Noise Protocol Framework.

A composable framework by Trevor Perrin for building modern, formally analyzable secure channel protocols out of Diffie-Hellman, HKDF, and AEAD — the cryptographic core of WireGuard, Signal's I/O Pipe, and many newer protocols. Pertenece a la categoría de Criptografía en ciberseguridad.

A composable framework by Trevor Perrin for building modern, formally analyzable secure channel protocols out of Diffie-Hellman, HKDF, and AEAD — the cryptographic core of WireGuard, Signal's I/O Pipe, and many newer protocols.

The Noise Protocol Framework, designed by Trevor Perrin and now standardized at noiseprotocol.org, is a meta-spec for building secure-channel handshakes from a small, well-understood set of primitives: an elliptic-curve Diffie-Hellman function (typically X25519), a hash (typically SHA-256 or BLAKE2s), an AEAD (typically AES-GCM or ChaCha20-Poly1305), and HKDF-style symmetric mixing. A Noise protocol is identified by a pattern (e.g. `Noise_IK_25519_ChaChaPoly_BLAKE2s`) describing exactly which handshake messages flow in which direction and which pre-shared knowledge each side starts with. Standard patterns cover one-way (`N`), interactive (`XX`, `IK`, `XK`, `NK`), and post-quantum hybrid variants. Noise is the cryptographic core of WireGuard (`Noise_IK_25519_ChaChaPoly_BLAKE2s`), Signal's I/O Pipe, the Lightning Network's BOLT-8, and many newer protocols that want modern, formally analyzable handshakes without inventing custom cryptography. Formal verification work (Bhargavan et al., Donenfeld) and the framework's design constraints make it a popular choice when TLS is too heavy or too flexible.

Las defensas contra Noise Protocol Framework combinan habitualmente controles técnicos y prácticas operativas, como se detalla en la definición.

Nombres alternativos comunes: Noise framework, Noise handshake.