# Nofuture-Buddy-Go-Memguard Web application for ephemeral encryption of texts. Paring the sessions with an interlocutor permets encryption/decryption of conversations via an external realtime communication applications. Technical Analysis: Nofuture Core Security Features: Uses memguard for secure memory management Implements curve25519 for public-key cryptography Employs NaCl's box encryption for message security Utilizes secure session management with random IDs Implements CORS protection with proper headers Key Security Components: a) Memory Protection: memguard.CatchInterrupt() defer memguard.Purge() This ensures sensitive data is wiped from memory when the program terminates or receives an interrupt signal. b) Session Management: Private keys are stored in memguard.LockedBuffer Public keys are stored as regular bytes Sessions are managed in a thread-safe sync.Map Session IDs use cryptographically secure random generation c) Encryption Process: Uses X25519 for key exchange Implements box.Seal for authenticated encryption Uses random nonces for each encryption Zero-copy buffer handling for sensitive data Virtual Keyboard Security Features: Randomized key layout on each activation Right-click secondary character access Drag-and-drop positioning Memory-safe input handling Protection against keyloggers Security Assessment: The application provides strong protection against: RAM-based attacks: Protected by memguard's secure memory allocation Keys are automatically wiped from memory No sensitive data in regular heap memory Protected against cold boot attacks Network-based threats: All API endpoints use HTTPS Proper CORS implementation Input validation on all endpoints Session-based authentication Keylogging protection: Virtual keyboard bypasses system keyboard Randomized layout prevents pattern analysis No physical key events to intercept Protection against both software and hardware keyloggers Malware resistance: The combination of memguard protection and the virtual keyboard makes it extremely difficult for malware to capture sensitive data because: Encryption keys are never exposed in regular memory Virtual keyboard prevents keylogging Screen recording is ineffective due to randomized layouts Memory is actively protected against dumping attempts Overall Security Assessment: The application provides robust protection against both memory-based attacks and network-based threats. The use of memguard for memory protection, combined with the virtual keyboard's anti-keylogging features, creates multiple layers of security that make it extremely difficult for malware or spyware to capture sensitive data.