2017-11-22 20:57:00 -08:00
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//! Jubjub is an elliptic curve defined over the BLS12-381 scalar field, Fr.
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//! It is a Montgomery curve that takes the form `y^2 = x^3 + Ax^2 + x` where
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//! `A = 40962`. This is the smallest integer choice of A such that:
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//!
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//! * `(A - 2) / 4` is a small integer (`10240`).
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//! * `A^2 - 4` is quadratic residue.
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//! * The group order of the curve and its quadratic twist has a large prime factor.
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//!
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//! Jubjub has `s = 0x0e7db4ea6533afa906673b0101343b00a6682093ccc81082d0970e5ed6f72cb7`
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//! as the prime subgroup order, with cofactor 8. (The twist has cofactor 4.)
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//!
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//! This curve is birationally equivalent to a twisted Edwards curve of the
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//! form `-x^2 + y^2 = 1 + dx^2y^2` with `d = -(10240/10241)`. In fact, this equivalence
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//! forms a group isomorphism, so points can be freely converted between the Montgomery
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//! and twisted Edwards forms.
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use pairing::{
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Engine,
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2017-12-14 10:34:57 -08:00
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Field,
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2017-12-11 22:06:05 -08:00
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PrimeField,
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SqrtField
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2017-11-22 20:57:00 -08:00
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};
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2017-12-28 10:06:05 -08:00
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use super::group_hash::group_hash;
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2017-11-22 20:57:00 -08:00
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use pairing::bls12_381::{
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Bls12,
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Fr
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};
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pub mod edwards;
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pub mod montgomery;
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2017-12-11 22:06:05 -08:00
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#[cfg(test)]
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pub mod tests;
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2018-03-05 15:00:04 -08:00
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/// Fixed generators of the Jubjub curve of unknown
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/// exponent.
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#[derive(Copy, Clone)]
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pub enum FixedGenerators {
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/// The prover will demonstrate knowledge of discrete log
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/// with respect to this base when they are constructing
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/// a proof, in order to authorize proof construction.
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ProvingPublicKey = 0,
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/// The note commitment is randomized over this generator.
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NoteCommitmentRandomness = 1,
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/// The node commitment is randomized again by the position
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/// in order to supply the nullifier computation with a
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/// unique input w.r.t. the note being spent, to prevent
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/// Faerie gold attacks.
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NullifierPosition = 2,
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/// The value commitment is used to check balance between
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/// inputs and outputs. The value is placed over this
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/// generator.
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ValueCommitmentValue = 3,
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/// The value commitment is randomized over this generator,
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/// for privacy.
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ValueCommitmentRandomness = 4,
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/// The spender proves discrete log with respect to this
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/// base at spend time.
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SpendingKeyGenerator = 5,
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Max = 6
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}
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/// This is an extension to the pairing Engine trait which
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/// offers a scalar field for the embedded curve (Jubjub)
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/// and some pre-computed parameters.
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2017-12-11 22:06:05 -08:00
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pub trait JubjubEngine: Engine {
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type Fs: PrimeField + SqrtField;
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type Params: JubjubParams<Self>;
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}
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2017-11-22 20:57:00 -08:00
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2018-03-05 15:00:04 -08:00
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/// The pre-computed parameters for Jubjub, including curve
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/// constants and various limits and window tables.
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2017-12-11 22:06:05 -08:00
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pub trait JubjubParams<E: JubjubEngine>: Sized {
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2018-03-05 15:00:04 -08:00
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/// The `d` constant of the twisted Edwards curve.
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2017-12-11 22:06:05 -08:00
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fn edwards_d(&self) -> &E::Fr;
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2018-03-05 15:00:04 -08:00
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/// The `A` constant of the birationally equivalent Montgomery curve.
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fn montgomery_a(&self) -> &E::Fr;
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/// The `A` constant, doubled.
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fn montgomery_2a(&self) -> &E::Fr;
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/// The scaling factor used for conversion from the Montgomery form.
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2017-12-11 22:06:05 -08:00
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fn scale(&self) -> &E::Fr;
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2018-03-05 15:00:04 -08:00
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/// Returns the generators (for each segment) used in all Pedersen commitments.
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2017-12-28 10:06:05 -08:00
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fn pedersen_hash_generators(&self) -> &[edwards::Point<E, PrimeOrder>];
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2018-03-05 15:00:04 -08:00
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/// Returns the maximum number of chunks per segment of the Pedersen hash.
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2017-12-28 10:06:05 -08:00
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fn pedersen_hash_chunks_per_generator(&self) -> usize;
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2018-03-05 15:00:04 -08:00
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/// Returns the pre-computed window tables [-4, 3, 2, 1, 1, 2, 3, 4] of different
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/// magnitudes of the Pedersen hash segment generators.
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2017-12-28 10:06:05 -08:00
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fn pedersen_circuit_generators(&self) -> &[Vec<Vec<(E::Fr, E::Fr)>>];
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2018-02-06 10:08:17 -08:00
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2018-03-05 15:00:04 -08:00
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/// Returns the number of chunks needed to represent a full scalar during fixed-base
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/// exponentiation.
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2018-02-06 10:08:17 -08:00
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fn fixed_base_chunks_per_generator(&self) -> usize;
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2018-03-05 15:00:04 -08:00
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/// Returns a fixed generator.
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2018-02-07 12:33:09 -08:00
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fn generator(&self, base: FixedGenerators) -> &edwards::Point<E, PrimeOrder>;
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2018-03-05 15:00:04 -08:00
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/// Returns a window table [0, 1, ..., 8] for different magntitudes of some
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/// fixed generator.
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2018-02-07 12:33:09 -08:00
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fn circuit_generators(&self, FixedGenerators) -> &[Vec<(E::Fr, E::Fr)>];
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2017-11-22 20:57:00 -08:00
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}
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2018-03-05 15:00:04 -08:00
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/// Point of unknown order.
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2017-11-22 20:57:00 -08:00
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pub enum Unknown { }
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2018-03-05 15:00:04 -08:00
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/// Point of prime order.
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2017-11-22 20:57:00 -08:00
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pub enum PrimeOrder { }
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2017-12-11 22:06:05 -08:00
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pub mod fs;
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impl JubjubEngine for Bls12 {
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type Fs = self::fs::Fs;
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type Params = JubjubBls12;
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}
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pub struct JubjubBls12 {
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edwards_d: Fr,
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montgomery_a: Fr,
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montgomery_2a: Fr,
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scale: Fr,
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2018-02-06 10:08:17 -08:00
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2017-12-28 10:06:05 -08:00
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pedersen_hash_generators: Vec<edwards::Point<Bls12, PrimeOrder>>,
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2018-02-06 10:08:17 -08:00
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pedersen_circuit_generators: Vec<Vec<Vec<(Fr, Fr)>>>,
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fixed_base_generators: Vec<edwards::Point<Bls12, PrimeOrder>>,
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fixed_base_circuit_generators: Vec<Vec<Vec<(Fr, Fr)>>>,
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2017-12-11 22:06:05 -08:00
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}
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impl JubjubParams<Bls12> for JubjubBls12 {
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fn edwards_d(&self) -> &Fr { &self.edwards_d }
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fn montgomery_a(&self) -> &Fr { &self.montgomery_a }
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2017-12-14 10:34:57 -08:00
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fn montgomery_2a(&self) -> &Fr { &self.montgomery_2a }
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2017-12-11 22:06:05 -08:00
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fn scale(&self) -> &Fr { &self.scale }
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2017-12-28 10:06:05 -08:00
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fn pedersen_hash_generators(&self) -> &[edwards::Point<Bls12, PrimeOrder>] {
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&self.pedersen_hash_generators
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}
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fn pedersen_hash_chunks_per_generator(&self) -> usize {
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2018-02-11 11:59:57 -08:00
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63
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2017-12-28 10:06:05 -08:00
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}
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2018-02-06 10:08:17 -08:00
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fn fixed_base_chunks_per_generator(&self) -> usize {
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84
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}
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2017-12-28 10:06:05 -08:00
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fn pedersen_circuit_generators(&self) -> &[Vec<Vec<(Fr, Fr)>>] {
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&self.pedersen_circuit_generators
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}
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2018-02-07 12:33:09 -08:00
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fn generator(&self, base: FixedGenerators) -> &edwards::Point<Bls12, PrimeOrder>
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{
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&self.fixed_base_generators[base as usize]
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}
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fn circuit_generators(&self, base: FixedGenerators) -> &[Vec<(Fr, Fr)>]
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{
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&self.fixed_base_circuit_generators[base as usize][..]
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}
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2017-12-11 22:06:05 -08:00
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}
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impl JubjubBls12 {
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2017-11-22 20:57:00 -08:00
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pub fn new() -> Self {
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2017-12-14 10:34:57 -08:00
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let montgomery_a = Fr::from_str("40962").unwrap();
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let mut montgomery_2a = montgomery_a;
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montgomery_2a.double();
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2017-12-28 10:06:05 -08:00
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let mut tmp = JubjubBls12 {
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2017-11-22 20:57:00 -08:00
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// d = -(10240/10241)
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edwards_d: Fr::from_str("19257038036680949359750312669786877991949435402254120286184196891950884077233").unwrap(),
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// A = 40962
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2017-12-14 10:34:57 -08:00
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montgomery_a: montgomery_a,
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// 2A = 2.A
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montgomery_2a: montgomery_2a,
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2017-11-22 20:57:00 -08:00
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// scaling factor = sqrt(4 / (a - d))
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2017-12-28 10:06:05 -08:00
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scale: Fr::from_str("17814886934372412843466061268024708274627479829237077604635722030778476050649").unwrap(),
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pedersen_hash_generators: vec![],
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2018-02-06 10:08:17 -08:00
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pedersen_circuit_generators: vec![],
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fixed_base_generators: vec![],
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fixed_base_circuit_generators: vec![],
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2017-12-28 10:06:05 -08:00
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};
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2018-02-06 10:08:17 -08:00
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// Create the bases for the Pedersen hashes
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2017-12-28 10:06:05 -08:00
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{
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let mut cur = 0;
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let mut pedersen_hash_generators = vec![];
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while pedersen_hash_generators.len() < 10 {
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let gh = group_hash(&[cur], &tmp);
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2018-01-29 07:56:58 -08:00
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// We don't want to overflow and start reusing generators
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assert!(cur != u8::max_value());
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2017-12-28 10:06:05 -08:00
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cur += 1;
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if let Some(gh) = gh {
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2018-01-29 07:56:58 -08:00
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pedersen_hash_generators.push(gh);
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2017-12-28 10:06:05 -08:00
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}
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}
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tmp.pedersen_hash_generators = pedersen_hash_generators;
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2017-11-22 20:57:00 -08:00
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}
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2017-12-28 10:06:05 -08:00
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2018-02-06 10:08:17 -08:00
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// Create the bases for other parts of the protocol
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{
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let mut cur = 0;
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let mut fixed_base_generators = vec![];
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while fixed_base_generators.len() < (FixedGenerators::Max as usize) {
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let gh = group_hash(&[cur], &tmp);
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// We don't want to overflow and start reusing generators
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assert!(cur != u8::max_value());
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cur += 1;
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if let Some(gh) = gh {
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fixed_base_generators.push(gh);
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}
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}
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tmp.fixed_base_generators = fixed_base_generators;
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}
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// Create the 2-bit window table lookups for each 4-bit
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// "chunk" in each segment of the Pedersen hash
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2017-12-28 10:06:05 -08:00
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{
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let mut pedersen_circuit_generators = vec![];
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for mut gen in tmp.pedersen_hash_generators.iter().cloned() {
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let mut gen = montgomery::Point::from_edwards(&gen, &tmp);
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let mut windows = vec![];
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for _ in 0..tmp.pedersen_hash_chunks_per_generator() {
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let mut coeffs = vec![];
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let mut g = gen.clone();
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for _ in 0..4 {
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coeffs.push(g.into_xy().expect("cannot produce O"));
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g = g.add(&gen, &tmp);
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}
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windows.push(coeffs);
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for _ in 0..4 {
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gen = gen.double(&tmp);
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}
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}
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pedersen_circuit_generators.push(windows);
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}
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tmp.pedersen_circuit_generators = pedersen_circuit_generators;
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}
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2018-02-06 10:08:17 -08:00
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// Create the 3-bit window table lookups for fixed-base
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// exp of each base in the protocol.
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{
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let mut fixed_base_circuit_generators = vec![];
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for mut gen in tmp.fixed_base_generators.iter().cloned() {
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let mut windows = vec![];
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for _ in 0..tmp.fixed_base_chunks_per_generator() {
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let mut coeffs = vec![(Fr::zero(), Fr::one())];
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let mut g = gen.clone();
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for _ in 0..7 {
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coeffs.push(g.into_xy());
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g = g.add(&gen, &tmp);
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}
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windows.push(coeffs);
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gen = g;
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}
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fixed_base_circuit_generators.push(windows);
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}
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tmp.fixed_base_circuit_generators = fixed_base_circuit_generators;
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}
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2017-12-28 10:06:05 -08:00
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tmp
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2017-11-22 20:57:00 -08:00
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}
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}
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2017-12-11 22:06:05 -08:00
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#[test]
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fn test_jubjub_bls12() {
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let params = JubjubBls12::new();
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2017-11-22 20:57:00 -08:00
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2017-12-11 22:06:05 -08:00
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tests::test_suite::<Bls12>(¶ms);
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2018-02-24 13:11:01 -08:00
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let test_repr = hex!("b9481dd1103b7d1f8578078eb429d3c476472f53e88c0eaefdf51334c7c8b98c");
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let p = edwards::Point::<Bls12, _>::read(&test_repr[..], ¶ms).unwrap();
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let q = edwards::Point::<Bls12, _>::get_for_y(
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Fr::from_str("22440861827555040311190986994816762244378363690614952020532787748720529117853").unwrap(),
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false,
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¶ms
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).unwrap();
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assert!(p == q);
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2017-11-22 20:57:00 -08:00
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}
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