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Paper 2019/639

Trapdoor Hash Functions and Their Applications

Nico Döttling, Sanjam Garg, Yuval Ishai, Giulio Malavolta, Tamer Mour, and Rafail Ostrovsky

Abstract

We introduce a new primitive, called trapdoor hash functions (TDH), which are hash functions $H: \{0,1\}^n \rightarrow \{0,1\}^\textrm{sec}$ with additional trapdoor function-like properties. Specifically, given an index $i\in[n]$, TDHs allow for sampling an encoding key $\textrm{ek}$ (that hides $i$) along with a corresponding trapdoor. Furthermore, given $\mathsf{H}(x)$, a hint value $\mathsf{E}(\textrm{ek},x)$, and the trapdoor corresponding to $\textrm{ek}$, the $i^{th}$ bit of $x$ can be efficiently recovered. In this setting, one of our main questions is: How small can the hint value $\mathsf{E}(\textrm{ek},x)$ be? We obtain constructions where the hint is only one bit long based on DDH, QR, DCR, or LWE. This primitive opens a floodgate of applications for low-communication secure computation. We mainly focus on two-message protocols between a receiver and a sender, with private inputs $x$ and $y$, resp., where the receiver should learn $f(x,y)$. We wish to optimize the (download) rate of such protocols, namely the asymptotic ratio between the size of the output and the sender's message. Using TDHs, we obtain: 1. The first protocols for (two-message) rate-1 string OT based on DDH, QR, or LWE. This has several useful consequences, such as: (a) The first constructions of PIR with communication cost poly-logarithmic in the database size based on DDH or QR. These protocols are in fact rate-1 when considering block PIR. (b) The first constructions of a semi-compact homomorphic encryption scheme for branching programs, where the encrypted output grows only with the program length, based on DDH or QR. (c) The first constructions of lossy trapdoor functions with input to output ratio approaching 1 based on DDH, QR or LWE. (d) The first constant-rate LWE-based construction of a 2-message ``statistically sender-private'' OT protocol in the plain model. 2. The first rate-1 protocols (under any assumption) for $n$ parallel OTs and matrix-vector products from DDH, QR or LWE. We further consider the setting where $f$ evaluates a RAM program $y$ with running time $T\ll |x|$ on $x$. We obtain the first protocols with communication sublinear in the size of $x$, namely $T\cdot\sqrt{|x|}$ or $T\cdot\sqrt[3]{|x|}$, based on DDH or, resp., pairings (and correlated-input secure hash functions).

Metadata
Available format(s)
PDF
Publication info
A major revision of an IACR publication in CRYPTO 2019
Contact author(s)
tamer @ weizmann ac il
giulio malavolta @ hotmail it
rafail @ cs ucla edu
sanjamg @ berkeley edu
nico doettling @ gmail com
yuvali @ cs technion ac il
History
2019-06-03: last of 2 revisions
2019-06-03: received
See all versions
Short URL
https://ia.cr/2019/639
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2019/639,
      author = {Nico Döttling and Sanjam Garg and Yuval Ishai and Giulio Malavolta and Tamer Mour and Rafail Ostrovsky},
      title = {Trapdoor Hash Functions and Their Applications},
      howpublished = {Cryptology {ePrint} Archive, Paper 2019/639},
      year = {2019},
      url = {https://eprint.iacr.org/2019/639}
}
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