Add Grumpkin support for arkworks (#174)

Co-authored-by: Pratyush Mishra <pratyushmishra@berkeley.edu>
1 year ago · 4d1e504025
18 changed files with 341 additions and 0 deletions
--- a/Cargo.toml
+++ b/Cargo.toml
@ -20,6 +20,7 @@ members = [

    "bn254",
    "ed_on_bn254",
    "grumpkin",

    "mnt4_298",
    "mnt6_298",
--- a/README.md
+++ b/README.md
@ -20,6 +20,7 @@ This repository contains implementations of some popular elliptic curves. The cu
 ### BN254 and related curves
 * [`ark-bn254`](bn254): Implements the BN254 pairing-friendly curve
 * [`ark-ed-on-bn254`](ed_on_bn254): Implements a Twisted Edwards curve atop the scalar field of BN254
 * [`ark-grumpkin`](grumpkin): Implements the Grumpkin curve. A curve that forms a cycle with bn254.

 ### MNT-298 cycle of curves and related curves
 * [`ark-mnt4-298`](mnt4_298): Implements the MNT4-298 pairing-friendly curve. This curve forms a pairing-friendly cycle with MNT6-298
--- a/grumpkin/Cargo.toml
+++ b/grumpkin/Cargo.toml
@ -0,0 +1,37 @@
 [package]
 name = "ark-grumpkin"
 version = "0.4.0"
 authors = [ "CPerezz", "arkworks contributors" ]
 description = "The Grumpkin prime-order elliptic curve"
 homepage = "https://arkworks.rs"
 repository = "https://github.com/arkworks-rs/curves"
 documentation = "https://docs.rs/ark-grumpkin/"
 keywords = ["cryptography", "finite-fields", "elliptic-curves" ]
 categories = ["cryptography"]
 include = ["Cargo.toml", "src"]
 license = "MIT/Apache-2.0"
 edition = "2021"

 [dependencies]
 ark-ff = { version = "0.4.0", default-features = false }
 ark-ec = { version = "0.4.0", default-features = false }
 ark-r1cs-std = { version = "0.4.0", default-features = false, optional = true }
 ark-std = { version = "0.4.0", default-features = false }
 ark-bn254 = { version = "0.4.0", path = "../bn254", default-features = false, features = [ "scalar_field", "curve" ] }

 [dev-dependencies]
 ark-relations = { version = "0.4.0", default-features = false }
 ark-serialize = { version = "0.4.0", default-features = false }
 ark-algebra-test-templates = { version = "0.4.0", default-features = false }
 ark-algebra-bench-templates = { version = "0.4.0", default-features = false }
 ark-curve-constraint-tests = { path = "../curve-constraint-tests", default-features = false }

 [features]
 default = []
 std = [ "ark-std/std", "ark-ff/std", "ark-ec/std" ]
 r1cs = [ "ark-r1cs-std" ]

 [[bench]]
 name = "grumpkin"
 path = "benches/grumpkin.rs"
 harness = false
--- a/grumpkin/LICENSE-APACHE
+++ b/grumpkin/LICENSE-APACHE
@ -0,0 +1 @@
 ../LICENSE-APACHE
--- a/grumpkin/LICENSE-MIT
+++ b/grumpkin/LICENSE-MIT
@ -0,0 +1 @@
 ../LICENSE-MIT
--- a/grumpkin/benches/grumpkin.rs
+++ b/grumpkin/benches/grumpkin.rs
@ -0,0 +1,9 @@
 use ark_algebra_bench_templates::*;
 use ark_grumpkin::{fq::Fq, fr::Fr, Projective as G};

 bench!(
    Name = "Grumpkin",
    Group = G,
    ScalarField = Fr,
    PrimeBaseField = Fq,
 );
--- a/grumpkin/scripts/base_field.sage
+++ b/grumpkin/scripts/base_field.sage
@ -0,0 +1,28 @@
 modulus = 21888242871839275222246405745257275088548364400416034343698204186575808495617

 assert(modulus.is_prime())

 Fp = GF(modulus)

 generator = Fp(0);
 for i in range(0, 20):
    i = Fp(i);
    neg_i = Fp(-i)
    if not(i.is_primitive_root() or neg_i.is_primitive_root()):
        continue
    elif i.is_primitive_root():
        assert(i.is_primitive_root());
        print("Generator: %d" % i)
        generator = i
        break
    else:
        assert(neg_i.is_primitive_root());
        print("Generator: %d" % neg_i)
        generator = neg_i
        break


 two_adicity = valuation(modulus - 1, 2);
 trace = (modulus - 1) / 2**two_adicity;
 two_adic_root_of_unity = generator^trace
 print("2-adic Root of Unity: %d " % two_adic_root_of_unity)
--- a/grumpkin/scripts/scalar_field.sage
+++ b/grumpkin/scripts/scalar_field.sage
@ -0,0 +1,28 @@
 modulus = 21888242871839275222246405745257275088696311157297823662689037894645226208583

 assert(modulus.is_prime())

 Fp = GF(modulus)

 generator = Fp(0);
 for i in range(0, 20):
    i = Fp(i);
    neg_i = Fp(-i)
    if not(i.is_primitive_root() or neg_i.is_primitive_root()):
        continue
    elif i.is_primitive_root():
        assert(i.is_primitive_root());
        print("Generator: %d" % i)
        generator = i
        break
    else:
        assert(neg_i.is_primitive_root());
        print("Generator: %d" % neg_i)
        generator = neg_i
        break


 two_adicity = valuation(modulus - 1, 2);
 trace = (modulus - 1) / 2**two_adicity;
 two_adic_root_of_unity = generator^trace
 print("2-adic Root of Unity: %d " % two_adic_root_of_unity)
--- a/grumpkin/src/constraints/curves.rs
+++ b/grumpkin/src/constraints/curves.rs
@ -0,0 +1,11 @@
 use ark_r1cs_std::groups::curves::short_weierstrass::ProjectiveVar;

 use crate::{constraints::FBaseVar, *};

 /// A group element in the Grumpkin prime-order group.
 pub type GVar = ProjectiveVar<GrumpkinConfig, FBaseVar>;

 #[test]
 fn test() {
    ark_curve_constraint_tests::curves::sw_test::<GrumpkinConfig, GVar>().unwrap();
 }
--- a/grumpkin/src/constraints/fields.rs
+++ b/grumpkin/src/constraints/fields.rs
@ -0,0 +1,11 @@
 use ark_r1cs_std::fields::fp::FpVar;

 use crate::fq::Fq;

 /// A variable that is the R1CS equivalent of `crate::Fq`.
 pub type FBaseVar = FpVar<Fq>;

 #[test]
 fn test() {
    ark_curve_constraint_tests::fields::field_test::<_, _, FBaseVar>().unwrap();
 }
--- a/grumpkin/src/constraints/mod.rs
+++ b/grumpkin/src/constraints/mod.rs
@ -0,0 +1,107 @@
 //! This module implements the R1CS equivalent of `ark_grumpkin`.
 //!
 //! It implements field variables for `crate::Fq`,
 //! and group variables for `crate::Projective`.
 //!
 //! The field underlying these constraints is `crate::Fq`.
 //!
 //! # Examples
 //!
 //! One can perform standard algebraic operations on `FBaseVar`:
 //!
 //! ```
 //! # fn main() -> Result<(), ark_relations::r1cs::SynthesisError> {
 //! use ark_std::UniformRand;
 //! use ark_relations::r1cs::*;
 //! use ark_r1cs_std::prelude::*;
 //! use ark_grumpkin::{*, constraints::*};
 //!
 //! let cs = ConstraintSystem::<Fq>::new_ref();
 //! // This rng is just for test purposes; do not use it
 //! // in real applications.
 //! let mut rng = ark_std::test_rng();
 //!
 //! // Generate some random `Fq` elements.
 //! let a_native = Fq::rand(&mut rng);
 //! let b_native = Fq::rand(&mut rng);
 //!
 //! // Allocate `a_native` and `b_native` as witness variables in `cs`.
 //! let a = FBaseVar::new_witness(ark_relations::ns!(cs, "generate_a"), || Ok(a_native))?;
 //! let b = FBaseVar::new_witness(ark_relations::ns!(cs, "generate_b"), || Ok(b_native))?;
 //!
 //! // Allocate `a_native` and `b_native` as constants in `cs`. This does not add any
 //! // constraints or variables.
 //! let a_const = FBaseVar::new_constant(ark_relations::ns!(cs, "a_as_constant"), a_native)?;
 //! let b_const = FBaseVar::new_constant(ark_relations::ns!(cs, "b_as_constant"), b_native)?;
 //!
 //! let one = FBaseVar::one();
 //! let zero = FBaseVar::zero();
 //!
 //! // Sanity check one + one = two
 //! let two = &one + &one + &zero;
 //! two.enforce_equal(&one.double()?)?;
 //!
 //! assert!(cs.is_satisfied()?);
 //!
 //! // Check that the value of &a + &b is correct.
 //! assert_eq!((&a + &b).value()?, a_native + &b_native);
 //!
 //! // Check that the value of &a * &b is correct.
 //! assert_eq!((&a * &b).value()?, a_native * &b_native);
 //!
 //! // Check that operations on variables and constants are equivalent.
 //! (&a + &b).enforce_equal(&(&a_const + &b_const))?;
 //! assert!(cs.is_satisfied()?);
 //! # Ok(())
 //! # }
 //! ```
 //!
 //! One can also perform standard algebraic operations on `GVar`:
 //!
 //! ```
 //! # fn main() -> Result<(), ark_relations::r1cs::SynthesisError> {
 //! # use ark_std::UniformRand;
 //! # use ark_relations::r1cs::*;
 //! # use ark_r1cs_std::prelude::*;
 //! # use ark_grumpkin::{*, constraints::*};
 //!
 //! # let cs = ConstraintSystem::<Fq>::new_ref();
 //! # let mut rng = ark_std::test_rng();
 //!
 //! // Generate some random `Projective` elements.
 //! let a_native = Projective::rand(&mut rng);
 //! let b_native = Projective::rand(&mut rng);
 //!
 //! // Allocate `a_native` and `b_native` as witness variables in `cs`.
 //! let a = GVar::new_witness(ark_relations::ns!(cs, "a"), || Ok(a_native))?;
 //! let b = GVar::new_witness(ark_relations::ns!(cs, "b"), || Ok(b_native))?;
 //!
 //! // Allocate `a_native` and `b_native` as constants in `cs`. This does not add any
 //! // constraints or variables.
 //! let a_const = GVar::new_constant(ark_relations::ns!(cs, "a_as_constant"), a_native)?;
 //! let b_const = GVar::new_constant(ark_relations::ns!(cs, "b_as_constant"), b_native)?;
 //!
 //! // This returns the identity.
 //! let zero = GVar::zero();
 //!
 //! // Sanity check one + one = two
 //! let two_a = &a + &a + &zero;
 //! two_a.enforce_equal(&a.double()?)?;
 //!
 //! assert!(cs.is_satisfied()?);
 //!
 //! // Check that the value of &a + &b is correct.
 //! assert_eq!((&a + &b).value()?, a_native + &b_native);
 //!
 //! // Check that operations on variables and constants are equivalent.
 //! (&a + &b).enforce_equal(&(&a_const + &b_const))?;
 //! assert!(cs.is_satisfied()?);
 //! # Ok(())
 //! # }
 //! ```

 mod curves;
 mod fields;

 pub use curves::*;
 pub use fields::*;
--- a/grumpkin/src/curves/mod.rs
+++ b/grumpkin/src/curves/mod.rs
@ -0,0 +1,54 @@
 // The parameters for the curve have been taken from
 // https://github.com/AztecProtocol/barretenberg/blob/97ccf76c42db581a8b8f8bfbcffe8ca015a3dd22/cpp/src/barretenberg/ecc/curves/grumpkin/grumpkin.hpp

 use crate::{fq::Fq, fr::Fr};
 use ark_ec::{
    models::CurveConfig,
    short_weierstrass::{self as sw, SWCurveConfig},
 };
 use ark_ff::{AdditiveGroup, Field, MontFp, Zero};

 #[cfg(test)]
 mod tests;

 #[derive(Copy, Clone, Default, PartialEq, Eq)]
 pub struct GrumpkinConfig;

 impl CurveConfig for GrumpkinConfig {
    type BaseField = Fq;
    type ScalarField = Fr;

    /// COFACTOR = 1
    const COFACTOR: &'static [u64] = &[0x1];

    /// COFACTOR_INV = 1
    const COFACTOR_INV: Fr = Fr::ONE;
 }

 pub type Affine = sw::Affine<GrumpkinConfig>;
 pub type Projective = sw::Projective<GrumpkinConfig>;

 impl SWCurveConfig for GrumpkinConfig {
    /// COEFF_A = 0
    const COEFF_A: Fq = Fq::ZERO;

    /// COEFF_B = -17
    const COEFF_B: Fq = MontFp!("-17");

    /// AFFINE_GENERATOR_COEFFS = (G1_GENERATOR_X, G1_GENERATOR_Y)
    const GENERATOR: Affine = Affine::new_unchecked(G_GENERATOR_X, G_GENERATOR_Y);

    #[inline(always)]
    fn mul_by_a(_: Self::BaseField) -> Self::BaseField {
        Self::BaseField::zero()
    }
 }

 /// G_GENERATOR_X = 1
 /// Encoded in Montgomery form, so the value here is R mod p.
 pub const G_GENERATOR_X: Fq = MontFp!("1");

 /// G_GENERATOR_Y = sqrt(-16)
 /// Encoded in Montgomery form, so the value here is 2R mod p.
 pub const G_GENERATOR_Y: Fq =
    MontFp!("17631683881184975370165255887551781615748388533673675138860");
--- a/grumpkin/src/curves/tests.rs
+++ b/grumpkin/src/curves/tests.rs
@ -0,0 +1,4 @@
 use crate::Projective;
 use ark_algebra_test_templates::*;

 test_group!(g1; Projective; sw);
--- a/grumpkin/src/fields/fq.rs
+++ b/grumpkin/src/fields/fq.rs
@ -0,0 +1 @@
 pub use ark_bn254::{Fr as Fq, FrConfig as FqConfig};
--- a/grumpkin/src/fields/fr.rs
+++ b/grumpkin/src/fields/fr.rs
@ -0,0 +1 @@
 pub use ark_bn254::{Fq as Fr, FqConfig as FrConfig};
--- a/grumpkin/src/fields/mod.rs
+++ b/grumpkin/src/fields/mod.rs
@ -0,0 +1,8 @@
 pub mod fq;
 pub use self::fq::*;

 pub mod fr;
 pub use self::fr::*;

 #[cfg(test)]
 mod tests;
--- a/grumpkin/src/fields/tests.rs
+++ b/grumpkin/src/fields/tests.rs
@ -0,0 +1,5 @@
 use crate::{Fq, Fr};
 use ark_algebra_test_templates::*;

 test_field!(fr; Fr; mont_prime_field);
 test_field!(fq; Fq; mont_prime_field);
--- a/grumpkin/src/lib.rs
+++ b/grumpkin/src/lib.rs
@ -0,0 +1,33 @@
 #![cfg_attr(not(feature = "std"), no_std)]
 #![deny(
    warnings,
    unused,
    future_incompatible,
    nonstandard_style,
    rust_2018_idioms
 )]
 #![forbid(unsafe_code)]

 //! This library implements the prime-order curve Grumpkin, generated by
 //! Zachary J. Williamson from Aztec protocol. The main feature of this
 //! curve is that it forms a cycle with bn254, i.e. its scalar field and base
 //! field respectively are the base field and scalar field of bn254.
 //!
 //!
 //! Curve information:
 //! Grumpkin:
 //! * Base field: q =
 //!   21888242871839275222246405745257275088548364400416034343698204186575808495617
 //! * Scalar field: r =
 //!   21888242871839275222246405745257275088696311157297823662689037894645226208583
 //! * Curve equation: y^2 = x^3 - 17
 //! * Valuation(q - 1, 2) = 28
 //! * Valuation(r - 1, 2) = 1

 #[cfg(feature = "r1cs")]
 pub mod constraints;
 mod curves;
 mod fields;

 pub use curves::*;
 pub use fields::*;