Fingerprint is a visitor identification and fraud detection platform that generates persistent, unique identifiers by analyzing browser and device attributes. By extracting technical signals from the client environment, it enables reliable user tracking across sessions without relying on traditional cookies. The platform distinguishes itself through its focus on high-accuracy identification and security-first architecture. It employs edge-side proxying to bypass ad-blockers and privacy restrictions, ensuring consistent data collection. To maintain data integrity, it uses cryptographic payload
MyIP is a network diagnostics toolbox designed for analyzing public IP addresses, geolocation, and network connectivity performance. It provides utilities for identifying IPv4 and IPv6 addresses and analyzing their associated organization, ASN, and geographic details. The project features specialized privacy and security tools, including a network leak tester to detect DNS and WebRTC leaks used to verify VPN or proxy configurations. It also includes a browser fingerprint analyzer that generates unique client identifiers to audit how device attributes are used for online tracking. The platfor
This project is a mobile network security auditor and IMSI catcher detector designed to identify fake base stations and surveillance hardware attempting to intercept mobile traffic. It functions as a radio interface analyzer and cellular tower mapping tool, monitoring connections to detect unauthorized network infrastructure. The system distinguishes itself by combining real-time threat level monitoring with the ability to identify silent SMS and stealth communications used for device tracking. It analyzes ciphering status to detect forced network downgrades to weaker encryption standards and
Storm-Breaker is a browser-based surveillance toolkit designed to silently capture sensor data from visitors without their knowledge or consent. It combines device fingerprinting, network-based geolocation tracking, and WebRTC exploitation to access a remote device’s camera, microphone, and system information without triggering native permission prompts. The toolkit achieves this by leveraging legacy browser APIs and network-based geolocation (IP, Wi-Fi) that do not require explicit user permission. It abuses WebRTC and media stream APIs to activate camera and microphone streams, while also c