Chap 13 Sec 5 Authentication Protocol Facts x7

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802.1x

An authentication method used on a LAN to allow or deny access based on a port or connection to the network. • 802.1x is used for port authentication on switches and authentication to wireless access points. • 802.1x requires an authentication server for validating user credentials. This server is typically a RADIUS server. • Authentication credentials are passed from the client, through the access point device, and on to the authentication server. • The access point enables or disables traffic on the port based on the authentication status of the user. • Authenticated users are allowed full access to the network; unauthenticated users only have access to the RADIUS server. • 802.1x is based on EAP and can use a variety of methods for authentication (for example, usernames and passwords, certificates, or smart cards).

Microsoft Challenge Handshake Authentication Protocol (MS-CHAP)

Microsoft's proprietary challenge-response authentication method used for remote access connections. MS-CHAP: • Encrypts the shared secret on each system so it is not saved in plaintext. • Provides a mechanism for changing the password over the remote connection. • Allows for mutual authentication, where the server authenticates to the client, if you use v2. Be aware that MS-CHAP and MS-CHAP v2 both have known security vulnerabilities and should be avoided if possible.

Kerberos

Used for both authentication and authorization to services. Kerberos grants tickets (also called security tokens) to authenticated users and authorized resources. The process of using tickets to validate permissions is called delegated authentication. Kerberos uses the following components: • An Authentication Server (AS) accepts and processes authentication requests. • A service server (SS) provides or holds network resources. • A ticket granting server (TGS) grants tickets that are valid for specific resources on specific servers. Kerberos works as follows: 1. The client sends an authentication request to the AS. 2. The AS validates the user identity and grants a ticket granting ticket (TGT), which validates the user identity and is good for a specific TGS. 3. When the client needs to access a resource, it submits its TGT to the TGS. The TGS validates that the user is allowed access and issues a client-to-server ticket. 4. The client connects to the SS and submits the client-to-server ticket as proof of access. 5. The SS accepts the ticket and allows access. Tickets are valid during the entire session and do not need to be re-requested. Windows Active Directory uses Kerberos for user authentication and for controlling resource access. Kerberos requires that all servers within the process have synchronized clocks to validate tickets.

Extensible Authentication Protocol (EAP)

EAP allows the client and server to negotiate the characteristics of authentication. • An EAP authentication scheme is called an EAP type. Both the client and authenticator have to support the same EAP type for authentication to function. • When a connection is established, the client and server negotiate the authentication type that will be used based on the allowed or required authentication types configured on each device. • The submission of authentication credentials occurs based on the rules defined by the authentication type. • EAP is used to allow authentication with smart cards, biometrics, and certificate-based authentication. Other versions of EAP include: • PEAP, also known as protected extensible authentication protocol. It is a more secure version of EAP. It provides authentication to a WLAN that supports 801.1X. PEAP uses a public key over TLS. • EAP-FAST, also known as flexible authentication via secure tunneling. This version performs session authentication in wireless networks and point-to-point connections. • EAP-TLS uses TLS protocol and is used mostly by wireless vendors. It is one of the most secure EAP standards.

Challenge Handshake Authentication Protocol (CHAP)

A three-way handshake (challenge/response) authentication protocol used for remote access connections. Both devices are configured with a password called a shared secret. For unique user authentication, this value is associated with a user account. The challenge/response authentication mechanism occurs in three steps: 1. The server generates a challenge message and sends it to the client. 2. The client responds with the username and a value created using a one-way hash function on the challenge message. 3. The server checks the response against its own value created using the same hash. If the values match, the client is authenticated. With CHAP, plaintext versions of the password are never sent; only the hashed challenge message is sent between devices.


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