# double-ratchet-2 ![[crate](https://crates.io/crates/double-ratchet-2)](https://img.shields.io/crates/v/double-ratchet-2) Implementation of the double ratchet system/encryption as specified by [Signal][1]. The implementation follows the cryptographic recommendations provided by [Signal][2]. The AEAD Algorithm uses a constant Nonce. This might be changed in the future. ## Example Usage: ### Standard: ```rust use double_ratchet_2::ratchet::Ratchet; let sk = [1; 32]; // Initial Key created by a symmetric key agreement protocol let (mut bob_ratchet, public_key) = Ratchet::init_bob(sk); // Creating Bobs Ratchet (returns Bobs PublicKey) let mut alice_ratchet = Ratchet::init_alice(sk, public_key); // Creating Alice Ratchet with Bobs PublicKey let data = b"Hello World".to_vec(); // Data to be encrypted let (header, encrypted) = alice_ratchet.ratchet_encrypt(&data); // Encrypting message with Alice Ratchet (Alice always needs to send the first message) let decrypted = bob_ratchet.ratchet_decrypt(&header, &encrypted); // Decrypt message with Bobs Ratchet assert_eq!(data, decrypted) ``` ### With lost message: ```rust let sk = [1; 32]; // Initial Key created by a symmetric key agreement protocol let (mut bob_ratchet, public_key) = Ratchet::init_bob(sk); // Creating Bobs Ratchet (returns Bobs PublicKey) let mut alice_ratchet = Ratchet::init_alice(sk, public_key); // Creating Alice Ratchet with Bobs PublicKey let data = b"Hello World".to_vec(); // Data to be encrypted let (header1, encrypted1) = alice_ratchet.ratchet_encrypt(&data); // Lost message let (header2, encrypted2) = alice_ratchet.ratchet_encrypt(&data); // Successful message let decrypted2 = bob_ratchet.ratchet_decrypt(&header2, &encrypted2); // Decrypting second message first let decrypted1 = bob_ratchet.ratchet_decrypt(&header1, &encrypted1); // Decrypting latter message let comp = decrypted1 == data && decrypted2 == data; assert!(comp); ``` ### Encryption before recieving inital message ```rust use double_ratchet_2::ratchet::Ratchet; let sk = [1; 32]; let (mut bob_ratchet, _) = Ratchet::init_bob(sk); let data = b"Hello World".to_vec(); let (_, _) = bob_ratchet.ratchet_encrypt(&data); ``` ### Encryption after recieving initial message However bob can (of course) also encrypt messages. This is possible, after decrypting the first message from alice. ```rust use double_ratchet_2::ratchet::Ratchet; let sk = [1; 32]; let (mut bob_ratchet, public_key) = Ratchet::init_bob(sk); let mut alice_ratchet = Ratchet::init_alice(sk, public_key); let data = b"Hello World".to_vec(); let (header1, encrypted1) = alice_ratchet.ratchet_encrypt(&data); let _decrypted1 = bob_ratchet.ratchet_decrypt(&header1, &encrypted1); let (header2, encrypted2) = bob_ratchet.ratchet_encrypt(&data); let decrypted2 = alice_ratchet.ratchet_decrypt(&header2, &encrypted2); assert_eq!(data, decrypted2); ``` ### Constructing and Deconstructing Headers ```rust let header_bytes: Vec = header.clone().into(); let header_const = Header::from(header_bytes); assert_eq!(header, header_const); ``` ## Features Currently the crate only supports one feature: ring. If feature is enabled the crate switches to ring-compat and uses ring as backend for Sha512 Hashing. May result in slightly better performance. TODO: - [x] Standard Double Ratchet - [ ] [Double Ratchet with encrypted headers][3] [1]: https://signal.org/docs/specifications/doubleratchet/ [2]: https://signal.org/docs/specifications/doubleratchet/#recommended-cryptographic-algorithms [3]: https://signal.org/docs/specifications/doubleratchet/#double-ratchet-with-header-encryption