Smooth Zero-Knowledge Hash Functions

Behzad Abdolmaleki; Hamidreza Khoshakhlagh; Helger Lipmaa

doi:10.1007/978-3-030-92518-5_23

Smooth Zero-Knowledge Hash Functions

Behzad Abdolmaleki, Hamidreza Khoshakhlagh, Helger Lipmaa

Institut for Datalogi

Publikation: Bidrag til bog/antologi/rapport/proceeding › Konferencebidrag i proceedings › Forskning › peer review

Abstract

We define smooth zero-knowledge hash functions (SZKHFs) as smooth projective hash functions (SPHFs) for which the completeness holds even when the language parameter lpar and the projection key hp were maliciously generated. We prove that blackbox SZKHF in the plain model is impossible even if lpar was honestly generated. We then define SZKHF in the registered public key (RPK) model, where both lpar and hp are possibly maliciously generated but accepted by an RPK server, and show that the CRS-model trapdoor SPHFs of Benhamouda et al. are also secure in the weaker RPK model. Then, we define and instantiate subversion-zero knowledge SZKHF in the plain model. In this case, both lpar and hp are completely untrusted, but one uses non-blackbox techniques in the security proof.

Originalsprog	Engelsk
Titel	Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings : 22nd International Conference on Cryptology in India, Jaipur, India, December 12-15, 2021, Proceedings
Redaktører	Avishek Adhikari, Ralf Küsters, Bart Preneel
Antal sider	26
Forlag	Springer
Publikationsdato	2021
Sider	510-535
ISBN (Trykt)	978-3-030-92517-8
DOI	https://doi.org/10.1007/978-3-030-92518-5_23
Status	Udgivet - 2021
Begivenhed	22nd International Conference on Cryptology in India - The LNM Institute of Information Technology, Jaipur, Indien Varighed: 13 dec. 2021 → 15 dec. 2021 Konferencens nummer: 22 https://indocrypt2021.lnmiit.ac.in

Konference

Konference	22nd International Conference on Cryptology in India
Nummer	22
Lokation	The LNM Institute of Information Technology
Land/Område	Indien
By	Jaipur
Periode	13/12/2021 → 15/12/2021
Internetadresse	https://indocrypt2021.lnmiit.ac.in

Navn	Lecture Notes in Computer Science
Vol/bind	13143
ISSN	0302-9743

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10.1007/978-3-030-92518-5_23

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Citationsformater

Abdolmaleki, B., Khoshakhlagh, H., & Lipmaa, H. (2021). Smooth Zero-Knowledge Hash Functions. I A. Adhikari, R. Küsters, & B. Preneel (red.), Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings: 22nd International Conference on Cryptology in India, Jaipur, India, December 12-15, 2021, Proceedings (s. 510-535). Springer. https://doi.org/10.1007/978-3-030-92518-5_23

Abdolmaleki, Behzad ; Khoshakhlagh, Hamidreza ; Lipmaa, Helger. / Smooth Zero-Knowledge Hash Functions. Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings: 22nd International Conference on Cryptology in India, Jaipur, India, December 12-15, 2021, Proceedings. red. / Avishek Adhikari ; Ralf Küsters ; Bart Preneel. Springer, 2021. s. 510-535 (Lecture Notes in Computer Science, Bind 13143).

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title = "Smooth Zero-Knowledge Hash Functions",

abstract = "We define smooth zero-knowledge hash functions (SZKHFs) as smooth projective hash functions (SPHFs) for which the completeness holds even when the language parameter lpar and the projection key hp were maliciously generated. We prove that blackbox SZKHF in the plain model is impossible even if lpar was honestly generated. We then define SZKHF in the registered public key (RPK) model, where both lpar and hp are possibly maliciously generated but accepted by an RPK server, and show that the CRS-model trapdoor SPHFs of Benhamouda et al. are also secure in the weaker RPK model. Then, we define and instantiate subversion-zero knowledge SZKHF in the plain model. In this case, both lpar and hp are completely untrusted, but one uses non-blackbox techniques in the security proof.",

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doi = "10.1007/978-3-030-92518-5_23",

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Abdolmaleki, B, Khoshakhlagh, H & Lipmaa, H 2021, Smooth Zero-Knowledge Hash Functions. i A Adhikari, R Küsters & B Preneel (red), Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings: 22nd International Conference on Cryptology in India, Jaipur, India, December 12-15, 2021, Proceedings. Springer, Lecture Notes in Computer Science, bind 13143, s. 510-535, 22nd International Conference on Cryptology in India, Jaipur, Indien, 13/12/2021. https://doi.org/10.1007/978-3-030-92518-5_23

Smooth Zero-Knowledge Hash Functions. / Abdolmaleki, Behzad; Khoshakhlagh, Hamidreza; Lipmaa, Helger.
Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings: 22nd International Conference on Cryptology in India, Jaipur, India, December 12-15, 2021, Proceedings. red. / Avishek Adhikari; Ralf Küsters; Bart Preneel. Springer, 2021. s. 510-535 (Lecture Notes in Computer Science, Bind 13143).

Publikation: Bidrag til bog/antologi/rapport/proceeding › Konferencebidrag i proceedings › Forskning › peer review

TY - GEN

T1 - Smooth Zero-Knowledge Hash Functions

AU - Abdolmaleki, Behzad

AU - Khoshakhlagh, Hamidreza

AU - Lipmaa, Helger

N1 - Conference code: 22

PY - 2021

Y1 - 2021

N2 - We define smooth zero-knowledge hash functions (SZKHFs) as smooth projective hash functions (SPHFs) for which the completeness holds even when the language parameter lpar and the projection key hp were maliciously generated. We prove that blackbox SZKHF in the plain model is impossible even if lpar was honestly generated. We then define SZKHF in the registered public key (RPK) model, where both lpar and hp are possibly maliciously generated but accepted by an RPK server, and show that the CRS-model trapdoor SPHFs of Benhamouda et al. are also secure in the weaker RPK model. Then, we define and instantiate subversion-zero knowledge SZKHF in the plain model. In this case, both lpar and hp are completely untrusted, but one uses non-blackbox techniques in the security proof.

AB - We define smooth zero-knowledge hash functions (SZKHFs) as smooth projective hash functions (SPHFs) for which the completeness holds even when the language parameter lpar and the projection key hp were maliciously generated. We prove that blackbox SZKHF in the plain model is impossible even if lpar was honestly generated. We then define SZKHF in the registered public key (RPK) model, where both lpar and hp are possibly maliciously generated but accepted by an RPK server, and show that the CRS-model trapdoor SPHFs of Benhamouda et al. are also secure in the weaker RPK model. Then, we define and instantiate subversion-zero knowledge SZKHF in the plain model. In this case, both lpar and hp are completely untrusted, but one uses non-blackbox techniques in the security proof.

KW - Plain model

KW - RPK model

KW - SPHF

KW - Subversion zero-knowledge

KW - Trapdoor SPHF

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DO - 10.1007/978-3-030-92518-5_23

M3 - Article in proceedings

SN - 978-3-030-92517-8

T3 - Lecture Notes in Computer Science

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EP - 535

BT - Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings

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A2 - Küsters, Ralf

A2 - Preneel, Bart

PB - Springer

T2 - 22nd International Conference on Cryptology in India

Y2 - 13 December 2021 through 15 December 2021

ER -

Abdolmaleki B, Khoshakhlagh H, Lipmaa H. Smooth Zero-Knowledge Hash Functions. I Adhikari A, Küsters R, Preneel B, red., Progress in Cryptology – INDOCRYPT 2021 - 22nd International Conference on Cryptology in India, 2021, Proceedings: 22nd International Conference on Cryptology in India, Jaipur, India, December 12-15, 2021, Proceedings. Springer. 2021. s. 510-535. (Lecture Notes in Computer Science, Bind 13143). doi: 10.1007/978-3-030-92518-5_23

Smooth Zero-Knowledge Hash Functions

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