cispa / osirisLinks
Proof-of-concept implementation for the paper "Osiris: Automated Discovery of Microarchitectural Side Channels" (USENIX Security'21)
☆58Updated last month
Alternatives and similar repositories for osiris
Users that are interested in osiris are comparing it to the libraries listed below
Sorting:
- A tool for detecting Spectre vulnerabilities through fuzzing☆43Updated 3 years ago
- Microarchitectural attack development frameworks for prototyping attacks in native code (C, C++, ASM) and in the browser☆61Updated 2 years ago
- Fuzzer that searches for vulnerabilities like Spectre and Meltdown in CPUs☆42Updated 2 years ago
- Tool for testing and finding minimal eviction sets☆104Updated 4 years ago
- ☆26Updated last year
- Microarchitectural exploitation and other hardware attacks.☆92Updated last year
- Kasper: Scanning for Generalized Transient Execution Gadgets in the Linux Kernel☆58Updated last year
- Medusa Repository: Transynther tool and Medusa Attack☆23Updated 5 years ago
- Constantine is a compiler-based system to automatically harden programs against microarchitectural side channels☆74Updated 2 years ago
- Artifact evaluation of paper: MorFuzz: Fuzzing Processor via Runtime Instruction Morphing enhanced Synchronizable Co-simulation☆30Updated 3 months ago
- ☆90Updated last year
- Pre-Silicon Hardware Fuzzing Toolkit☆58Updated last month
- Revizor - a fuzzer to search for microarchitectural leaks in CPUs☆156Updated last week
- ☆45Updated 6 years ago
- Tool to Analyze Speculative Execution Attacks and Mitigations☆55Updated 3 years ago
- Medusa Repository: Transynther tool and Medusa Attack☆19Updated 5 years ago
- ☆85Updated 2 years ago
- Proof-of-concept code for the SMoTherSpectre exploit.☆75Updated 5 years ago
- This repository contains several tools to perform Prefetch Side-Channel Attacks☆59Updated 8 years ago
- ☆39Updated 2 years ago
- oo7, a binary analysis tool to defend against Spectre vulnerabilities☆32Updated 4 years ago
- Open-source release of "Last-Level Cache Side-Channel Attacks Are Feasible in the Modern Public Cloud" (ASPLOS '24)