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Dates are inconsistent

Dates are inconsistent

1500 results sorted by ID

2024/2060 (PDF) Last updated: 2024-12-21
"These results must be false": A usability evaluation of constant-time analysis tools
Marcel Fourné, Daniel De Almeida Braga, Jan Jancar, Mohamed Sabt, Peter Schwabe, Gilles Barthe, Pierre-Alain Fouque, Yasemin Acar
Applications

Cryptography secures our online interactions, transactions, and trust. To achieve this goal, not only do the cryptographic primitives and protocols need to be secure in theory, they also need to be securely implemented by cryptographic library developers in practice. However, implementing cryptographic algorithms securely is challenging, even for skilled professionals, which can lead to vulnerable implementations, especially to side-channel attacks. For timing attacks, a severe class of...

2024/2058 (PDF) Last updated: 2024-12-20
Learning with Errors from Nonassociative Algebras
Andrew Mendelsohn, Cong Ling
Public-key cryptography

We construct a provably-secure structured variant of Learning with Errors (LWE) using nonassociative cyclic division algebras, assuming the hardness of worst-case structured lattice problems, for which we are able to give a full search-to-decision reduction, improving upon the construction of Grover et al. named `Cyclic Learning with Errors' (CLWE). We are thus able to create structured LWE over cyclic algebras without any restriction on the size of secret spaces, which was required for CLWE...

2024/2015 (PDF) Last updated: 2024-12-13
Universal SNARGs for NP from Proofs of Correctness
Zhengzhong Jin, Yael Tauman Kalai, Alex Lombardi, Surya Mathialagan
Cryptographic protocols

We give new constructions of succinct non-interactive arguments ($\mathsf{SNARG}$s) for $\mathsf{NP}$ in the settings of both non-adaptive and adaptive soundness. Our construction of non-adaptive $\mathsf{SNARG}$ is universal assuming the security of a (leveled or unleveled) fully homomorphic encryption ($\mathsf{FHE}$) scheme as well as a batch argument ($\mathsf{BARG}$) scheme. Specifically, for any choice of parameters $\ell$ and $L$, we construct a candidate $\mathsf{SNARG}$ scheme...

2024/2005 (PDF) Last updated: 2024-12-12
Post-Quantum Secure Channel Protocols for eSIMs
Luk Bettale, Emmanuelle Dottax, Laurent Grémy
Cryptographic protocols

The transition to Post-Quantum (PQ) cryptography is increasingly mandated by national agencies and organizations, often involving a phase where classical and PQ primitives are combined into hybrid solutions. In this context, existing protocols must be adapted to ensure quantum resistance while maintaining their security goals. These adaptations can significantly impact performance, particularly on embedded devices. In this article, we focus on standardized protocols which support...

2024/1986 (PDF) Last updated: 2024-12-08
Improved Quantum Analysis of ARIA
Yujin Oh, Kyungbae Jang, Hwajeong Seo
Implementation

As advancements in quantum computing present potential threats to current cryptographic systems, it is necessary to reconsider and adapt existing cryptographic frameworks. Among these, Grover's algorithm reduces the attack complexity of symmetric-key encryption, making it crucial to evaluate the security strength of traditional symmetric-key systems. In this paper, we implement an efficient quantum circuit for the ARIA symmetric-key encryption and estimate the required quantum resources....

2024/1978 (PDF) Last updated: 2024-12-06
µLAM: A LLM-Powered Assistant for Real-Time Micro-architectural Attack Detection and Mitigation
Upasana Mandal, Shubhi Shukla, Ayushi Rastogi, Sarani Bhattacharya, Debdeep Mukhopadhyay
Implementation

The rise of microarchitectural attacks has necessitated robust detection and mitigation strategies to secure computing systems. Traditional tools, such as static and dynamic code analyzers and attack detectors, often fall short due to their reliance on predefined patterns and heuristics that lack the flexibility to adapt to new or evolving attack vectors. In this paper, we introduce for the first time a microarchitecture security assistant, built on OpenAI's GPT-3.5, which we refer to as...

2024/1977 (PDF) Last updated: 2024-12-20
Bounded CCA Secure Proxy Re-encryption Based on Kyber
Shingo Sato, Junji Shikata
Public-key cryptography

Proxy re-encryption (PRE) allows semi-honest party (called proxy) to convert a ciphertext under a public key into a ciphertext under another public key. Due to this functionality, there are various applications such as encrypted email forwarding, key escrow, and securing distributed file systems. Meanwhile, post-quantum cryptography (PQC) is one of the most important research areas because development of quantum computers has been advanced recently. In particular, there are many researches...

2024/1966 (PDF) Last updated: 2024-12-04
Efficient Succinct Zero-Knowledge Arguments in the CL Framework
Agathe Beaugrand, Guilhem Castagnos, Fabien Laguillaumie
Cryptographic protocols

The CL cryptosystem, introduced by Castagnos and Laguillaumie in 2015, is a linearly homomorphic encryption scheme that has seen numerous developments and applications in recent years, particularly in the field of secure multiparty computation. Designing efficient zero-knowledge proofs for the CL framework is critical, especially for achieving adaptive security for such multiparty protocols. This is a challenging task due to the particularities of class groups of quadratic fields used to...

2024/1958 (PDF) Last updated: 2024-12-03
M-Sel: A Message Selection Functional Encryption from Simple Tool
Ahmad Khoureich Ka
Public-key cryptography

In this paper, we put forward a new practical application of Inner-Product Functional Encryption (IPFE) that we call Message Selection functional encryption (M-Sel) which allows users to decrypt selected portions of a ciphertext. In a message selection functional encryption scheme, the plaintext is partitioned into a set of messages M = {m1, . . . , mt}. The encryption of M consists in encrypting each of its elements using distinct encryption keys. A user with a functional decryption key skx...

2024/1956 (PDF) Last updated: 2024-12-03
MultiReg-FE: Registered FE for Unbounded Inner-Product and Attribute-Weighted Sums
Qiuyan Du, Qiaohan Chu, Jie Chen, Man Ho Au, Debiao He
Public-key cryptography

Recently, Francati et al. (Asiacrypt 2023) provided the first registered functional encryption (Reg-FE) beyond predicates. Reg-FE addresses the key escrow problem in functional encryption by allowing users to generate their own key pairs, effectively replacing the traditional private-key generator with a key curator. The key curator holds no secret information and runs deterministic algorithms to generate master public key for encryption and helper keys for decryption. However, existing...

2024/1939 (PDF) Last updated: 2024-12-04
Machine Learning-Based Detection of Glitch Attacks in Clock Signal Data
Asier Gambra, Durba Chatterjee, Unai Rioja, Igor Armendariz, Lejla Batina
Attacks and cryptanalysis

Voltage fault injection attacks are a particularly powerful threat to secure embedded devices because they exploit brief, hard-to-detect power fluctuations causing errors or bypassing security mechanisms. To counter these attacks, various detectors are employed, but as defenses strengthen, increasingly elusive glitches continue to emerge. Artificial intelligence, with its inherent ability to learn and adapt to complex patterns, presents a promising solution. This research presents an...

2024/1929 (PDF) Last updated: 2024-11-29
LightCROSS: A Secure and Memory Optimized Post-Quantum Digital Signature CROSS
Puja Mondal, Suparna Kundu, Supriya Adhikary, Angshuman Karmakar
Implementation

CROSS is a code-based post-quantum digital signature scheme based on a zero-knowledge (ZK) framework. It is a second-round candidate of the National Institute of Standards and Technology’s additional call for standardizing post-quantum digital signatures. The memory footprint of this scheme is prohibitively large, especially for small embedded devices. In this work, we propose various techniques to reduce the memory footprint of the key generation, signature generation, and verification by...

2024/1913 (PDF) Last updated: 2024-11-25
RubikStone: Strongly Space Hard White-Box Scheme Based on Lookup Table Pool and Key Guidance Implementation
Yipeng Shi
Applications

White-box cryptography is a software implementation technique based on lookup tables, with effective resistance against key extraction and code lifting attacks being a primary focus of its research. Space hardness is a widely used property for evaluating the resistance of white-box ciphers against code lifting attacks. However, none of the existing ciphers can provide strong space hardness under adaptively chosen-space attack model. We propose a new scheme based on the lookup table pool...

2024/1911 (PDF) Last updated: 2024-11-24
Deletions and Dishonesty: Probabilistic Data Structures in Adversarial Settings
Mia Filić, Keran Kocher, Ella Kummer, Anupama Unnikrishnan
Applications

Probabilistic data structures (PDS) are compact representations of high-volume data that provide approximate answers to queries about the data. They are commonplace in today's computing systems, finding use in databases, networking and more. While PDS are designed to perform well under benign inputs, they are frequently used in applications where inputs may be adversarially chosen. This may lead to a violation of their expected behaviour, for example an increase in false positive rate. In...

2024/1897 (PDF) Last updated: 2024-11-22
On Threshold Signatures from MPC-in-the-Head
Eliana Carozza, Geoffroy Couteau
Cryptographic protocols

We investigate the feasibility of constructing threshold signature schemes from the MPC-in-the-head paradigm. Our work addresses the significant challenge posed by recent impossibility results (Doerner et al., Crypto’24), which establish inherent barriers to efficient thresholdization of such schemes without compromising their security or significantly increasing the signature size. - We introduce a general methodology to adapt any MPC-in-the-head signature into a threshold-friendly...

2024/1878 (PDF) Last updated: 2024-11-17
Tighter Security for Group Key Agreement in the Random Oracle Model
Andreas Ellison, Karen Klein
Cryptographic protocols

The Messaging Layer Security (MLS) protocol, recently standardized in RFC 9420, aims to provide efficient asynchronous group key establishment with strong security guarantees. The main component of MLS, which is the source of its important efficiency and security properties, is a protocol called TreeKEM. Given that a major vision for the MLS protocol is for it to become the new standard for messaging applications like WhatsApp, Facebook Messenger, Signal, etc., it has the potential to be...

2024/1876 (PDF) Last updated: 2024-11-17
Unbounded Leakage-Resilient Encryption and Signatures
Alper Çakan, Vipul Goyal
Foundations

Given the devastating security compromises caused by side-channel attacks on existing classical systems, can we store our private data encoded as a quantum state so that they can be kept private in the face of arbitrary side-channel attacks? The unclonable nature of quantum information allows us to build various quantum protection schemes for cryptographic information such as secret keys. Examples of quantum protection notions include copy-protection, secure leasing, and finally,...

2024/1847 (PDF) Last updated: 2024-11-10
Notions of Quantum Reductions and Impossibility of Statistical NIZK
Chuhan Lu, Nikhil Pappu
Foundations

Non-Interactive Zero-Knowledge Arguments (NIZKs) are cryptographic protocols that enable a prover to demonstrate the validity of an $\mathsf{NP}$ statement to a verifier with a single message, without revealing any additional information. The soundness and zero-knowledge properties of a NIZK correspond to security against a malicious prover and a malicious verifier respectively. Statistical NIZKs (S-NIZKs) are a variant of NIZKs for which the zero-knowledge property is guaranteed to hold...

2024/1840 (PDF) Last updated: 2024-11-08
Ideal Pseudorandom Codes
Omar Alrabiah, Prabhanjan Ananth, Miranda Christ, Yevgeniy Dodis, Sam Gunn
Foundations

Pseudorandom codes are error-correcting codes with the property that no efficient adversary can distinguish encodings from uniformly random strings. They were recently introduced by Christ and Gunn [CRYPTO 2024] for the purpose of watermarking the outputs of randomized algorithms, such as generative AI models. Several constructions of pseudorandom codes have since been proposed, but none of them are robust to error channels that depend on previously seen codewords. This stronger kind of...

2024/1823 (PDF) Last updated: 2024-11-07
A Composability Treatment of Bitcoin's Transaction Ledger with Variable Difficulty
Juan Garay, Yun Lu, Julien Prat, Brady Testa, Vassilis Zikas
Cryptographic protocols

As the first proof-of-work (PoW) permissionless blockchain, Bitcoin aims at maintaining a decentralized yet consistent transaction ledger as protocol participants (“miners”) join and leave as they please. This is achieved by means of a subtle PoW difficulty adjustment mechanism that adapts to the perceived block generation rate, and important steps have been taken in previous work to provide a rigorous analysis of the conditions (such as bounds on dynamic participation) that are sufficient...

2024/1818 (PDF) Last updated: 2024-11-06
SoK: On the Physical Security of UOV-based Signature Schemes
Thomas Aulbach, Fabio Campos, Juliane Krämer
Attacks and cryptanalysis

Multivariate cryptography currently centres mostly around UOV-based signature schemes: All multivariate round 2 candidates in the selection process for additional digital signatures by NIST are either UOV itself or close variations of it: MAYO, QR-UOV, SNOVA, and UOV. Also schemes which have been in the focus of the multivariate research community, but are broken by now - like Rainbow and LUOV - are based on UOV. Both UOV and the schemes based on it have been frequently analyzed regarding...

2024/1812 (PDF) Last updated: 2024-11-05
Batching Adaptively-Sound SNARGs for NP
Lalita Devadas, Brent Waters, David J. Wu
Foundations

A succinct non-interactive argument (SNARG) for NP allows a prover to convince a verifier that an NP statement $x$ is true with a proof whose size is sublinear in the length of the traditional NP witness. Moreover, a SNARG is adaptively sound if the adversary can choose the statement it wants to prove after seeing the scheme parameters. Very recently, Waters and Wu (STOC 2024) showed how to construct adaptively-sound SNARGs for NP in the plain model from falsifiable assumptions...

2024/1811 (PDF) Last updated: 2024-11-05
Pseudorandom Function-like States from Common Haar Unitary
Minki Hhan, Shogo Yamada
Foundations

Recent active studies have demonstrated that cryptography without one-way functions (OWFs) could be possible in the quantum world. Many fundamental primitives that are natural quantum analogs of OWFs or pseudorandom generators (PRGs) have been introduced, and their mutual relations and applications have been studied. Among them, pseudorandom function-like state generators (PRFSGs) [Ananth, Qian, and Yuen, Crypto 2022] are one of the most important primitives. PRFSGs are a natural quantum...

2024/1809 (PDF) Last updated: 2024-11-05
Foundations of Adaptor Signatures
Paul Gerhart, Dominique Schröder, Pratik Soni, Sri AravindaKrishnan Thyagarajan
Applications

Adaptor signatures extend the functionality of regular signatures through the computation of pre-signatures on messages for statements of NP relations. Pre-signatures are publicly verifiable; they simultaneously hide and commit to a signature of an underlying signature scheme on that message. Anybody possessing a corresponding witness for the statement can adapt the pre-signature to obtain the "regular" signature. Adaptor signatures have found numerous applications for conditional payments...

2024/1794 (PDF) Last updated: 2024-11-02
How Much Public Randomness Do Modern Consensus Protocols Need?
Joseph Bonneau, Benedikt Bünz, Miranda Christ, Yuval Efron
Cryptographic protocols

Modern blockchain-based consensus protocols aim for efficiency (i.e., low communication and round complexity) while maintaining security against adaptive adversaries. These goals are usually achieved using a public randomness beacon to select roles for each participant. We examine to what extent this randomness is necessary. Specifically, we provide tight bounds on the amount of entropy a Byzantine Agreement protocol must consume from a beacon in order to enjoy efficiency and adaptive...

2024/1773 (PDF) Last updated: 2024-10-31
Universal Adaptor Signatures from Blackbox Multi-Party Computation
Michele Ciampi, Xiangyu Liu, Ioannis Tzannetos, Vassilis Zikas
Public-key cryptography

Adaptor signatures (AS) extend the functionality of traditional digital signatures by enabling the generation of a pre-signature tied to an instance of a hard NP relation, which can later be turned (adapted) into a full signature upon revealing a corresponding witness. The recent work by Liu et al. [ASIACRYPT 2024] devised a generic AS scheme that can be used for any NP relation---which here we will refer to as universal adaptor signatures scheme, in short UAS---from any one-way function....

2024/1770 (PDF) Last updated: 2024-10-30
Improved Attacks for SNOVA by Exploiting Stability under a Group Action
Daniel Cabarcas, Peigen Li, Javier Verbel, Ricardo Villanueva-Polanco
Attacks and cryptanalysis

SNOVA is a post-quantum digital signature scheme based on multivariate polynomials. It is a first-round candidate in an ongoing NIST standardization process for post-quantum signatures, where it stands out for its efficiency and compactness. Since its initial submission, there have been several improvements to its security analysis, both on key recovery and forgery attacks. All these works reduce to solving a structured system of quadratic polynomials, which we refer to as SNOVA...

2024/1769 (PDF) Last updated: 2024-11-15
A Closer Look at Falcon
Phillip Gajland, Jonas Janneck, Eike Kiltz
Public-key cryptography

Falcon is a winner of NIST's six-year post-quantum cryptography standardisation competition. Based on the celebrated full-domain-hash framework of Gentry, Peikert and Vaikuntanathan (GPV) (STOC'08), Falcon leverages NTRU lattices to achieve the most compact signatures among lattice-based schemes. Its security hinges on a Rényi divergence-based argument for Gaussian samplers, a core element of the scheme. However, the GPV proof, which uses statistical distance to argue closeness of...

2024/1724 (PDF) Last updated: 2024-10-21
Straight-Line Knowledge Extraction for Multi-Round Protocols
Lior Rotem, Stefano Tessaro

The Fiat-Shamir (FS) transform is the standard approach to compiling interactive proofs into non-interactive ones. However, the fact that knowledge extraction typically requires rewinding limits its applicability without having to rely on further heuristic conjectures. A better alternative is a transform that guarantees straight-line knowledge extraction. Two such transforms were given by Pass (CRYPTO '03) and Fischlin (CRYPTO '05), respectively, with the latter giving the most practical...

2024/1718 (PDF) Last updated: 2024-10-21
Drifting Towards Better Error Probabilities in Fully Homomorphic Encryption Schemes
Olivier Bernard, Marc Joye, Nigel P. Smart, Michael Walter
Implementation

There are two security notions for FHE schemes the traditional notion of IND-CPA, and a more stringent notion of IND-CPA$^D$. The notions are equivalent if the FHE schemes are perfectly correct, however for schemes with negligible failure probability the FHE parameters needed to obtain IND-CPA$^D$ security can be much larger than those needed to obtain IND-CPA security. This paper uses the notion of ciphertext drift in order to understand the practical difference between IND-CPA and...

2024/1710 (PDF) Last updated: 2024-11-14
$\widetilde{\mbox{O}}$ptimal Adaptively Secure Hash-based Asynchronous Common Subset
Hanwen Feng, Zhenliang Lu, Qiang Tang
Cryptographic protocols

Asynchronous multiparty computation (AMPC) requires an input agreement phase where all participants have a consistent view of the set of private inputs. While the input agreement problem can be precisely addressed by a Byzantine fault-tolerant consensus known as Asynchronous Common Subset (ACS), existing ACS constructions with potential post-quantum security have a large $\widetilde{\mathcal{O}}(n^3)$ communication complexity for a network of $n$ nodes. This poses a bottleneck for AMPC in...

2024/1690 (PDF) Last updated: 2024-10-17
A Note on Security Definitions for Secret Sharing with Certified Deletion
Dominique Bazin, Ryo Nishimaki
Foundations

Bartusek and Raizes (CRYPTO 2024) proposed two security definitions for secret sharing, no-signaling certified deletion and adaptive certified deletion. We prove that adaptive certified deletion does not imply no-signaling certified deletion.

2024/1656 (PDF) Last updated: 2024-10-14
Optimal Early Termination for Dishonest Majority Broadcast
Giovanni Deligios, Ivana Klasovita, Chen-Da Liu-Zhang
Cryptographic protocols

Deterministic broadcast protocols among $n$ parties tolerating $t$ corruptions require $\min\{f+2, t+1\}$ rounds, where $f \le t$ is the actual number of corruptions in an execution of the protocol. We provide the first protocol which is optimally resilient, adaptively secure, and asymptotically matches this lower bound for any $t<(1-\varepsilon)n$. By contrast, the best known algorithm in this regime by Loss and Nielsen (EUROCRYPT'24) always requires $O(\min\{f^2, t\})$ rounds. Our main...

2024/1650 (PDF) Last updated: 2024-11-15
Towards Practical Oblivious Map
Xinle Cao, Weiqi Feng, Jian Liu, Jinjin Zhou, Wenjing Fang, Lei Wang, Quanqing Xu, Chuanhui Yang, Kui Ren
Cryptographic protocols

Oblivious map (OMAP) is an important component in encrypted databases, utilized to safeguard against the server inferring sensitive information about client's encrypted key-value stores based on access patterns. Despite its widespread usage and importance, existing OMAP solutions face practical challenges, including the need for a large number of interaction rounds between the client and server, as well as the substantial communication bandwidth requirements. For example, the...

2024/1637 (PDF) Last updated: 2024-10-11
Bootstrapping Small Integers With CKKS
Youngjin Bae, Jaehyung Kim, Damien Stehlé, Elias Suvanto
Public-key cryptography

The native plaintexts of the Cheon-Kim-Kim-Song (CKKS) fully homomorphic encryption scheme are vectors of approximations to complex numbers. Drucker et al. [J. Cryptol.'24] have showed how to use CKKS to efficiently perform computations on bits and small bit-length integers, by relying on their canonical embeddings into the complex plane. For small bit-length integers, Chung et al. [IACR eprint'24] recently suggested to rather rely on an embedding into complex roots of unity, to gain...

2024/1628 (PDF) Last updated: 2024-10-11
Glacius: Threshold Schnorr Signatures from DDH with Full Adaptive Security
Renas Bacho, Sourav Das, Julian Loss, Ling Ren
Cryptographic protocols

Threshold signatures are one of the most important cryptographic primitives in distributed systems. The threshold Schnorr signature scheme, an efficient and pairing-free scheme, is a popular choice and is included in NIST's standards and recent call for threshold cryptography. Despite its importance, most threshold Schnorr signature schemes assume a static adversary in their security proof. A recent scheme proposed by Katsumata et al. (Crypto 2024) addresses this issue. However, it requires...

2024/1625 (PDF) Last updated: 2024-10-11
On the Tight Security of the Double Ratchet
Daniel Collins, Doreen Riepel, Si An Oliver Tran
Cryptographic protocols

The Signal Protocol is a two-party secure messaging protocol used in applications such as Signal, WhatsApp, Google Messages and Facebook Messenger and is used by billions daily. It consists of two core components, one of which is the Double Ratchet protocol that has been the subject of a line of work that aims to understand and formalise exactly what security it provides. Existing models capture strong guarantees including resilience to state exposure in both forward security (protecting...

2024/1594 (PDF) Last updated: 2024-10-08
Bit-fixing Correlation Attacks on Goldreich's Pseudorandom Generators
Ximing Fu, Mo Li, Shihan Lyu, Chuanyi Liu
Attacks and cryptanalysis

We introduce a powerful attack, termed the bit-fixing correlation attack, on Goldreich's pseudorandom generators (PRGs), specifically focusing on those based on the $\mathsf{XOR}\text{-}\mathsf{THR}$ predicate. By exploiting the bit-fixing correlation property, we derive correlation equations with high bias by fixing certain bits. Utilizing two solvers to handle these high-bias correlation equations, we present inverse attacks on $\mathsf{XOR}\text{-}\mathsf{THR}$ based PRGs within the...

2024/1583 (PDF) Last updated: 2024-10-07
Efficient Pairing-Free Adaptable k-out-of-N Oblivious Transfer Protocols
Keykhosro Khosravani, Taraneh Eghlidos, Mohammad reza Aref
Cryptographic protocols

Oblivious Transfer (OT) is one of the fundamental building blocks in cryptography that enables various privacy-preserving applications. Constructing efficient OT schemes has been an active research area. This paper presents three efficient two-round pairing-free k-out-of-N oblivious transfer protocols with standard security. Our constructions follow the minimal communication pattern: the receiver sends k messages to the sender, who responds with n+k messages, achieving the lowest data...

2024/1572 (PDF) Last updated: 2024-10-05
Bounded Collusion-Resistant Registered Functional Encryption for Circuits
Yijian Zhang, Jie Chen, Debiao He, Yuqing Zhang
Public-key cryptography

As an emerging primitive, Registered Functional Encryption (RFE) eliminates the key-escrow issue that threatens numerous works for functional encryption, by replacing the trusted authority with a transparent key curator and allowing each user to sample their decryption keys locally. In this work, we present a new black-box approach to construct RFE for all polynomial-sized circuits. It considers adaptive simulation-based security in the bounded collusion model (Gorbunov et al. - CRYPTO'12),...

2024/1557 (PDF) Last updated: 2024-10-03
Tightly Secure Threshold Signatures over Pairing-Free Groups
Renas Bacho, Benedikt Wagner
Cryptographic protocols

Threshold signatures have been drawing lots of attention in recent years. Of particular interest are threshold signatures that are proven secure under adaptive corruptions (NIST Call 2023). Sadly, existing constructions with provable adaptive security suffer from at least one of the following drawbacks: (i) strong idealizations such as the algebraic group model (AGM), (ii) an unnatural restriction on the corruption threshold being $t/2$ where $t$ is the signing threshold, or (iii)...

2024/1535 (PDF) Last updated: 2024-10-01
Relaxed Lattice-Based Programmable Hash Functions: New Efficient Adaptively Secure IBEs
Xingye Lu, Jingjing Fan, Man Ho AU
Public-key cryptography

In this paper, we introduce the notion of relaxed lattice-based programmable hash function (RPHF), which is a novel variant of lattice-based programmable hash functions (PHFs). Lattice-based PHFs, together with preimage trapdoor functions (TDFs), have been widely utilized (implicitly or explicitly) in the construction of adaptively secure identity-based encryption (IBE) schemes. The preimage length and the output length of the underlying PHF and TDF together determine the user secret key and...

2024/1525 (PDF) Last updated: 2024-09-28
Evaluating Leakage Attacks Against Relational Encrypted Search
Patrick Ehrler, Abdelkarim Kati, Thomas Schneider, Amos Treiber
Attacks and cryptanalysis

Encrypted Search Algorithms (ESAs) are a technique to encrypt data while the user can still search over it. ESAs can protect privacy and ensure security of sensitive data stored on a remote storage. Originally, ESAs were used in the context of documents that consist of keywords. The user encrypts the documents, sends them to a remote server and is still able to search for keywords, without exposing information about the plaintext. The idea of ESAs has also been applied to relational...

2024/1523 (PDF) Last updated: 2024-09-27
Functional Adaptor Signatures: Beyond All-or-Nothing Blockchain-based Payments
Nikhil Vanjani, Pratik Soni, Sri AravindaKrishnan Thyagarajan
Cryptographic protocols

In scenarios where a seller holds sensitive data $x$, like employee / patient records or ecological data, and a buyer seeks to obtain an evaluation of specific function $f$ on this data, solutions in trustless digital environments like blockchain-based Web3 systems typically fall into two categories: (1) Smart contract-powered solutions and (2) cryptographic solutions leveraging tools such as adaptor signatures. The former approach offers atomic transactions where the buyer learns the...

2024/1518 (PDF) Last updated: 2024-09-26
Witness Semantic Security
Paul Lou, Nathan Manohar, Amit Sahai
Foundations

To date, the strongest notions of security achievable for two-round publicly-verifiable cryptographic proofs for $\mathsf{NP}$ are witness indistinguishability (Dwork-Naor 2000, Groth-Ostrovsky-Sahai 2006), witness hiding (Bitansky-Khurana-Paneth 2019, Kuykendall-Zhandry 2020), and super-polynomial simulation (Pass 2003, Khurana-Sahai 2017). On the other hand, zero-knowledge and even weak zero-knowledge (Dwork-Naor-Reingold-Stockmeyer 1999) are impossible in the two-round publicly-verifiable...

2024/1507 (PDF) Last updated: 2024-09-26
Unbounded ABE for Circuits from LWE, Revisited
Valerio Cini, Hoeteck Wee
Public-key cryptography

We introduce new lattice-based techniques for building ABE for circuits with unbounded attribute length based on the LWE assumption, improving upon the previous constructions of Brakerski and Vaikuntanathan (CRYPTO 16) and Goyal, Koppula, and Waters (TCC 16). Our main result is a simple and more efficient unbounded ABE scheme for circuits where only the circuit depth is fixed at set-up; this is the first unbounded ABE scheme for circuits that rely only on black-box access to cryptographic...

2024/1489 (PDF) Last updated: 2024-09-23
Adaptive Security, Erasures, and Network Assumptions in Communication-Local MPC
Nishanth Chandran, Juan Garay, Ankit Kumar Misra, Rafail Ostrovsky, Vassilis Zikas
Cryptographic protocols

The problem of reliable/secure all-to-all communication over low-degree networks has been essential for communication-local (CL) n-party MPC (i.e., MPC protocols where every party directly communicates only with a few, typically polylogarithmic in n, parties) and more recently for communication over ad hoc networks, which are used in blockchain protocols. However, a limited number of adaptively secure solutions exist, and they all make relatively strong assumptions on the ability of parties...

2024/1486 (PDF) Last updated: 2024-11-26
Adaptively Secure Attribute-Based Encryption from Witness Encryption
Brent Waters, Daniel Wichs
Public-key cryptography

Attribute-based encryption (ABE) enables fine-grained control over which ciphertexts various users can decrypt. A master authority can create secret keys $sk_f$ with different functions (circuits) $f$ for different users. Anybody can encrypt a message under some attribute $x$ so that only recipients with a key $sk_f$ for a function such that $f(x)=1$ will be able to decrypt. There are a number of different approaches toward achieving selectively secure ABE, where the adversary has to decide...

2024/1482 (PDF) Last updated: 2024-09-23
The Power of NAPs: Compressing OR-Proofs via Collision-Resistant Hashing
Katharina Boudgoust, Mark Simkin
Foundations

Proofs of partial knowledge, first considered by Cramer, Damgård and Schoenmakers (CRYPTO'94) and De Santis et al. (FOCS'94), allow for proving the validity of $k$ out of $n$ different statements without revealing which ones those are. In this work, we present a new approach for transforming certain proofs system into new ones that allows for proving partial knowledge. The communication complexity of the resulting proof system only depends logarithmically on the total number of statements...

2024/1481 (PDF) Last updated: 2024-09-23
Tighter Adaptive IBEs and VRFs: Revisiting Waters' Artificial Abort
Goichiro Hanaoka, Shuichi Katsumata, Kei Kimura, Kaoru Takemure, Shota Yamada
Public-key cryptography

One of the most popular techniques to prove adaptive security of identity-based encryptions (IBE) and verifiable random functions (VRF) is the partitioning technique. Currently, there are only two methods to relate the adversary's advantage and runtime $(\epsilon, {\sf T})$ to those of the reduction's ($\epsilon_{\sf proof}, {\sf T}_{\sf proof}$) using this technique: One originates to Waters (Eurocrypt 2005) who introduced the famous artificial abort step to prove his IBE, achieving...

2024/1479 (PDF) Last updated: 2024-09-21
Honest Majority GOD MPC with $O(\mathsf{depth}(C))$ Rounds and Low Online Communication
Amit Agarwal, Alexander Bienstock, Ivan Damgård, Daniel Escudero
Foundations

In the context of secure multiparty computation (MPC) protocols with guaranteed output delivery (GOD) for the honest majority setting, the state-of-the-art in terms of communication is the work of (Goyal et al. CRYPTO'20), which communicates O(n|C|) field elements, where |C| is the size of the circuit being computed and n is the number of parties. Their round complexity, as usual in secret-sharing based MPC, is proportional to O(depth(C)), but only in the optimistic case where there is no...

2024/1478 (PDF) Last updated: 2024-09-23
Mind the Bad Norms: Revisiting Compressed Oracle-based Quantum Indistinguishability Proofs
Ritam Bhaumik, Benoît Cogliati, Jordan Ethan, Ashwin Jha
Secret-key cryptography

In this work, we revisit the Hosoyamada-Iwata (HI) proof for the quantum CPA security of the 4-round Luby-Rackoff construction and identify a gap that appears to undermine the security proof. We emphasize that this is not an attack, and the construction may still achieve the claimed security level. However, this gap raises concerns about the feasibility of establishing a formal security proof for the 4-round Luby-Rackoff construction. In fact, the issue persists even if the number of rounds...

2024/1456 (PDF) Last updated: 2024-09-24
Crooked Indifferentiability of the Feistel Construction
Alexander Russell, Qiang Tang, Jiadong Zhu
Foundations

The Feistel construction is a fundamental technique for building pseudorandom permutations and block ciphers. This paper shows that a simple adaptation of the construction is resistant, even to algorithm substitution attacks---that is, adversarial subversion---of the component round functions. Specifically, we establish that a Feistel-based construction with more than $337n/\log(1/\epsilon)$ rounds can transform a subverted random function---which disagrees with the original one at a small...

2024/1442 (PDF) Last updated: 2024-11-24
Design and Implementation of a Fast, Platform-Adaptive, AIS-20/31 Compliant PLL-Based True Random Number Generator on a Zynq 7020 SoC FPGA
Oğuz Yayla, Yunus Emre Yılmaz
Implementation

Phase-locked loops (PLLs) integrated within field-programmable gate arrays (FPGAs) or System-on-Chip FPGAs (SoCs) represent a promising approach for generating random numbers. Their widespread deployment, isolated functionality within these devices, and robust entropy, as demonstrated in prior studies, position PLL-based true random number generators (PLL-TRNGs) as highly viable solutions for this purpose. This study explicitly examines PLL-TRNG implementations using the ZC702 Rev1.1...

2024/1432 (PDF) Last updated: 2024-09-13
On Multi-user Security of Lattice-based Signature under Adaptive Corruptions and Key Leakages
Masayuki Fukumitsu, Shingo Hasegawa
Public-key cryptography

We consider the multi-user security under the adaptive corruptions and key leakages ($\rm{MU^{c\&l}}$ security) for lattice-based signatures. Although there exists an $\rm{MU^{c\&l}}$ secure signature based on a number-theoretic assumption, or a leakage-resilient lattice-based signature in the single-user setting, $\rm{MU^{c\&l}}$ secure lattice-based signature is not known. We examine the existing lattice-based signature schemes from the viewpoint of $\rm{MU^{c\&l}}$ security, and find...

2024/1407 (PDF) Last updated: 2024-09-09
Encrypted MultiChannel Communication (EMC2): Johnny Should Use Secret Sharing
Gowri R. Chandran, Kilian Demuth, Kasra Edalatnejad, Sebastian Linsner, Christian Reuter, Thomas Schneider
Applications

Nowadays, the problem of point-to-point encryption is solved by the wide adaptation of protocols like TLS. However, challenges persist for End-to-End Encryption (E2EE). Current E2EE solutions, such as PGP and secure messengers like Signal, suffer from issues like 1) low usability, 2) small user base, 3) dependence on central service providers, and 4) susceptibility to backdoors. Concerns over legally mandated backdoors are rising as the US and EU are proposing new surveillance regulations...

2024/1396 (PDF) Last updated: 2024-09-05
Rare structures in tensor graphs - Bermuda triangles for cryptosystems based on the Tensor Isomorphism problem
Lars Ran, Simona Samardjiska
Attacks and cryptanalysis

Recently, there has been a lot of interest in improving the understanding of the practical hardness of the 3-Tensor Isomorphism (3-TI) problem, which, given two 3-tensors, asks for an isometry between the two. The current state-of-the-art for solving this problem is the algebraic algorithm of Ran et al. '23 and the graph-theoretic algorithm of Narayanan et al. '24 that have both slightly reduced the security of the signature schemes MEDS and ALTEQ, based on variants of the 3-TI problem...

2024/1387 (PDF) Last updated: 2024-10-01
SPADE: Digging into Selective and PArtial DEcryption using Functional Encryption
Camille Nuoskala, Hossein Abdinasibfar, Antonis Michalas
Cryptographic protocols

Functional Encryption (FE) is a cryptographic technique established to guarantee data privacy while allowing the retrieval of specific results from the data. While traditional decryption methods rely on a secret key disclosing all the data, FE introduces a more subtle approach. The key generation algorithm generates function-specific decryption keys that can be adaptively provided based on policies. Adaptive access control is a good feature for privacy-preserving techniques. Generic schemes...

2024/1375 (PDF) Last updated: 2024-09-02
ALGAES: An Authenticated Lattice-based Generic Asymmetric Encryption Scheme
Aravind Vishnu S S, M Sethumadhavan, Lakshmy K V
Public-key cryptography

In this article, we propose a generic hybrid encryption scheme providing entity authentication. The scheme is based on lossy trapdoor functions relying on the hardness of the Learning With Errors problem. The construction can be used on a number of different security requirements with minimal reconfiguration. It ensures entity authentication and ciphertext integrity while providing security against adaptive chosen ciphertext attacks in the standard model. As a desired characteristic of...

2024/1352 (PDF) Last updated: 2024-08-28
ISABELLA: Improving Structures of Attribute-Based Encryption Leveraging Linear Algebra
Doreen Riepel, Marloes Venema, Tanya Verma
Public-key cryptography

Attribute-based encryption (ABE) is a powerful primitive that has found applications in important real-world settings requiring access control. Compared to traditional public-key encryption, ABE has established itself as a considerably more complex primitive that is additionally less efficient to implement. It is therefore paramount that the we can simplify the design of ABE schemes that are efficient, provide strong security guarantees, minimize the complexity in their descriptions and...

2024/1344 (PDF) Last updated: 2024-10-21
Quantum Security of a Compact Multi-Signature
Shaoquan Jiang
Cryptographic protocols

With the rapid advance in quantum computing, quantum security is now an indispensable property for any cryptographic system. In this paper, we study how to prove the security of a complex cryptographic system in the quantum random oracle model. We first give a variant of Zhandry's compressed quantum random oracle (${\bf CStO}$), called compressed quantum random oracle with adaptive special points ({\bf CStO}$_s$). Then, we extend the on-line extraction technique of Don et al...

2024/1289 (PDF) Last updated: 2024-09-30
Improved Lattice Blind Signatures from Recycled Entropy
Corentin Jeudy, Olivier Sanders
Public-key cryptography

Blind signatures represent a class of cryptographic primitives enabling privacy-preserving authentication with several applications such as e-cash or e-voting. It is still a very active area of research, in particular in the post-quantum setting where the history of blind signatures has been hectic. Although it started to shift very recently with the introduction of a few lattice-based constructions, all of the latter give up an important characteristic of blind signatures (size, efficiency,...

2024/1285 (PDF) Last updated: 2024-10-11
Robust Multiparty Computation from Threshold Encryption Based on RLWE
Antoine Urban, Matthieu Rambaud
Public-key cryptography

We consider protocols for secure multi-party computation (MPC) built from FHE under honest majority, i.e., for $n=2t+1$ players of which $t$ are corrupt, that are robust. Surprisingly there exists no robust threshold FHE scheme based on BFV to design such MPC protocols. Precisely, all existing methods for generating a common relinearization key can abort as soon as one player deviates. We address this issue, with a new relinearization key (adapted from [CDKS19, CCS'19]) which we show how to...

2024/1273 (PDF) Last updated: 2024-12-03
HyperPianist: Pianist with Linear-Time Prover and Logarithmic Communication Cost
Chongrong Li, Pengfei Zhu, Yun Li, Cheng Hong, Wenjie Qu, Jiaheng Zhang
Cryptographic protocols

Recent years have seen great improvements in zero-knowledge proofs (ZKPs). Among them, zero-knowledge SNARKs are notable for their compact and efficiently-verifiable proofs, but suffer from high prover costs. Wu et al. (Usenix Security 2018) proposed to distribute the proving task across multiple machines, and achieved significant improvements in proving time. However, existing distributed ZKP systems still have quasi-linear prover cost, and may incur a communication cost that is linear in...

2024/1268 (PDF) Last updated: 2024-08-15
Improved YOSO Randomness Generation with Worst-Case Corruptions
Chen-Da Liu-Zhang, Elisaweta Masserova, João Ribeiro, Pratik Soni, Sri AravindaKrishnan Thyagarajan
Cryptographic protocols

We study the problem of generating public unbiased randomness in a distributed manner within the recent You Only Speak Once (YOSO) framework for stateless multiparty computation, introduced by Gentry et al. in CRYPTO 2021. Such protocols are resilient to adaptive denial-of-service attacks and are, by their stateless nature, especially attractive in permissionless environments. While most works in the YOSO setting focus on independent random corruptions, we consider YOSO protocols with...

2024/1263 (PDF) Last updated: 2024-08-09
A Security Analysis of Two Classes of RSA-like Cryptosystems
Paul Cotan, George Teseleanu
Public-key cryptography

Let $N=pq$ be the product of two balanced prime numbers $p$ and $q$. In 2002, Elkamchouchi, Elshenawy and Shaban introduced an RSA-like cryptosystem that uses the key equation $ed - k (p^2-1)(q^2-1) = 1$, instead of the classical RSA key equation $ed - k (p-1)(q-1) = 1$. Another variant of RSA, presented in 2017 by Murru and Saettone, uses the key equation $ed - k (p^2+p+1)(q^2+q+1) = 1$. Despite the authors' claims of enhanced security, both schemes remain vulnerable to adaptations...

2024/1258 (PDF) Last updated: 2024-10-07
Count Corruptions, Not Users: Improved Tightness for Signatures, Encryption and Authenticated Key Exchange
Mihir Bellare, Doreen Riepel, Stefano Tessaro, Yizhao Zhang
Public-key cryptography

In the multi-user with corruptions (muc) setting there are $n\geq 1$ users, and the goal is to prove that, even in the face of an adversary that adaptively corrupts users to expose their keys, un-corrupted users retain security. This can be considered for many primitives including signatures and encryption. Proofs of muc security, while possible, generally suffer a factor n loss in tightness, which can be large. This paper gives new proofs where this factor is reduced to the number c of...

2024/1248 (PDF) Last updated: 2024-10-31
A Not So Discrete Sampler: Power Analysis Attacks on HAWK signature scheme
Morgane Guerreau, Mélissa Rossi
Attacks and cryptanalysis

HAWK is a lattice-based signature scheme candidate to the fourth call of the NIST's Post-Quantum standardization campaign. Considered as a cousin of Falcon (one of the future NIST post-quantum standards) one can wonder whether HAWK shares the same drawbacks as Falcon in terms of side-channel attacks. Indeed, Falcon signature algorithm and particularly its Gaussian sampler, has shown to be highly vulnerable to power-analysis attacks. Besides, efficiently protecting Falcon's signature...

2024/1213 (PDF) Last updated: 2024-07-29
Bounded-Collusion Streaming Functional Encryption from Minimal Assumptions
Kaartik Bhushan, Alexis Korb, Amit Sahai
Public-key cryptography

Streaming functional encryption (sFE), recently introduced by Guan, Korb, and Sahai [Crypto 2023], is an extension of functional encryption (FE) tailored for iterative computation on dynamic data streams. Unlike in regular FE, in an sFE scheme, users can encrypt and compute on the data as soon as it becomes available and in time proportional to just the size of the newly arrived data. As sFE implies regular FE, all known constructions of sFE and FE for $\mathsf{P/Poly}$ require strong...

2024/1164 (PDF) Last updated: 2024-10-03
A Crack in the Firmament: Restoring Soundness of the Orion Proof System and More
Thomas den Hollander, Daniel Slamanig
Cryptographic protocols

Orion (Xie et al. CRYPTO'22) is a recent plausibly post-quantum zero-knowledge argument system with a linear time prover. It improves over Brakedown (Golovnev et al. ePrint'21 and CRYPTO'23) by reducing the proof size and verifier complexity to be polylogarithmic and additionally adds the zero-knowledge property. The argument system is demonstrated to be concretely efficient with a prover time being the fastest among all existing succinct proof systems and a proof size that is an order of...

2024/1160 (PDF) Last updated: 2024-07-17
Post-Quantum Access Control with Application to Secure Data Retrieval
Behzad Abdolmaleki, Hannes Blümel, Giacomo Fenzi, Homa Khajeh, Stefan Köpsell, Maryam Zarezadeh
Cryptographic protocols

Servan-Schreiber et al. (S&P 2023) presented a new notion called private access control lists (PACL) for function secret sharing (FSS), where the FSS evaluators can ensure that the FSS dealer is authorized to share the given function. Their construction relies on costly non-interactive secret-shared proofs and is not secure in post-quantum setting. We give a construction of PACL from publicly verifiable secret sharing (PVSS) under short integer solution (SIS). Our construction adapts the...

2024/1141 (PDF) Last updated: 2024-10-05
Optimized Privacy-Preserving Clustering with Fully Homomorphic Encryption
Chen Yang, Jingwei Chen, Wenyuan Wu, Yong Feng
Public-key cryptography

Clustering is a crucial unsupervised learning method extensively used in the field of data analysis. For analyzing big data, outsourced computation is an effective solution but privacy concerns arise when involving sensitive information. Fully homomorphic encryption (FHE) enables computations on encrypted data, making it ideal for such scenarios. However, existing privacy-preserving clustering based on FHE are often constrained by the high computational overhead incurred from FHE, typically...

2024/1118 (PDF) Last updated: 2024-07-19
Shared-Custodial Password-Authenticated Deterministic Wallets
Poulami Das, Andreas Erwig, Sebastian Faust
Cryptographic protocols

Cryptographic wallets are an essential tool in Blockchain networks to ensure the secure storage and maintenance of an user's cryptographic keys. Broadly, wallets can be divided into three categories, namely custodial, non-custodial, and shared-custodial wallets. The first two are centralized solutions, i.e., the wallet is operated by a single entity, which inherently introduces a single point of failure. Shared-custodial wallets, on the other hand, are maintained by two independent parties,...

2024/1092 (PDF) Last updated: 2024-07-04
Fusion Channel Attack with POI Learning Encoder
Xinyao Li, Xiwen Ren, Ling Ning, Changhai Ou
Attacks and cryptanalysis

In order to challenge the security of cryptographic systems, Side-Channel Attacks exploit data leaks such as power consumption and electromagnetic emissions. Classic Side-Channel Attacks, which mainly focus on mono-channel data, fail to utilize the joint information of multi-channel data. However, previous studies of multi-channel attacks have often been limited in how they process and adapt to dynamic data. Furthermore, the different data types from various channels make it difficult to use...

2024/1065 (PDF) Last updated: 2024-06-30
AITIA: Efficient Secure Computation of Bivariate Causal Discovery
Truong Son Nguyen, Lun Wang, Evgenios M. Kornaropoulos, Ni Trieu
Cryptographic protocols

Researchers across various fields seek to understand causal relationships but often find controlled experiments impractical. To address this, statistical tools for causal discovery from naturally observed data have become crucial. Non-linear regression models, such as Gaussian process regression, are commonly used in causal inference but have limitations due to high costs when adapted for secure computation. Support vector regression (SVR) offers an alternative but remains costly in an...

2024/1051 (PDF) Last updated: 2024-09-13
Adaptor Signatures: New Security Definition and A Generic Construction for NP Relations
Xiangyu Liu, Ioannis Tzannetos, Vassilis Zikas
Public-key cryptography

An adaptor signatures (AS) scheme is an extension of digital signatures that allows the signer to generate a pre-signature for an instance of a hard relation. This pre-signature can later be adapted to a full signature with a corresponding witness. Meanwhile, the signer can extract a witness from both the pre-signature and the signature. AS have recently garnered more attention due to its scalability and interoperability. Dai et al. [INDOCRYPT 2022] proved that AS can be constructed for any...

2024/1045 (PDF) Last updated: 2024-06-27
Efficient Secret Sharing for Large-Scale Applications
Sarvar Patel, Giuseppe Persiano, Joon Young Seo, Kevin Yeo
Cryptographic protocols

Threshold secret sharing enables distributing a message to $n$ parties such that no subset of fewer than $t$ parties can learn the message, whereas any subset of at least $t$ parties can recover the message. Despite being a fundamental primitive, secret sharing still suffers from one significant drawback, where its message reconstruction algorithm is computationally expensive for large privacy thresholds $t$. In this paper, we aim to address this significant drawback. We study general...

2024/1033 (PDF) Last updated: 2024-06-26
Adaptively Secure 5 Round Threshold Signatures from MLWE/MSIS and DL with Rewinding
Shuichi Katsumata, Michael Reichle, Kaoru Takemure
Cryptographic protocols

T-out-of-N threshold signatures have recently seen a renewed interest, with various types now available, each offering different tradeoffs. However, one property that has remained elusive is adaptive security. When we target thresholdizing existing efficient signatures schemes based on the Fiat-Shamir paradigm such as Schnorr, the elusive nature becomes clear. This class of signature schemes typically rely on the forking lemma to prove unforgeability. That is, an adversary is rewound and...

2024/1029 (PDF) Last updated: 2024-06-25
Oblivious Single Access Machines: A New Model for Oblivious Computation
Ananya Appan, David Heath, Ling Ren
Cryptographic protocols

Oblivious RAM (ORAM) allows a client to securely outsource memory storage to an untrusted server. It has been shown that no ORAM can simultaneously achieve small bandwidth blow-up, small client storage, and a single roundtrip of latency. We consider a weakening of the RAM model, which we call the Single Access Machine (SAM) model. In the SAM model, each memory slot can be written to at most once and read from at most once. We adapt existing tree-based ORAM to obtain an oblivious SAM...

2024/1025 (PDF) Last updated: 2024-06-25
Polynomial sharings on two secrets: Buy one, get one free
Paula Arnold, Sebastian Berndt, Thomas Eisenbarth, Maximilian Orlt
Implementation

While passive side-channel attacks and active fault attacks have been studied intensively in the last few decades, strong attackers combining these attacks have only been studied relatively recently. Due to its simplicity, most countermeasures against passive attacks are based on additive sharing. Unfortunately, extending these countermeasures against faults often leads to quite a significant performance penalty, either due to the use of expensive cryptographic operations or a large number...

2024/989 (PDF) Last updated: 2024-06-19
A Formal Treatment of End-to-End Encrypted Cloud Storage
Matilda Backendal, Hannah Davis, Felix Günther, Miro Haller, Kenneth G. Paterson
Applications

Users increasingly store their data in the cloud, thereby benefiting from easy access, sharing, and redundancy. To additionally guarantee security of the outsourced data even against a server compromise, some service providers have started to offer end-to-end encrypted (E2EE) cloud storage. With this cryptographic protection, only legitimate owners can read or modify the data. However, recent attacks on the largest E2EE providers have highlighted the lack of solid foundations for this...

2024/986 (PDF) Last updated: 2024-06-25
FABESA: Fast (and Anonymous) Attribute-Based Encryption under Standard Assumption
Long Meng, Liqun Chen, Yangguang Tian, Mark Manulis
Public-key cryptography

Attribute-Based Encryption (ABE) provides fine-grained access control to encrypted data and finds applications in various domains. The practicality of ABE schemes hinges on the balance between security and efficiency. The state-of-the-art adaptive secure ABE scheme, proven to be adaptively secure under standard assumptions (FAME, CCS'17), is less efficient compared to the fastest one (FABEO, CCS'22) which is only proven secure under the Generic Group Model (GGM). These traditional ABE...

2024/983 (PDF) Last updated: 2024-12-09
SoCureLLM: An LLM-driven Approach for Large-Scale System-on-Chip Security Verification and Policy Generation
Shams Tarek, Dipayan Saha, Sujan Kumar Saha, Mark Tehranipoor, Farimah Farahmandi
Applications

Contemporary methods for hardware security verification struggle with adaptability, scalability, and availability due to the increasing complexity of the modern system-on-chips (SoCs). Large language models (LLMs) have emerged as a viable approach to address these shortcomings in security verification because of their natural language understanding, advanced reasoning, and knowledge transfer capabilities. However, their application to large designs is limited by inherent token limitation and...

2024/974 (PDF) Last updated: 2024-06-17
Towards Optimal Parallel Broadcast under a Dishonest Majority
Daniel Collins, Sisi Duan, Julian Loss, Charalampos Papamanthou, Giorgos Tsimos, Haochen Wang
Cryptographic protocols

The parallel broadcast (PBC) problem generalises the classic Byzantine broadcast problem to the setting where all $n$ nodes broadcast a message and deliver $O(n)$ messages. PBC arises naturally in many settings including multi-party computation. Recently, Tsimos, Loss, and Papamanthou (CRYPTO 2022) showed PBC protocols with improved communication, against an adaptive adversary who can corrupt all but a constant fraction $\epsilon$ of nodes (i.e., $f < (1 - \epsilon)n$). However, their study...

2024/961 (PDF) Last updated: 2024-06-14
Efficient Execution Auditing for Blockchains under Byzantine Assumptions
Jeff Burdges, Alfonso Cevallos, Handan Kılınç Alper, Chen-Da Liu-Zhang, Fatemeh Shirazi, Alistair Stewart, Rob Habermeier, Robert Klotzner, Andronik Ordian
Cryptographic protocols

Security of blockchain technologies primarily relies on decentralization making them resilient against a subset of entities being taken down or corrupt. Blockchain scaling, crucial to decentralisation, has been addressed by architectural changes: i.e., the load of the nodes is reduced by parallelisation, called sharding or by taking computation load off the main blockchain via rollups. Both sharding and rollups have limitations in terms of decentralization and security. A crucial component...

2024/944 (PDF) Last updated: 2024-06-12
Quantum CCA-Secure PKE, Revisited
Navid Alamati, Varun Maram
Public-key cryptography

Security against chosen-ciphertext attacks (CCA) concerns privacy of messages even if the adversary has access to the decryption oracle. While the classical notion of CCA security seems to be strong enough to capture many attack scenarios, it falls short of preserving the privacy of messages in the presence of quantum decryption queries, i.e., when an adversary can query a superposition of ciphertexts. Boneh and Zhandry (CRYPTO 2013) defined the notion of quantum CCA (qCCA) security to...

2024/933 (PDF) Last updated: 2024-07-03
A Pure Indistinguishability Obfuscation Approach to Adaptively-Sound SNARGs for NP
Brent Waters, David J. Wu
Foundations

We construct an adaptively-sound succinct non-interactive argument (SNARG) for NP in the CRS model from sub-exponentially-secure indistinguishability obfuscation ($i\mathcal{O}$) and sub-exponentially-secure one-way functions. Previously, Waters and Wu (STOC 2024), and subsequently, Waters and Zhandry (CRYPTO 2024) showed how to construct adaptively-sound SNARGs for NP by relying on sub-exponentially-secure indistinguishability obfuscation, one-way functions, and an additional algebraic...

2024/920 (PDF) Last updated: 2024-06-09
Leveraging Small Message Spaces for CCA1 Security in Additively Homomorphic and BGN-type Encryption
Benoit Libert
Public-key cryptography

We show that the smallness of message spaces can be used as a checksum allowing to hedge against CCA1 attacks in additively homomorphic encryption schemes. We first show that the additively homomorphic variant of Damgård's Elgamal provides IND-CCA1 security under the standard DDH assumption. Earlier proofs either required non-standard assumptions or only applied to hybrid versions of Damgård's Elgamal, which are not additively homomorphic. Our security proof builds on hash proof systems and...

2024/899 (PDF) Last updated: 2024-06-05
Monotone-Policy Aggregate Signatures
Maya Farber Brodsky, Arka Rai Choudhuri, Abhishek Jain, Omer Paneth
Foundations

The notion of aggregate signatures allows for combining signatures from different parties into a short certificate that attests that *all* parties signed a message. In this work, we lift this notion to capture different, more expressive signing policies. For example, we can certify that a message was signed by a (weighted) threshold of signers. We present the first constructions of aggregate signatures for monotone policies based on standard polynomial-time cryptographic assumptions. The...

2024/895 (PDF) Last updated: 2024-10-15
Fully-Succinct Multi-Key Homomorphic Signatures from Standard Assumptions
Gaspard Anthoine, David Balbás, Dario Fiore
Foundations

Multi-Key Homomorphic Signatures (MKHS) allow one to evaluate a function on data signed by distinct users while producing a succinct and publicly-verifiable certificate of the correctness of the result. All the constructions of MKHS in the state of the art achieve a weak level of succinctness where signatures are succinct in the total number of inputs but grow linearly with the number of users involved in the computation. The only exception is a SNARK-based construction which relies on a...

2024/856 (PDF) Last updated: 2024-09-26
Indistinguishability Obfuscation from Bilinear Maps and LPN Variants
Seyoon Ragavan, Neekon Vafa, Vinod Vaikuntanathan
Foundations

We construct an indistinguishability obfuscation (IO) scheme from the sub-exponential hardness of the decisional linear problem on bilinear groups together with two variants of the learning parity with noise (LPN) problem, namely large-field LPN and (binary-field) sparse LPN. This removes the need to assume the existence pseudorandom generators (PRGs) in $\mathsf{NC}^0$ with polynomial stretch from the state-of-the-art construction of IO (Jain, Lin, and Sahai, EUROCRYPT 2022). As an...

2024/810 (PDF) Last updated: 2024-05-24
The Perils of Limited Key Reuse: Adaptive and Parallel Mismatch Attacks with Post-processing Against Kyber
Qian Guo, Erik Mårtensson, Adrian Åström
Attacks and cryptanalysis

In this paper, we study the robustness of Kyber, the Learning With Errors (LWE)-based Key Encapsulation Mechanism (KEM) chosen for standardization by NIST, against key mismatch attacks. We demonstrate that Kyber's security levels can be compromised with a few mismatch queries by striking a balance between the parallelization level and the cost of lattice reduction for post-processing. This highlights the imperative need to strictly prohibit key reuse in CPA-secure Kyber. We further...

2024/797 (PDF) Last updated: 2024-05-25
Nonadaptive One-Way to Hiding Implies Adaptive Quantum Reprogramming
Joseph Jaeger
Foundations

An important proof technique in the random oracle model involves reprogramming it on hard to predict inputs and arguing that an attacker cannot detect that this occurred. In the quantum setting, a particularly challenging version of this considers adaptive reprogramming wherein the points to be reprogrammed (or output values they should be programmed to) are dependent on choices made by the adversary. Frameworks for analyzing adaptive reprogramming were given by, e.g., by Unruh (CRYPTO...

2024/770 (PDF) Last updated: 2024-11-28
Sublinear-Round Broadcast without Trusted Setup
Andreea B. Alexandru, Julian Loss, Charalampos Papamanthou, Giorgos Tsimos, Benedikt Wagner
Cryptographic protocols

Byzantine broadcast is one of the fundamental problems in distributed computing. Many of its practical applications, from multiparty computation to consensus mechanisms for blockchains, require increasingly weaker trust assumptions, as well as scalability for an ever-growing number of users $n$. This rules out existing solutions which run in a linear number of rounds in $n$ or rely on trusted setup requirements. In this paper, we propose the first sublinear-round and trustless Byzantine...

2024/764 (PDF) Last updated: 2024-07-01
Decentralized Multi-Client Functional Encryption with Strong Security
Ky Nguyen, David Pointcheval, Robert Schädlich
Public-key cryptography

Decentralized Multi-Client Functional Encryption (DMCFE) extends the basic functional encryption to multiple clients that do not trust each other. They can independently encrypt the multiple plaintext-inputs to be given for evaluation to the function embedded in the functional decryption key, defined by multiple parameter-inputs. And they keep control on these functions as they all have to contribute to the generation of the functional decryption keys. Tags can be used in the ciphertexts and...

2024/740 (PDF) Last updated: 2024-05-15
Multi-Client Functional Encryption with Public Inputs and Strong Security
Ky Nguyen, Duong Hieu Phan, David Pointcheval
Public-key cryptography

Recent years have witnessed a significant development for functional encryption (FE) in the multi-user setting, particularly with multi-client functional encryption (MCFE). The challenge becomes more important when combined with access control, such as attribute-based encryption (ABE), which was actually not covered by the FE and MCFE frameworks. On the other hand, as for complex primitives, many works have studied the admissibility of adversaries to ensure that the security model...

2024/736 (PDF) Last updated: 2024-05-13
Secret Sharing with Certified Deletion
James Bartusek, Justin Raizes
Foundations

Secret sharing allows a user to split a secret into many shares so that the secret can be recovered if, and only if, an authorized set of shares is collected. Although secret sharing typically does not require any computational hardness assumptions, its security does require that an adversary cannot collect an authorized set of shares. Over long periods of time where an adversary can benefit from multiple data breaches, this may become an unrealistic assumption. We initiate the...

2024/735 (PDF) Last updated: 2024-05-13
Secure Multiparty Computation in the Presence of Covert Adaptive Adversaries
Isheeta Nargis, Anwar Hasan
Cryptographic protocols

We design a new MPC protocol for arithmetic circuits secure against erasure-free covert adaptive adversaries with deterrence 1/2. The new MPC protocol has the same asymptotic communication cost, the number of PKE operations and the number of exponentiation operations as the most efficient MPC protocol for arithmetic circuits secure against covert static adversaries. That means, the new MPC protocol improves security from covert static security to covert adaptive adversary almost for free....

2024/729 (PDF) Last updated: 2024-05-13
Covert Adaptive Adversary Model: A New Adversary Model for Multiparty Computation
Isheeta Nargis, Anwar Hasan
Cryptographic protocols

In covert adversary model, the corrupted parties can behave in any possible way like active adversaries, but any party that attempts to cheat is guaranteed to get caught by the honest parties with a minimum fixed probability. That probability is called the deterrence factor of covert adversary model. Security-wise, covert adversary is stronger than passive adversary and weaker than active adversary. It is more realistic than passive adversary model. Protocols for covert adversaries are...

2024/727 (PDF) Last updated: 2024-05-12
Let Attackers Program Ideal Models: Modularity and Composability for Adaptive Compromise
Joseph Jaeger
Foundations

We show that the adaptive compromise security definitions of Jaeger and Tyagi (Crypto '20) cannot be applied in several natural use-cases. These include proving multi-user security from single-user security, the security of the cascade PRF, and the security of schemes sharing the same ideal primitive. We provide new variants of the definitions and show that they resolve these issues with composition. Extending these definitions to the asymmetric settings, we establish the security of the...

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