CSC 774 -- Network Security



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Transcription:

CSC 774 -- Network Security Topic 6: Transport Layer Security Dr. Peng Ning CSC 774 Network Security 1 Transport Layer Security Protocols Secure Socket Layer (SSL) Originally developed to secure http Version 3 was developed with public review Application independent Can be used for any application protocol Examples: telnet, pop3, imap, ftp, etc. Transport Layer Security (TLS) TLS 1.0 very close to SSL 3.1 Backward compatible with SSL v3. Dr. Peng Ning CSC 774 Network Security 2

SSL Architecture A two-layered protocol. Rely on TCP for a reliable communication. SSL Handshake Protocol SSL Change Cipher Spec Protocol SSL Record Protocol TCP IP SSL Alert Protocol HTTP and other protocols SSL Protocol Stack Dr. Peng Ning CSC 774 Network Security 3 SSL Services Peer entity and data authentication Data confidentiality Data integrity Compression/decompression Generation/distribution of session keys Integrated to protocol A different approach from IPSec Security parameter negotiation. Dr. Peng Ning CSC 774 Network Security 4

SSL Connection and Session Each SSL session can be used for multiple SSL connections. SSL Session An association between a client and a server. Created by handshake protocol. Are used to avoid negotiation of new security parameters for each connection. SSL Connection A connection is a transport that provides a suitable type of service. Peer-to-peer, transient Each connection is associate with one session. Dr. Peng Ning CSC 774 Network Security 5 SSL Session We can view an SSL session as an SSL security association. A SSL session consists of Session ID X.509 public-key certificate of peer (could be null) Compression algorithm Cipher spec: Encryption algorithm, message digest algorithm, etc. Master secret: 48 byte secret shared between the client and server Is reusable Dr. Peng Ning CSC 774 Network Security 6

SSL Connection An SSL Connection consists of Server and client random Server write MAC secret Client write MAC secret Server write key Client write key Server IV Client IV Sequence number Dr. Peng Ning CSC 774 Network Security 7 SSL Record Protocol Four steps by sender (reversed by receiver) Fragmentation 214 bytes Compression (optional) MAC Encryption Dr. Peng Ning CSC 774 Network Security 8

SSL Record Protocol Operation Dr. Peng Ning CSC 774 Network Security 9 SSL Record Format Dr. Peng Ning CSC 774 Network Security 10

SSL Record Protocol Payload Dr. Peng Ning CSC 774 Network Security 11 Handshake Protocol Initially SSL session has null compression and encryption algorithm. Both are set by the handshake protocol at the beginning of session. Handshake protocol may be repeated during the session. Four phases Establish Security Capabilities Server Authentication and Key Exchange Client Authentication and Key Exchange Finish Dr. Peng Ning CSC 774 Network Security 12

Phase 1. Establish Security Capabilities Client Server Client_hello* Server_hello* Message marked by * are mandatory; Other messages are optional. Dr. Peng Ning CSC 774 Network Security 13 Phase 1 (Cont d) Client_hello Version: The highest SSL version understood by the client Random: 4-byte timestamp + 28-byte random number. Session ID: zero for new session, non-zero for a previous session CipherSuite: list of supported algorithms Compression Method: list of supported compression methods Dr. Peng Ning CSC 774 Network Security 14

Phase 1 (Cont d) Server_hello Version: min (client_hello version, highest version supported by the server) Random: 4-byte timestamp + 28-byte random number. Generated by the server Session ID: CipherSuite: selected from the client s list by the server Compression method: selected from the client s list by the server Dr. Peng Ning CSC 774 Network Security 15 Phase 2: Server Authentication and Key Exchange Client Server Certificate Server_key_exchange Certificate_request Server_done* Certificate is almost always used. Dr. Peng Ning CSC 774 Network Security 16

Certificate message Required for any agreed-on key exchange method except for anonymous Diffie-Hellman. Anonymous D-H Problem? Contains one or a chain of X.509 certificates. Dr. Peng Ning CSC 774 Network Security 17 Server_key_exchange message Not required if The server has sent a certificate with fixed D-H parameters, or RSA key exchange is to be used. Needed for Anonymous D-H Ephemeral D-H RSA key exchange, in which the server is using RSA but has a signature-only RSA key. Fortezza Dr. Peng Ning CSC 774 Network Security 18

Certificate_request message Request a certificate from the client Two parameters Certificate_type RSA, signature only DSS, signature only Certificate_authorities Dr. Peng Ning CSC 774 Network Security 19 Server_done message Indicate the end of server hello and associated messages. Dr. Peng Ning CSC 774 Network Security 20

Phase 3. Client Authentication and Key Exchange Client Server Certificate client_key_exchange* certificate_verity Dr. Peng Ning CSC 774 Network Security 21 Phase 3. Client Authentication and Key Exchange Certificate One or a chain of certificates. Client_key_exchange RSA: encrypted pre-master secret with the server s public key. D-H: client s public key. Certificate_verify Only sent following any client certificate that has signing capability Proves the client is the valid owner of the certificate. Dr. Peng Ning CSC 774 Network Security 22

Phase 4. Finish Client Server Change_cipher_spec* Finished* Change_cipher_spec* Finished* Dr. Peng Ning CSC 774 Network Security 23 Master Secret Creation The master secret is a one-time 48-byte value. Pre-master secret: by RSA or D-H Master secret is computed from the pre-master secret, client random and server random. Dr. Peng Ning CSC 774 Network Security 24

Generation of Cryptographic Parameters Generated from the master secret, client random, and server random. Client write MAC secret Server write MAC secret Client write key Server write key Client write IV Server write IV Dr. Peng Ning CSC 774 Network Security 25 Change Cipher Spec Protocol Session State Current state The session state in effect Pending state The session being negotiated. Change Cipher Spec Protocol Cause the pending state to be copied into the current state. Dr. Peng Ning CSC 774 Network Security 26

Alert Protocol Convey SSL related alerts to the peer. Compressed and encrypted. Two types of alerts Fatal SSL immediately terminates the connection. Examples Unexpected message Bad_record_mac Warning Examples Close_notify No_certificate Dr. Peng Ning CSC 774 Network Security 27 Application Ports Used with SSL https 443 smtps 465 nntps 563 ldaps 636 pop3s 995 ftp-datas 889 ftps 990 imaps 991 Dr. Peng Ning CSC 774 Network Security 28

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