Xor–encrypt–xor

The xor–encrypt–xor (XEX) is a (tweakable) mode of operation of a block cipher.

XEX-based tweaked-codebook mode with ciphertext stealing (XTS mode) is one of the more popular modes of operation for whole-disk encryption.
XEX is a common form of key whitening.
XEX is part of some smart card proposals.^[1]^[2]

History

In 1984, to protect DES against exhaustive search attacks, Ron Rivest proposed DESX: XOR a prewhitening key to the plaintext, encrypt the result with DES using a secret key, and then XOR a postwhitening key to the encrypted result to produce the final ciphertext.^[3]

In 1991, motivated by Rivest's DESX construction, Even and Mansour proposed a much simpler scheme (the "two-key Even–Mansour scheme"), which they suggested was perhaps the simplest possible block cipher: XOR the plaintext with a prewhitening key, apply a publicly known unkeyed permutation (in practice, a pseudorandom permutation) to the result, and then XOR a postwhitening key to the permuted result to produce the final ciphertext.^[3]^[4]

Studying simple Even–Mansour style block ciphers gives insight into the security of Feistel ciphers (DES-like ciphers) and helps understand block cipher design in general.^[5]

Orr Dunkelman, Nathan Keller, and Adi Shamir later proved it was possible to simplify the Even–Mansour scheme even further and still retain the same provable security, producing the "single-key Even–Mansour scheme": XOR the plaintext with the key, apply a publicly known unkeyed permutation to the result, and then XOR the same key to the permuted result to produce the final ciphertext.^[3]

Rogaway used XEX to allow efficient processing of consecutive blocks (with respect to the cipher used) within one data unit (e.g., a disk sector) for whole-disk encryption.^[6]

Many whole-disk encryption systems – BestCrypt, dm-crypt, FreeOTFE, TrueCrypt, DiskCryptor, FreeBSD's geli, OpenBSD softraid disk encryption software, and Mac OS X Lion's FileVault 2 – support XEX-based tweaked-codebook mode with ciphertext stealing (XTS mode).

References

^ Barış Ege, Elif Bilge Kavun, and Tolga Yalçın. "Memory Encryption for Smart Cards". 2011.
^ Emmanuel Prouff. "Smart Card Research and Advanced Applications". 2011, p. 201.
^ ^a ^b ^c Orr Dunkelman, Nathan Keller, and Adi Shamir. "Minimalism in Cryptography: The Even–Mansour Scheme Revisited".
^ Joan Daemen, Laboratorium Esat. "Limitations of the Even–Mansour Construction". 1992. doi:10.1007/3-540-57332-1_46
^ Craig Gentry and Zulfikar Ramzan. "Eliminating Random Permutation Oracles in the Even–Mansour Cipher". 2004.
^ Rogaway, Phillip (2004-09-24). "Efficient Instantiations of Tweakable Blockciphers and Refinements to Modes OCB and PMAC" (PDF).

This cryptography-related article is a stub. You can help Wikipedia by expanding it.

[1] Barış Ege, Elif Bilge Kavun, and Tolga Yalçın. "Memory Encryption for Smart Cards". 2011.

[2] Emmanuel Prouff. "Smart Card Research and Advanced Applications". 2011, p. 201.

[DKS-3] Orr Dunkelman, Nathan Keller, and Adi Shamir. "Minimalism in Cryptography: The Even–Mansour Scheme Revisited".

[4] Joan Daemen, Laboratorium Esat. "Limitations of the Even–Mansour Construction". 1992. doi:10.1007/3-540-57332-1_46

[5] Craig Gentry and Zulfikar Ramzan. "Eliminating Random Permutation Oracles in the Even–Mansour Cipher". 2004.

[rogaway_xex-6] Rogaway, Phillip (2004-09-24). "Efficient Instantiations of Tweakable Blockciphers and Refinements to Modes OCB and PMAC" (PDF).

[1]

[2]

[3]

[4]

[5]

[6]