Open AccessFormalizing and Analyzing the Needham-Schroeder Symmetric-Key Protocol by Rewriting
Author(s) -
Monica Nesi,
Giuseppina Rucci
Publication year - 2005
Publication title -
electronic notes in theoretical computer science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.242
H-Index - 60
ISSN - 1571-0661
DOI - 10.1016/j.entcs.2005.06.002
Subject(s) - rewriting , computer science , protocol (science) , automaton , property (philosophy) , set (abstract data type) , key (lock) , theoretical computer science , tree automaton , programming language , tree (set theory) , graph rewriting , computer security , mathematics , graph , combinatorics , medicine , philosophy , alternative medicine , epistemology , pathology
This paper reports on work in progress on using rewriting techniques for the specification and the verification of communication protocols. As in Genet and Klay's approach to formalizing protocols, a rewrite system R describes the steps of the protocol and an intruder's ability of decomposing and decrypting messages, and a tree automaton A encodes the initial set of communication requests and an intruder's initial knowledge. In a previous work we have defined a rewriting strategy that, given a term t that represents a property of the protocol to be proved, suitably expands and reduces t using the rules in R and the transitions in A to derive whether or not t is recognized by an intruder. In this paper we present a formalization of the Needham-Schroeder symmetric-key protocol and use the rewriting strategy for deriving two well-known authentication attacks
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