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ecc points multi and addi working 

omgomgomgomgomg
This commit is contained in:
Christoph J. Scherr 2023-06-08 23:16:14 +02:00
parent 461a2666d8
commit 8a0d41b134
Signed by: PlexSheep
GPG Key ID: 25B4ACF7D88186CC
1 changed files with 67 additions and 34 deletions
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101
src/math/ecc.rs
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@ -191,13 +191,6 @@ impl ElipticCurve {
}
return Ok(self.INFINITY_POINT);
}
// case 4: r_1 = r_2 && s_1 = -s_2
else if p1.r == p2.r && p1.s == self.neg(p2).s {
if self.verbose {
println!("case 4");
}
return Ok(self.INFINITY_POINT);
}
// case 3: r_1 != r_2
else if p1.r != p2.r {
if self.verbose {
@ -247,6 +240,13 @@ impl ElipticCurve {
panic!("TODO");
}
}
// case 4: r_1 = r_2 && s_1 = -s_2
else if p1.r == p2.r && p1.s == self.neg(p2).s {
if self.verbose {
println!("case 4");
}
return Ok(self.INFINITY_POINT);
}
// case 5: P + P where P = (r, 0)
else if p1 == p2 && p1.s == 0 {
if self.verbose {
@ -262,11 +262,24 @@ impl ElipticCurve {
if self.field.prime_base {
let m: i128 = (self.field.reduce::<_, u128>(3 * p1.r.pow(2) + self.a) *
self.field.inverse(
self.field.reduce::<u128, u128>(2 * p1.r)
self.field.reduce::<u128, u128>(2 * p1.s)
).expect("could not find inverse")) as i128;
if self.verbose {
println!("m = [3*r²]/[2s] = [3*{}²]/[2*{}] = {} = {}",
p1.r, p1.s, m, self.field.reduce::<_, u128>(m));
println!("m = [3*r² + a]/[2s] = [3*{}² + {}]/[2*{}] = \
{}/{} = \
{}*{} = \
{} = {}",
p1.r, self.a, p1.s,
self.field.reduce::<_, u128>(3 * p1.r.pow(2) + self.a),
2 * p1.s,
self.field.reduce::<_, u128>(3 * p1.r.pow(2) + self.a),
self.field.inverse(self.field.reduce::<u128, u128>(2 * p1.s)).unwrap(),
m,
self.field.reduce::<_, u128>(m)
);
}
let m: i128 = self.field.reduce(m);
@ -349,14 +362,16 @@ impl ElipticCurve {
return Ok(h);
}
for bit in t_bits {
dbg!(&index);
if index == l {
if self.verbose {
println!("h_{index} = {h}")
}
index -= 1;
continue;
}
h = self.add(lh, lh).expect("error while performing point multiplication");
if bit == false {
if bit == true {
h = self.add(h, g).expect("error while performing point multiplication");
}
// else h = h
@ -365,7 +380,9 @@ impl ElipticCurve {
if self.verbose {
println!("h_{index} = {h}")
}
index -= 1;
if index != 0 {
index -= 1;
}
}
// now we should have reached h_0
@ -464,13 +481,6 @@ pub mod test {
#[test]
fn test_add_points() {
let f = GalloisField::new(11, true, None);
let ec = ElipticCurve::new(f, 1, 1, true).expect("ec cant be created");
let p1 = ec.new_point(3, 3).expect("point is on ec but an error occurs");
let p2 = ec.new_point(6, 5).expect("point is on ec but an error occurs");
let p3 = ec.new_point(0, 10).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p2).expect("error for possible addition"), p3);
let f = GalloisField::new(13, true, None);
let ec = ElipticCurve::new(f, -3, 3, true).expect("ec cant be created");
let p1 = ec.new_point(1, 1).expect("point is on ec but an error occurs");
@ -481,6 +491,27 @@ pub mod test {
assert_eq!(ec.add(p1, p2).expect("error for possible addition"), p3);
assert_eq!(ec.add(p2, p4).expect("error for possible addition"), p1);
assert_eq!(ec.add(p1, p1).expect("error for possible addition"), p5);
let ec = ElipticCurve::new(f, 7, 11, true).expect("ec cant be created");
let p1 = ec.new_point(4, 5).expect("point is on ec but an error occurs");
let p2 = ec.new_point(6, 10).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p1).expect("error for possible addition"), p2);
let f = GalloisField::new(17, true, None);
let ec = ElipticCurve::new(f, -3, 3, true).expect("ec cant be created");
let p1 = ec.new_point(3, 2).expect("point is on ec but an error occurs");
let p2 = ec.new_point(11, 3).expect("point is on ec but an error occurs");
let p3 = ec.new_point(7, 6).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p2).expect("error for possible addition"), p3);
let p4 = ec.new_point(9, 5).expect("point is on ec but an error occurs");
let p5 = ec.new_point(14, 11).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p4, p4).expect("error for possible addition"), p5);
let f = GalloisField::new(11, true, None);
let ec = ElipticCurve::new(f, 1, 1, true).expect("ec cant be created");
let p1 = ec.new_point(3, 3).expect("point is on ec but an error occurs");
let p2 = ec.new_point(6, 5).expect("point is on ec but an error occurs");
let p3 = ec.new_point(0, 10).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p2).expect("error for possible addition"), p3);
let f = GalloisField::new(19, true, None);
let ec = ElipticCurve::new(f, 7, 13, true).expect("ec cant be created");
@ -488,11 +519,13 @@ pub mod test {
let p2 = ec.new_point(6, 10).expect("point is on ec but an error occurs");
let p3 = ec.new_point(9, 8).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p2).expect("error for possible addition"), p3);
let f = GalloisField::new(13, true, None);
let ec = ElipticCurve::new(f, 7, 11, true).expect("ec cant be created");
let p1 = ec.new_point(4, 5).expect("point is on ec but an error occurs");
let p2 = ec.new_point(6, 10).expect("point is on ec but an error occurs");
let ec = ElipticCurve::new(f, 10, 3, true).expect("ec cant be created");
let p1 = ec.new_point(5, 11).expect("point is on ec but an error occurs");
let p2 = ec.new_point(5, 8).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p2).expect("error for possible addition"), ec.INFINITY_POINT);
let ec = ElipticCurve::new(f, 7, 13, true).expect("ec cant be created");
let p1 = ec.new_point(7, 5).expect("point is on ec but an error occurs");
let p2 = ec.new_point(2, 15).expect("point is on ec but an error occurs");
assert_eq!(ec.add(p1, p1).expect("error for possible addition"), p2);
}
@ -510,16 +543,16 @@ pub mod test {
assert_eq!(ec.mul(p3, 2u32).expect("error for possible addition"), p4);
assert_eq!(ec.mul(p2, 4u32).expect("error for possible addition"), p4);
//let f = GalloisField::new(13, true, None);
//let ec = ElipticCurve::new(f, -3, 3, true).expect("ec cant be created");
//let p1 = ec.new_point(1, 1).expect("point is on ec but an error occurs");
//let p2 = ec.new_point(11, 12).expect("point is on ec but an error occurs");
//assert_eq!(ec.mul(p1, 2u64).expect("error for possible addition"), p2);
let f = GalloisField::new(13, true, None);
let ec = ElipticCurve::new(f, -3, 3, true).expect("ec cant be created");
let p1 = ec.new_point(1, 1).expect("point is on ec but an error occurs");
let p2 = ec.new_point(11, 12).expect("point is on ec but an error occurs");
assert_eq!(ec.mul(p1, 2u64).expect("error for possible addition"), p2);
//let f = GalloisField::new(17, true, None);
//let ec = ElipticCurve::new(f, 11, 3, true).expect("ec cant be created");
//let p1 = ec.new_point(5, 8).expect("point is on ec but an error occurs");
//let p2 = ec.new_point(6, 8).expect("point is on ec but an error occurs");
//assert_eq!(ec.mul(p1, 10u128).expect("error for possible addition"), p2);
let f = GalloisField::new(17, true, None);
let ec = ElipticCurve::new(f, 11, 3, true).expect("ec cant be created");
let p1 = ec.new_point(5, 8).expect("point is on ec but an error occurs");
let p2 = ec.new_point(6, 8).expect("point is on ec but an error occurs");
assert_eq!(ec.mul(p1, 10u128).expect("error for possible addition"), p2);
}
}