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90 lines
2.6 KiB
Rust
90 lines
2.6 KiB
Rust
#![cfg_attr(docsrs, feature(doc_auto_cfg))]
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#![doc = include_str!("../README.md")]
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#![cfg_attr(not(feature = "std"), no_std)]
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use std_shims::{sync::OnceLock, vec::Vec};
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use sha3::{Digest, Keccak256};
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use curve25519_dalek::edwards::{EdwardsPoint as DalekPoint};
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use group::{Group, GroupEncoding};
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use dalek_ff_group::EdwardsPoint;
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use monero_io::{write_varint, decompress_point};
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mod hash_to_point;
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pub use hash_to_point::hash_to_point;
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#[cfg(test)]
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mod tests;
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fn keccak256(data: &[u8]) -> [u8; 32] {
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Keccak256::digest(data).into()
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}
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static H_CELL: OnceLock<DalekPoint> = OnceLock::new();
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/// Monero's `H` generator.
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///
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/// Contrary to convention (`G` for values, `H` for randomness), `H` is used by Monero for amounts
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/// within Pedersen commitments.
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#[allow(non_snake_case)]
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pub fn H() -> DalekPoint {
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*H_CELL.get_or_init(|| {
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decompress_point(keccak256(&EdwardsPoint::generator().to_bytes())).unwrap().mul_by_cofactor()
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})
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}
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static H_POW_2_CELL: OnceLock<[DalekPoint; 64]> = OnceLock::new();
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/// Monero's `H` generator, multiplied by 2**i for i in 1 ..= 64.
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///
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/// This table is useful when working with amounts, which are u64s.
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#[allow(non_snake_case)]
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pub fn H_pow_2() -> &'static [DalekPoint; 64] {
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H_POW_2_CELL.get_or_init(|| {
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let mut res = [H(); 64];
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for i in 1 .. 64 {
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res[i] = res[i - 1] + res[i - 1];
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}
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res
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})
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}
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// The maximum amount of commitments proven for within a single range proof.
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const MAX_M: usize = 16;
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// The amount of bits the value within a commitment may use.
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const N: usize = 64;
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// The maximum amount of bits used within a single range proof.
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const MAX_MN: usize = MAX_M * N;
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/// Container struct for Bulletproofs(+) generators.
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#[allow(non_snake_case)]
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pub struct Generators {
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pub G: Vec<EdwardsPoint>,
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pub H: Vec<EdwardsPoint>,
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}
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/// Generate generators as needed for Bulletproofs(+), as Monero does.
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///
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/// Consumers should not call this function ad-hoc, yet call it within a build script or use a
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/// once-initialized static.
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pub fn bulletproofs_generators(dst: &'static [u8]) -> Generators {
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let mut preimage = H().compress().to_bytes().to_vec();
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preimage.extend(dst);
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let mut res = Generators { G: Vec::with_capacity(MAX_MN), H: Vec::with_capacity(MAX_MN) };
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for i in 0 .. MAX_MN {
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// We generate a pair of generators per iteration
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let i = 2 * i;
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let mut even = preimage.clone();
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write_varint(&i, &mut even).unwrap();
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res.H.push(EdwardsPoint(hash_to_point(keccak256(&even))));
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let mut odd = preimage.clone();
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write_varint(&(i + 1), &mut odd).unwrap();
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res.G.push(EdwardsPoint(hash_to_point(keccak256(&odd))));
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}
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res
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}
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