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SENA PS210W User Manual

Page 58

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58

encryption provides better authentication techniques. The handshake allows the server to authenticate

itself to the client using public-key techniques, and then allows the client and the server to cooperate in

the creation of symmetric keys used for rapid encryption, decryption, and tamper detection during the

session that follows. The details of handshake process step involved can be summarized as follows:

1.

The client sends the server the client’s SSL version number, cipher settings, randomly

generated data, and other information the server needs to communicate with the client using

SSL.

2.

The server sends the client the server’s SSL version number, cipher settings, randomly

generated data, and other information the client needs to communicate with the server over

SSL. The server also sends its own certificate and, if the client is requesting a server resource

that requires client authentication, requests the client’s certificate.

3.

The client uses some of the information sent by the server to authenticate the server. If the

server cannot be authenticated, the user is warned of the problem and informed that an

encrypted and authenticated connection cannot be established. If the server can be

successfully authenticated, the client goes on to next step.

4.

Using all data generated in the handshake so far, the client (with the cooperation of the server,

depending on the cipher being used) creates the premaster secret for the session, encrypts it

with the server’s public-key (obtained from the server’s certificate, sent in step 2), and sends

the encrypted premaster secret to the server. SSL differ in the way this “shared” master secret

is created

5.

If the server has requested client authentication (an optional step in the handshake), the client

also signs another piece of data that is unique to this handshake and known by both the client

and server. In this case the client sends both the signed data and the client’s own certificate to

the server along with the encrypted premaster secret.

6.

If the server has requested client authentication, the server attempts to authenticate the client.

If the client cannot be authenticated, the session is terminated. if the client can be successfully

authenticated, the server uses its private key to decrypt the premaster secret, then performs a

series of steps (which the client also performs, starting from the same premaster secret) to

generate the master secret.

7.

Both the client and the server use the master secret to generate the session keys, which are

symmetric keys used to encrypt and decrypt information exchanged during the SSL/TLS

session and to verify its integrity— that is, to detect any changes in the data between the time

it was sent and the time it is received over the SSL connection.

8.

The client sends a message to the server informing it that future messages from the client will

be encrypted with the session key. It then sends a separate (encrypted) message indicating

that the client portion of the handshake is finished.

9.

The server sends a message to the client informing it that future messages from the server will