A Noir library for Exponential ElGamal Encryption on the Baby Jubjub curve.
To interact with it in a front-end or via Node JS install the accompanying npm package babyjubjub-utils. This is especially useful if you want to fully decrypt a ciphertext to its original integer format.
Alternatively, you could also use the even faster accompanying Rust crate babygiant-alt-bn128, but it is not usable directly in a front-end. The npm package converts the Rust code to WASM and uses Web Workers for increased efficiency under the hood.
In your Nargo.toml
file, add the following dependency:
[dependencies]
noir_elgamal = { tag = "v0.2.0", git = "https://github.com/jat9292/noir-elgamal" }
/// This function checks that a point is in the big prime subgroup of the Baby Jubjub curve.
/// It is used to check that a public key is valid.
pub fn is_valid_subgroup(point: Gaffine) -> bool
/// This function converts a private key to a public key, which is a point on the Baby Jubjub curve.
/// The private key is a Field element which should be sampled uniformly between 0 and bjj_l-1, where bjj_l is the order of the big prime subgroup of Baby Jubjub.
/// Baby Jubjub parameters in affine representation are defined as in ERC-244.
pub fn priv_to_pub_key(private_key: Field) -> Gaffine
/// Exponential ElGamal Encryption on Baby Jubjub, plaintext is restricted to u40 as the last step of decryption requires solving the Discrete Logarithm Problem.
/// The randomness parameter should be sampled uniformly between 0 and bjj_l-1 and NEVER reused. bjj_l is the order of the big prime subgroup of Baby Jubjub.
/// Same notations as in https://en.wikipedia.org/wiki/ElGamal_encryption
/// The public_key point passed as an argument must correspond to a valid public key, i.e an element of the Baby Jubjub curve
pub fn exp_elgamal_encrypt(public_key: Gaffine, plaintext: u40, randomness: Field) -> (Gaffine,Gaffine)
/// Exponential ElGamal Decryption on Baby Jubjub, the returned point is an embedding of the plaintext on the curve,
/// so to fully decrypt it, use the Baby-Step Giant-Step implementations in Rust or in JS/WASM which accompany this package.
/// Warning : ciphertext is supposed to be valid (i.e results from an encryption of a u40 with a valid Public Key via `exp_elgamal_encrypt`).
pub fn exp_elgamal_decrypt(private_key : Field, ciphertext: (Gaffine,Gaffine)) -> Gaffine
/// This function converts the orginal public key to its compressed form, i.e from a point on Baby Jubjub to a bytes32.
/// This matches circomlibjs from here: https://github.com/iden3/circomlibjs/blob/4f094c5be05c1f0210924a3ab204d8fd8da69f49/src/babyjub.js#L97
/// The public_key point passed as an argument must correspond to a valid public key, i.e an element of the Baby Jubjub curve.
pub fn pack_point(public_key: Gaffine) -> [u8;32] {
/// This function converts back the compressed public key to its original form, i.e from a bytes32 to a point on Baby Jubjub
/// This matches circomlibjs from here: https://github.com/iden3/circomlibjs/blob/4f094c5be05c1f0210924a3ab204d8fd8da69f49/src/babyjub.js#L108
/// The packed_public_key array passed as an argument must correspond to a valid public key, i.e an element of the Baby Jubjub curve
pub fn unpack_point(public_key: [u8; 32]) -> Gaffine
/// Same as exp_elgamal_encrypt but instead of an upacked public_key, takes directly the packed public key as an argument
/// Saves gates because the validity of the public key is checked only once instead of twice (1st when using unpack_point and 2nd in exp_elgamal_encrypt)
pub fn exp_elgamal_encrypt_packed(packed_public_key: [u8; 32], plaintext: u40, randomness: Field) -> (Gaffine,Gaffine)
This is experimental software and is provided on an "as is" and "as available" basis. We do not give any warranties and will not be liable for any losses incurred through any use of this code base.