Jump to content

Cryptography

25% developed
From Wikibooks, open books for an open world


Jefferson's disk cipher.
Welcome to Cryptography, the study of obfuscating data to unintended recipients.

Part I: Introducing Cryptography

  1. Introduction to Cryptography
  2. History of Cryptography
    1. Classical Cryptography
    2. Contemporary Cryptography
    3. Cryptography in Popular Culture
    4. Quantum Cryptography
    5. Timeline of Notable Events
  3. Fundamental Concepts
    1. Goals of Cryptography
    2. Goals of Cryptanalysis
    3. Role of Cryptography in Computer Security
    4. Symmetric Key Ciphers
    5. Asymmetric Key Ciphers
    6. Random Number Generation
    7. Hashes
    8. Key Distribution and Authentication (key management and the web of trust)
    9. Common flaws and weaknesses
    10. Secure Passwords
    11. S-box

Part II: Designing Crypto-systems

  1. The Basic Principles
  2. Little Secrets Hide Bigger Secrets
  3. Open Algorithms and the Value of Peer-Review
  4. Think Like a Cryptanalyst
  5. Cryptography/Error Correction Systems
  6. Mathematical Background
  7. Computer Security is More Than Encryption
  8. Unbroken is Not Necessarily Unbreakable

Part III: Cryptanalysis

  1. The Basic Principles
  2. Weaknesses
    1. Proportionality of Secrecy
      1. Length of the key
      2. Quality of Random Source
      3. Plaintext effect on Ciphertext
    2. Statistical Leaking
    3. Faulty Implementation
    4. Inadequate Peer-Review
    5. Social Engineering and Coercion
    6. Leakage and Side Channels
  3. Attacks
    1. Brute-Force Attack
      1. Dictionary Attack
    2. Frequency Analysis
    3. Index of Coincidence
    4. Linear Cryptanalysis
    5. Differential Cryptanalysis
    6. Meet in the Middle Attack
    7. Man-in-the-middle attack
  4. Breaking Hash Algorithms
    1. Collisions
      1. Generating
      2. Exploiting
    2. Birthday Attack
    3. Joux Attack
    4. Time Memory Trade Off (rainbow tables)
  5. How Historical Systems Were Broken
    1. Transposition Ciphers
    2. Caesar Cipher
    3. Enigma Machine
    4. Permutation Cipher
    5. Vigenère Cipher

Part IV: Using Cryptosystems

  1. Applying Cryptography
    1. Digital Signatures
      1. Introduction to Digital Signatures
      2. DSA
    2. Database protection
    3. E-Cash
    4. E-Voting
    5. DRM
    6. Biometrics
    7. Anonymity
  2. Classical Ciphers
    1. Beale Cipher
    2. Transposition Ciphers
    3. Caesar cipher
    4. Atbash Cipher
    5. Autokey cipher
    6. Playfair Cipher
    7. Polyalphabetic substitution
    8. Scytale
    9. Substitution cipher
    10. nomenclator
    11. Permutation Cipher
    12. Affine cipher
    13. Vigenère cipher
    14. Polybius square
    15. ADFGVX cipher
    16. Fractionation (Polybius square, straddling checkerboard, CT-37c conversion table, etc.)
  3. Contemporary Ciphers
    1. Symmetric Ciphers
      1. Enigma Machine
      2. Solitaire cipher
      3. One-Time Pads
      4. Ciphersaber
      5. Data Encryption Standard (DES)
      6. Advanced Encryption Standard
      7. full-disk encryption
    2. Asymmetric Ciphers
      1. Overview
      2. A Basic Public Key Example
      3. RSA
      4. ElGamal
      5. Elliptic Curve
      6. Blum-Goldwasser
    3. Hashes
      1. MD5
      2. SHA-1
      3. SHA-2
      4. RadioGatún, the direct predecessor of SHA-3
      5. SHA-3
      6. RIPEMD-160
      7. Tiger
      8. message authentication code (often MAC); A MAC algorithm is sometimes called a keyed (cryptographic) hash function.
  4. Protocols
    1. Authentication protocols
      1. e.g. Kerberos
    2. Key exchange protocols
      1. Diffie-Hellman
    3. Secure Communications
      1. e.g. SSL, SSH
      2. Generate a keypair using OpenSSL

Part V: Cryptography and Society

  1. The Changing Nature of Cryptographic Use
  2. Cryptography, Governments and Laws
  3. Expectations of Normal Users

Part VI: Miscellaneous

  1. Future Possibilities
    1. Faster, More Parallel Linear Computers
  2. Glossary of Terms
  3. Further Reading
  4. Appendix A: Mathematical background
    1. Number Theory
    2. Group Theory
    3. Computational Complexity
    4. Prime numbers
  1. Currently ungrouped content
    1. Tabula Recta
    2. Commitment schemes
    3. Zero-knowledge proofs
    4. Open source implementation of cryptographic algorithms
    5. initialization vector
    6. Linear Cryptanalysis
    7. Differential Cryptanalysis
Almost all of these topics have articles about them in Wikipedia (there are about 50-100 crypto related articles) so many sections could be imported.
Perhaps this needs a little Discussion.--RobKohr 17:14, 22 Nov 2004 (UTC)

Pages to be merged into the text.

Cryptography/Prime Curve/Affine Coordinates

Cryptography/Prime Curve/Chudnovsky Coordinates

Cryptography/Prime Curve/Jacobian Coordinates

Cryptography/Prime Curve/Standard Projective Coordinates

Cryptography/Notes

Sources: Wikipedia:cryptography, Wikipedia:Transposition cipher, Wikipedia:Caesar cipher, Wikipedia:Frequency analysis, Wikipedia:Brute-force search.