use bytemuck_derive::{Pod, Zeroable};
pub use target_arch::*;
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Pod, Zeroable)]
#[repr(transparent)]
pub struct PodEdwardsPoint(pub [u8; 32]);
#[cfg(not(target_os = "solana"))]
mod target_arch {
use {
super::*,
crate::{
curve_syscall_traits::{GroupOperations, MultiScalarMultiplication, PointValidation},
errors::Curve25519Error,
scalar::PodScalar,
},
curve25519_dalek::{
edwards::{CompressedEdwardsY, EdwardsPoint},
scalar::Scalar,
traits::VartimeMultiscalarMul,
},
};
pub fn validate_edwards(point: &PodEdwardsPoint) -> bool {
point.validate_point()
}
pub fn add_edwards(
left_point: &PodEdwardsPoint,
right_point: &PodEdwardsPoint,
) -> Option<PodEdwardsPoint> {
PodEdwardsPoint::add(left_point, right_point)
}
pub fn subtract_edwards(
left_point: &PodEdwardsPoint,
right_point: &PodEdwardsPoint,
) -> Option<PodEdwardsPoint> {
PodEdwardsPoint::subtract(left_point, right_point)
}
pub fn multiply_edwards(
scalar: &PodScalar,
point: &PodEdwardsPoint,
) -> Option<PodEdwardsPoint> {
PodEdwardsPoint::multiply(scalar, point)
}
pub fn multiscalar_multiply_edwards(
scalars: &[PodScalar],
points: &[PodEdwardsPoint],
) -> Option<PodEdwardsPoint> {
PodEdwardsPoint::multiscalar_multiply(scalars, points)
}
impl From<&EdwardsPoint> for PodEdwardsPoint {
fn from(point: &EdwardsPoint) -> Self {
Self(point.compress().to_bytes())
}
}
impl TryFrom<&PodEdwardsPoint> for EdwardsPoint {
type Error = Curve25519Error;
fn try_from(pod: &PodEdwardsPoint) -> Result<Self, Self::Error> {
let Ok(compressed_edwards_y) = CompressedEdwardsY::from_slice(&pod.0) else {
return Err(Curve25519Error::PodConversion);
};
compressed_edwards_y
.decompress()
.ok_or(Curve25519Error::PodConversion)
}
}
impl PointValidation for PodEdwardsPoint {
type Point = Self;
fn validate_point(&self) -> bool {
let Ok(compressed_edwards_y) = CompressedEdwardsY::from_slice(&self.0) else {
return false;
};
compressed_edwards_y.decompress().is_some()
}
}
impl GroupOperations for PodEdwardsPoint {
type Scalar = PodScalar;
type Point = Self;
fn add(left_point: &Self, right_point: &Self) -> Option<Self> {
let left_point: EdwardsPoint = left_point.try_into().ok()?;
let right_point: EdwardsPoint = right_point.try_into().ok()?;
let result = &left_point + &right_point;
Some((&result).into())
}
fn subtract(left_point: &Self, right_point: &Self) -> Option<Self> {
let left_point: EdwardsPoint = left_point.try_into().ok()?;
let right_point: EdwardsPoint = right_point.try_into().ok()?;
let result = &left_point - &right_point;
Some((&result).into())
}
#[cfg(not(target_os = "solana"))]
fn multiply(scalar: &PodScalar, point: &Self) -> Option<Self> {
let scalar: Scalar = scalar.try_into().ok()?;
let point: EdwardsPoint = point.try_into().ok()?;
let result = &scalar * &point;
Some((&result).into())
}
}
impl MultiScalarMultiplication for PodEdwardsPoint {
type Scalar = PodScalar;
type Point = Self;
fn multiscalar_multiply(scalars: &[PodScalar], points: &[Self]) -> Option<Self> {
let scalars = scalars
.iter()
.map(|scalar| Scalar::try_from(scalar).ok())
.collect::<Option<Vec<_>>>()?;
EdwardsPoint::optional_multiscalar_mul(
scalars,
points
.iter()
.map(|point| EdwardsPoint::try_from(point).ok()),
)
.map(|result| PodEdwardsPoint::from(&result))
}
}
}
#[cfg(target_os = "solana")]
mod target_arch {
use {
super::*,
crate::{
curve_syscall_traits::{ADD, CURVE25519_EDWARDS, MUL, SUB},
scalar::PodScalar,
},
bytemuck::Zeroable,
};
pub fn validate_edwards(point: &PodEdwardsPoint) -> bool {
let mut validate_result = 0u8;
let result = unsafe {
solana_program::syscalls::sol_curve_validate_point(
CURVE25519_EDWARDS,
&point.0 as *const u8,
&mut validate_result,
)
};
result == 0
}
pub fn add_edwards(
left_point: &PodEdwardsPoint,
right_point: &PodEdwardsPoint,
) -> Option<PodEdwardsPoint> {
let mut result_point = PodEdwardsPoint::zeroed();
let result = unsafe {
solana_program::syscalls::sol_curve_group_op(
CURVE25519_EDWARDS,
ADD,
&left_point.0 as *const u8,
&right_point.0 as *const u8,
&mut result_point.0 as *mut u8,
)
};
if result == 0 {
Some(result_point)
} else {
None
}
}
pub fn subtract_edwards(
left_point: &PodEdwardsPoint,
right_point: &PodEdwardsPoint,
) -> Option<PodEdwardsPoint> {
let mut result_point = PodEdwardsPoint::zeroed();
let result = unsafe {
solana_program::syscalls::sol_curve_group_op(
CURVE25519_EDWARDS,
SUB,
&left_point.0 as *const u8,
&right_point.0 as *const u8,
&mut result_point.0 as *mut u8,
)
};
if result == 0 {
Some(result_point)
} else {
None
}
}
pub fn multiply_edwards(
scalar: &PodScalar,
point: &PodEdwardsPoint,
) -> Option<PodEdwardsPoint> {
let mut result_point = PodEdwardsPoint::zeroed();
let result = unsafe {
solana_program::syscalls::sol_curve_group_op(
CURVE25519_EDWARDS,
MUL,
&scalar.0 as *const u8,
&point.0 as *const u8,
&mut result_point.0 as *mut u8,
)
};
if result == 0 {
Some(result_point)
} else {
None
}
}
pub fn multiscalar_multiply_edwards(
scalars: &[PodScalar],
points: &[PodEdwardsPoint],
) -> Option<PodEdwardsPoint> {
let mut result_point = PodEdwardsPoint::zeroed();
let result = unsafe {
solana_program::syscalls::sol_curve_multiscalar_mul(
CURVE25519_EDWARDS,
scalars.as_ptr() as *const u8,
points.as_ptr() as *const u8,
points.len() as u64,
&mut result_point.0 as *mut u8,
)
};
if result == 0 {
Some(result_point)
} else {
None
}
}
}
#[cfg(test)]
mod tests {
use {
super::*,
crate::scalar::PodScalar,
curve25519_dalek::{
constants::ED25519_BASEPOINT_POINT as G, edwards::EdwardsPoint, traits::Identity,
},
};
#[test]
fn test_validate_edwards() {
let pod = PodEdwardsPoint(G.compress().to_bytes());
assert!(validate_edwards(&pod));
let invalid_bytes = [
120, 140, 152, 233, 41, 227, 203, 27, 87, 115, 25, 251, 219, 5, 84, 148, 117, 38, 84,
60, 87, 144, 161, 146, 42, 34, 91, 155, 158, 189, 121, 79,
];
assert!(!validate_edwards(&PodEdwardsPoint(invalid_bytes)));
}
#[test]
fn test_edwards_add_subtract() {
let identity = PodEdwardsPoint(EdwardsPoint::identity().compress().to_bytes());
let point = PodEdwardsPoint([
201, 179, 241, 122, 180, 185, 239, 50, 183, 52, 221, 0, 153, 195, 43, 18, 22, 38, 187,
206, 179, 192, 210, 58, 53, 45, 150, 98, 89, 17, 158, 11,
]);
assert_eq!(add_edwards(&point, &identity).unwrap(), point);
assert_eq!(subtract_edwards(&point, &identity).unwrap(), point);
let point_a = PodEdwardsPoint([
33, 124, 71, 170, 117, 69, 151, 247, 59, 12, 95, 125, 133, 166, 64, 5, 2, 27, 90, 27,
200, 167, 59, 164, 52, 54, 52, 200, 29, 13, 34, 213,
]);
let point_b = PodEdwardsPoint([
70, 222, 137, 221, 253, 204, 71, 51, 78, 8, 124, 1, 67, 200, 102, 225, 122, 228, 111,
183, 129, 14, 131, 210, 212, 95, 109, 246, 55, 10, 159, 91,
]);
let point_c = PodEdwardsPoint([
72, 60, 66, 143, 59, 197, 111, 36, 181, 137, 25, 97, 157, 201, 247, 215, 123, 83, 220,
250, 154, 150, 180, 192, 196, 28, 215, 137, 34, 247, 39, 129,
]);
assert_eq!(
add_edwards(&add_edwards(&point_a, &point_b).unwrap(), &point_c),
add_edwards(&point_a, &add_edwards(&point_b, &point_c).unwrap()),
);
assert_eq!(
subtract_edwards(&subtract_edwards(&point_a, &point_b).unwrap(), &point_c),
subtract_edwards(&point_a, &add_edwards(&point_b, &point_c).unwrap()),
);
assert_eq!(
add_edwards(&point_a, &point_b).unwrap(),
add_edwards(&point_b, &point_a).unwrap(),
);
let point = PodEdwardsPoint(G.compress().to_bytes());
let point_negated = PodEdwardsPoint((-G).compress().to_bytes());
assert_eq!(point_negated, subtract_edwards(&identity, &point).unwrap(),)
}
#[test]
fn test_edwards_mul() {
let scalar_a = PodScalar([
72, 191, 131, 55, 85, 86, 54, 60, 116, 10, 39, 130, 180, 3, 90, 227, 47, 228, 252, 99,
151, 71, 118, 29, 34, 102, 117, 114, 120, 50, 57, 8,
]);
let point_x = PodEdwardsPoint([
176, 121, 6, 191, 108, 161, 206, 141, 73, 14, 235, 97, 49, 68, 48, 112, 98, 215, 145,
208, 44, 188, 70, 10, 180, 124, 230, 15, 98, 165, 104, 85,
]);
let point_y = PodEdwardsPoint([
174, 86, 89, 208, 236, 123, 223, 128, 75, 54, 228, 232, 220, 100, 205, 108, 237, 97,
105, 79, 74, 192, 67, 224, 185, 23, 157, 116, 216, 151, 223, 81,
]);
let ax = multiply_edwards(&scalar_a, &point_x).unwrap();
let bx = multiply_edwards(&scalar_a, &point_y).unwrap();
assert_eq!(
add_edwards(&ax, &bx),
multiply_edwards(&scalar_a, &add_edwards(&point_x, &point_y).unwrap()),
);
}
#[test]
fn test_multiscalar_multiplication_edwards() {
let scalar = PodScalar([
205, 73, 127, 173, 83, 80, 190, 66, 202, 3, 237, 77, 52, 223, 238, 70, 80, 242, 24, 87,
111, 84, 49, 63, 194, 76, 202, 108, 62, 240, 83, 15,
]);
let point = PodEdwardsPoint([
222, 174, 184, 139, 143, 122, 253, 96, 0, 207, 120, 157, 112, 38, 54, 189, 91, 144, 78,
111, 111, 122, 140, 183, 65, 250, 191, 133, 6, 42, 212, 93,
]);
let basic_product = multiply_edwards(&scalar, &point).unwrap();
let msm_product = multiscalar_multiply_edwards(&[scalar], &[point]).unwrap();
assert_eq!(basic_product, msm_product);
let scalar_a = PodScalar([
246, 154, 34, 110, 31, 185, 50, 1, 252, 194, 163, 56, 211, 18, 101, 192, 57, 225, 207,
69, 19, 84, 231, 118, 137, 175, 148, 218, 106, 212, 69, 9,
]);
let scalar_b = PodScalar([
27, 58, 126, 136, 253, 178, 176, 245, 246, 55, 15, 202, 35, 183, 66, 199, 134, 187,
169, 154, 66, 120, 169, 193, 75, 4, 33, 241, 126, 227, 59, 3,
]);
let point_x = PodEdwardsPoint([
252, 31, 230, 46, 173, 95, 144, 148, 158, 157, 63, 10, 8, 68, 58, 176, 142, 192, 168,
53, 61, 105, 194, 166, 43, 56, 246, 236, 28, 146, 114, 133,
]);
let point_y = PodEdwardsPoint([
10, 111, 8, 236, 97, 189, 124, 69, 89, 176, 222, 39, 199, 253, 111, 11, 248, 186, 128,
90, 120, 128, 248, 210, 232, 183, 93, 104, 111, 150, 7, 241,
]);
let ax = multiply_edwards(&scalar_a, &point_x).unwrap();
let by = multiply_edwards(&scalar_b, &point_y).unwrap();
let basic_product = add_edwards(&ax, &by).unwrap();
let msm_product =
multiscalar_multiply_edwards(&[scalar_a, scalar_b], &[point_x, point_y]).unwrap();
assert_eq!(basic_product, msm_product);
}
}