1use poulpy_hal::{
2 api::{
3 ModuleN, ScratchTakeBasic, SvpApplyDftToDft, VecZnxBigBytesOf, VecZnxBigNormalize, VecZnxDftApply, VecZnxDftBytesOf,
4 VecZnxIdftApplyTmpA,
5 },
6 layouts::{Backend, DataMut, Module, Scratch},
7 source::Source,
8};
9
10use crate::{
11 GGLWEEncryptSk, GetDistribution, ScratchTakeCore,
12 layouts::{
13 GGLWE, GGLWEInfos, GLWEInfos, GLWESecret, GLWESecretToRef, GLWETensorKey, GLWETensorKeyToMut, LWEInfos, Rank,
14 prepared::{GLWESecretPrepared, GLWESecretPreparedFactory},
15 },
16};
17
18impl GLWETensorKey<Vec<u8>> {
19 pub fn encrypt_sk_tmp_bytes<M, A, BE: Backend>(module: &M, infos: &A) -> usize
20 where
21 A: GGLWEInfos,
22 M: GLWETensorKeyEncryptSk<BE>,
23 {
24 module.glwe_tensor_key_encrypt_sk_tmp_bytes(infos)
25 }
26}
27
28impl<DataSelf: DataMut> GLWETensorKey<DataSelf> {
29 pub fn encrypt_sk<M, S, BE: Backend>(
30 &mut self,
31 module: &M,
32 sk: &S,
33 source_xa: &mut Source,
34 source_xe: &mut Source,
35 scratch: &mut Scratch<BE>,
36 ) where
37 M: GLWETensorKeyEncryptSk<BE>,
38 S: GLWESecretToRef + GetDistribution + GLWEInfos,
39 Scratch<BE>: ScratchTakeCore<BE>,
40 {
41 module.glwe_tensor_key_encrypt_sk(self, sk, source_xa, source_xe, scratch);
42 }
43}
44
45pub trait GLWETensorKeyEncryptSk<BE: Backend> {
46 fn glwe_tensor_key_encrypt_sk_tmp_bytes<A>(&self, infos: &A) -> usize
47 where
48 A: GGLWEInfos;
49
50 fn glwe_tensor_key_encrypt_sk<R, S>(
51 &self,
52 res: &mut R,
53 sk: &S,
54 source_xa: &mut Source,
55 source_xe: &mut Source,
56 scratch: &mut Scratch<BE>,
57 ) where
58 R: GLWETensorKeyToMut,
59 S: GLWESecretToRef + GetDistribution + GLWEInfos;
60}
61
62impl<BE: Backend> GLWETensorKeyEncryptSk<BE> for Module<BE>
63where
64 Self: ModuleN
65 + GGLWEEncryptSk<BE>
66 + VecZnxDftBytesOf
67 + VecZnxBigBytesOf
68 + GLWESecretPreparedFactory<BE>
69 + VecZnxDftApply<BE>
70 + SvpApplyDftToDft<BE>
71 + VecZnxIdftApplyTmpA<BE>
72 + VecZnxBigNormalize<BE>,
73 Scratch<BE>: ScratchTakeCore<BE>,
74{
75 fn glwe_tensor_key_encrypt_sk_tmp_bytes<A>(&self, infos: &A) -> usize
76 where
77 A: GGLWEInfos,
78 {
79 GLWESecretPrepared::bytes_of(self, infos.rank_out())
80 + self.bytes_of_vec_znx_dft(infos.rank_out().into(), 1)
81 + self.bytes_of_vec_znx_big(1, 1)
82 + self.bytes_of_vec_znx_dft(1, 1)
83 + GLWESecret::bytes_of(self.n().into(), Rank(1))
84 + GGLWE::encrypt_sk_tmp_bytes(self, infos)
85 }
86
87 fn glwe_tensor_key_encrypt_sk<R, S>(
88 &self,
89 res: &mut R,
90 sk: &S,
91 source_xa: &mut Source,
92 source_xe: &mut Source,
93 scratch: &mut Scratch<BE>,
94 ) where
95 R: GLWETensorKeyToMut,
96 S: GLWESecretToRef + GetDistribution + GLWEInfos,
97 {
98 let res: &mut GLWETensorKey<&mut [u8]> = &mut res.to_mut();
99
100 let rank: Rank = res.rank_out();
102
103 let (mut sk_prepared, scratch_1) = scratch.take_glwe_secret_prepared(self, sk.rank());
104 sk_prepared.prepare(self, sk);
105
106 let sk: &GLWESecret<&[u8]> = &sk.to_ref();
107
108 assert_eq!(res.rank_out(), sk.rank());
109 assert_eq!(res.n(), sk.n());
110
111 let (mut sk_dft, scratch_2) = scratch_1.take_vec_znx_dft(self, rank.into(), 1);
112
113 (0..rank.into()).for_each(|i| {
114 self.vec_znx_dft_apply(1, 0, &mut sk_dft, i, &sk.data.as_vec_znx(), i);
115 });
116
117 let (mut sk_ij_big, scratch_3) = scratch_2.take_vec_znx_big(self, 1, 1);
118 let (mut sk_ij, scratch_4) = scratch_3.take_glwe_secret(self.n().into(), Rank(1));
119 let (mut sk_ij_dft, scratch_5) = scratch_4.take_vec_znx_dft(self, 1, 1);
120
121 (0..rank.into()).for_each(|i| {
122 (i..rank.into()).for_each(|j| {
123 self.svp_apply_dft_to_dft(&mut sk_ij_dft, 0, &sk_prepared.data, j, &sk_dft, i);
124
125 self.vec_znx_idft_apply_tmpa(&mut sk_ij_big, 0, &mut sk_ij_dft, 0);
126 self.vec_znx_big_normalize(
127 res.base2k().into(),
128 &mut sk_ij.data.as_vec_znx_mut(),
129 0,
130 res.base2k().into(),
131 &sk_ij_big,
132 0,
133 scratch_5,
134 );
135
136 res.at_mut(i, j).encrypt_sk(
137 self,
138 &sk_ij.data,
139 &sk_prepared,
140 source_xa,
141 source_xe,
142 scratch_5,
143 );
144 });
145 })
146 }
147}