Difference between revisions of "FORK-256"

Revision as of 19:43, 10 March 2008

Deukjo Hong, Jaechul Sung, Seokhie Hong, Sangjin Lee, Dukjae Moon - A New Dedicated 256-bit Hash Function: FORK-256

,2005

Author : Deukjo Hong, Jaechul Sung, Seokhie Hong, Sangjin Lee, Dukjae Moon
Title : A New Dedicated 256-bit Hash Function: FORK-256
In : -
Address :
Date : 2005

Florian Mendel, Joseph Lano, Bart Preneel - Cryptanalysis of Reduced Variants of the FORK-256 Hash Function

CT-RSA pp. 85-100,2007

Author : Florian Mendel, Joseph Lano, Bart Preneel
Title : Cryptanalysis of Reduced Variants of the FORK-256 Hash Function
In : CT-RSA -
Address :
Date : 2007

@@ Line 41: / Line 41: @@
    year      = {2007},
    pages     = {85-100},
-   ee        = {http:/dx.doi.org/10.1007/11967668_6},
+   url       = {http:/dx.doi.org/10.1007/11967668_6},
    abstract  = {FORK-256 is a hash function presented at FSE 2006. Whereas SHA-like designs process messages in one stream, FORK-256 uses four parallel streams for hashing. In this article, we present the first cryptanalytic results on this design strategy. First, we study a linearized variant of FORK-256, and show several unusual properties of this linearized variant. We also explain why the linearized model can not be used to mount attacks similar to the recent attacks by Wang et al. on SHA-like hash functions. Second, we show how collision attacks, exploiting the non-bijectiveness of the nonlinear functions of FORK-256, can be mounted on reduced variants of FORK-256. We show an efficient attack on FORK-256 reduced to 2 streams and present actual colliding pairs. We expect that our attack can also be extended to FORK-256 reduced to 3 streams. For the moment our approach does not appear to be applicable to the full FORK-256 hash function.} }
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