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@ -107,14 +107,12 @@ where |
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.for_each(|(to_ri, from_ri)| {
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to_ri.as_mut().copy_from_slice(from_ri.as_ref());
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});
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// println!("RGSW key; coefficient {:?}", &data);
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// Send polynomials to evaluation domain
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let ring_size = data.dimension().1;
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let nttop = N::new(value.modulus, ring_size);
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data.iter_rows_mut()
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.for_each(|ri| nttop.forward(ri.as_mut()));
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// println!("RGSW key; {:?}", &data);
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Self {
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data: data,
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@ -676,7 +674,8 @@ pub(crate) fn secret_key_encrypt_rgsw< |
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seed: R::Seed,
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rng: &mut R,
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) where
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<Mmut as Matrix>::R: RowMut + RowEntity + TryConvertFrom<[S], Parameters = Mmut::MatElement>,
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<Mmut as Matrix>::R: |
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RowMut + RowEntity + TryConvertFrom<[S], Parameters = Mmut::MatElement> + Debug,
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Mmut::MatElement: Copy + Debug,
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Mmut: Debug,
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{
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@ -688,7 +687,7 @@ pub(crate) fn secret_key_encrypt_rgsw< |
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// RLWE(-sm), RLWE(m)
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let (rlwe_dash_nsm, b_rlwe_dash_m) = out_rgsw.split_at_row_mut(d * 2);
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dbg!(rlwe_dash_nsm.len(), b_rlwe_dash_m.len());
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let mut s_eval = Mmut::R::try_convert_from(s, &q);
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ntt_op.forward(s_eval.as_mut());
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@ -702,7 +701,7 @@ pub(crate) fn secret_key_encrypt_rgsw< |
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gadget_vector.iter()
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)
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.for_each(|(ai, bi, beta_i)| {
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// Sample a_i and transform to evaluation domain
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// Sample a_i
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RandomUniformDist::random_fill(rng, &q, ai.as_mut());
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// a_i * s
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@ -725,26 +724,21 @@ pub(crate) fn secret_key_encrypt_rgsw< |
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// polynomials of part A of RLWE'(m) are sampled from seed
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let mut p_rng = R::new_with_seed(seed);
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let mut a = Mmut::zeros(d, ring_size);
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a.iter_rows_mut().for_each(|ai| {
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RandomUniformDist::random_fill(&mut p_rng, &q, ai.as_mut());
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ntt_op.forward(ai.as_mut());
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});
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a.iter_rows_mut()
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.for_each(|ai| RandomUniformDist::random_fill(&mut p_rng, &q, ai.as_mut()));
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a
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};
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// println!("RGSW sample RLWE'_A(m) {:?}", &a_rlwe_dash_m);
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izip!(
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a_rlwe_dash_m.iter_rows_mut(),
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b_rlwe_dash_m.iter_mut(),
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gadget_vector.iter()
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)
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.for_each(|(ai, bi, beta_i)| {
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dbg!(&beta_i);
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// ai * s
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// ntt_op.forward(ai.as_mut());
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ntt_op.forward(ai.as_mut());
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mod_op.elwise_mul_mut(ai.as_mut(), s_eval.as_ref());
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ntt_op.backward(ai.as_mut());
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// beta_i * m
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mod_op.elwise_scalar_mul(scratch_space.as_mut(), m.as_ref(), beta_i);
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@ -755,15 +749,6 @@ pub(crate) fn secret_key_encrypt_rgsw< |
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mod_op.elwise_add_mut(bi.as_mut(), scratch_space.as_ref());
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mod_op.elwise_add_mut(bi.as_mut(), ai.as_ref());
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});
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out_rgsw
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.iter_rows_mut()
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.for_each(|ri| ntt_op.forward(ri.as_mut()));
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// println!("RGSW key ex {:?}", &out_rgsw);
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out_rgsw
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.iter_rows_mut()
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.for_each(|ri| ntt_op.backward(ri.as_mut()));
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}
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/// Encrypt polynomial m(X) as RLWE ciphertext.
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@ -997,23 +982,22 @@ mod tests { |
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#[test]
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fn rlwe_by_rgsw_works() {
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let logq = 50;
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let logq = 24;
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let logp = 2;
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let ring_size = 1 << 4;
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let q = generate_prime(logq, ring_size, 1u64 << logq).unwrap();
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let p = 1u64 << logp;
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let d_rgsw = 10;
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let logb = 5;
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let d_rgsw = 2;
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let logb = 12;
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let mut rng = DefaultSecureRng::new_seeded([0u8; 32]);
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let s = RlweSecret::random((ring_size >> 1) as usize, ring_size as usize);
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let mut m0 = vec![0u64; ring_size as usize];
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// RandomUniformDist::<[u64]>::random_fill(&mut rng, &(1u64 << logp),
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// m0.as_mut_slice());
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RandomUniformDist::<[u64]>::random_fill(&mut rng, &(1u64 << logp), m0.as_mut_slice());
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let mut m1 = vec![0u64; ring_size as usize];
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// m1[thread_rng().gen_range(0..ring_size) as usize] = 1;
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m1[thread_rng().gen_range(0..ring_size) as usize] = 1;
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let ntt_op = NttBackendU64::new(q, ring_size as usize);
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let mod_op = ModularOpsU64::new(q);
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@ -1041,8 +1025,6 @@ mod tests { |
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let rgsw_ct = RgswCiphertextEvaluationDomain::<_, DefaultSecureRng, NttBackendU64>::from(
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&seeded_rgsw_ct,
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);
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// println!("RGSW(m1) seeded: {:?}", &seeded_rgsw_ct);
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// println!("RGSW(m1): {:?}", &rgsw_ct);
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// Encrypt m0 as RLWE(m0)
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let mut rlwe_seed = [0u8; 32];
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@ -1062,7 +1044,6 @@ mod tests { |
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seeded_rlwe_in_ct.seed,
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&mut rng,
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);
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let mut rlwe_in_ct =
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RlweCiphertext::<Vec<Vec<u64>>, DefaultSecureRng>::from(&seeded_rlwe_in_ct);
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@ -1100,7 +1081,6 @@ mod tests { |
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m0m1,
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m0m1_back
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);
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// dbg!(&m0m1_back, m0m1, q);
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}
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// #[test]
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Janmajaya Mall
11 months ago