Abstract
Crypton算法是一种SPN型分组密码,它是分组长度为128 bit的AES候选算法之一。本文借助于多重集的概念,评估了简化轮数的Crypton算法对中间相遇攻击的抵抗能力,设计出两类4/5轮区分器,对7/8/9轮的Crypton算法实施了攻击。所有的攻击实例都给出了复杂度分析,攻击结果表明9轮的Crypton算法对中间相遇攻击是不免疫的,而且新攻击有效地降低了攻击所需的数据复杂度。 Crypton, one of AES candidates, is a 128 bit block cipher of SPN structure proposed by Lim. By means of the concept of Multiset, this paper evaluates the security of the reduced-round Crypton against meet-in-the-middle at- tack, constructs two categories of distinguishers of 4/5 round used to the attack on Crypton algorithm of 7/8/9round. All the attack instances give the complexity analysis. The results demonstrate that Crypton reduced to 9 rounds is not im- mune to meet-in-the-middle attacks, and new attacks reduced the data complexity efficiently.
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