Figure 27: Using Port Security - SMC Networks SMCGS10C-SMART Management Manual

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Installation manual (65 pages)

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Table of Contents

| Configuring the Switch

HAPTER

Configuring Security

standard defines a port-based access control procedure that prevents

unauthorized access to a network by requiring users to first submit

credentials for authentication. Access to all switch ports in a network can

be centrally controlled from a server, which means that authorized users

can use the same credentials for authentication from any point within the

network.

Figure 27: Using Port Security

802.1x

client

RADIUS

server

This switch uses the Extensible Authentication Protocol over LANs (EAPOL)

to exchange authentication protocol messages with the client, and a

remote RADIUS authentication server to verify user identity and access

rights. These backend servers are configured on the AAA menu (see

page

109).

When a client (i.e., Supplicant) connects to a switch port, the switch (i.e.,

Authenticator) responds with an EAPOL identity request. The client

provides its identity (such as a user name) in an EAPOL response to the

switch, which it forwards to the RADIUS server. The RADIUS server verifies

the client identity and sends an access challenge back to the client. The

EAP packet from the RADIUS server contains not only the challenge, but

the authentication method to be used. The client can reject the

authentication method and request another, depending on the

configuration of the client software and the RADIUS server. The encryption

method used by IEEE 802.1X to pass authentication messages can be MD5

(Message-Digest 5), TLS (Transport Layer Security), PEAP (Protected

Extensible Authentication Protocol), or TTLS (Tunneled Transport Layer

Security). However, note that the only encryption method supported by

MAC-Based authentication is MD5. The client responds to the appropriate

method with its credentials, such as a password or certificate. The RADIUS

server verifies the client credentials and responds with an accept or reject

packet. If authentication is successful, the switch allows the client to

access the network. Otherwise, network access is denied and the port

remains blocked.

– 78 –

1. Client attempts to access a switch port.

2. Switch sends client an identity request.

3. Client sends back identity information.

4. Switch forwards this to authentication server.

5. Authentication server challenges client.

6. Client responds with proper credentials.

7. Authentication server approves access.

8. Switch grants client access to this port.

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