KCA011: Cryptography & Network Security UNIT-1 Introduction to security attacks, Services and mechanism Classical encryption techniques substitution ciphers and transposition ciphers Cryptanalysis, Steganography, Stream and block ciphers Modern Block Ciphers: Block ciphers principles Shannon’s theory of confusion and diffusion, Feistel structure Data encryption standard(DES), Strength of DES Idea of differential cryptanalysis, Block cipher modes of operations Triple DES UNIT-2 Introduction to group, field, finite field of the form GF(p) Modular arithmetic, Prime and relative prime numbers Extended Euclidean Algorithm, Advanced Encryption Standard (AES) Fermat’s and Euler’s theorem, Primality testing Chinese Remainder theorem, Discrete Logarithmic Problem Principals of public key crypto systems RSA algorithm, Security of RSA UNIT-3 Message Authentication Codes: Authentication requirements Authentication functions, Message authentication code Hash functions, Birthday attacks Security of hash functions, Secure hash algorithm (SHA) Digital Signatures, Elgamal Digital Signature Techniques Digital signature standards (DSS), Proof of digital signature algorithm UNIT-4 Symmetric key distribution, Diffie-Hellman Key Exchange Public key distribution, X.509 Certificates Public key Infrastructure Authentication Applications: Kerberos Electronic mail security pretty good privacy (PGP), S/MIME. UNIT-5 IP Security: Architecture, Authentication header Encapsulating security payloads Combining security associations, Key management Introduction to Secure Socket Layer, Secure electronic transaction (SET) System Security: Introductory idea of Intrusion Intrusion detection, Viruses and related threats, firewalls
