Cryptanalysis of Cramer-Shoup Like Cryptosystems Based on Index Exchangeable Family

The Cramer-Shoup (CS) like cryptosystem based on index exchangeable family (IEF) construction is a novel scheme introduced in Asiaccs 2016 by Li et al.. Its versatility was illustrated by building two public key encryption (PKE) schemes, a cramer-shoup encryption scheme based on IEFs, as well as an outsourcing technique based on non-abelian analog. However, the two schemes are not secure over the recommended linear group of Li et al. For them, we provide a new key-recovery attack by solving a linear equation respectively. Furthermore, we peel off complex encryption and decryption processes and propose more than three different attack methods. Finally, we give a corresponding example to illustrate the correctness of our attack methods. Our attack methods break an instance of claiming 80 bit security less than one minute under a personal computer.

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A Latticed-Based Public Key Encryption with KDM Security from R-LWE

Advanced Engineering Forum ◽

10.4028/www.scientific.net/aef.6-7.398 ◽

2012 ◽

Vol 6-7 ◽

pp. 398-403

Author(s):

Yan Fang Wu ◽

Zheng Huang ◽

Qiao Yan Wen

Keyword(s):

Low Cost ◽

Public Key ◽

Encryption Scheme ◽

Public Key Encryption ◽

Secret Key ◽

Worst Case ◽

Encryption And Decryption ◽

Learning With Errors ◽

High Level ◽

The Cost

Since the introduction of the ring learning with errors (R-LWE) by Lyubashevsky, Peikert and Regev, many efficient and secure applications were founded in cryptography. In this paper, we mainly present an efficient public-key encryption scheme based on the R-LWE assumption. It is very simple to describe and analyze. As well as it can achieve security against certain key-dependent message (KDM) attacks. Namely, this efficient encryption scheme can securely encrypt its own secret key. The security of this scheme follows from the already proven hardness of the R-LWE problem since the R-LWE assumption is reducible to worst-case problems on the ideal lattice. Besides, the scheme enjoys a high level efficiency and low cost since the operations of the scheme are very simple and fast. The cost of both the encryption and decryption is only polylog(n) bit per message symbol.

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Cryptanalysis on an Improved Version of ElGamal-Like Public-Key Encryption Scheme for Encrypting Large Messages

Informatica ◽

10.15388/informatica.2012.374 ◽

2012 ◽

Vol 23 (4) ◽

pp. 537-562 ◽

Cited By ~ 5

Author(s):

Ting-Yi Chang ◽

Min-Shiang Hwang ◽

Wei-Pang Yang

Keyword(s):

Public Key ◽

Encryption Scheme ◽

Public Key Encryption

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Design and Analysis of a Provable Secure Multi-Recipient Public Key Encryption Scheme

Journal of Software ◽

10.3724/sp.j.1001.2009.03552 ◽

2009 ◽

Vol 20 (10) ◽

pp. 2907-2914 ◽

Cited By ~ 8

Author(s):

Liao-Jun PANG ◽

Hui-Xian LI ◽

Li-Cheng JIAO ◽

Yu-Min WANG

Keyword(s):

Public Key ◽

Encryption Scheme ◽

Public Key Encryption

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Public-Key Encryption

10.1093/oso/9780198788003.003.0005 ◽

2017 ◽

Author(s):

Keith M. Martin

Keyword(s):

Elliptic Curve ◽

Public Key Cryptography ◽

Public Key ◽

Public Key Encryption ◽

Hybrid Encryption ◽

Public Key Cryptosystems ◽

Encryption And Decryption ◽

Encryption Schemes ◽

Hard Problems ◽

Set Up

In this chapter, we introduce public-key encryption. We first consider the motivation behind the concept of public-key cryptography and introduce the hard problems on which popular public-key encryption schemes are based. We then discuss two of the best-known public-key cryptosystems, RSA and ElGamal. For each of these public-key cryptosystems, we discuss how to set up key pairs and perform basic encryption and decryption. We also identify the basis for security for each of these cryptosystems. We then compare RSA, ElGamal, and elliptic-curve variants of ElGamal from the perspectives of performance and security. Finally, we look at how public-key encryption is used in practice, focusing on the popular use of hybrid encryption.

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