wip: rgsw ops test

2026-02-10 13:16:44 +01:00 · 2025-05-10 11:39:16 +02:00
parent 17e1678fb0
commit 912876807e
1 changed files with 141 additions and 4 deletions
--- a/rlwe/src/test_fft64/elem_rgsw.rs
+++ b/rlwe/src/test_fft64/elem_rgsw.rs
@@ -1,16 +1,15 @@
 #[cfg(test)]
 mod tests {
    use base2k::{
-        FFT64, Module, ScalarZnx, ScalarZnxAlloc, ScalarZnxDftOps, ScratchOwned, Stats, VecZnxBig, VecZnxBigAlloc, VecZnxBigOps,
+        FillUniform, Module, ScalarZnx, ScalarZnxAlloc, ScalarZnxDftOps, ScratchOwned, Stats, VecZnxBig, VecZnxBigAlloc, VecZnxBigOps, VecZnxDft, VecZnxDftAlloc, VecZnxDftOps, VecZnxOps, VecZnxToMut, VecZnxToRef, ZnxView, ZnxViewMut, ZnxZero, FFT64
        VecZnxDft, VecZnxDftAlloc, VecZnxDftOps, VecZnxOps, ZnxZero,
    };
    use sampling::source::Source;
    use crate::{
        elem::Infos,
        elem_rgsw::RGSWCt,
-        elem_rlwe::{RLWECtDft, RLWEPt},
+        elem_rlwe::{RLWECt, RLWECtDft, RLWEPt},
-        keys::{SecretKey, SecretKeyDft},
+        keys::{SecretKey, SecretKeyDft}, test_fft64::elem_rgsw::noise_rgsw_rlwe_product,
    };
    #[test]
@@ -85,4 +84,142 @@ mod tests {
        module.free();
    }
    #[test]
    fn mul_rlwe() {
        let module: Module<FFT64> = Module::<FFT64>::new(32);
        let log_base2k: usize = 12;
        let log_k_grlwe: usize = 60;
        let log_k_rlwe_in: usize = 45;
        let log_k_rlwe_out: usize = 60;
        let rows: usize = (log_k_rlwe_in + log_base2k - 1) / log_base2k;
        let sigma: f64 = 3.2;
        let bound: f64 = sigma * 6.0;
        let mut ct_rgsw: RGSWCt<Vec<u8>, FFT64> = RGSWCt::new(&module, log_base2k, log_k_grlwe, rows);
        let mut ct_rlwe_in: RLWECt<Vec<u8>> = RLWECt::new(&module, log_base2k, log_k_rlwe_in);
        let mut ct_rlwe_out: RLWECt<Vec<u8>> = RLWECt::new(&module, log_base2k, log_k_rlwe_out);
        let mut pt_rgsw: ScalarZnx<Vec<u8>> = module.new_scalar_znx(1);
        let mut pt_want: RLWEPt<Vec<u8>> = RLWEPt::new(&module, log_base2k, log_k_rlwe_in);
        let mut pt_have: RLWEPt<Vec<u8>> = RLWEPt::new(&module, log_base2k, log_k_rlwe_out);
        let mut source_xs: Source = Source::new([0u8; 32]);
        let mut source_xe: Source = Source::new([0u8; 32]);
        let mut source_xa: Source = Source::new([0u8; 32]);
        // Random input plaintext
        //pt_want
        //    .data
        //    .fill_uniform(log_base2k, 0, pt_want.size(), &mut source_xa);
        pt_want.to_mut().at_mut(0, 0)[0] = 1;
        pt_rgsw.raw_mut()[1] = 1; // X^{1}
        let mut scratch: ScratchOwned = ScratchOwned::new(
            RGSWCt::encrypt_sk_scratch_space(&module, ct_rgsw.size())
                | RLWECt::decrypt_scratch_space(&module, ct_rlwe_out.size())
                | RLWECt::encrypt_sk_scratch_space(&module, ct_rlwe_in.size())
                | RGSWCt::mul_rlwe_scratch_space(
                    &module,
                    ct_rlwe_out.size(),
                    ct_rlwe_in.size(),
                    ct_rgsw.size(),
                ),
        );
        let mut sk: SecretKey<Vec<u8>> = SecretKey::new(&module);
        sk.fill_ternary_prob(0.5, &mut source_xs);
        let mut sk_dft: SecretKeyDft<Vec<u8>, FFT64> = SecretKeyDft::new(&module);
        sk_dft.dft(&module, &sk);
        ct_rgsw.encrypt_sk(
            &module,
            &pt_rgsw,
            &sk_dft,
            &mut source_xa,
            &mut source_xe,
            sigma,
            bound,
            scratch.borrow(),
        );
        ct_rlwe_in.encrypt_sk(
            &module,
            Some(&pt_want),
            &sk_dft,
            &mut source_xa,
            &mut source_xe,
            sigma,
            bound,
            scratch.borrow(),
        );
        ct_rgsw.mul_rlwe(&module, &mut ct_rlwe_out, &ct_rlwe_in, scratch.borrow());
        ct_rlwe_out.decrypt(&module, &mut pt_have, &sk_dft, scratch.borrow());
        module.vec_znx_sub_ab_inplace(&mut pt_have, 0, &pt_want, 0);
        println!("{}", pt_want.data);
        println!("{}", pt_have.data);
        let noise_have: f64 = pt_have.data.std(0, log_base2k).log2();
        let noise_want: f64 = noise_rgsw_rlwe_product(
            module.n() as f64,
            log_base2k,
            0.5,
            0.5,
            0f64,
            0f64,
            sigma * sigma,
            0f64,
            log_k_rlwe_in,
            log_k_grlwe,
        );
        assert!(
            (noise_have - noise_want).abs() <= 0.1,
            "{} {}",
            noise_have,
            noise_want
        );
        module.free();
    }
 }
 #[allow(dead_code)]
 pub(crate) fn noise_rgsw_rlwe_product(
    n: f64,
    log_base2k: usize,
    var_xs: f64,
    var_msg: f64,
    var_a0_err: f64,
    var_a1_err: f64,
    var_gct_err_lhs: f64,
    var_gct_err_rhs: f64,
    a_logq: usize,
    b_logq: usize,
 ) -> f64 {
    let a_logq: usize = a_logq.min(b_logq);
    let a_cols: usize = (a_logq + log_base2k - 1) / log_base2k;
    let b_scale = 2.0f64.powi(b_logq as i32);
    let a_scale: f64 = 2.0f64.powi((b_logq - a_logq) as i32);
    let base: f64 = (1 << (log_base2k)) as f64;
    let var_base: f64 = base * base / 12f64;
    // lhs = a_cols * n * (var_base * var_gct_err_lhs + var_e_a * var_msg * p^2)
    // rhs = a_cols * n * var_base * var_gct_err_rhs * var_xs
    let mut noise: f64 = 2.0 * (a_cols as f64) * n * var_base * (var_gct_err_lhs + var_xs * var_gct_err_rhs);
    noise += var_msg * var_a0_err * a_scale * a_scale * n;
    noise += var_msg * var_a1_err * a_scale * a_scale * n * var_xs;
    noise = noise.sqrt();
    noise /= b_scale;
    noise.log2().min(-1.0) // max noise is [-2^{-1}, 2^{-1}]
 }