serai/coins/monero/src/ringct/bulletproofs/mod.rs

#![allow(non_snake_case)]

use std_shims::{
  vec::Vec,
  io::{self, Read, Write},
};

use rand_core::{RngCore, CryptoRng};

use zeroize::Zeroize;

use curve25519_dalek::edwards::EdwardsPoint;
use multiexp::BatchVerifier;

use crate::{Commitment, wallet::TransactionError, serialize::*};

pub(crate) mod scalar_vector;
pub(crate) mod core;
use self::core::LOG_N;

pub(crate) mod original;
pub use original::GENERATORS as BULLETPROOFS_GENERATORS;
pub(crate) mod plus;
pub use plus::GENERATORS as BULLETPROOFS_PLUS_GENERATORS;

pub(crate) use self::original::OriginalStruct;
pub(crate) use self::plus::PlusStruct;

pub(crate) const MAX_OUTPUTS: usize = self::core::MAX_M;

/// Bulletproofs enum, supporting the original and plus formulations.
#[allow(clippy::large_enum_variant)]
#[derive(Clone, PartialEq, Eq, Debug)]
pub enum Bulletproofs {
  Original(OriginalStruct),
  Plus(PlusStruct),
}

impl Bulletproofs {
  fn bp_fields(plus: bool) -> usize {
    if plus {
      6
    } else {
      9
    }
  }

  // https://github.com/monero-project/monero/blob/94e67bf96bbc010241f29ada6abc89f49a81759c/
  //   src/cryptonote_basic/cryptonote_format_utils.cpp#L106-L124
  pub(crate) fn calculate_bp_clawback(plus: bool, n_outputs: usize) -> (usize, usize) {
    #[allow(non_snake_case)]
    let mut LR_len = 0;
    let mut n_padded_outputs = 1;
    while n_padded_outputs < n_outputs {
      LR_len += 1;
      n_padded_outputs = 1 << LR_len;
    }
    LR_len += LOG_N;

    let mut bp_clawback = 0;
    if n_padded_outputs > 2 {
      let fields = Bulletproofs::bp_fields(plus);
      let base = ((fields + (2 * (LOG_N + 1))) * 32) / 2;
      let size = (fields + (2 * LR_len)) * 32;
      bp_clawback = ((base * n_padded_outputs) - size) * 4 / 5;
    }

    (bp_clawback, LR_len)
  }

  pub(crate) fn fee_weight(plus: bool, outputs: usize) -> usize {
    #[allow(non_snake_case)]
    let (bp_clawback, LR_len) = Bulletproofs::calculate_bp_clawback(plus, outputs);
    32 * (Bulletproofs::bp_fields(plus) + (2 * LR_len)) + 2 + bp_clawback
  }

  /// Prove the list of commitments are within [0 .. 2^64).
  pub fn prove<R: RngCore + CryptoRng>(
    rng: &mut R,
    outputs: &[Commitment],
    plus: bool,
  ) -> Result<Bulletproofs, TransactionError> {
    if outputs.len() > MAX_OUTPUTS {
      return Err(TransactionError::TooManyOutputs)?;
    }
    Ok(if !plus {
      Bulletproofs::Original(OriginalStruct::prove(rng, outputs))
    } else {
      Bulletproofs::Plus(PlusStruct::prove(rng, outputs))
    })
  }

  /// Verify the given Bulletproofs.
  #[must_use]
  pub fn verify<R: RngCore + CryptoRng>(&self, rng: &mut R, commitments: &[EdwardsPoint]) -> bool {
    match self {
      Bulletproofs::Original(bp) => bp.verify(rng, commitments),
      Bulletproofs::Plus(bp) => bp.verify(rng, commitments),
    }
  }

  /// Accumulate the verification for the given Bulletproofs into the specified BatchVerifier.
  /// Returns false if the Bulletproofs aren't sane, without mutating the BatchVerifier.
  /// Returns true if the Bulletproofs are sane, regardless of their validity.
  #[must_use]
  pub fn batch_verify<ID: Copy + Zeroize, R: RngCore + CryptoRng>(
    &self,
    rng: &mut R,
    verifier: &mut BatchVerifier<ID, dalek_ff_group::EdwardsPoint>,
    id: ID,
    commitments: &[EdwardsPoint],
  ) -> bool {
    match self {
      Bulletproofs::Original(bp) => bp.batch_verify(rng, verifier, id, commitments),
      Bulletproofs::Plus(bp) => bp.batch_verify(rng, verifier, id, commitments),
    }
  }

  fn write_core<W: Write, F: Fn(&[EdwardsPoint], &mut W) -> io::Result<()>>(
    &self,
    w: &mut W,
    specific_write_vec: F,
  ) -> io::Result<()> {
    match self {
      Bulletproofs::Original(bp) => {
        write_point(&bp.A, w)?;
        write_point(&bp.S, w)?;
        write_point(&bp.T1, w)?;
        write_point(&bp.T2, w)?;
        write_scalar(&bp.taux, w)?;
        write_scalar(&bp.mu, w)?;
        specific_write_vec(&bp.L, w)?;
        specific_write_vec(&bp.R, w)?;
        write_scalar(&bp.a, w)?;
        write_scalar(&bp.b, w)?;
        write_scalar(&bp.t, w)
      }

      Bulletproofs::Plus(bp) => {
        write_point(&bp.A, w)?;
        write_point(&bp.A1, w)?;
        write_point(&bp.B, w)?;
        write_scalar(&bp.r1, w)?;
        write_scalar(&bp.s1, w)?;
        write_scalar(&bp.d1, w)?;
        specific_write_vec(&bp.L, w)?;
        specific_write_vec(&bp.R, w)
      }
    }
  }

  pub(crate) fn signature_write<W: Write>(&self, w: &mut W) -> io::Result<()> {
    self.write_core(w, |points, w| write_raw_vec(write_point, points, w))
  }

  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
    self.write_core(w, |points, w| write_vec(write_point, points, w))
  }

  pub fn serialize(&self) -> Vec<u8> {
    let mut serialized = vec![];
    self.write(&mut serialized).unwrap();
    serialized
  }

  /// Read Bulletproofs.
  pub fn read<R: Read>(r: &mut R) -> io::Result<Bulletproofs> {
    Ok(Bulletproofs::Original(OriginalStruct {
      A: read_point(r)?,
      S: read_point(r)?,
      T1: read_point(r)?,
      T2: read_point(r)?,
      taux: read_scalar(r)?,
      mu: read_scalar(r)?,
      L: read_vec(read_point, r)?,
      R: read_vec(read_point, r)?,
      a: read_scalar(r)?,
      b: read_scalar(r)?,
      t: read_scalar(r)?,
    }))
  }

  /// Read Bulletproofs+.
  pub fn read_plus<R: Read>(r: &mut R) -> io::Result<Bulletproofs> {
    Ok(Bulletproofs::Plus(PlusStruct {
      A: read_point(r)?,
      A1: read_point(r)?,
      B: read_point(r)?,
      r1: read_scalar(r)?,
      s1: read_scalar(r)?,
      d1: read_scalar(r)?,
      L: read_vec(read_point, r)?,
      R: read_vec(read_point, r)?,
    }))
  }
}