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Merging test runner implementation for monic and sqrt #20

Merged
0xalivecow merged 2 commits from dev into main 2024-11-22 20:19:13 +00:00
Conversation 0 Commits 2 Files changed 4 +161 -32
4 changed files with 161 additions and 32 deletions
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15
src/tasks/mod.rs
View file

@ -9,7 +9,8 @@ use tasks01::{
gfmul::gfmul_task, gfmul::gfmul_task,
pad_oracle::padding_oracle, pad_oracle::padding_oracle,
pfmath::{ pfmath::{
gfdiv, gfpoly_add, gfpoly_divmod, gfpoly_mul, gfpoly_pow, gfpoly_powmod, gfpoly_sort, gfdiv, gfpoly_add, gfpoly_divmod, gfpoly_make_monic, gfpoly_mul, gfpoly_pow, gfpoly_powmod,
gfpoly_sort, gfpoly_sqrt,
}, },
poly2block::poly2block, poly2block::poly2block,
sea128::sea128, sea128::sea128,
@ -132,6 +133,18 @@ pub fn task_deploy(testcase: &Testcase) -> Result<Value> {
Ok(json) Ok(json)
} }
"gfpoly_make_monic" => {
let result = gfpoly_make_monic(args)?;
let json = json!({"S" : result.to_c_array()});
Ok(json)
}
"gfpoly_sqrt" => {
let result = gfpoly_sqrt(args)?;
let json = json!({"S" : result.to_c_array()});
Ok(json)
}
_ => Err(anyhow!( _ => Err(anyhow!(
"Fatal. No compatible action found. Json data was {:?}. Arguments were; {:?}", "Fatal. No compatible action found. Json data was {:?}. Arguments were; {:?}",

16
src/tasks/tasks01/pfmath.rs
View file

@ -81,6 +81,22 @@ pub fn gfpoly_sort(args: &Value) -> Result<Vec<Polynomial>> {
Ok(polys) Ok(polys)
} }
pub fn gfpoly_make_monic(args: &Value) -> Result<Polynomial> {
let mut poly_a = Polynomial::from_c_array(&args["A"].clone());
poly_a.monic();
Ok(poly_a)
}
pub fn gfpoly_sqrt(args: &Value) -> Result<Polynomial> {
let poly_a = Polynomial::from_c_array(&args["Q"].clone());
let result = poly_a.sqrt();
Ok(result)
}
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use super::*; use super::*;

43
src/utils/field.rs
View file

@ -36,20 +36,45 @@ impl FieldElement {
BASE64_STANDARD.encode(&self.field_element) BASE64_STANDARD.encode(&self.field_element)
} }
pub fn pow(&self, mut exponent: u128) -> FieldElement { pub fn pow(mut self, mut exponent: u128) -> FieldElement {
let mut result: FieldElement =
FieldElement::new(polynomial_2_block(vec![0], "gcm").unwrap());
if exponent == 1 {
eprintln!("special case 1: {:02X?}", self.clone());
return self;
}
if exponent == 0 { if exponent == 0 {
// Return polynomial with coefficient 1 let result = FieldElement::new(polynomial_2_block(vec![0], "gcm").unwrap());
return FieldElement::new(vec![1]);
eprintln!("Returned value is: {:02X?}", result);
return result;
} }
let base = self.clone(); //eprintln!("Initial result: {:?}", result);
let mut result = base.clone();
exponent -= 1; // Subtract 1 because we already set result to base
while exponent > 0 { while exponent > 0 {
result = result * base.clone(); //eprintln!("Current exponent: {:02X}", exponent);
exponent -= 1; if exponent & 1 == 1 {
let temp = &self * &result;
//eprintln!("Mult");
//eprintln!("After mod: {:?}", temp);
result = temp
} }
let temp_square = &self * &self;
// eprintln!("Square");
// eprintln!("After squaring: {:?}", temp_square);
self = temp_square;
//eprintln!("After mod: {:?}", self);
exponent >>= 1;
}
// eprintln!("result in powmod before reduction: {:02X?}", result);
// eprintln!("result in powmod after reduction: {:02X?}", result);
result result
} }

117
src/utils/poly.rs
View file

@ -56,19 +56,63 @@ impl Polynomial {
output output
} }
pub fn pow(&self, mut exponent: u128) -> Polynomial { pub fn pow(mut self, mut exponent: u128) -> Polynomial {
if exponent == 0 { let mut result: Polynomial = Polynomial::new(vec![FieldElement::new(
return Polynomial::new(vec![FieldElement::new(
polynomial_2_block(vec![0], "gcm").unwrap(), polynomial_2_block(vec![0], "gcm").unwrap(),
)]); )]);
if exponent == 1 {
eprintln!("special case 1: {:02X?}", self.clone());
return self;
} }
let base = self.clone(); if exponent == 0 {
let mut result = base.clone(); let result = Polynomial::new(vec![FieldElement::new(
exponent -= 1; polynomial_2_block(vec![0], "gcm").unwrap(),
)]);
eprintln!("Returned value is: {:02X?}", result);
return result;
}
//eprintln!("Initial result: {:?}", result);
while exponent > 0 { while exponent > 0 {
result = result * base.clone(); //eprintln!("Current exponent: {:02X}", exponent);
exponent -= 1; if exponent & 1 == 1 {
let temp = &self * &result;
//eprintln!("Mult");
//eprintln!("After mod: {:?}", temp);
result = temp
}
let temp_square = &self * &self;
//eprintln!("Square");
//eprintln!("After squaring: {:?}", temp_square);
self = temp_square;
//eprintln!("After mod: {:?}", self);
exponent >>= 1;
}
//eprintln!("result in powmod before reduction: {:02X?}", result);
while !result.polynomial.is_empty()
&& result
.polynomial
.last()
.unwrap()
.as_ref()
.iter()
.all(|&x| x == 0)
{
result.polynomial.pop();
}
//eprintln!("result in powmod after reduction: {:02X?}", result);
if result.is_empty() {
result = Polynomial::new(vec![FieldElement::new(vec![0; 16])]);
} }
result result
@ -212,7 +256,7 @@ impl Polynomial {
true true
} }
fn monic(mut self) -> Self { pub fn monic(&mut self) {
let divident = self.polynomial.last().unwrap().clone(); let divident = self.polynomial.last().unwrap().clone();
for fieldelement in &mut self.polynomial.iter_mut() { for fieldelement in &mut self.polynomial.iter_mut() {
@ -230,12 +274,18 @@ impl Polynomial {
{ {
self.polynomial.pop(); self.polynomial.pop();
} }
if self.is_empty() {
self = Polynomial::new(vec![FieldElement::new(vec![0; 16])]);
} }
self pub fn sqrt(self) -> Self {
let mut result = vec![];
for (position, element) in self.polynomial.iter().enumerate() {
if position % 2 == 0 {
result.push(element.clone().pow(2u128.pow(127)));
}
}
Polynomial::new(result)
} }
} }
@ -1079,22 +1129,22 @@ mod tests {
"1Ial5rAJGOucIdUe3zh5bw==", "1Ial5rAJGOucIdUe3zh5bw==",
"gAAAAAAAAAAAAAAAAAAAAA==" "gAAAAAAAAAAAAAAAAAAAAA=="
]); ]);
let element1: Polynomial = Polynomial::from_c_array(&json1); let mut element1: Polynomial = Polynomial::from_c_array(&json1);
let result = element1.monic(); element1.monic();
assert_eq!(json!(result.to_c_array()), expected); assert_eq!(json!(element1.to_c_array()), expected);
} }
#[test] #[test]
fn test_poly_monic_poly_zero() { fn test_poly_monic_poly_zero() {
let json1 = json!(["AAAAAAAAAAAAAAAAAAAAAA=="]); let json1 = json!(["AAAAAAAAAAAAAAAAAAAAAA=="]);
let expected = json!(["AAAAAAAAAAAAAAAAAAAAAA=="]); let expected = json!(["AAAAAAAAAAAAAAAAAAAAAA=="]);
let element1: Polynomial = Polynomial::from_c_array(&json1); let mut element1: Polynomial = Polynomial::from_c_array(&json1);
let result = element1.monic(); element1.monic();
assert_eq!(json!(result.to_c_array()), expected); assert_eq!(json!(element1.to_c_array()), expected);
} }
#[test] #[test]
@ -1106,9 +1156,34 @@ mod tests {
"AAAAAAAAAAAAAAAAAAAAAA==" "AAAAAAAAAAAAAAAAAAAAAA=="
]); ]);
let expected = json!(["AAAAAAAAAAAAAAAAAAAAAA=="]); let expected = json!(["AAAAAAAAAAAAAAAAAAAAAA=="]);
let element1: Polynomial = Polynomial::from_c_array(&json1); let mut element1: Polynomial = Polynomial::from_c_array(&json1);
let result = element1.monic(); element1.monic();
assert_eq!(json!(element1.to_c_array()), expected);
}
#[test]
fn test_poly_poly_sqrt() {
let json1 = json!([
"5TxUxLHO1lHE/rSFquKIAg==",
"AAAAAAAAAAAAAAAAAAAAAA==",
"0DEUJYdHlmd4X7nzzIdcCA==",
"AAAAAAAAAAAAAAAAAAAAAA==",
"PKUa1+JHTxHE8y3LbuKIIA==",
"AAAAAAAAAAAAAAAAAAAAAA==",
"Ds96KiAKKoigKoiKiiKAiA=="
]);
let expected = json!([
"NeverGonnaGiveYouUpAAA==",
"NeverGonnaLetYouDownAA==",
"NeverGonnaRunAroundAAA==",
"AndDesertYouAAAAAAAAAA=="
]);
let element1: Polynomial = Polynomial::from_c_array(&json1);
eprintln!("Starting poly sqrt");
let result = element1.sqrt();
assert_eq!(json!(result.to_c_array()), expected); assert_eq!(json!(result.to_c_array()), expected);
} }