Server Configuration screen, configure a RADIUS server with the
following settings:
following settings:
•
Server Address. 192.168.10.23
•
Secret Configured. Yes
•
Secret. secret123
•
Active. Primary
217.
8.
Click the Add button.
9.
From the Authentication List screen, configure the default List to use RADIUS as the first
authentication method.
authentication method.
For more information about this step, see
223.
This example enables 802.1X-based port security on the switch and prompts the hosts
connected on ports g1–g8 for an 802.1X-based authentication. The switch passes the
authentication information to the configured RADIUS server.
connected on ports g1–g8 for an 802.1X-based authentication. The switch passes the
authentication information to the configured RADIUS server.
MSTP
Spanning Tree Protocol (STP) runs on bridged networks to help eliminate loops. If a bridge
loop occurs, the network can become flooded with traffic. IEEE 802.1s Multiple Spanning
Tree Protocol (MSTP) supports multiple instances of Spanning Tree to efficiently channel
VLAN traffic over different interfaces. Each instance of the Spanning Tree behaves in the
manner specified in IEEE 802.1w, Rapid Spanning Tree, with slight modifications in the
working but not the end effect (chief among the effects is the rapid transitioning of the port to
the Forwarding state).
loop occurs, the network can become flooded with traffic. IEEE 802.1s Multiple Spanning
Tree Protocol (MSTP) supports multiple instances of Spanning Tree to efficiently channel
VLAN traffic over different interfaces. Each instance of the Spanning Tree behaves in the
manner specified in IEEE 802.1w, Rapid Spanning Tree, with slight modifications in the
working but not the end effect (chief among the effects is the rapid transitioning of the port to
the Forwarding state).