Trapdoor Functions from the Computational Diffie-Hellman Assumption

机译：计算Diffie-Hellman假设的活板门功能

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Trapdoor functions (TDFs) are a fundamental primitive in cryptography. Yet, the current set of assumptions known to imply TDFs is surprisingly limited, when compared to public-key encryption. We present a new general approach for constructing TDFs. Specifically, we give a generic construction of TDFs from any Chameleon Encryption (Doettling and Garg [CRYPTO'17]) satisfying a novel property which we call recyclability. By showing how to adapt current Computational Diffie-Hellman (CDH) based constructions of chameleon encryption to yield recyclability, we obtain the first construction of TDFs with security proved under the CDH assumption. While TDFs from the Decisional Diffie-Hellman (DDH) assumption were previously known, the possibility of basing them on CDH had remained open for more than 30 years.

机译：活板门功能（TDF）是密码学中的基本原语。但是，与公钥加密相比，目前已知的隐含TDF的假设集令人惊讶地受到限制。我们提出了一种构造TDF的新方法。具体来说，我们给出了满足任何新特性（称为可回收性）的任何变色龙加密（Doettling和Garg [CRYPTO'17]）的TDF的通用构造。通过展示如何适应当前基于计算Diffie-Hellman（CDH）的变色龙加密结构以产生可回收性，我们获得了在CDH假设下具有安全性证明的TDF的第一个结构。尽管先前已经知道基于决策Diffie-Hellman（DDH）假设的TDF，但将其基于CDH的可能性已经开放了30多年。

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《Annual international cryptology conference》|2018年|362-391|共30页
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Sanjam Garg; Mohammad Hajiabadi;
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Trapdoor functions Computational Diffie-Hellman assumption; Hash encryption;

机译：活板门功能计算Diffie-Hellman假设;哈希加密;

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1. Authenticated key exchange protocol under computational Diffie-Hellman assumption from trapdoor test technique [J] . Huang Hai International journal of communication systems . 2015,第2期

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2. Revocable Identity-Based Encryption and Server-Aided Revocable IBE from the Computational Diffie-Hellman Assumption [J] . Hu Ziyuan, Liu Shengli, Chen Kefei, Cryptography . 2018,第4期

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3. Three-party password-based authenticated key exchange protocol based on the computational Diffie-Hellman assumption [J] . Aqeel Sahi, David Lai, Yan Li International journal of communication networks and distributed systems . 2018,第4期

机译：基于计算Diffie-Hellman假设的基于三方密码的认证密钥交换协议
4. Trapdoor Functions from the Computational Diffie-Hellman Assumption [C] . Sanjam Garg, Mohammad Hajiabadi Annual International Cryptology Conference . 2018

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5. Construction of efficient authentication schemes using trapdoor hash functions [D] . Chandrasekhar, Santosh 2011

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6. An Aggregate Signature Scheme Based on a Trapdoor Hash Function for the Internet of Things [O] . Hong Shu, Fulong Chen, Dong Xie, 2019

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7. Efficient Threshold Public Key Encryption from the Computational Bilinear Diffie-Hellman Assumption [O] . Masahiro Ebina, Jumpei Mita, Junji Shikata, 2021

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Trapdoor Functions from the Computational Diffie-Hellman Assumption

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