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Possible spell-corrected query: security notion
Key-Insulated and Privacy-Preserving Signature Scheme with Publicly Derived Public Key, Revisited: Consistency, Outsider Strong Unforgeability, and Generic Construction
Keita Emura
Cryptographic protocols
Liu et al. (EuroS&P 2019) introduced Key-Insulated and Privacy-Preserving Signature Scheme with Publicly Derived Public Key (PDPKS) to enhance the security of stealth address and deterministic wallet. In this paper, we point out that the current security notions are insufficient in practice, and introduce a new security notion which we call consistency. Moreover, we explore the unforgeability to provide strong unforgeability for outsider which captures the situation that nobody, except the...
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...
SoK: Privacy-Preserving Transactions in Blockchains
Foteini Baldimtsi, Kostas Kryptos Chalkias, Varun Madathil, Arnab Roy
Cryptographic protocols
Ensuring transaction privacy in blockchain systems is essential to safeguard user data and financial activity from exposure on public ledgers. This paper conducts a systematization of knowledge (SoK) on privacy-preserving techniques in cryptocurrencies with native privacy features. We define and compare privacy notions such as confidentiality, k-anonymity, full anonymity, and sender-receiver unlinkability, and categorize the cryptographic techniques employed to achieve these guarantees. Our...
NICE-PAKE: On the Security of KEM-Based PAKE Constructions without Ideal Ciphers
Nouri Alnahawi, Jacob Alperin-Sheriff, Daniel Apon, Alexander Wiesmaier
Cryptographic protocols
The interest in realizing generic PQC KEM-based PAKEs has increased significantly in the last few years. One such PAKE is the CAKE protocol, proposed by Beguinet et al. (ACNS ’23). However, despite its simple design based on the well-studied PAKE protocol EKE by Bellovin and Merritt (IEEE S&P ’92), both CAKE and its variant OCAKE do not fully protect against quantum adversaries, as they rely on the Ideal Cipher (IC) model. Related and follow-up works, including Pan and Zeng (ASIACRYPT ’23),...
One-More Unforgeability for Multi- and Threshold Signatures
Sela Navot, Stefano Tessaro
Public-key cryptography
This paper initiates the study of one-more unforgeability for multi-signatures and threshold signatures as a stronger security goal, ensuring that ℓ executions of a signing protocol cannot result in more than ℓ signatures. This notion is widely used in the context of blind signatures, but we argue that it is a convenient way to model strong unforgeability for other types of distributed signing protocols. We provide formal security definitions for one-more unforgeability (OMUF) and show that...
Multi-Client Attribute-Based and Predicate Encryption from Standard Assumptions
David Pointcheval, Robert Schädlich
Public-key cryptography
Multi-input Attribute-Based Encryption (ABE) is a generalization of key-policy ABE where attributes can be independently encrypted across several ciphertexts, and a joint decryption of these ciphertexts is possible if and only if the combination of attributes satisfies the policy of the decryption key. We extend this model by introducing a new primitive that we call Multi-Client ABE (MC-ABE), which provides the usual enhancements of multi-client functional encryption over multi-input...
Quantum One-Time Programs, Revisited
Aparna Gupte, Jiahui Liu, Justin Raizes, Bhaskar Roberts, Vinod Vaikuntanathan
Foundations
One-time programs (Goldwasser, Kalai and Rothblum, CRYPTO 2008) are functions that can be run on any single input of a user's choice, but not on a second input. Classically, they are unachievable without trusted hardware, but the destructive nature of quantum measurements seems to provide a quantum path to constructing them. Unfortunately, Broadbent, Gutoski and Stebila showed that even with quantum techniques, a strong notion of one-time programs, similar to ideal obfuscation, cannot be...
An Extended Hierarchy of Security Notions for Threshold Signature Schemes and Automated Analysis of Protocols That Use Them
Cas Cremers, Aleksi Peltonen, Mang Zhao
Public-key cryptography
Despite decades of work on threshold signature schemes, there is still limited agreement on their desired properties and threat models. In this work we significantly extend and repair previous work to give a unified syntax for threshold signature schemes and a new hierarchy of security notions for them. Moreover, our new hierarchy allows us to develop an automated analysis approach for protocols that use threshold signatures, which can discover attacks on protocols that exploit the details...
Universally Composable and Reliable Password Hardening Services
Shaoqiang Wu, Ding Wang
Cryptographic protocols
The password-hardening service (PH) is a crypto service that armors canonical password authentication with an external key against offline password guessing in case the password file is somehow compromised/leaked. The game-based formal treatment of PH was brought by Everspaugh et al. at USENIX Security'15. Their work is followed by efficiency-enhancing PO-COM (CCS'16), security-patching Phoenix (USENIX Security'17), and functionality-refining PW-Hero (SRDS'22). However, the issue of single...
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...
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,...
Multi-Holder Anonymous Credentials from BBS Signatures
Andrea Flamini, Eysa Lee, Anna Lysyanskaya
Cryptographic protocols
The eIDAS 2.0 regulation aims to develop interoperable digital identities for European citizens, and it has recently become law. One of its requirements is that credentials be unlinkable. Anonymous credentials (AC) allow holders to prove statements about their identity in a way that does not require to reveal their identity and does not enable linking different usages of the same credential. As a result, they are likely to become the technology that provides digital identity for...
Tightly-Secure Group Key Exchange with Perfect Forward Secrecy
Emanuele Di Giandomenico, Doreen Riepel, Sven Schäge
Public-key cryptography
In this work, we present a new paradigm for constructing Group Authenticated Key Exchange (GAKE). This result is the first tightly secure GAKE scheme in a strong security model that allows maximum exposure attacks (MEX) where the attacker is allowed to either reveal the secret session state or the long-term secret of all communication partners. Moreover, our protocol features the strong and realistic notion of (full) perfect forward secrecy (PFS), that allows the attacker to actively modify...
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...
Cryptographically Secure Digital Consent
F. Betül Durak, Abdullah Talayhan, Serge Vaudenay
Cryptographic protocols
In the digital age, the concept of consent for online actions executed by third parties is crucial for maintaining trust and security in third-party services.
This work introduces the notion of cryptographically secure digital consent, which aims to replicate the traditional consent process in the online world.
We provide a flexible digital consent solution that accommodates different use cases and ensures the integrity of the consent process.
The proposed framework involves a client...
How to Delete Without a Trace: Certified Deniability in a Quantum World
Alper Çakan, Vipul Goyal, Justin Raizes
Foundations
Is it possible to comprehensively destroy a piece of quantum information, so that nothing is left behind except the memory of that one had it at some point? For example, various works, most recently Morimae, Poremba, and Yamakawa (TQC '24), show how to construct a signature scheme with certified deletion where a user who deletes a signature on $m$ cannot later produce a signature for $m$. However, in all of the existing schemes, even after deletion the user is still able keep irrefutable...
Cloning Games, Black Holes and Cryptography
Alexander Poremba, Seyoon Ragavan, Vinod Vaikuntanathan
Foundations
The no-cloning principle has played a foundational role in quantum information and cryptography. Following a long-standing tradition of studying quantum mechanical phenomena through the lens of interactive games, Broadbent and Lord (TQC 2020) formalized cloning games in order to quantitatively capture no-cloning in the context of unclonable encryption schemes.
The conceptual contribution of this paper is the new, natural, notion of Haar cloning games together with two applications. In the...
Anonymous Public-Key Quantum Money and Quantum Voting
Alper Çakan, Vipul Goyal, Takashi Yamakawa
Foundations
Quantum information allows us to build quantum money schemes, where a bank can issue banknotes in the form of authenticatable quantum states that cannot be cloned or counterfeited: a user in possession of k banknotes cannot produce k +1 banknotes. Similar to paper banknotes, in existing quantum money schemes, a banknote consists of an unclonable quantum state and a classical serial number, signed by bank. Thus, they lack one of the most fundamental properties cryptographers look for in a...
Encrypted RAM Delegation: Applications to Rate-1 Extractable Arguments, Homomorphic NIZKs, MPC, and more
Abtin Afshar, Jiaqi Cheng, Rishab Goyal, Aayush Yadav, Saikumar Yadugiri
Foundations
In this paper we introduce the notion of encrypted RAM delegation. In an encrypted RAM delegation scheme, the prover creates a succinct proof for a group of two input strings $x_\mathsf{pb}$ and $x_\mathsf{pr}$, where $x_\mathsf{pb}$ corresponds to a large \emph{public} input and $x_\mathsf{pr}$ is a \emph{private} input. A verifier can check correctness of computation of $\mathcal{M}$ on $(x_\mathsf{pb}, x_\mathsf{pr})$, given only the proof $\pi$ and $x_\mathsf{pb}$.
We design encrypted...
A General Quantum Duality for Representations of Groups with Applications to Quantum Money, Lightning, and Fire
John Bostanci, Barak Nehoran, Mark Zhandry
Public-key cryptography
Aaronson, Atia, and Susskind [Aaronson et al., 2020] established that efficiently mapping between quantum states $\ket{\psi}$ and $\ket{\phi}$ is computationally equivalent to distinguishing their superpositions $\frac{1}{\sqrt{2}}(|\psi\rangle + |\phi\rangle)$ and $\frac{1}{\sqrt{2}}(|\psi\rangle - |\phi\rangle)$. We generalize this insight into a broader duality principle in quantum computation, wherein manipulating quantum states in one basis is equivalent to extracting their value in a...
PriSrv: Privacy-Enhanced and Highly Usable Service Discovery in Wireless Communications
Yang Yang, Robert H. Deng, Guomin Yang, Yingjiu Li, HweeHwa Pang, Minming Huang, Rui Shi, Jian Weng
Cryptographic protocols
Service discovery is essential in wireless communications. However, existing service discovery protocols provide no or very limited privacy protection for service providers and clients, and they often leak sensitive information (e.g., service type, client’s identity and mobility pattern), which leads to various network-based attacks (e.g., spoofing, man-in-the-middle, identification and tracking). In this paper, we propose a private service discovery protocol, called PriSrv, which allows a...
Is Periodic Pseudo-randomization Sufficient for Beacon Privacy?
Liron David, Avinatan Hassidim, Yossi Matias, Moti Yung
Attacks and cryptanalysis
In this paper, we investigate whether the privacy mechanism of periodically changing the pseudorandom identities of Bluetooth Low Energy (BLE) beacons is sufficient to ensure privacy.
We consider a new natural privacy notion for BLE broadcasting beacons which we call ``Timed-sequence- indistinguishability'' of beacons. This new privacy definition is stronger than the well-known indistinguishability, since it considers not just the advertisements' content, but also the advertisements'...
New results in Share Conversion, with applications to evolving access structures
Tamar Ben David, Varun Narayanan, Olga Nissenbaum, Anat Paskin-Cherniavsky
Foundations
We say there is a share conversion from a secret sharing scheme $\Pi$ to another scheme $\Pi'$ implementing the same access structure if each party can locally apply a deterministic function to their share to transform any valid secret sharing under $\Pi$ to a valid (but not necessarily random) secret sharing under $\Pi'$ of the same secret. If such a conversion exists, we say that $\Pi\ge\Pi'$. This notion was introduced by Cramer et al. (TCC'05), where they particularly proved that for...
PRIME: Differentially Private Distributed Mean Estimation with Malicious Security
Laasya Bangalore, Albert Cheu, Muthuramakrishnan Venkitasubramaniam
Cryptographic protocols
Distributed mean estimation (DME) is a fundamental and important task as it serves as a subroutine in convex optimization, aggregate statistics, and, more generally, federated learning. The inputs for distributed mean estimation (DME) are provided by clients (such as mobile devices), and these inputs often contain sensitive information. Thus, protecting privacy and mitigating the influence of malicious adversaries are critical concerns in DME. A surge of recent works has focused on building...
Critical Round in Multi-Round Proofs: Compositions and Transformation to Trapdoor Commitments
Masayuki Abe, David Balbás, Dung Bui, Miyako Ohkubo, Zehua Shang, Mehdi Tibouchi
Public-key cryptography
In many multi-round public-coin interactive proof systems, challenges in different rounds serve different roles, but a formulation that actively utilizes this aspect has not been studied extensively. In this paper, we propose new notions called critical-round special honest verifier zero-knowledge and critical-round special soundness. Our notions are simple, intuitive, easy to apply, and capture several practical multi-round proof protocols including, but not limited to, those from the...
Offline-Online Indifferentiability of Cryptographic Systems
Ashrujit Ghoshal, Ilan Komargodski, Gil Segev
Foundations
The indifferentiability framework has become a standard methodology that enables us to study the security of cryptographic constructions in idealized models of computation. Unfortunately, while indifferentiability provides strong guarantees whenever the security of a construction is captured by a ``single-stage'' security game, it may generally provide no meaningful guarantees when the security is captured by a ``multi-stage'' one. In particular, the indifferentiability framework does not...
Pseudorandomness in the (Inverseless) Haar Random Oracle Model
Prabhanjan Ananth, John Bostanci, Aditya Gulati, Yao-Ting Lin
Foundations
We study the (in)feasibility of quantum pseudorandom notions in a quantum analog of the random oracle model, where all the parties, including the adversary, have oracle access to the same Haar random unitary. In this model, we show the following:
• (Unbounded-query secure) pseudorandom unitaries (PRU) exist. Moreover, the PRU construction makes two calls to the Haar oracle.
• We consider constructions of PRUs making a single call to the Haar oracle. In this setting, we show that...
Pseudorandom Obfuscation and Applications
Pedro Branco, Nico Döttling, Abhishek Jain, Giulio Malavolta, Surya Mathialagan, Spencer Peters, Vinod Vaikuntanathan
Foundations
We introduce the notion of pseudorandom obfuscation (PRO), a way to obfuscate (keyed) pseudorandom functions $f_K$ in an average-case sense. We introduce several variants of pseudorandom obfuscation and show constructions and applications. For some of our applications that can be achieved using full-fledged indistinguishability obfuscation (iO), we show constructions using lattice-based assumptions alone; the other applications we enable using PRO are simply not known even assuming iO. We...
Arc: Accumulation for Reed--Solomon Codes
Benedikt Bünz, Pratyush Mishra, Wilson Nguyen, William Wang
Public-key cryptography
Proof-Carrying Data (PCD) is a foundational tool for ensuring the correctness of incremental distributed computations that has found numerous applications in theory and practice. The state-of-the-art PCD constructions are obtained via accumulation or folding schemes. Unfortunately, almost all known constructions of accumulation schemes rely on homomorphic vector commitments (VCs), which results in relatively high computational costs and insecurity in the face of quantum adversaries. A recent...
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...
From One-Time to Two-Round Reusable Multi-Signatures without Nested Forking
Lior Rotem, Gil Segev, Eylon Yogev
Foundations
Multi-signature schemes are gaining significant interest due to their blockchain applications. Of particular interest are two-round schemes in the plain public-key model that offer key aggregation, and whose security is based on the hardness of the DLOG problem. Unfortunately, despite substantial recent progress, the security proofs of the proposed schemes provide rather insufficient concrete guarantees (especially for 256-bit groups). This frustrating situation has so far been approached...
Secure Computation with Parallel Calls to 2-ary Functions
Varun Narayanan, Shubham Vivek Pawar, Akshayaram Srinivasan
Cryptographic protocols
Reductions are the workhorses of cryptography. They allow constructions of complex cryptographic primitives from simple building blocks. A prominent example is the non-interactive reduction from securely computing a ``complex" function $f$ to securely computing a ``simple" function $g$ via randomized encodings.
Prior work equated simplicity with functions of small degree. In this work, we consider a different notion of simplicity where we require $g$ to only take inputs from a small...
Revocable Encryption, Programs, and More: The Case of Multi-Copy Security
Prabhanjan Ananth, Saachi Mutreja, Alexander Poremba
Foundations
Fundamental principles of quantum mechanics have inspired many new research directions, particularly in quantum cryptography. One such principle is quantum no-cloning which has led to the emerging field of revocable cryptography. Roughly speaking, in a revocable cryptographic primitive, a cryptographic object (such as a ciphertext or program) is represented as a quantum state in such a way that surrendering it effectively translates into losing the capability to use this cryptographic...
Unclonable Functional Encryption
Arthur Mehta, Anne Müller
Foundations
In a functional encryption (FE) scheme, a user that holds a ciphertext and a function-key can learn the result of applying the function to the plaintext message. Security requires that the user does not learn anything beyond the function evaluation. On the other hand, unclonable encryption (UE) is a uniquely quantum primitive, which ensures that an adversary cannot duplicate a ciphertext to decrypt the same message multiple times. In this work we introduce unclonable quantum...
The Sting Framework: Proving the Existence of Superclass Adversaries
Mahimna Kelkar, Yunqi Li, Nerla Jean-Louis, Carolina Ortega Pérez, Kushal Babel, Andrew Miller, Ari Juels
We introduce superclass accountability, a new notion of accountability for security protocols. Classical notions of accountability typically aim to identify specific adversarial players whose violation of adversarial assumptions has caused a security failure. Superclass accountability describes a different goal: to prove the existence of adversaries capable of violating security assumptions.
We develop a protocol design approach for realizing superclass accountability called the sting...
The Role of Message-Bound Signatures for the Beyond UnForgeability Features and Weak Keys
Samed Düzlü, Patrick Struck
Public-key cryptography
In the present work, we establish a new relationship among the Beyond UnForgeability Features (BUFF) introduced by Cremers et al. (SP’21). There, the BUFF notions have been shown to be independent of one another. On the other hand, the analysis by Aulbach et al. (PQCrypto’24) reveals that one of the BUFF notions—message-bound signatures (MBS)—is achieved by most schemes. To achieve BUFF security, there is the generic BUFF transform that achieves all the beyond unforgeability features. The...
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...
How to Construct Random Unitaries
Fermi Ma, Hsin-Yuan Huang
Foundations
The existence of pseudorandom unitaries (PRUs)---efficient quantum circuits that are computationally indistinguishable from Haar-random unitaries---has been a central open question, with significant implications for cryptography, complexity theory, and fundamental physics. In this work, we close this question by proving that PRUs exist, assuming that any quantum-secure one-way function exists. We establish this result for both (1) the standard notion of PRUs, which are secure against any...
One-Shot Native Proofs of Non-Native Operations in Incrementally Verifiable Computations
Tohru Kohrita, Patrick Towa, Zachary J. Williamson
Cryptographic protocols
Proving non-native operations is still a bottleneck in existing incrementally verifiable computations. Prior attempts to solve this issue either simply improve the efficiency of proofs of non-native operations or require folding instances in each curve of a cycle. This paper shows how to avoid altogether in-circuit proofs of non-native operations in the incremental steps, and only record them in some auxiliary proof information. These operations are proved natively at the end of the...
Fully Secure Searchable Encryption from PRFs, Pairings, and Lattices
Hirotomo Shinoki, Hisayoshi Sato, Masayuki Yoshino
Cryptographic protocols
Searchable encryption is a cryptographic primitive that allows us to perform searches on encrypted data. Searchable encryption schemes require that ciphertexts do not leak information about keywords. However, most of the existing schemes do not achieve the security notion that trapdoors do not leak information. Shen et al. (TCC 2009) proposed a security notion called full security, which includes both ciphertext privacy and trapdoor privacy, but there are few fully secure constructions. Full...
Secret Sharing with Snitching
Stefan Dziembowski, Sebastian Faust, Tomasz Lizurej, Marcin Mielniczuk
Foundations
We address the problem of detecting and punishing shareholder collusion in secret-sharing schemes. We do it in the recently proposed cryptographic model called individual cryptography (Dziembowski, Faust, and Lizurej, Crypto 2023), which assumes that there exist tasks that can be efficiently computed by a single machine but distributing this computation across multiple (mutually distrustful devices) is infeasible.
Within this model, we introduce a novel primitive called secret sharing...
Dynamic zk-SNARKs
Weijie Wang, Charalampos Papamanthou, Shravan Srinivasan, Dimitrios Papadopoulos
Cryptographic protocols
In this work, we put forth the notion of dynamic zk-SNARKs. A dynamic zk-SNARK is a zk-SNARK that has an additional update algorithm. The update algorithm takes as input a valid source statement-witness pair $(x,w)\in \mathcal{L}$ along with a verifying proof $\pi$, and a valid target statement-witness pair $(x',w')\in \mathcal{L}$. It outputs a verifying proof $\pi'$ for $(x',w')$ in sublinear time (for $(x,w)$ and $(x',w')$ with small Hamming distance) potentially with the help of a data...
Understanding Leakage in Searchable Encryption: a Quantitative Approach
Alexandra Boldyreva, Zichen Gui, Bogdan Warinschi
Foundations
Searchable encryption, or more generally, structured encryption, permits search over encrypted data. It is an important cryptographic tool for securing cloud storage. The standard security notion for structured encryption mandates that a protocol leaks nothing about the data or queries, except for some allowed leakage, defined by the leakage function. This is due to the fact that some leakage is unavoidable for efficient schemes. Unfortunately, it was shown by numerous works that even...
SNARKs for Virtual Machines are Non-Malleable
Matteo Campanelli, Antonio Faonio, Luigi Russo
Cryptographic proof systems have a plethora of applications: from building other cryptographic tools (e.g., malicious security for MPC protocols) to concrete settings such as private transactions or rollups. In several settings it is important for proof systems to be non-malleable: an adversary should not to be able to modify a proof they have observed into another for a statement for which they do not know the witness.
Proof systems that have been deployed in practice should arguably...
Fully Composable Homomorphic Encryption
Daniele Micciancio
Foundations
The traditional definition of fully homomorphic encryption (FHE) is not composable, i.e., it does not guarantee that evaluating two (or more) homomorphic computations in a sequence produces correct results. We formally define and investigate a stronger notion of homomorphic encryption which we call "fully composable homomorphic encryption", or "composable FHE". The definition is both simple and powerful: it does not directly involve the evaluation of multiple functions, and yet it...
Findex: A Concurrent and Database-Independent Searchable Encryption Scheme
Théophile Brézot, Chloé Hébant
Cryptographic protocols
State-of-the-art database implementations offer a wide range of functionalities and impressive performances while supporting highly concurrent loads. However they all rely on the server knowing the content of the database, which raises issues when sensitive information is being stored on a server that cannot be trusted. Encrypting documents before sending them to a remote server solves the confidentiality issue at the cost of loosing the keyword search functionality. Cryptographic primitives...
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...
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...
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...
Bit Security: optimal adversaries, equivalence results, and a toolbox for computational-statistical security analysis
Daniele Micciancio, Mark Schultz-Wu
Foundations
We investigate the notion of bit-security for decisional cryptographic properties, as originally proposed in (Micciancio & Walter, Eurocrypt 2018), and its main variants and extensions, with the goal clarifying the relation between different definitions, and facilitating their use.
Specific contributions of this paper include:
(1) identifying the optimal adversaries achieving the highest possible MW advantage, showing that they are deterministic and have a very simple threshold...
Multi-Key Fully-Homomorphic Aggregate MAC for Arithmetic Circuits
Suvasree Biswas, Arkady Yerukhimovich
Cryptographic protocols
Homomorphic message authenticators allow a user to perform computation on previously authenticated data producing a tag $\sigma$ that can be used to verify the authenticity of the computation. We extend this notion to consider a multi-party setting where we wish to produce a tag that allows verifying (possibly different) computations on all party's data at once. Moreover, the size of this tag should not grow as a function of the number of parties or the complexity of the computations. We...
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...
Signature-based Witness Encryption with Compact Ciphertext
Gennaro Avitabile, Nico Döttling, Bernardo Magri, Christos Sakkas, Stella Wohnig
Public-key cryptography
Signature-based witness encryption (SWE) is a recently proposed notion that allows to encrypt a message with respect to a tag $T$ and a set of signature verification keys. The resulting ciphertext can only be decrypted by a party who holds at least $k$ different valid signatures w.r.t. $T$ and $k$ different verification keys out of the $n$ keys specified at encryption time. Natural applications of this primitive involve distributed settings (e.g., blockchains), where multiple parties sign...
Password-Protected Threshold Signatures
Stefan Dziembowski, Stanislaw Jarecki, Paweł Kędzior, Hugo Krawczyk, Chan Nam Ngo, Jiayu Xu
Cryptographic protocols
We witness an increase in applications like cryptocurrency wallets, which involve users issuing signatures using private keys. To protect these keys from loss or compromise, users commonly outsource them to a custodial server. This creates a new point of failure, because compromise of such a server leaks the user’s key, and if user authentication is implemented with a password then this password becomes open to an offline dictionary attack (ODA). A better solution is to secret-share the key...
P2C2T: Preserving the Privacy of Cross-Chain Transfer
Panpan Han, Zheng Yan, Laurence T. Yang, Elisa Bertino
Cryptographic protocols
Blockchain-enabled digital currency systems have typically operated in isolation, lacking necessary mechanisms for seamless interconnection. Consequently, transferring assets across distinct currency systems remains a complex challenge, with existing schemes often falling short in ensuring security, privacy, and practicality. This paper proposes P2C2T -- a privacy-preserving cross-chain transfer scheme. It is the first scheme to address atomicity, unlinkability, indistinguishability,...
Efficient Fuzzy Private Set Intersection from Fuzzy Mapping
Ying Gao, Lin Qi, Xiang Liu, Yuanchao Luo, Longxin Wang
Cryptographic protocols
Private set intersection (PSI) allows Sender holding a set \(X\) and Receiver holding a set \(Y\) to compute only the intersection \(X\cap Y\) for Receiver.
We focus on a variant of PSI, called fuzzy PSI (FPSI), where Receiver only gets points in \(X\) that are at the distance not greater than a threshold from some points in \(Y\).
Most current FPSI approaches first pick out pairs of points that are potentially close and then determine whether the distance of each selected pair is indeed...
Verifiable Oblivious Pseudorandom Functions from Lattices: Practical-ish and Thresholdisable
Martin R. Albrecht, Kamil Doruk Gur
Cryptographic protocols
We revisit the lattice-based verifiable oblivious PRF construction from PKC'21 and remove or mitigate its central three sources of inefficiency. First, applying Rényi divergence arguments, we eliminate one superpolynomial factor from the ciphertext modulus \(q\), allowing us to reduce the overall bandwidth consumed by RLWE samples by about a factor of four. This necessitates us introducing intermediate unpredictability notions to argue PRF security of the final output in the Random Oracle...
Threshold PAKE with Security against Compromise of all Servers
Yanqi Gu, Stanislaw Jarecki, Pawel Kedzior, Phillip Nazarian, Jiayu Xu
Cryptographic protocols
We revisit the notion of threshold Password-Authenticated Key Exchange (tPAKE), and we extend it to augmented tPAKE (atPAKE), which protects password information even in the case all servers are compromised, except for allowing an (inevitable) offline dictionary attack. Compared to prior notions of tPAKE this is analogous to replacing symmetric PAKE, where the server stores the user's password, with an augmented (or asymmetric) PAKE, like OPAQUE [JKX18], where the server stores a password...
Interval Key-Encapsulation Mechanism
Alexander Bienstock, Yevgeniy Dodis, Paul Rösler, Daniel Wichs
Public-key cryptography
Forward-Secure Key-Encapsulation Mechanism (FS-KEM; Canetti et al. Eurocrypt 2003) allows Alice to encapsulate a key $k$ to Bob for some time $t$ such that Bob can decapsulate it at any time $t'\leq t$. Crucially, a corruption of Bob's secret key after time $t$ does not reveal $k$.
In this work, we generalize and extend this idea by also taking Post-Compromise Security (PCS) into account and call it Interval Key-Encapsulation Mechanism (IKEM). Thus, we do not only protect confidentiality...
Anamorphic Authenticated Key Exchange: Double Key Distribution under Surveillance
Weihao Wang, Shuai Han, Shengli Liu
Public-key cryptography
Anamorphic encryptions and anamorphic signatures assume a double key pre-shared between two parties so as to enable the transmission of covert messages. How to securely and efficiently distribute a double key under the dictator's surveillance is a central problem for anamorphic cryptography, especially when the users are forced to surrender their long-term secret keys or even the randomness used in the algorithms to the dictator.
In this paper, we propose Anamorphic Authentication Key...
On the Relationship between Public Key Primitives via Indifferentiability
Shuang Hu, Bingsheng Zhang, Cong Zhang, Kui Ren
Foundations
Recently, Masny and Rindal [MR19] formalized a notion called Endemic Oblivious Transfer (EOT), and they proposed a generic transformation from Non-Interactive Key Exchange (NIKE) to EOT with standalone security in the random oracle (RO) model. However, from the model level, the relationship between idealized NIKE and idealized EOT and the relationship between idealized elementary public key primitives have been rarely researched.
In this work, we investigate the relationship between ideal...
The Black-Box Simulation Barrier Persists in a Fully Quantum World
Nai-Hui Chia, Kai-Min Chung, Xiao Liang, Jiahui Liu
Foundations
Zero-Knowledge (ZK) protocols have been a subject of intensive study due to their fundamental importance and versatility in modern cryptography. However, the inherently different nature of quantum information significantly alters the landscape, necessitating a re-examination of ZK designs.
A crucial aspect of ZK protocols is their round complexity, intricately linked to $\textit{simulation}$, which forms the foundation of their formal definition and security proofs. In the...
Blind Multisignatures for Anonymous Tokens with Decentralized Issuance
Ioanna Karantaidou, Omar Renawi, Foteini Baldimtsi, Nikolaos Kamarinakis, Jonathan Katz, Julian Loss
Cryptographic protocols
We propose the first constructions of anonymous tokens with decentralized issuance. Namely, we consider a dynamic set of signers/issuers; a user can obtain a token from any subset of the signers, which is publicly verifiable and unlinkable to the issuance process. To realize this new primitive we formalize the notion of Blind Multi-Signatures (BMS), which allow a user to interact with multiple signers to obtain a (compact) signature; even if all the signers collude they are unable to link a...
Security Strengthening of Threshold Symmetric Schemes
Ehsan Ebrahimi
Secret-key cryptography
In this paper, we study the security definitions of various threshold symmetric primitives. Namely, we analyze the security definitions for threshold pseudorandom functions, threshold message authentication codes and threshold symmetric encryption. In each case, we strengthen the existing security definition, and we present a scheme that satisfies our stronger notion of security. In particular, we propose indifferentiability definition and IND-CCA2 definition for a threshold pseudorandom...
What Did Come Out of It? Analysis and Improvements of DIDComm Messaging
Christian Badertscher, Fabio Banfi, Jesus Diaz
Cryptographic protocols
Self-Sovereign Identity (SSI) empowers individuals and organizations with full control over their data. Decentralized identifiers (DIDs) are at its center, where a DID contains a collection of public keys associated with an entity, and further information to enable entities to engage via secure and private messaging across different platforms. A crucial stepping stone is DIDComm, a cryptographic communication layer that is in production with version 2. Due to its widespread and active...
Leakage-Resilience of Circuit Garbling
Ruiyang Li, Yiteng Sun, Chun Guo, Francois-Xavier Standaert, Weijia Wang, Xiao Wang
Secret-key cryptography
Due to the ubiquitous requirements and performance leap in the past decade, it has become feasible to execute garbling and secure computations in settings sensitive to side-channel attacks, including smartphones, IoTs and dedicated hardwares, and the possibilities have been demonstrated by recent works. To maintain security in the presence of a moderate amount of leaked information about internal secrets, we investigate {\it leakage-resilient garbling}. We augment the classical privacy,...
Provably Secure Online Authenticated Encryption and Bidirectional Online Channels
Arghya Bhattacharjee, Ritam Bhaumik, Daniel Collins, Mridul Nandi
Secret-key cryptography
In this work, we examine online authenticated encryption with variable expansion. We follow a notion where both encryption and decryption are online, and security is ensured in the RUP (Release of Unverified Plaintext) setting. Then we propose a generic way of obtaining an online authenticated encryption mode from a tweakable online encryption mode based on the encode-then-encipher paradigm (Bellare and Rogaway, Asiacrypt 2000). To instantiate our generic scheme, we start with proposing a...
Public-Key Anamorphism in (CCA-secure) Public-Key Encryption and Beyond
Giuseppe Persiano, Duong Hieu Phan, Moti Yung
Public-key cryptography
The notion of (Receiver-) Anamorphic Encryption was put forth recently to show that a dictator (i.e., an overreaching government), which demands to get the receiver’s private key and even dictates messages to the sender, cannot prevent the receiver from getting an additional covert anamorphic message from a sender. The model required an initial private collaboration to share some secret. There may be settings though where an initial collaboration may be impossible or performance-wise...
On Algebraic Homomorphic Encryption and its Applications to Doubly-Efficient PIR
Hiroki Okada, Rachel Player, Simon Pohmann, Christian Weinert
Foundations
The Doubly-Efficient Private Information Retrieval (DEPIR) protocol of Lin, Mook, and Wichs (STOC'23) relies on a Homomorphic Encryption (HE) scheme that is algebraic, i.e., whose ciphertext space has a ring structure that matches the homomorphic operations. While early HE schemes had this property, modern schemes introduced techniques to manage noise growth. This made the resulting schemes much more efficient, but also destroyed the algebraic property. In this work, we study algebraic HE...
Don't Trust Setup! New Directions in Pre-Constrained Cryptography
Shweta Agrawal, Simran Kumari, Ryo Nishimaki
Public-key cryptography
The recent works of Ananth et al. (ITCS 2022) and Bartusek et al. (Eurocrypt 2023) initiated the study of pre-constrained cryptography which achieves meaningful security even against the system authority. In this work we significantly expand this area by defining several new primitives and providing constructions from simple, standard assumptions as follows.
- Pre-Constrained Encryption. We define a weaker notion of pre-constrained encryption (PCE), as compared to the work of Ananth et...
Password-authenticated Cryptography from Consumable Tokens
Ghada Almashaqbeh
Cryptographic protocols
Passwords are widely adopted for user authentication in practice, which led to the question of whether we can bootstrap a strongly-secure setting based on them. Historically, this has been extensively studied for key exchange; bootstrap from a low-entropy password to a high entropy key securing the communication. Other instances include digital lockers, signatures, secret sharing, and encryption.
Motivated by a recent work on consumable tokens (Almashaqbeh et al., Eurocrypt 2022), we...
Non-Interactive Zero-Knowledge from LPN and MQ
Quang Dao, Aayush Jain, Zhengzhong Jin
Cryptographic protocols
We give the first construction of non-interactive zero-knowledge (NIZK) arguments from post-quantum assumptions other than Learning with Errors. In particular, we achieve NIZK under the polynomial hardness of the Learning Parity with Noise (LPN) assumption, and the exponential hardness of solving random under-determined multivariate quadratic equations (MQ). We also construct NIZK satisfying statistical zero-knowledge assuming a new variant of LPN, Dense-Sparse LPN, introduced by Dao and...
Dynamic Collusion Functional Encryption and Multi-Authority Attribute-Based Encryption
Rachit Garg, Rishab Goyal, George Lu
Public-key cryptography
Functional Encryption (FE) is a powerful notion of encryption which enables computations and partial message recovery of encrypted data. In FE, each decryption key is associated with a function $f$ such that decryption recovers the function evaluation $f(m)$ from an encryption of $m$. Informally, security states that a user with access to function keys $\mathsf{sk}_{f_1}, \mathsf{sk}_{f_2}, \ldots$ (and so on) can only learn $f_1(m), f_2(m), \ldots$ (and so on) but nothing more about the...
Binding Security of Implicitly-Rejecting KEMs and Application to BIKE and HQC
Juliane Krämer, Patrick Struck, Maximiliane Weishäupl
Public-key cryptography
In this work, we continue the analysis of the binding properties of implicitly-rejecting key-encapsulation mechanisms (KEMs) obtained via the Fujisaki-Okamoto (FO) transform. These binding properties, in earlier literature known under the term robustness, thwart attacks that can arise when using KEMs in larger protocols. Recently, Cremers et al. (ePrint'24) introduced a framework for binding notions, encompassing previously existing but also new ones. While implicitly-rejecting KEMs have...
A Composable View of Homomorphic Encryption and Authenticator
Ganyuan Cao
Public-key cryptography
Homomorphic Encryption (HE) is a cutting-edge cryptographic technique that enables computations on encrypted data to be mirrored on the original data. This has quickly attracted substantial interest from the research community due to its extensive practical applications, such as in cloud computing and privacy-preserving machine learning.
In addition to confidentiality, the importance of authenticity has emerged to ensure data integrity during transmission and evaluation. To address...
Generic Construction of Secure Sketches from Groups
Axel Durbet, Koray Karabina, Kevin Thiry-Atighehchi
Foundations
Secure sketches are designed to facilitate the recovery of originally enrolled data from inputs that may vary slightly over time. This capability is important in applications where data consistency cannot be guaranteed due to natural variations, such as in biometric systems and hardware security. Traditionally, secure sketches are constructed using error-correcting codes to handle these variations effectively. Additionally, principles of information theory ensure the security of these...
Collaborative CP-NIZKs: Modular, Composable Proofs for Distributed Secrets
Mohammed Alghazwi, Tariq Bontekoe, Leon Visscher, Fatih Turkmen
Cryptographic protocols
Non-interactive zero-knowledge (NIZK) proofs of knowledge have proven to be highly relevant for securely realizing a wide array of applications that rely on both privacy and correctness. They enable a prover to convince any party of the correctness of a public statement for a secret witness. However, most NIZKs do not natively support proving knowledge of a secret witness that is distributed over multiple provers. Previously, collaborative proofs [51] have been proposed to overcome this...
STORM — Small Table Oriented Redundancy-based SCA Mitigation for AES
Yaacov Belenky, Hennadii Chernyshchyk, Oleg Karavaev, Oleh Maksymenko, Valery Teper, Daria Ryzhkova, Itamar Levi, Osnat Keren, Yury Kreimer
Attacks and cryptanalysis
Side-channel-analysis (SCA) resistance with cost optimization in AES hardware implementations remains a significant challenge. While traditional masking-based schemes offer provable security, they often incur substantial resource overheads (latency, area, randomness, performance, power consumption). Alternatively, the RAMBAM scheme introduced a redundancy-based approach to control the signal-to-noise ratio, and achieves exponential leakage reduction as redundancy increases. This method...
On the Relationship between FuncCPA and FuncCPA+
Takumi Shinozaki, Keisuke Tanaka, Masayuki Tezuka, Yusuke Yoshida
Public-key cryptography
Akavia, Gentry, Halevi, and Vald introduced the security notion of function-chosen-plaintext-attack (FuncCPA security) for public-key encryption schemes.
FuncCPA is defined by adding a functional re-encryption oracle to the IND-CPA game.
This notion is crucial for secure computation applications where the server is allowed to delegate a part of the computation to the client.
Dodis, Halevi, and Wichs introduced a stronger variant called FuncCPA$^+$.
They showed FuncCPA$^+$ implies...
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...
LaPSuS – A Lattice-Based Private Stream Aggregation Scheme under Scrutiny
Johannes Ottenhues, Alexander Koch
Attacks and cryptanalysis
Private Stream Aggregation (PSA) allows clients to send encryptions of their private values to an aggregator that is then able to learn the sum of these values but nothing else. It has since found many applications in practice, e.g. for smart metering or federated learning. In 2018, Becker et al. proposed the first lattice-based PSA scheme LaPS (NDSS 2018), with putative post-quantum security, which has subsequently been patented. In this paper, we describe two attacks on LaPS that break the...
Generic Anamorphic Encryption, Revisited: New Limitations and Constructions
Dario Catalano, Emanuele Giunta, Francesco Migliaro
Foundations
The notion of Anamorphic Encryption (Persiano et al. Eurocrypt 2022) aims at establishing private communication against an adversary who can access secret decryption keys and influence the chosen messages. Persiano et al. gave a simple, black-box, rejection sampling-based technique to send anamorphic bits using any IND-CPA secure scheme as underlying PKE.
In this paper however we provide evidence that their solution is not as general as claimed: indeed there exists a (contrived yet...
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,...
Unforgeability of Blind Schnorr in the Limited Concurrency Setting
Franklin Harding, Jiayu Xu
Public-key cryptography
Blind signature schemes enable a user to obtain a digital signature on a message from a signer without revealing the message itself. Among the most fundamental examples of such a scheme is blind Schnorr, but recent results show that it does not satisfy the standard notion of security against malicious users, One-More Unforgeability (OMUF), as it is vulnerable to the ROS attack. However, blind Schnorr does satisfy the weaker notion of sequential OMUF, in which only one signing session is open...
Limits of Black-Box Anamorphic Encryption
Dario Catalano, Emanuele Giunta, Francesco Migliaro
Public-key cryptography
(Receiver) Anamorphic encryption, introduced by Persiano $ \textit{et al.}$ at Eurocrypt 2022, considers the question of achieving private communication in a world where secret decryption keys are under the control of a dictator. The challenge here is to be able to establish a secret communication channel to exchange covert (i.e. anamorphic) messages on top of some already deployed public key encryption scheme.
Over the last few years several works addressed this challenge by showing...
Post-Quantum Ready Key Agreement for Aviation
Marcel Tiepelt, Christian Martin, Nils Maeurer
Cryptographic protocols
Transitioning from classically to quantum secure key agreement protocols may require to exchange fundamental components, for example, exchanging Diffie-Hellman-like key exchange with a key encapsulation mechanism (KEM). Accordingly, the corresponding security proof can no longer rely on the Diffie-Hellman assumption, thus invalidating the security guarantees. As a consequence, the security properties have to be re-proven under a KEM-based security notion.
We initiate the study of the...
Obfuscated Key Exchange
Felix Günther, Douglas Stebila, Shannon Veitch
Cryptographic protocols
Censorship circumvention tools enable clients to access endpoints in a network despite the presence of a censor. Censors use a variety of techniques to identify content they wish to block, including filtering traffic patterns that are characteristic of proxy or circumvention protocols and actively probing potential proxy servers. Circumvention practitioners have developed fully encrypted protocols (FEPs), intended to have traffic that appears indistinguishable from random. A FEP is typically...
Separating Selective Opening Security From Standard Security, Assuming IO
Justin Holmgren, Brent Waters
Foundations
Assuming the hardness of LWE and the existence of IO, we construct a public-key encryption scheme that is IND-CCA secure but fails to satisfy even a weak notion of indistinguishability security with respect to selective opening attacks. Prior to our work, such a separation was known only from stronger assumptions such as differing inputs obfuscation (Hofheinz, Rao, and Wichs, PKC 2016).
Central to our separation is a new hash family, which may be of independent interest. Specifically,...
Insta-Pok3r: Real-time Poker on Blockchain
Sanjam Garg, Aniket Kate, Pratyay Mukherjee, Rohit Sinha, Sriram Sridhar
Cryptographic protocols
We develop a distributed service for generating correlated randomness (e.g. permutations) for multiple parties, where each party’s output is private but publicly verifiable. This service provides users with a low-cost way to play online poker in real-time, without a trusted party.
Our service is backed by a committee of compute providers, who run a multi-party computation (MPC) protocol to produce an (identity-based) encrypted permutation of a deck of cards, in an offline phase well ahead...
Stochastic Secret Sharing with $1$-Bit Shares and Applications to MPC
Benny Applebaum, Eliran Kachlon
Foundations
The problem of minimizing the share size of threshold secret-sharing schemes is a basic research question that has been extensively studied. Ideally, one strives for schemes in which the share size equals the secret size. While this is achievable for large secrets (Shamir, CACM '79), no similar solutions are known for the case of binary, single-bit secrets. Current approaches often rely on so-called ramp secret sharing that achieves a constant share size at the expense of a slight gap...
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...
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...
Consolidated Linear Masking (CLM): Generalized Randomized Isomorphic Representations, Powerful Degrees of Freedom and Low(er)-cost
Itamar Levi, Osnat Keren
Implementation
Masking is a widely adopted countermeasure against side-channel analysis (SCA) that protects cryptographic implementations from information leakage. However, current masking schemes often incur significant overhead in terms of electronic cost. RAMBAM, a recently proposed masking technique that fits elegantly with the AES algorithm, offers ultra-low latency/area by utilizing redundant representations of finite field elements. This paper presents a comprehensive generalization of RAMBAM and...
VRaaS: Verifiable Randomness as a Service on Blockchains
Jacob Gorman, Lucjan Hanzlik, Aniket Kate, Easwar Vivek Mangipudi, Pratyay Mukherjee, Pratik Sarkar, Sri AravindaKrishnan Thyagarajan
Foundations
Web3 applications, such as on-chain games, NFT minting, and leader elections necessitate access to unbiased, unpredictable, and publicly verifiable randomness. Despite its broad use cases and huge demand, there is a notable absence of comprehensive treatments of on-chain verifiable randomness services. To bridge this, we offer an extensive formal analysis of on-chain verifiable randomness services.
We present the $first$ formalization of on-chain verifiable randomness in the...
MixBuy: Contingent Payment in the Presence of Coin Mixers
Diego Castejon-Molina, Dimitrios Vasilopoulos, Pedro Moreno-Sanchez
Applications
A contingent payment protocol involves two mutually distrustful parties, a buyer and a seller, operating on the same blockchain, and a digital product, whose ownership is not tracked on a blockchain (e.g. a digital book). The buyer holds coins on the blockchain and transfers them to the seller in exchange for the product. However, if the blockchain does not hide transaction details, any observer can learn that a buyer purchased some product from a seller.
In this work, we take...
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...
Distributed Point Function with Constraints, Revisited
Keyu Ji, Bingsheng Zhang, Hong-Sheng Zhou, Kui Ren
Cryptographic protocols
Distributed Point Function (DPF) provides a way for a dealer to split a point function $f_{\alpha, \beta}$ into multiple succinctly described function-shares, where the function $f_{\alpha, \beta}$ for a special input $\alpha$, returns a special output value $\beta$, and returns a fixed value $0$ otherwise. As the security requirement, any strict subset of the function-shares reveals nothing about the function $f_{\alpha,\beta}$. However, each function-share can be individually evaluated on...
The Committing Security of MACs with Applications to Generic Composition
Ritam Bhaumik, Bishwajit Chakraborty, Wonseok Choi, Avijit Dutta, Jérôme Govinden, Yaobin Shen
Secret-key cryptography
Message Authentication Codes (MACs) are ubiquitous primitives deployed in multiple flavors through standards such as HMAC, CMAC, GMAC, LightMAC, and many others. Its versatility makes it an essential building block in applications necessitating message authentication and integrity checks, in authentication protocols, authenticated encryption schemes, or as a pseudorandom or key derivation function. Its usage in this variety of settings makes it susceptible to a broad range of attack...
Verifiable and Private Vote-by-Mail
Henri Devillez, Olivier Pereira, Thomas Peters
Cryptographic protocols
Vote-by-mail is increasingly used in Europe and worldwide for government elections. Nevertheless, very few attempts have been made towards the design of verifiable vote-by-mail, and none of them come with a rigorous security analysis. Furthermore, the ballot privacy of the currently deployed (non-verifiable) vote-by-mail systems relies on procedural means that a single malicious operator can bypass.
We propose a verifiable vote-by-mail system that can accommodate the constraints of many...
Compact Key Storage: A Modern Approach to Key Backup and Delegation
Yevgeniy Dodis, Daniel Jost, Antonio Marcedone
Cryptographic protocols
End-to-End (E2E) encrypted messaging, which prevents even the service provider from learning communication contents, is gaining popularity. Since users care about maintaining access to their data even if their devices are lost or broken or just replaced, these systems are often paired with cloud backup solutions: Typically, the user will encrypt their messages with a fixed key, and upload the ciphertexts to the server. Unfortunately, this naive solution has many drawbacks. First, it often...
Liu et al. (EuroS&P 2019) introduced Key-Insulated and Privacy-Preserving Signature Scheme with Publicly Derived Public Key (PDPKS) to enhance the security of stealth address and deterministic wallet. In this paper, we point out that the current security notions are insufficient in practice, and introduce a new security notion which we call consistency. Moreover, we explore the unforgeability to provide strong unforgeability for outsider which captures the situation that nobody, except the...
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...
Ensuring transaction privacy in blockchain systems is essential to safeguard user data and financial activity from exposure on public ledgers. This paper conducts a systematization of knowledge (SoK) on privacy-preserving techniques in cryptocurrencies with native privacy features. We define and compare privacy notions such as confidentiality, k-anonymity, full anonymity, and sender-receiver unlinkability, and categorize the cryptographic techniques employed to achieve these guarantees. Our...
The interest in realizing generic PQC KEM-based PAKEs has increased significantly in the last few years. One such PAKE is the CAKE protocol, proposed by Beguinet et al. (ACNS ’23). However, despite its simple design based on the well-studied PAKE protocol EKE by Bellovin and Merritt (IEEE S&P ’92), both CAKE and its variant OCAKE do not fully protect against quantum adversaries, as they rely on the Ideal Cipher (IC) model. Related and follow-up works, including Pan and Zeng (ASIACRYPT ’23),...
This paper initiates the study of one-more unforgeability for multi-signatures and threshold signatures as a stronger security goal, ensuring that ℓ executions of a signing protocol cannot result in more than ℓ signatures. This notion is widely used in the context of blind signatures, but we argue that it is a convenient way to model strong unforgeability for other types of distributed signing protocols. We provide formal security definitions for one-more unforgeability (OMUF) and show that...
Multi-input Attribute-Based Encryption (ABE) is a generalization of key-policy ABE where attributes can be independently encrypted across several ciphertexts, and a joint decryption of these ciphertexts is possible if and only if the combination of attributes satisfies the policy of the decryption key. We extend this model by introducing a new primitive that we call Multi-Client ABE (MC-ABE), which provides the usual enhancements of multi-client functional encryption over multi-input...
One-time programs (Goldwasser, Kalai and Rothblum, CRYPTO 2008) are functions that can be run on any single input of a user's choice, but not on a second input. Classically, they are unachievable without trusted hardware, but the destructive nature of quantum measurements seems to provide a quantum path to constructing them. Unfortunately, Broadbent, Gutoski and Stebila showed that even with quantum techniques, a strong notion of one-time programs, similar to ideal obfuscation, cannot be...
Despite decades of work on threshold signature schemes, there is still limited agreement on their desired properties and threat models. In this work we significantly extend and repair previous work to give a unified syntax for threshold signature schemes and a new hierarchy of security notions for them. Moreover, our new hierarchy allows us to develop an automated analysis approach for protocols that use threshold signatures, which can discover attacks on protocols that exploit the details...
The password-hardening service (PH) is a crypto service that armors canonical password authentication with an external key against offline password guessing in case the password file is somehow compromised/leaked. The game-based formal treatment of PH was brought by Everspaugh et al. at USENIX Security'15. Their work is followed by efficiency-enhancing PO-COM (CCS'16), security-patching Phoenix (USENIX Security'17), and functionality-refining PW-Hero (SRDS'22). However, the issue of single...
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...
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,...
The eIDAS 2.0 regulation aims to develop interoperable digital identities for European citizens, and it has recently become law. One of its requirements is that credentials be unlinkable. Anonymous credentials (AC) allow holders to prove statements about their identity in a way that does not require to reveal their identity and does not enable linking different usages of the same credential. As a result, they are likely to become the technology that provides digital identity for...
In this work, we present a new paradigm for constructing Group Authenticated Key Exchange (GAKE). This result is the first tightly secure GAKE scheme in a strong security model that allows maximum exposure attacks (MEX) where the attacker is allowed to either reveal the secret session state or the long-term secret of all communication partners. Moreover, our protocol features the strong and realistic notion of (full) perfect forward secrecy (PFS), that allows the attacker to actively modify...
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...
In the digital age, the concept of consent for online actions executed by third parties is crucial for maintaining trust and security in third-party services. This work introduces the notion of cryptographically secure digital consent, which aims to replicate the traditional consent process in the online world. We provide a flexible digital consent solution that accommodates different use cases and ensures the integrity of the consent process. The proposed framework involves a client...
Is it possible to comprehensively destroy a piece of quantum information, so that nothing is left behind except the memory of that one had it at some point? For example, various works, most recently Morimae, Poremba, and Yamakawa (TQC '24), show how to construct a signature scheme with certified deletion where a user who deletes a signature on $m$ cannot later produce a signature for $m$. However, in all of the existing schemes, even after deletion the user is still able keep irrefutable...
The no-cloning principle has played a foundational role in quantum information and cryptography. Following a long-standing tradition of studying quantum mechanical phenomena through the lens of interactive games, Broadbent and Lord (TQC 2020) formalized cloning games in order to quantitatively capture no-cloning in the context of unclonable encryption schemes. The conceptual contribution of this paper is the new, natural, notion of Haar cloning games together with two applications. In the...
Quantum information allows us to build quantum money schemes, where a bank can issue banknotes in the form of authenticatable quantum states that cannot be cloned or counterfeited: a user in possession of k banknotes cannot produce k +1 banknotes. Similar to paper banknotes, in existing quantum money schemes, a banknote consists of an unclonable quantum state and a classical serial number, signed by bank. Thus, they lack one of the most fundamental properties cryptographers look for in a...
In this paper we introduce the notion of encrypted RAM delegation. In an encrypted RAM delegation scheme, the prover creates a succinct proof for a group of two input strings $x_\mathsf{pb}$ and $x_\mathsf{pr}$, where $x_\mathsf{pb}$ corresponds to a large \emph{public} input and $x_\mathsf{pr}$ is a \emph{private} input. A verifier can check correctness of computation of $\mathcal{M}$ on $(x_\mathsf{pb}, x_\mathsf{pr})$, given only the proof $\pi$ and $x_\mathsf{pb}$. We design encrypted...
Aaronson, Atia, and Susskind [Aaronson et al., 2020] established that efficiently mapping between quantum states $\ket{\psi}$ and $\ket{\phi}$ is computationally equivalent to distinguishing their superpositions $\frac{1}{\sqrt{2}}(|\psi\rangle + |\phi\rangle)$ and $\frac{1}{\sqrt{2}}(|\psi\rangle - |\phi\rangle)$. We generalize this insight into a broader duality principle in quantum computation, wherein manipulating quantum states in one basis is equivalent to extracting their value in a...
Service discovery is essential in wireless communications. However, existing service discovery protocols provide no or very limited privacy protection for service providers and clients, and they often leak sensitive information (e.g., service type, client’s identity and mobility pattern), which leads to various network-based attacks (e.g., spoofing, man-in-the-middle, identification and tracking). In this paper, we propose a private service discovery protocol, called PriSrv, which allows a...
In this paper, we investigate whether the privacy mechanism of periodically changing the pseudorandom identities of Bluetooth Low Energy (BLE) beacons is sufficient to ensure privacy. We consider a new natural privacy notion for BLE broadcasting beacons which we call ``Timed-sequence- indistinguishability'' of beacons. This new privacy definition is stronger than the well-known indistinguishability, since it considers not just the advertisements' content, but also the advertisements'...
We say there is a share conversion from a secret sharing scheme $\Pi$ to another scheme $\Pi'$ implementing the same access structure if each party can locally apply a deterministic function to their share to transform any valid secret sharing under $\Pi$ to a valid (but not necessarily random) secret sharing under $\Pi'$ of the same secret. If such a conversion exists, we say that $\Pi\ge\Pi'$. This notion was introduced by Cramer et al. (TCC'05), where they particularly proved that for...
Distributed mean estimation (DME) is a fundamental and important task as it serves as a subroutine in convex optimization, aggregate statistics, and, more generally, federated learning. The inputs for distributed mean estimation (DME) are provided by clients (such as mobile devices), and these inputs often contain sensitive information. Thus, protecting privacy and mitigating the influence of malicious adversaries are critical concerns in DME. A surge of recent works has focused on building...
In many multi-round public-coin interactive proof systems, challenges in different rounds serve different roles, but a formulation that actively utilizes this aspect has not been studied extensively. In this paper, we propose new notions called critical-round special honest verifier zero-knowledge and critical-round special soundness. Our notions are simple, intuitive, easy to apply, and capture several practical multi-round proof protocols including, but not limited to, those from the...
The indifferentiability framework has become a standard methodology that enables us to study the security of cryptographic constructions in idealized models of computation. Unfortunately, while indifferentiability provides strong guarantees whenever the security of a construction is captured by a ``single-stage'' security game, it may generally provide no meaningful guarantees when the security is captured by a ``multi-stage'' one. In particular, the indifferentiability framework does not...
We study the (in)feasibility of quantum pseudorandom notions in a quantum analog of the random oracle model, where all the parties, including the adversary, have oracle access to the same Haar random unitary. In this model, we show the following: • (Unbounded-query secure) pseudorandom unitaries (PRU) exist. Moreover, the PRU construction makes two calls to the Haar oracle. • We consider constructions of PRUs making a single call to the Haar oracle. In this setting, we show that...
We introduce the notion of pseudorandom obfuscation (PRO), a way to obfuscate (keyed) pseudorandom functions $f_K$ in an average-case sense. We introduce several variants of pseudorandom obfuscation and show constructions and applications. For some of our applications that can be achieved using full-fledged indistinguishability obfuscation (iO), we show constructions using lattice-based assumptions alone; the other applications we enable using PRO are simply not known even assuming iO. We...
Proof-Carrying Data (PCD) is a foundational tool for ensuring the correctness of incremental distributed computations that has found numerous applications in theory and practice. The state-of-the-art PCD constructions are obtained via accumulation or folding schemes. Unfortunately, almost all known constructions of accumulation schemes rely on homomorphic vector commitments (VCs), which results in relatively high computational costs and insecurity in the face of quantum adversaries. A recent...
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...
Multi-signature schemes are gaining significant interest due to their blockchain applications. Of particular interest are two-round schemes in the plain public-key model that offer key aggregation, and whose security is based on the hardness of the DLOG problem. Unfortunately, despite substantial recent progress, the security proofs of the proposed schemes provide rather insufficient concrete guarantees (especially for 256-bit groups). This frustrating situation has so far been approached...
Reductions are the workhorses of cryptography. They allow constructions of complex cryptographic primitives from simple building blocks. A prominent example is the non-interactive reduction from securely computing a ``complex" function $f$ to securely computing a ``simple" function $g$ via randomized encodings. Prior work equated simplicity with functions of small degree. In this work, we consider a different notion of simplicity where we require $g$ to only take inputs from a small...
Fundamental principles of quantum mechanics have inspired many new research directions, particularly in quantum cryptography. One such principle is quantum no-cloning which has led to the emerging field of revocable cryptography. Roughly speaking, in a revocable cryptographic primitive, a cryptographic object (such as a ciphertext or program) is represented as a quantum state in such a way that surrendering it effectively translates into losing the capability to use this cryptographic...
In a functional encryption (FE) scheme, a user that holds a ciphertext and a function-key can learn the result of applying the function to the plaintext message. Security requires that the user does not learn anything beyond the function evaluation. On the other hand, unclonable encryption (UE) is a uniquely quantum primitive, which ensures that an adversary cannot duplicate a ciphertext to decrypt the same message multiple times. In this work we introduce unclonable quantum...
We introduce superclass accountability, a new notion of accountability for security protocols. Classical notions of accountability typically aim to identify specific adversarial players whose violation of adversarial assumptions has caused a security failure. Superclass accountability describes a different goal: to prove the existence of adversaries capable of violating security assumptions. We develop a protocol design approach for realizing superclass accountability called the sting...
In the present work, we establish a new relationship among the Beyond UnForgeability Features (BUFF) introduced by Cremers et al. (SP’21). There, the BUFF notions have been shown to be independent of one another. On the other hand, the analysis by Aulbach et al. (PQCrypto’24) reveals that one of the BUFF notions—message-bound signatures (MBS)—is achieved by most schemes. To achieve BUFF security, there is the generic BUFF transform that achieves all the beyond unforgeability features. The...
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...
The existence of pseudorandom unitaries (PRUs)---efficient quantum circuits that are computationally indistinguishable from Haar-random unitaries---has been a central open question, with significant implications for cryptography, complexity theory, and fundamental physics. In this work, we close this question by proving that PRUs exist, assuming that any quantum-secure one-way function exists. We establish this result for both (1) the standard notion of PRUs, which are secure against any...
Proving non-native operations is still a bottleneck in existing incrementally verifiable computations. Prior attempts to solve this issue either simply improve the efficiency of proofs of non-native operations or require folding instances in each curve of a cycle. This paper shows how to avoid altogether in-circuit proofs of non-native operations in the incremental steps, and only record them in some auxiliary proof information. These operations are proved natively at the end of the...
Searchable encryption is a cryptographic primitive that allows us to perform searches on encrypted data. Searchable encryption schemes require that ciphertexts do not leak information about keywords. However, most of the existing schemes do not achieve the security notion that trapdoors do not leak information. Shen et al. (TCC 2009) proposed a security notion called full security, which includes both ciphertext privacy and trapdoor privacy, but there are few fully secure constructions. Full...
We address the problem of detecting and punishing shareholder collusion in secret-sharing schemes. We do it in the recently proposed cryptographic model called individual cryptography (Dziembowski, Faust, and Lizurej, Crypto 2023), which assumes that there exist tasks that can be efficiently computed by a single machine but distributing this computation across multiple (mutually distrustful devices) is infeasible. Within this model, we introduce a novel primitive called secret sharing...
In this work, we put forth the notion of dynamic zk-SNARKs. A dynamic zk-SNARK is a zk-SNARK that has an additional update algorithm. The update algorithm takes as input a valid source statement-witness pair $(x,w)\in \mathcal{L}$ along with a verifying proof $\pi$, and a valid target statement-witness pair $(x',w')\in \mathcal{L}$. It outputs a verifying proof $\pi'$ for $(x',w')$ in sublinear time (for $(x,w)$ and $(x',w')$ with small Hamming distance) potentially with the help of a data...
Searchable encryption, or more generally, structured encryption, permits search over encrypted data. It is an important cryptographic tool for securing cloud storage. The standard security notion for structured encryption mandates that a protocol leaks nothing about the data or queries, except for some allowed leakage, defined by the leakage function. This is due to the fact that some leakage is unavoidable for efficient schemes. Unfortunately, it was shown by numerous works that even...
Cryptographic proof systems have a plethora of applications: from building other cryptographic tools (e.g., malicious security for MPC protocols) to concrete settings such as private transactions or rollups. In several settings it is important for proof systems to be non-malleable: an adversary should not to be able to modify a proof they have observed into another for a statement for which they do not know the witness. Proof systems that have been deployed in practice should arguably...
The traditional definition of fully homomorphic encryption (FHE) is not composable, i.e., it does not guarantee that evaluating two (or more) homomorphic computations in a sequence produces correct results. We formally define and investigate a stronger notion of homomorphic encryption which we call "fully composable homomorphic encryption", or "composable FHE". The definition is both simple and powerful: it does not directly involve the evaluation of multiple functions, and yet it...
State-of-the-art database implementations offer a wide range of functionalities and impressive performances while supporting highly concurrent loads. However they all rely on the server knowing the content of the database, which raises issues when sensitive information is being stored on a server that cannot be trusted. Encrypting documents before sending them to a remote server solves the confidentiality issue at the cost of loosing the keyword search functionality. Cryptographic primitives...
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...
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...
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...
We investigate the notion of bit-security for decisional cryptographic properties, as originally proposed in (Micciancio & Walter, Eurocrypt 2018), and its main variants and extensions, with the goal clarifying the relation between different definitions, and facilitating their use. Specific contributions of this paper include: (1) identifying the optimal adversaries achieving the highest possible MW advantage, showing that they are deterministic and have a very simple threshold...
Homomorphic message authenticators allow a user to perform computation on previously authenticated data producing a tag $\sigma$ that can be used to verify the authenticity of the computation. We extend this notion to consider a multi-party setting where we wish to produce a tag that allows verifying (possibly different) computations on all party's data at once. Moreover, the size of this tag should not grow as a function of the number of parties or the complexity of the computations. We...
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...
Signature-based witness encryption (SWE) is a recently proposed notion that allows to encrypt a message with respect to a tag $T$ and a set of signature verification keys. The resulting ciphertext can only be decrypted by a party who holds at least $k$ different valid signatures w.r.t. $T$ and $k$ different verification keys out of the $n$ keys specified at encryption time. Natural applications of this primitive involve distributed settings (e.g., blockchains), where multiple parties sign...
We witness an increase in applications like cryptocurrency wallets, which involve users issuing signatures using private keys. To protect these keys from loss or compromise, users commonly outsource them to a custodial server. This creates a new point of failure, because compromise of such a server leaks the user’s key, and if user authentication is implemented with a password then this password becomes open to an offline dictionary attack (ODA). A better solution is to secret-share the key...
Blockchain-enabled digital currency systems have typically operated in isolation, lacking necessary mechanisms for seamless interconnection. Consequently, transferring assets across distinct currency systems remains a complex challenge, with existing schemes often falling short in ensuring security, privacy, and practicality. This paper proposes P2C2T -- a privacy-preserving cross-chain transfer scheme. It is the first scheme to address atomicity, unlinkability, indistinguishability,...
Private set intersection (PSI) allows Sender holding a set \(X\) and Receiver holding a set \(Y\) to compute only the intersection \(X\cap Y\) for Receiver. We focus on a variant of PSI, called fuzzy PSI (FPSI), where Receiver only gets points in \(X\) that are at the distance not greater than a threshold from some points in \(Y\). Most current FPSI approaches first pick out pairs of points that are potentially close and then determine whether the distance of each selected pair is indeed...
We revisit the lattice-based verifiable oblivious PRF construction from PKC'21 and remove or mitigate its central three sources of inefficiency. First, applying Rényi divergence arguments, we eliminate one superpolynomial factor from the ciphertext modulus \(q\), allowing us to reduce the overall bandwidth consumed by RLWE samples by about a factor of four. This necessitates us introducing intermediate unpredictability notions to argue PRF security of the final output in the Random Oracle...
We revisit the notion of threshold Password-Authenticated Key Exchange (tPAKE), and we extend it to augmented tPAKE (atPAKE), which protects password information even in the case all servers are compromised, except for allowing an (inevitable) offline dictionary attack. Compared to prior notions of tPAKE this is analogous to replacing symmetric PAKE, where the server stores the user's password, with an augmented (or asymmetric) PAKE, like OPAQUE [JKX18], where the server stores a password...
Forward-Secure Key-Encapsulation Mechanism (FS-KEM; Canetti et al. Eurocrypt 2003) allows Alice to encapsulate a key $k$ to Bob for some time $t$ such that Bob can decapsulate it at any time $t'\leq t$. Crucially, a corruption of Bob's secret key after time $t$ does not reveal $k$. In this work, we generalize and extend this idea by also taking Post-Compromise Security (PCS) into account and call it Interval Key-Encapsulation Mechanism (IKEM). Thus, we do not only protect confidentiality...
Anamorphic encryptions and anamorphic signatures assume a double key pre-shared between two parties so as to enable the transmission of covert messages. How to securely and efficiently distribute a double key under the dictator's surveillance is a central problem for anamorphic cryptography, especially when the users are forced to surrender their long-term secret keys or even the randomness used in the algorithms to the dictator. In this paper, we propose Anamorphic Authentication Key...
Recently, Masny and Rindal [MR19] formalized a notion called Endemic Oblivious Transfer (EOT), and they proposed a generic transformation from Non-Interactive Key Exchange (NIKE) to EOT with standalone security in the random oracle (RO) model. However, from the model level, the relationship between idealized NIKE and idealized EOT and the relationship between idealized elementary public key primitives have been rarely researched. In this work, we investigate the relationship between ideal...
Zero-Knowledge (ZK) protocols have been a subject of intensive study due to their fundamental importance and versatility in modern cryptography. However, the inherently different nature of quantum information significantly alters the landscape, necessitating a re-examination of ZK designs. A crucial aspect of ZK protocols is their round complexity, intricately linked to $\textit{simulation}$, which forms the foundation of their formal definition and security proofs. In the...
We propose the first constructions of anonymous tokens with decentralized issuance. Namely, we consider a dynamic set of signers/issuers; a user can obtain a token from any subset of the signers, which is publicly verifiable and unlinkable to the issuance process. To realize this new primitive we formalize the notion of Blind Multi-Signatures (BMS), which allow a user to interact with multiple signers to obtain a (compact) signature; even if all the signers collude they are unable to link a...
In this paper, we study the security definitions of various threshold symmetric primitives. Namely, we analyze the security definitions for threshold pseudorandom functions, threshold message authentication codes and threshold symmetric encryption. In each case, we strengthen the existing security definition, and we present a scheme that satisfies our stronger notion of security. In particular, we propose indifferentiability definition and IND-CCA2 definition for a threshold pseudorandom...
Self-Sovereign Identity (SSI) empowers individuals and organizations with full control over their data. Decentralized identifiers (DIDs) are at its center, where a DID contains a collection of public keys associated with an entity, and further information to enable entities to engage via secure and private messaging across different platforms. A crucial stepping stone is DIDComm, a cryptographic communication layer that is in production with version 2. Due to its widespread and active...
Due to the ubiquitous requirements and performance leap in the past decade, it has become feasible to execute garbling and secure computations in settings sensitive to side-channel attacks, including smartphones, IoTs and dedicated hardwares, and the possibilities have been demonstrated by recent works. To maintain security in the presence of a moderate amount of leaked information about internal secrets, we investigate {\it leakage-resilient garbling}. We augment the classical privacy,...
In this work, we examine online authenticated encryption with variable expansion. We follow a notion where both encryption and decryption are online, and security is ensured in the RUP (Release of Unverified Plaintext) setting. Then we propose a generic way of obtaining an online authenticated encryption mode from a tweakable online encryption mode based on the encode-then-encipher paradigm (Bellare and Rogaway, Asiacrypt 2000). To instantiate our generic scheme, we start with proposing a...
The notion of (Receiver-) Anamorphic Encryption was put forth recently to show that a dictator (i.e., an overreaching government), which demands to get the receiver’s private key and even dictates messages to the sender, cannot prevent the receiver from getting an additional covert anamorphic message from a sender. The model required an initial private collaboration to share some secret. There may be settings though where an initial collaboration may be impossible or performance-wise...
The Doubly-Efficient Private Information Retrieval (DEPIR) protocol of Lin, Mook, and Wichs (STOC'23) relies on a Homomorphic Encryption (HE) scheme that is algebraic, i.e., whose ciphertext space has a ring structure that matches the homomorphic operations. While early HE schemes had this property, modern schemes introduced techniques to manage noise growth. This made the resulting schemes much more efficient, but also destroyed the algebraic property. In this work, we study algebraic HE...
The recent works of Ananth et al. (ITCS 2022) and Bartusek et al. (Eurocrypt 2023) initiated the study of pre-constrained cryptography which achieves meaningful security even against the system authority. In this work we significantly expand this area by defining several new primitives and providing constructions from simple, standard assumptions as follows. - Pre-Constrained Encryption. We define a weaker notion of pre-constrained encryption (PCE), as compared to the work of Ananth et...
Passwords are widely adopted for user authentication in practice, which led to the question of whether we can bootstrap a strongly-secure setting based on them. Historically, this has been extensively studied for key exchange; bootstrap from a low-entropy password to a high entropy key securing the communication. Other instances include digital lockers, signatures, secret sharing, and encryption. Motivated by a recent work on consumable tokens (Almashaqbeh et al., Eurocrypt 2022), we...
We give the first construction of non-interactive zero-knowledge (NIZK) arguments from post-quantum assumptions other than Learning with Errors. In particular, we achieve NIZK under the polynomial hardness of the Learning Parity with Noise (LPN) assumption, and the exponential hardness of solving random under-determined multivariate quadratic equations (MQ). We also construct NIZK satisfying statistical zero-knowledge assuming a new variant of LPN, Dense-Sparse LPN, introduced by Dao and...
Functional Encryption (FE) is a powerful notion of encryption which enables computations and partial message recovery of encrypted data. In FE, each decryption key is associated with a function $f$ such that decryption recovers the function evaluation $f(m)$ from an encryption of $m$. Informally, security states that a user with access to function keys $\mathsf{sk}_{f_1}, \mathsf{sk}_{f_2}, \ldots$ (and so on) can only learn $f_1(m), f_2(m), \ldots$ (and so on) but nothing more about the...
In this work, we continue the analysis of the binding properties of implicitly-rejecting key-encapsulation mechanisms (KEMs) obtained via the Fujisaki-Okamoto (FO) transform. These binding properties, in earlier literature known under the term robustness, thwart attacks that can arise when using KEMs in larger protocols. Recently, Cremers et al. (ePrint'24) introduced a framework for binding notions, encompassing previously existing but also new ones. While implicitly-rejecting KEMs have...
Homomorphic Encryption (HE) is a cutting-edge cryptographic technique that enables computations on encrypted data to be mirrored on the original data. This has quickly attracted substantial interest from the research community due to its extensive practical applications, such as in cloud computing and privacy-preserving machine learning. In addition to confidentiality, the importance of authenticity has emerged to ensure data integrity during transmission and evaluation. To address...
Secure sketches are designed to facilitate the recovery of originally enrolled data from inputs that may vary slightly over time. This capability is important in applications where data consistency cannot be guaranteed due to natural variations, such as in biometric systems and hardware security. Traditionally, secure sketches are constructed using error-correcting codes to handle these variations effectively. Additionally, principles of information theory ensure the security of these...
Non-interactive zero-knowledge (NIZK) proofs of knowledge have proven to be highly relevant for securely realizing a wide array of applications that rely on both privacy and correctness. They enable a prover to convince any party of the correctness of a public statement for a secret witness. However, most NIZKs do not natively support proving knowledge of a secret witness that is distributed over multiple provers. Previously, collaborative proofs [51] have been proposed to overcome this...
Side-channel-analysis (SCA) resistance with cost optimization in AES hardware implementations remains a significant challenge. While traditional masking-based schemes offer provable security, they often incur substantial resource overheads (latency, area, randomness, performance, power consumption). Alternatively, the RAMBAM scheme introduced a redundancy-based approach to control the signal-to-noise ratio, and achieves exponential leakage reduction as redundancy increases. This method...
Akavia, Gentry, Halevi, and Vald introduced the security notion of function-chosen-plaintext-attack (FuncCPA security) for public-key encryption schemes. FuncCPA is defined by adding a functional re-encryption oracle to the IND-CPA game. This notion is crucial for secure computation applications where the server is allowed to delegate a part of the computation to the client. Dodis, Halevi, and Wichs introduced a stronger variant called FuncCPA$^+$. They showed FuncCPA$^+$ implies...
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...
Private Stream Aggregation (PSA) allows clients to send encryptions of their private values to an aggregator that is then able to learn the sum of these values but nothing else. It has since found many applications in practice, e.g. for smart metering or federated learning. In 2018, Becker et al. proposed the first lattice-based PSA scheme LaPS (NDSS 2018), with putative post-quantum security, which has subsequently been patented. In this paper, we describe two attacks on LaPS that break the...
The notion of Anamorphic Encryption (Persiano et al. Eurocrypt 2022) aims at establishing private communication against an adversary who can access secret decryption keys and influence the chosen messages. Persiano et al. gave a simple, black-box, rejection sampling-based technique to send anamorphic bits using any IND-CPA secure scheme as underlying PKE. In this paper however we provide evidence that their solution is not as general as claimed: indeed there exists a (contrived yet...
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,...
Blind signature schemes enable a user to obtain a digital signature on a message from a signer without revealing the message itself. Among the most fundamental examples of such a scheme is blind Schnorr, but recent results show that it does not satisfy the standard notion of security against malicious users, One-More Unforgeability (OMUF), as it is vulnerable to the ROS attack. However, blind Schnorr does satisfy the weaker notion of sequential OMUF, in which only one signing session is open...
(Receiver) Anamorphic encryption, introduced by Persiano $ \textit{et al.}$ at Eurocrypt 2022, considers the question of achieving private communication in a world where secret decryption keys are under the control of a dictator. The challenge here is to be able to establish a secret communication channel to exchange covert (i.e. anamorphic) messages on top of some already deployed public key encryption scheme. Over the last few years several works addressed this challenge by showing...
Transitioning from classically to quantum secure key agreement protocols may require to exchange fundamental components, for example, exchanging Diffie-Hellman-like key exchange with a key encapsulation mechanism (KEM). Accordingly, the corresponding security proof can no longer rely on the Diffie-Hellman assumption, thus invalidating the security guarantees. As a consequence, the security properties have to be re-proven under a KEM-based security notion. We initiate the study of the...
Censorship circumvention tools enable clients to access endpoints in a network despite the presence of a censor. Censors use a variety of techniques to identify content they wish to block, including filtering traffic patterns that are characteristic of proxy or circumvention protocols and actively probing potential proxy servers. Circumvention practitioners have developed fully encrypted protocols (FEPs), intended to have traffic that appears indistinguishable from random. A FEP is typically...
Assuming the hardness of LWE and the existence of IO, we construct a public-key encryption scheme that is IND-CCA secure but fails to satisfy even a weak notion of indistinguishability security with respect to selective opening attacks. Prior to our work, such a separation was known only from stronger assumptions such as differing inputs obfuscation (Hofheinz, Rao, and Wichs, PKC 2016). Central to our separation is a new hash family, which may be of independent interest. Specifically,...
We develop a distributed service for generating correlated randomness (e.g. permutations) for multiple parties, where each party’s output is private but publicly verifiable. This service provides users with a low-cost way to play online poker in real-time, without a trusted party. Our service is backed by a committee of compute providers, who run a multi-party computation (MPC) protocol to produce an (identity-based) encrypted permutation of a deck of cards, in an offline phase well ahead...
The problem of minimizing the share size of threshold secret-sharing schemes is a basic research question that has been extensively studied. Ideally, one strives for schemes in which the share size equals the secret size. While this is achievable for large secrets (Shamir, CACM '79), no similar solutions are known for the case of binary, single-bit secrets. Current approaches often rely on so-called ramp secret sharing that achieves a constant share size at the expense of a slight gap...
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...
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...
Masking is a widely adopted countermeasure against side-channel analysis (SCA) that protects cryptographic implementations from information leakage. However, current masking schemes often incur significant overhead in terms of electronic cost. RAMBAM, a recently proposed masking technique that fits elegantly with the AES algorithm, offers ultra-low latency/area by utilizing redundant representations of finite field elements. This paper presents a comprehensive generalization of RAMBAM and...
Web3 applications, such as on-chain games, NFT minting, and leader elections necessitate access to unbiased, unpredictable, and publicly verifiable randomness. Despite its broad use cases and huge demand, there is a notable absence of comprehensive treatments of on-chain verifiable randomness services. To bridge this, we offer an extensive formal analysis of on-chain verifiable randomness services. We present the $first$ formalization of on-chain verifiable randomness in the...
A contingent payment protocol involves two mutually distrustful parties, a buyer and a seller, operating on the same blockchain, and a digital product, whose ownership is not tracked on a blockchain (e.g. a digital book). The buyer holds coins on the blockchain and transfers them to the seller in exchange for the product. However, if the blockchain does not hide transaction details, any observer can learn that a buyer purchased some product from a seller. In this work, we take...
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...
Distributed Point Function (DPF) provides a way for a dealer to split a point function $f_{\alpha, \beta}$ into multiple succinctly described function-shares, where the function $f_{\alpha, \beta}$ for a special input $\alpha$, returns a special output value $\beta$, and returns a fixed value $0$ otherwise. As the security requirement, any strict subset of the function-shares reveals nothing about the function $f_{\alpha,\beta}$. However, each function-share can be individually evaluated on...
Message Authentication Codes (MACs) are ubiquitous primitives deployed in multiple flavors through standards such as HMAC, CMAC, GMAC, LightMAC, and many others. Its versatility makes it an essential building block in applications necessitating message authentication and integrity checks, in authentication protocols, authenticated encryption schemes, or as a pseudorandom or key derivation function. Its usage in this variety of settings makes it susceptible to a broad range of attack...
Vote-by-mail is increasingly used in Europe and worldwide for government elections. Nevertheless, very few attempts have been made towards the design of verifiable vote-by-mail, and none of them come with a rigorous security analysis. Furthermore, the ballot privacy of the currently deployed (non-verifiable) vote-by-mail systems relies on procedural means that a single malicious operator can bypass. We propose a verifiable vote-by-mail system that can accommodate the constraints of many...
End-to-End (E2E) encrypted messaging, which prevents even the service provider from learning communication contents, is gaining popularity. Since users care about maintaining access to their data even if their devices are lost or broken or just replaced, these systems are often paired with cloud backup solutions: Typically, the user will encrypt their messages with a fixed key, and upload the ciphertexts to the server. Unfortunately, this naive solution has many drawbacks. First, it often...