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use crate::{
errors::Error,
ot::FixedKeyInitializer,
ot::{
alsz::{Receiver as AlszReceiver, Sender as AlszSender},
CorrelatedReceiver, CorrelatedSender, RandomReceiver, RandomSender, Receiver as OtReceiver,
Sender as OtSender,
},
utils,
};
use rand::{CryptoRng, Rng, RngCore, SeedableRng};
use scuttlebutt::{cointoss, AbstractChannel, AesRng, Block, Malicious, SemiHonest};
use std::io::ErrorKind;
const SSP: usize = 40;
pub struct Sender<OT: OtReceiver<Msg = Block> + Malicious> {
pub(super) ot: AlszSender<OT>,
}
pub struct Receiver<OT: OtSender<Msg = Block> + Malicious> {
ot: AlszReceiver<OT>,
}
impl<OT: OtReceiver<Msg = Block> + Malicious> Sender<OT> {
pub(super) fn send_setup<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
m: usize,
rng: &mut RNG,
) -> Result<Vec<u8>, Error> {
let m = if m % 8 != 0 { m + (8 - m % 8) } else { m };
let ncols = m + 128 + SSP;
let qs = self.ot.send_setup(channel, ncols)?;
let mut seed = Block::default();
rng.fill_bytes(&mut seed.as_mut());
let seed = cointoss::send(channel, &[seed])?;
let mut rng = AesRng::from_seed(seed[0]);
let mut check = (Block::default(), Block::default());
let mut chi = Block::default();
for j in 0..ncols {
let q = &qs[j * 16..(j + 1) * 16];
let q: [u8; 16] = q.try_into().unwrap();
let q = Block::from(q);
rng.fill_bytes(&mut chi.as_mut());
let tmp = q.clmul(chi);
check = utils::xor_two_blocks(&check, &tmp);
}
let x = channel.read_block()?;
let t0 = channel.read_block()?;
let t1 = channel.read_block()?;
let tmp = x.clmul(self.ot.s_);
let check = utils::xor_two_blocks(&check, &tmp);
if check != (t0, t1) {
return Err(Error::from(std::io::Error::new(
ErrorKind::InvalidData,
"Consistency check failed",
)));
}
Ok(qs)
}
}
impl<OT: OtReceiver<Msg = Block> + Malicious> FixedKeyInitializer for Sender<OT> {
fn init_fixed_key<C: AbstractChannel, RNG: CryptoRng + Rng>(
channel: &mut C,
s_: [u8; 16],
rng: &mut RNG,
) -> Result<Self, Error> {
let ot = AlszSender::<OT>::init_fixed_key(channel, s_, rng)?;
Ok(Self { ot })
}
}
impl<OT: OtReceiver<Msg = Block> + Malicious> OtSender for Sender<OT> {
type Msg = Block;
fn init<C: AbstractChannel, RNG: CryptoRng + Rng>(
channel: &mut C,
rng: &mut RNG,
) -> Result<Self, Error> {
let ot = AlszSender::<OT>::init(channel, rng)?;
Ok(Self { ot })
}
fn send<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
inputs: &[(Block, Block)],
rng: &mut RNG,
) -> Result<(), Error> {
let m = inputs.len();
let qs = self.send_setup(channel, m, rng)?;
for (j, input) in inputs.iter().enumerate() {
let q = &qs[j * 16..(j + 1) * 16];
let q: [u8; 16] = q.try_into().unwrap();
let q = Block::from(q);
let y0 = self.ot.hash.tccr_hash(Block::from(j as u128), q) ^ input.0;
let q = q ^ self.ot.s_;
let y1 = self.ot.hash.tccr_hash(Block::from(j as u128), q) ^ input.1;
channel.write_block(&y0)?;
channel.write_block(&y1)?;
}
channel.flush()?;
Ok(())
}
}
impl<OT: OtReceiver<Msg = Block> + Malicious> CorrelatedSender for Sender<OT> {
fn send_correlated<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
deltas: &[Self::Msg],
rng: &mut RNG,
) -> Result<Vec<(Self::Msg, Self::Msg)>, Error> {
let m = deltas.len();
let qs = self.send_setup(channel, m, rng)?;
let mut out = Vec::with_capacity(m);
for (j, delta) in deltas.iter().enumerate() {
let q = &qs[j * 16..(j + 1) * 16];
let q: [u8; 16] = q.try_into().unwrap();
let q = Block::from(q);
let x0 = self.ot.hash.tccr_hash(Block::from(j as u128), q);
let x1 = x0 ^ *delta;
let q = q ^ self.ot.s_;
let y = self.ot.hash.tccr_hash(Block::from(j as u128), q) ^ x1;
channel.write_block(&y)?;
out.push((x0, x1));
}
channel.flush()?;
Ok(out)
}
}
impl<OT: OtReceiver<Msg = Block> + Malicious> RandomSender for Sender<OT> {
fn send_random<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
m: usize,
rng: &mut RNG,
) -> Result<Vec<(Self::Msg, Self::Msg)>, Error> {
let qs = self.send_setup(channel, m, rng)?;
let mut out = Vec::with_capacity(m);
for j in 0..m {
let q = &qs[j * 16..(j + 1) * 16];
let q: [u8; 16] = q.try_into().unwrap();
let q = Block::from(q);
let x0 = self.ot.hash.tccr_hash(Block::from(j as u128), q);
let q = q ^ self.ot.s_;
let x1 = self.ot.hash.tccr_hash(Block::from(j as u128), q);
out.push((x0, x1));
}
Ok(out)
}
}
impl<OT: OtReceiver<Msg = Block> + Malicious> std::fmt::Display for Sender<OT> {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
write!(f, "KOS Sender")
}
}
impl<OT: OtSender<Msg = Block> + Malicious> Receiver<OT> {
pub(super) fn receive_setup<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
inputs: &[bool],
rng: &mut RNG,
) -> Result<Vec<u8>, Error> {
let m = inputs.len();
let m = if m % 8 != 0 { m + (8 - m % 8) } else { m };
let m_ = m + 128 + SSP;
let mut r = utils::boolvec_to_u8vec(inputs);
r.extend((0..(m_ - m) / 8).map(|_| rand::random::<u8>()));
let ts = self.ot.receive_setup(channel, &r, m_)?;
let mut seed = Block::default();
rng.fill_bytes(&mut seed.as_mut());
let seed = cointoss::receive(channel, &[seed])?;
let mut rng = AesRng::from_seed(seed[0]);
let mut x = Block::default();
let mut t = (Block::default(), Block::default());
let r_ = utils::u8vec_to_boolvec(&r);
let mut chi = Block::default();
for (j, xj) in r_.into_iter().enumerate() {
let tj = &ts[j * 16..(j + 1) * 16];
let tj: [u8; 16] = tj.try_into().unwrap();
let tj = Block::from(tj);
rng.fill_bytes(&mut chi.as_mut());
x ^= if xj { chi } else { Block::default() };
let tmp = tj.clmul(chi);
t = utils::xor_two_blocks(&t, &tmp);
}
channel.write_block(&x)?;
channel.write_block(&t.0)?;
channel.write_block(&t.1)?;
channel.flush()?;
Ok(ts)
}
}
impl<OT: OtSender<Msg = Block> + Malicious> OtReceiver for Receiver<OT> {
type Msg = Block;
fn init<C: AbstractChannel, RNG: CryptoRng + Rng>(
channel: &mut C,
rng: &mut RNG,
) -> Result<Self, Error> {
let ot = AlszReceiver::<OT>::init(channel, rng)?;
Ok(Self { ot })
}
fn receive<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
inputs: &[bool],
rng: &mut RNG,
) -> Result<Vec<Block>, Error> {
let ts = self.receive_setup(channel, inputs, rng)?;
let mut out = Vec::with_capacity(inputs.len());
for (j, b) in inputs.iter().enumerate() {
let t = &ts[j * 16..(j + 1) * 16];
let t: [u8; 16] = t.try_into().unwrap();
let y0 = channel.read_block()?;
let y1 = channel.read_block()?;
let y = if *b { y1 } else { y0 };
let y = y ^ self
.ot
.hash
.tccr_hash(Block::from(j as u128), Block::from(t));
out.push(y);
}
Ok(out)
}
}
impl<OT: OtSender<Msg = Block> + Malicious> CorrelatedReceiver for Receiver<OT> {
fn receive_correlated<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
inputs: &[bool],
rng: &mut RNG,
) -> Result<Vec<Self::Msg>, Error> {
let ts = self.receive_setup(channel, inputs, rng)?;
let mut out = Vec::with_capacity(inputs.len());
for (j, b) in inputs.iter().enumerate() {
let t = &ts[j * 16..(j + 1) * 16];
let t: [u8; 16] = t.try_into().unwrap();
let y = channel.read_block()?;
let y = if *b { y } else { Block::default() };
let h = self
.ot
.hash
.tccr_hash(Block::from(j as u128), Block::from(t));
out.push(y ^ h);
}
Ok(out)
}
}
impl<OT: OtSender<Msg = Block> + Malicious> RandomReceiver for Receiver<OT> {
fn receive_random<C: AbstractChannel, RNG: CryptoRng + Rng>(
&mut self,
channel: &mut C,
inputs: &[bool],
rng: &mut RNG,
) -> Result<Vec<Self::Msg>, Error> {
let ts = self.receive_setup(channel, inputs, rng)?;
let mut out = Vec::with_capacity(inputs.len());
for j in 0..inputs.len() {
let t = &ts[j * 16..(j + 1) * 16];
let t: [u8; 16] = t.try_into().unwrap();
let h = self
.ot
.hash
.tccr_hash(Block::from(j as u128), Block::from(t));
out.push(h);
}
Ok(out)
}
}
impl<OT: OtSender<Msg = Block> + Malicious> std::fmt::Display for Receiver<OT> {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
write!(f, "KOS Receiver")
}
}
impl<OT: OtReceiver<Msg = Block> + Malicious> SemiHonest for Sender<OT> {}
impl<OT: OtSender<Msg = Block> + Malicious> SemiHonest for Receiver<OT> {}
impl<OT: OtReceiver<Msg = Block> + Malicious> Malicious for Sender<OT> {}
impl<OT: OtSender<Msg = Block> + Malicious> Malicious for Receiver<OT> {}
