GOST cipher: Difference between revisions
imported>Sandy Harris No edit summary |
imported>Sandy Harris |
||
Line 1: | Line 1: | ||
{{subpages}} | {{subpages}} | ||
The '''GOST cipher''' | The '''GOST cipher''' was a standard [[block cipher]] in the [[Soviet Union]]. GOST was a Soviet national standards body. There was also a related GOST hash algorithm, | ||
The GOST cipher | The GOST cipher | ||
Line 15: | Line 15: | ||
Moreover, each implementation of GOST can use different S-boxes; an organisation can have its own implementation with its own S-boxes. If those S-boxes are kept secret, the total secret information is about 610 bits <ref name="schneier" />, | Moreover, each implementation of GOST can use different S-boxes; an organisation can have its own implementation with its own S-boxes. If those S-boxes are kept secret, the total secret information is about 610 bits <ref name="schneier" />, | ||
== References== | |||
{{reflist|2}} |
Revision as of 07:25, 30 November 2009
The GOST cipher was a standard block cipher in the Soviet Union. GOST was a Soviet national standards body. There was also a related GOST hash algorithm,
The GOST cipher [1] resembles DES in some ways; it is an iterated block cipher with a Feistel structure using eight S-boxes in the F function; each S-box produces four bits of output and these are combined to produce the 32-bit output. However, it differs from DES in other ways. There is no expansion from 32 bits to 48, so s-box inputs are only four bits rather than six, and there is no permutation of the output bits, only an 11-bit circular shift; these differences make GOST easier to implement in software than DES. However, they may also weaken the cipher; GOST compensates by increasing the number of rounds to 32 rather than DES's 16.
GOST also uses a 256-bit key which makes it, unlike DES, thoroughly resistant to brute force attacks.
Moreover, each implementation of GOST can use different S-boxes; an organisation can have its own implementation with its own S-boxes. If those S-boxes are kept secret, the total secret information is about 610 bits [1],
References
- ↑ 1.0 1.1 Schneier, Bruce (2nd edition, 1996,), Applied Cryptography, John Wiley & Sons, ISBN 0-471-11709-9