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Madryga

From Wikipedia, the free encyclopedia

In cryptography, Madryga is a block cipher created in 1984 by W. E. Madryga. It was designed to be easy and efficient for implementation in software. Serious weaknesses have since been found in the algorithm, but it was one of the first encryption algorithms to make use of data-dependent rotations, later used in other ciphers, such as RC5 and RC6.

In his proposal, Madryga set forth twelve design objectives that are generally considered to be good goals in the design of a block cipher. DES had already fulfilled nine of them. The three that DES did not fulfill were:

  1. Any possible key should produce a strong cipher. (Meaning no weak keys, which DES has.)
  2. The length of the key and the text should be adjustable to meet varying security requirements.
  3. The algorithm should be efficiently implementable in software on large mainframes, minicomputers, and microcomputers, and in discrete logic. (DES has a large amount of bitwise permutations, which are very inefficient in software implementations.)

[edit] The algorithm

Madryga met the objective of being efficient in software: the only operations it uses are XOR and rotations, both operating only on whole bytes. Madryga has a variable-length key, with no upper limit on its length.

Madryga is specified with eight rounds, but this can be increased to provide more security if need be. In each round, the algorithm passes over the entire plaintext n times, where n is the length of the plaintext in bytes. The algorithm looks at three bytes at a time, so Madryga is a 24-bit block cipher. It XORs a key byte with the rightmost byte, and rotates the other two as one block. The rotation varies with the output of the XOR. Then, the algorithm moves to the right by one byte. So if it were working on bytes 2, 3 and 4, after it finished rotating and XORing them, it would repeat the process on bytes 3, 4 and 5.

The key schedule is very simple. To start with, the entire key is XORed with a random constant of the same length as the key, then rotated to the left by 3 bits. It is rotated again after each iteration of rotation and XOR. The rightmost byte of it is used in each iteration to XOR with the rightmost byte of the data block.

The decryption algorithm is simply the reverse of the encryption algorithm. Due to the nature of the XOR operation, it is reversible.

[edit] Analysis of Madryga

At a glance, Madryga seems less secure than, for example, DES. All of Madryga's operations are linear. DES's S-boxes are its only non-linear component, and flaws in them are what both differential cryptanalysis and linear cryptanalysis seek to exploit. While Madryga's rotations are data-dependent to a small degree, they are still linear.

Perhaps Madryga's fatal flaw is that it does not exhibit the avalanche effect. Its small data block is to blame for this. One byte can only influence the two bytes to its left and the one byte to its right.

Eli Biham has reviewed the algorithm without making a formal analysis. He noticed that "the parity of all the bits of the plaintext and the ciphertext is a constant, depending only on the key. So, if you have one plaintext and its corresponding ciphertext, you can predict the parity of the ciphertext for any plaintext." Here, parity refers to the XOR sum of all the bits.

In 1995, Ken Shirriff found a differential attack on Madryga that requires 5,000 chosen plaintexts. Biryukov and Kushilevitz (1998) published an improved differential attack requiring only 16 chosen-plaintext pairs, and then demonstrated that it could be converted to a ciphertext-only attack using 212 plaintexts, under reasonable assumptions about the redundancy of the plaintext (for example, ASCII-encoded English language). A ciphertext-only attack is devastating for a modern block cipher; as such, it is probably more prudent to use another algorithm for encrypting sensitive data.

[edit] References

  • Alex Biryukov, Eyal Kushilevitz: From Differential Cryptoanalysis to Ciphertext-Only Attacks. CRYPTO 1998: 72-88
  • W. E. Madryga, "A High Performance Encryption Algorithm", Computer Security: A Global Challenge, Elsevier Science Publishers, 1984, pp. 557-570.
  • Ken Shirriff, Differential Cryptanalysis of Madryga, unpublished manuscript, October 1995. [1]


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Design: Feistel network | Key schedule | Product cipher | S-box | SPN

Attacks: Brute force | Linear / Differential / Integral cryptanalysis | Mod n | Related-key | Slide | XSL

Standardization: AES process | CRYPTREC | NESSIE

Misc: Avalanche effect | Block size | IV | Key size | Modes of operation | Piling-up lemma | Weak key

Cryptography
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History of cryptography | Cryptanalysis | Cryptography portal | Topics in cryptography
Symmetric-key algorithm | Block cipher | Stream cipher | Public-key cryptography | Cryptographic hash function | Message authentication code | Random numbers
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