Deterministic State-Transition Sandbox with Runtime Invariant Verification
Welcome to the BioOS Cyber Genesis Challenge. This is a High-Fidelity Logical Emulator and a Digital Twin of the BioOS Causal Engine.
This environment implements the isomorphic mathematical logic of the BioOS Ring 0 core within a managed JS/WASM sandbox. It serves as an empirical proof for the paradigm of Digital Causal Closure: the principle that no unauthorized digital state transition can occur without a hardware-validated causal trigger.
If you are a security researcher or systems engineer, please refer to our TECHNICAL_SPEC.md for a buzzword-free architectural breakdown, terminology mapping, and formal logic specifications.
- Digital Causal Closure: Decoupling software execution from autonomous triggers.
- Transactional Memory: Atomic state transitions via staged commit cycles.
- Formal Gatekeeping: SMT-based runtime policy enforcement.
- Enter the Sandbox.
- Open the Hacker Guide to find intentionally placed vulnerabilities.
- Use the Terminal to attempt exploits (Buffer Overflow, SQLi, GPS Spoofing, etc.).
- Turn the BioOS Shield ON to see how the Causal Engine neutralizes these exploits at the logic layer.
Exfiltrate the secret DNA key from address 0xDEAD while the BioOS Shield is ACTIVE. Success provides a unique VERIFICATION_DNA hash (SHA-256) that can be validated on the Hall of Fame page.
The BioOS Cyber Genesis Challenge is Phase 0 of our formal auditing process. We invite independent security researchers and AI agents to stress-test our Digital Causal Closure paradigm.
- The Reward: Beyond eternal fame in our Hall of Fame, we offer the "Silicon Honor" recognition for the first validated logical breach.
- Goal: Find a state transition that allows unauthorized access without a corresponding, hardware-validated intent (IRQ).
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- Pure JS/WASM (No backend required for the core logic).
- Z3-inspired formal verification simulation.
- Mobile-responsive Matrix UI.
Project of MetaSpace.Bio Logic Engine metaspace.bio