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37 lines
1.5 KiB
Markdown
37 lines
1.5 KiB
Markdown
---
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title: "CryptoSolve: Towards a Tool for the Symbolic Analysis of Cryptographic Algorithms"
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authors: [
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"Dalton Chichester",
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"Wei Du",
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"Raymond Kauffman",
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"Hai Lin",
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"Christopher Lynch",
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"Andrew M. Marshall",
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"Catherine A. Meadows",
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"Paliath Narendran",
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"Veena Ravishankar",
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"Luis Rovira",
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"Brandon Rozek"
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]
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date: 2022-03-14
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publish_date: "2022/3/14"
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conference: "International Workshop on Rewriting Logic and its Applications"
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firstpage: 6
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lastpage: 25
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language: "English"
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pdf_url: "http://sv.postech.ac.kr/wrla2022/assets/files/pre-proceedings-WRLA2022.pdf#page=12"
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abstract: "We present a new tool for the automatic synthesis and verifi-
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cation of cryptographic algorithms. Currently the tool considers symbolic
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security and invertibility of recursively defined modes of operation with
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an xor-operation and encryption. A cryptographic mode of operation is
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an algorithm for encrypting a message of arbitrary length using a block
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cipher that only encrypts messages of a single fixed length. The system
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can both automatically generate modes and accept user-defined ones.
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These modes can then be checked for properties such as security and
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invertibility. In order to analyze the modes, the tool utilizes term rewrit-
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ing and unification methods which are implemented in a core supporting
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library. The state of the tool and underlying library are in an initial iter-
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ation. The goal is to continue expanding the tool to consider additional
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security questions and cryptosystems."
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---
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