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refactor: Change implementation to only switch semantic once

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This commit is contained in:
Alivecow 2024-11-29 16:50:19 +01:00
parent 679c0223af
commit 12254744d4
2 changed files with 59 additions and 63 deletions
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57
src/utils/field.rs
View file

@ -28,18 +28,24 @@ impl FieldElement {
pub fn rand() -> Self {
let rand_field: [u8; 16] = rand::random();
FieldElement::new(rand_field.to_vec())
FieldElement::new_no_convert(rand_field.to_vec())
}
pub fn zero() -> Self {
FieldElement::new(vec![0])
FieldElement::new_no_convert(vec![0; 16])
}
pub fn one() -> Self {
FieldElement::new(vec![0x80, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0])
FieldElement::new_no_convert(vec![0x01, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0])
}
pub const fn new(field_element: Vec<u8>) -> Self {
pub fn new(field_element: Vec<u8>) -> Self {
Self {
field_element: reverse_bits_in_bytevec(field_element),
}
}
pub fn new_no_convert(field_element: Vec<u8>) -> Self {
Self { field_element }
}
@ -48,7 +54,7 @@ impl FieldElement {
}
pub fn to_b64(&self) -> String {
BASE64_STANDARD.encode(&self.field_element)
BASE64_STANDARD.encode(reverse_bits_in_bytevec(self.field_element.to_owned()))
}
pub fn pow(mut self, mut exponent: u128) -> FieldElement {
@ -97,20 +103,20 @@ impl FieldElement {
const INVERSER_START: u128 = 0xfffffffffffffffffffffffffffffffe;
let mut inverser = INVERSER_START;
let mut inverse: Vec<u8> = vec![0x80, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
let mut inverse: Vec<u8> = vec![0x01, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
//eprintln!("Inverse start {:02X?}", inverse);
while inverser > 0 {
//eprintln!("{:02X}", inverser);
if inverser & 1 == 1 {
inverse = gfmul(&self.field_element, &inverse, "gcm").unwrap();
inverse = gfmul(&self.field_element, &inverse, "xex").unwrap();
}
inverser >>= 1;
self.field_element = gfmul(&self.field_element, &self.field_element, "gcm")
self.field_element = gfmul(&self.field_element, &self.field_element, "xex")
.expect("Error in sqrmul sqr");
}
//eprintln!("Inverse rhs {:?}", inverse);
FieldElement::new(inverse)
FieldElement::new_no_convert(inverse)
}
pub fn is_zero(&self) -> bool {
@ -118,7 +124,7 @@ impl FieldElement {
}
pub fn reverse_bits(&self) -> Self {
FieldElement::new(reverse_bits_in_bytevec(self.field_element.clone()))
FieldElement::new_no_convert(reverse_bits_in_bytevec(self.field_element.clone()))
}
}
@ -126,8 +132,8 @@ impl Mul for FieldElement {
type Output = Self;
fn mul(self, rhs: Self) -> Self::Output {
FieldElement::new(
gfmul(&self.field_element, &rhs.field_element, "gcm")
FieldElement::new_no_convert(
gfmul(&self.field_element, &rhs.field_element, "xex")
.expect("Error during multiplication"),
)
}
@ -137,8 +143,8 @@ impl Mul for &FieldElement {
type Output = FieldElement;
fn mul(self, rhs: &FieldElement) -> FieldElement {
FieldElement::new(
gfmul(&self.field_element, &rhs.field_element, "gcm")
FieldElement::new_no_convert(
gfmul(&self.field_element, &rhs.field_element, "xex")
.expect("Error during multiplication"),
)
}
@ -147,7 +153,7 @@ impl Mul for &FieldElement {
impl Add for FieldElement {
type Output = Self;
fn add(self, rhs: Self) -> Self::Output {
FieldElement::new(
FieldElement::new_no_convert(
xor_bytes(&self.field_element, rhs.field_element).expect("Error in poly add"),
)
}
@ -156,7 +162,7 @@ impl Add for FieldElement {
impl Add for &FieldElement {
type Output = FieldElement;
fn add(self, rhs: Self) -> Self::Output {
FieldElement::new(
FieldElement::new_no_convert(
xor_bytes(&self.field_element, rhs.field_element.clone()).expect("Error in poly add"),
)
}
@ -185,7 +191,7 @@ impl BitXor for FieldElement {
.zip(rhs.field_element.iter())
.map(|(&x1, &x2)| x1 ^ x2)
.collect();
FieldElement::new(result)
FieldElement::new_no_convert(result)
}
}
@ -450,7 +456,7 @@ mod tests {
FieldElement::new(BASE64_STANDARD.decode("KryptoanalyseAAAAAAAAA==").unwrap());
let sum = element2 + element1;
assert_eq!(BASE64_STANDARD.encode(sum), "H1d3GuyA9/0OxeYouUpAAA==");
assert_eq!(sum.to_b64(), "H1d3GuyA9/0OxeYouUpAAA==");
}
#[test]
@ -461,6 +467,19 @@ mod tests {
FieldElement::new(BASE64_STANDARD.decode("DHBWMannheimAAAAAAAAAA==").unwrap());
let sum = element2 + element1;
assert_eq!(BASE64_STANDARD.encode(sum), "OZuIncPAGEp4tYouDownAA==");
assert_eq!(sum.to_b64(), "OZuIncPAGEp4tYouDownAA==");
}
#[test]
fn test_field_div_01() {
let element1 =
FieldElement::new(BASE64_STANDARD.decode("JAAAAAAAAAAAAAAAAAAAAA==").unwrap());
let element2 =
FieldElement::new(BASE64_STANDARD.decode("wAAAAAAAAAAAAAAAAAAAAA==").unwrap());
let result = element1 / element2;
assert_eq!(result.to_b64(), "OAAAAAAAAAAAAAAAAAAAAA==");
}
}

65
src/utils/poly.rs
View file

@ -32,15 +32,13 @@ impl Polynomial {
}
pub fn one() -> Self {
Polynomial::new(vec![FieldElement::new(
polynomial_2_block(vec![0], "gcm").unwrap(),
)])
Polynomial::new(vec![FieldElement::one()])
}
pub fn x() -> Self {
Polynomial::new(vec![
FieldElement::new(vec![0; 16]),
FieldElement::new(polynomial_2_block(vec![0], "gcm").unwrap()),
FieldElement::new(polynomial_2_block(vec![0], "xex").unwrap()),
])
}
@ -54,7 +52,7 @@ impl Polynomial {
}
pub fn zero() -> Self {
Polynomial::new(vec![FieldElement::new(vec![0; 16])])
Polynomial::new(vec![FieldElement::zero()])
}
pub fn from_c_array(array: &Value) -> Self {
@ -85,7 +83,7 @@ impl Polynomial {
pub fn to_c_array(self) -> Vec<String> {
let mut output: Vec<String> = vec![];
for coeff in self.polynomial {
output.push(BASE64_STANDARD.encode(coeff));
output.push(coeff.to_b64());
}
output
@ -219,9 +217,7 @@ impl Polynomial {
}
if exponent == 0 {
let result = Polynomial::new(vec![FieldElement::new(
polynomial_2_block(vec![0], "gcm").unwrap(),
)]);
let result = Polynomial::new(vec![FieldElement::one()]);
eprintln!("Returned value is: {:02X?}", result);
return result;
@ -273,10 +269,7 @@ impl Polynomial {
//eprintln!("{:?}, {:?}", self.polynomial.len(), rhs.polynomial.len());
if self.polynomial.len() < rhs.polynomial.len() {
return (
Polynomial::new(vec![FieldElement::new(vec![0; 16])]),
self.clone(),
);
return (Polynomial::new(vec![FieldElement::zero()]), self.clone());
}
let mut remainder = self.clone();
@ -285,16 +278,10 @@ impl Polynomial {
let divisor_deg = divisor.polynomial.len() - 1;
if dividend_deg < divisor_deg {
return (
Polynomial::new(vec![FieldElement::new(
polynomial_2_block(vec![0; 16], "gcm").unwrap(),
)]),
remainder,
);
return (Polynomial::new(vec![FieldElement::zero()]), remainder);
}
let mut quotient_coeffs =
vec![FieldElement::new(vec![0; 16]); dividend_deg - divisor_deg + 1];
let mut quotient_coeffs = vec![FieldElement::zero(); dividend_deg - divisor_deg + 1];
while remainder.polynomial.len() >= divisor.polynomial.len() {
let deg_diff = remainder.polynomial.len() - divisor.polynomial.len();
@ -305,7 +292,7 @@ impl Polynomial {
quotient_coeffs[deg_diff] = quot_coeff.clone();
let mut subtrahend = vec![FieldElement::new(vec![0; 16]); deg_diff];
let mut subtrahend = vec![FieldElement::zero(); deg_diff];
subtrahend.extend(
divisor
.polynomial
@ -330,7 +317,7 @@ impl Polynomial {
}
if remainder.is_empty() {
remainder = Polynomial::new(vec![FieldElement::new(vec![0; 16])]);
remainder = Polynomial::new(vec![FieldElement::zero()]);
}
(Polynomial::new(quotient_coeffs), remainder)
}
@ -431,10 +418,10 @@ impl Mul for Polynomial {
type Output = Self;
fn mul(self, rhs: Self) -> Self::Output {
if self.is_zero() || rhs.is_zero() {
return Polynomial::new(vec![FieldElement::new(vec![0; 16])]);
return Polynomial::zero();
}
let mut polynomial: Vec<FieldElement> =
vec![FieldElement::new(vec![0; 16]); self.polynomial.len() + rhs.polynomial.len() - 1];
vec![FieldElement::zero(); self.polynomial.len() + rhs.polynomial.len() - 1];
for i in 0..self.polynomial.len() {
for j in 0..rhs.polynomial.len() {
polynomial[i + j] = &polynomial[i + j]
@ -449,10 +436,10 @@ impl Mul for &Polynomial {
type Output = Polynomial;
fn mul(self, rhs: Self) -> Self::Output {
if self.is_zero() || rhs.is_zero() {
return Polynomial::new(vec![FieldElement::new(vec![0])]);
return Polynomial::zero();
}
let mut polynomial: Vec<FieldElement> =
vec![FieldElement::new(vec![0; 16]); self.polynomial.len() + rhs.polynomial.len() - 1];
vec![FieldElement::zero(); self.polynomial.len() + rhs.polynomial.len() - 1];
for i in 0..self.polynomial.len() {
for j in 0..rhs.polynomial.len() {
polynomial[i + j] = &polynomial[i + j]
@ -486,7 +473,7 @@ impl Add for Polynomial {
}
if polynomial.is_empty() {
return Polynomial::new(vec![FieldElement::new(vec![0; 16])]);
return Polynomial::new(vec![FieldElement::zero()]);
}
Polynomial::new(polynomial)
@ -535,8 +522,8 @@ impl PartialOrd for Polynomial {
);
match field_a
.reverse_bits()
.partial_cmp(&field_b.reverse_bits())
//.reverse_bits()
.partial_cmp(&field_b)
.unwrap()
{
Ordering::Equal => continue,
@ -559,7 +546,10 @@ impl Ord for Polynomial {
for (field_a, field_b) in
self.as_ref().iter().rev().zip(other.as_ref().iter().rev())
{
match field_a.reverse_bits().cmp(&field_b.reverse_bits()) {
match field_a
//.reverse_bits()
.cmp(&field_b)
{
Ordering::Equal => continue,
other => return other,
}
@ -1136,19 +1126,6 @@ mod tests {
//assert_eq!(BASE64_STANDARD.encode(product), "MoAAAAAAAAAAAAAAAAAAAA==");
}
#[test]
fn test_poly_div_01() {
let element1 =
FieldElement::new(BASE64_STANDARD.decode("JAAAAAAAAAAAAAAAAAAAAA==").unwrap());
let element2 =
FieldElement::new(BASE64_STANDARD.decode("wAAAAAAAAAAAAAAAAAAAAA==").unwrap());
let result = element1 / element2;
assert_eq!(BASE64_STANDARD.encode(result), "OAAAAAAAAAAAAAAAAAAAAA==");
}
#[test]
fn test_field_poly_div_01() {
let json1 = json!([