Toward a Game Theoretic View of Secure Computation

Gilad Asharov; Ran Canetti; Carmit Hazay

doi:10.1007/s00145-015-9212-6

Toward a Game Theoretic View of Secure Computation

Gilad Asharov, Ran Canetti, Carmit Hazay

Bar-Ilan University, Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

We demonstrate how Game Theoretic concepts and formalism can be used to capture cryptographic notions of security. In the restricted but indicative case of two-party protocols in the face of malicious fail-stop faults, we first show how the traditional notions of secrecy and correctness of protocols can be captured as properties of Nash equilibria in games for rational players. Next, we concentrate on fairness. Here we demonstrate a Game Theoretic notion and two different cryptographic notions that turn out to all be equivalent. In addition, we provide a simulation-based notion that implies the previous three. All four notions are weaker than existing cryptographic notions of fairness. In particular, we show that they can be met in some natural setting where existing notions of fairness are provably impossible to achieve.

Original language	English
Pages (from-to)	879-926
Number of pages	48
Journal	Journal of Cryptology
Volume	29
Issue number	4
Early online date	14 Aug 2015
DOIs	https://doi.org/10.1007/s00145-015-9212-6
State	Published - 1 Oct 2016

Keywords

Fairness
Game theory
Secure computation

All Science Journal Classification (ASJC) codes

Software
Computer Science Applications
Applied Mathematics

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10.1007/s00145-015-9212-6

Cite this

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title = "Toward a Game Theoretic View of Secure Computation",

abstract = "We demonstrate how Game Theoretic concepts and formalism can be used to capture cryptographic notions of security. In the restricted but indicative case of two-party protocols in the face of malicious fail-stop faults, we first show how the traditional notions of secrecy and correctness of protocols can be captured as properties of Nash equilibria in games for rational players. Next, we concentrate on fairness. Here we demonstrate a Game Theoretic notion and two different cryptographic notions that turn out to all be equivalent. In addition, we provide a simulation-based notion that implies the previous three. All four notions are weaker than existing cryptographic notions of fairness. In particular, we show that they can be met in some natural setting where existing notions of fairness are provably impossible to achieve.",

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AB - We demonstrate how Game Theoretic concepts and formalism can be used to capture cryptographic notions of security. In the restricted but indicative case of two-party protocols in the face of malicious fail-stop faults, we first show how the traditional notions of secrecy and correctness of protocols can be captured as properties of Nash equilibria in games for rational players. Next, we concentrate on fairness. Here we demonstrate a Game Theoretic notion and two different cryptographic notions that turn out to all be equivalent. In addition, we provide a simulation-based notion that implies the previous three. All four notions are weaker than existing cryptographic notions of fairness. In particular, we show that they can be met in some natural setting where existing notions of fairness are provably impossible to achieve.

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Toward a Game Theoretic View of Secure Computation

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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