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feat: safe ecc_sum and tests #244

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Apr 9, 2024
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57 changes: 56 additions & 1 deletion halo2-ecc/src/bn254/tests/ec_add.rs
Original file line number Diff line number Diff line change
Expand Up @@ -39,7 +39,7 @@ fn g2_add_test<F: BigPrimeField>(
let points =
_points.iter().map(|pt| g2_chip.assign_point_unchecked(ctx, *pt)).collect::<Vec<_>>();

let acc = g2_chip.sum::<G2Affine>(ctx, points);
let acc = g2_chip.sum_unsafe::<G2Affine>(ctx, points);

let answer = _points.iter().fold(G2Affine::identity(), |a, b| (a + b).to_affine());
let x = fp2_chip.get_assigned_value(&acc.x.into());
Expand All @@ -48,6 +48,27 @@ fn g2_add_test<F: BigPrimeField>(
assert_eq!(answer.y, y);
}

fn g1_sum_safe_test<F: BigPrimeField>(
ctx: &mut Context<F>,
range: &RangeChip<F>,
params: CircuitParams,
_points: Vec<G1Affine>,
) {
let fp_chip = FpChip::<F>::new(range, params.limb_bits, params.num_limbs);
let g1_chip = EccChip::new(&fp_chip);

let points =
_points.iter().map(|pt| g1_chip.assign_point_unchecked(ctx, *pt)).collect::<Vec<_>>();

let acc = g1_chip.sum::<G1Affine>(ctx, points);

let answer = _points.iter().fold(G1Affine::identity(), |a, b| (a + b).to_affine());
let x = fp_chip.get_assigned_value(&acc.x.into());
let y = fp_chip.get_assigned_value(&acc.y.into());
assert_eq!(answer.x, x);
assert_eq!(answer.y, y);
}

#[test]
fn test_ec_add() {
let path = "configs/bn254/ec_add_circuit.config";
Expand All @@ -65,6 +86,40 @@ fn test_ec_add() {
.run(|ctx, range| g2_add_test(ctx, range, params, points));
}

#[test]
fn test_ec_sum_safe() {
let path = "configs/bn254/ec_add_circuit.config";
let params: CircuitParams = serde_json::from_reader(
File::open(path).unwrap_or_else(|e| panic!("{path} does not exist: {e:?}")),
)
.unwrap();

let k = params.degree;
let points = (0..params.batch_size).map(|_| G1Affine::random(OsRng)).collect_vec();

base_test()
.k(k)
.lookup_bits(params.lookup_bits)
.run(|ctx, range| g1_sum_safe_test(ctx, range, params, points));
}

#[test]
fn test_ec_zero_sum_safe() {
let path = "configs/bn254/ec_add_circuit.config";
let params: CircuitParams = serde_json::from_reader(
File::open(path).unwrap_or_else(|e| panic!("{path} does not exist: {e:?}")),
)
.unwrap();

let k = params.degree;
let points = (0..params.batch_size).map(|_| G1Affine::identity()).collect_vec();

base_test()
.k(k)
.lookup_bits(params.lookup_bits)
.run(|ctx, range| g1_sum_safe_test(ctx, range, params, points));
}

#[test]
fn bench_ec_add() -> Result<(), Box<dyn std::error::Error>> {
let config_path = "configs/bn254/bench_ec_add.config";
Expand Down
2 changes: 1 addition & 1 deletion halo2-ecc/src/ecc/ecdsa.rs
Original file line number Diff line number Diff line change
Expand Up @@ -71,7 +71,7 @@ where

// compute (x1, y1) = u1 * G + u2 * pubkey and check (r mod n) == x1 as integers
// because it is possible for u1 * G == u2 * pubkey, we must use `EccChip::sum`
let sum = chip.sum::<GA>(ctx, [u1_mul, u2_mul]);
let sum = chip.sum_unsafe::<GA>(ctx, [u1_mul, u2_mul]);
// WARNING: For optimization reasons, does not reduce x1 mod n, which is
// invalid unless p is very close to n in size.
// enforce x1 < n
Expand Down
57 changes: 55 additions & 2 deletions halo2-ecc/src/ecc/mod.rs
Original file line number Diff line number Diff line change
Expand Up @@ -936,8 +936,18 @@ impl<'chip, F: BigPrimeField, FC: FieldChip<F>> EccChip<'chip, F, FC> {
EcPoint::new(P.x, self.field_chip.negate(ctx, P.y))
}

pub fn negate_strict(
&self,
ctx: &mut Context<F>,
P: impl Into<StrictEcPoint<F, FC>>,
) -> StrictEcPoint<F, FC> {
let P = P.into();
StrictEcPoint::new(P.x, self.field_chip.negate(ctx, P.y))
}

/// Assumes that P.x != Q.x
/// If `is_strict == true`, then actually constrains that `P.x != Q.x`
/// Neither are points at infinity (otherwise, undefined behavior)
pub fn add_unequal(
&self,
ctx: &mut Context<F>,
Expand Down Expand Up @@ -980,6 +990,19 @@ impl<'chip, F: BigPrimeField, FC: FieldChip<F>> EccChip<'chip, F, FC> {
self.field_chip.range().gate().and(ctx, x_is_equal, y_is_equal)
}

/// Checks if a point is the point at infinity (represented by (0, 0))
/// Assumes points at infinity are always serialized as (0, 0) as bigints
pub fn is_infinity(
&self,
ctx: &mut Context<F>,
P: EcPoint<F, FC::FieldPoint>,
) -> AssignedValue<F> {
// TODO: optimize
let x_is_zero = self.field_chip.is_soft_zero(ctx, P.x);
let y_is_zero = self.field_chip.is_soft_zero(ctx, P.y);
self.field_chip.range().gate().and(ctx, x_is_zero, y_is_zero)
}

pub fn assert_equal(
&self,
ctx: &mut Context<F>,
Expand All @@ -990,8 +1013,8 @@ impl<'chip, F: BigPrimeField, FC: FieldChip<F>> EccChip<'chip, F, FC> {
self.field_chip.assert_equal(ctx, P.y, Q.y);
}

/// None of elements in `points` can be point at infinity.
pub fn sum<C>(
/// None of elements in `points` can be point at infinity. Sum cannot be point at infinity either.
pub fn sum_unsafe<C>(
&self,
ctx: &mut Context<F>,
points: impl IntoIterator<Item = EcPoint<F, FC::FieldPoint>>,
Expand All @@ -1014,6 +1037,36 @@ impl<'chip, F: BigPrimeField, FC: FieldChip<F>> EccChip<'chip, F, FC>
where
FC: Selectable<F, FC::FieldPoint>,
{
/// Expensive version of `sum_unsafe`, but works generally meaning that
/// * sum can be the point at infinity
/// * addends can be points at infinity
pub fn sum<C>(
&self,
ctx: &mut Context<F>,
points: impl IntoIterator<Item = EcPoint<F, FC::FieldPoint>>,
) -> EcPoint<F, FC::FieldPoint>
where
C: CurveAffineExt<Base = FC::FieldType>,
{
let rand_point = self.load_random_point::<C>(ctx);
let rand_point2 = self.load_random_point::<C>(ctx);
let zero = ctx.load_constant(F::ZERO);
let neg_rand_point = self.negate(ctx, rand_point.clone());
let mut acc = ComparableEcPoint::from(neg_rand_point.clone());
for point in points {
let point_is_inf = self.is_infinity(ctx, point.clone());
let addend = self.select(ctx, rand_point2.clone(), point.clone(), point_is_inf);
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let _acc = self.add_unequal(ctx, acc.clone(), addend.clone(), true);
let _acc = self.select(ctx, acc.clone().into(), _acc, point_is_inf);
acc = _acc.into();
}
let acc_is_neg_rand = self.is_equal(ctx, acc.clone().into(), neg_rand_point);
let addend = self.select(ctx, rand_point2.clone(), acc.clone().into(), acc_is_neg_rand);
let sum = self.add_unequal(ctx, addend, rand_point, true);
let inf = self.load_private_unchecked(ctx, (FC::FieldType::ZERO, FC::FieldType::ZERO));
self.select(ctx, inf, sum, acc_is_neg_rand)
}

pub fn select(
&self,
ctx: &mut Context<F>,
Expand Down
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