Subversion-resilient authenticated encryption without random oracles
From MaRDI portal
Publication:6535130
DOI10.1007/978-3-031-33491-7_17zbMath1540.94059MaRDI QIDQ6535130
Thomas Eisenbarth, Sebastian Berndt, Denis Diemert, Tibor Jager, Pascal Bemmann
Publication date: 10 November 2023
Cites Work
- Unnamed Item
- Authenticated encryption: relations among notions and analysis of the generic composition paradigm
- New hash functions and their use in authentication and set equality
- Synthesizers and their application to the parallel construction of pseudo-random functions
- Correcting subverted random oracles
- Combiners for backdoored random oracles
- Subversion-resilient public key encryption with practical watchdogs
- Reverse firewalls for actively secure MPCs
- Towards defeating backdoored random oracles: indifferentiability with bounded adaptivity
- Universally composable subversion-resilient cryptography
- Subverting decryption in AEAD
- Let a non-barking watchdog bite: cliptographic signatures with an offline watchdog
- Public immunization against complete subversion without random oracles
- Message Transmission with Reverse Firewalls—Secure Communication on Corrupted Machines
- Security of Symmetric Encryption against Mass Surveillance
- A More Cautious Approach to Security Against Mass Surveillance
- A Formal Treatment of Backdoored Pseudorandom Generators
- Cryptographic Reverse Firewalls
- Cliptography: Clipping the Power of Kleptographic Attacks
- Cryptographic Reverse Firewall via Malleable Smooth Projective Hash Functions
- On the Cryptographic Applications of Random Functions (Extended Abstract)
- The Dark Side of “Black-Box” Cryptography or: Should We Trust Capstone?
- Basing PRFs on Constant-Query Weak PRFs: Minimizing Assumptions for Efficient Symmetric Cryptography
- A Security Analysis of the NIST SP 800-90 Elliptic Curve Random Number Generator
- Pseudorandom Functions: Three Decades Later
- A Fast and Key-Efficient Reduction of Chosen-Ciphertext to Known-Plaintext Security
- Crooked indifferentiability of enveloped XOR revisited
This page was built for publication: Subversion-resilient authenticated encryption without random oracles
