blob: c3ef015703e9d3dbe33ec134567c248b3dfe4e73 (
plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
|
-- Implementation of the Lilliput-TBC tweakable block cipher by the
-- Lilliput-AE team, hereby denoted as "the implementer".
--
-- For more information, feedback or questions, refer to our website:
-- https://paclido.fr/lilliput-ae
--
-- To the extent possible under law, the implementer has waived all copyright
-- and related or neighboring rights to the source code in this file.
-- http://creativecommons.org/publicdomain/zero/1.0/
library IEEE;
library work;
use IEEE.numeric_std.ALL;
use IEEE.STD_LOGIC_1164.ALL;
use work.crypt_pack.ALL;
entity chiffrement is port (
chiffrement_i : in type_state;
permutation_i : in std_logic;
round_key_i : in type_key;
chiffrement_o : out type_state
);
end chiffrement;
architecture chiffrement_arch of chiffrement is
signal non_linear_s : type_half_state;
signal non_linear_s1 : type_half_state;
signal linear_s : type_half_state;
signal linear_tmp_s : type_half_state;
signal linear : bit8;
component sbox
port (
sbox_i : in bit8;
sbox_o : out bit8
);
end component;
begin
non_linear_s(0)(0) <= chiffrement_i(1)(3) xor round_key_i(1)(3);
non_linear_s(0)(1) <= chiffrement_i(1)(2) xor round_key_i(1)(2);
non_linear_s(0)(2) <= chiffrement_i(1)(1) xor round_key_i(1)(1);
non_linear_s(0)(3) <= chiffrement_i(1)(0) xor round_key_i(1)(0);
non_linear_s(1)(0) <= chiffrement_i(0)(3) xor round_key_i(0)(3);
non_linear_s(1)(1) <= chiffrement_i(0)(2) xor round_key_i(0)(2);
non_linear_s(1)(2) <= chiffrement_i(0)(1) xor round_key_i(0)(1);
non_linear_s(1)(3) <= chiffrement_i(0)(0) xor round_key_i(0)(0);
boucle_ligne : for i in 0 to 1 generate
boucle_colonne : for j in 0 to 3 generate
sboxx : sbox port map(
sbox_i => non_linear_s(i)(j),
sbox_o => non_linear_s1(i)(j)
);
end generate;
end generate;
linear_tmp_s(0)(0) <= chiffrement_i(2)(0);
linear_tmp_s(0)(1) <= chiffrement_i(2)(1) xor chiffrement_i(1)(3);
linear_tmp_s(0)(2) <= chiffrement_i(2)(2) xor chiffrement_i(1)(3);
linear_tmp_s(0)(3) <= chiffrement_i(2)(3) xor chiffrement_i(1)(3);
linear_tmp_s(1)(0) <= chiffrement_i(3)(0) xor chiffrement_i(1)(3);
linear_tmp_s(1)(1) <= chiffrement_i(3)(1) xor chiffrement_i(1)(3);
linear_tmp_s(1)(2) <= chiffrement_i(3)(2) xor chiffrement_i(1)(3);
linear_tmp_s(1)(3) <= chiffrement_i(3)(3) xor chiffrement_i(1)(0) xor chiffrement_i(1)(1) xor chiffrement_i(1)(2);
linear <= chiffrement_i(0)(3) xor chiffrement_i(0)(1) xor chiffrement_i(0)(2) xor chiffrement_i(1)(3);
linear_s(0)(0) <= non_linear_s1(0)(0) xor linear_tmp_s(0)(0);
linear_s(0)(1) <= non_linear_s1(0)(1) xor linear_tmp_s(0)(1);
linear_s(0)(2) <= non_linear_s1(0)(2) xor linear_tmp_s(0)(2);
linear_s(0)(3) <= non_linear_s1(0)(3) xor linear_tmp_s(0)(3);
linear_s(1)(0) <= non_linear_s1(1)(0) xor linear_tmp_s(1)(0);
linear_s(1)(1) <= non_linear_s1(1)(1) xor linear_tmp_s(1)(1);
linear_s(1)(2) <= non_linear_s1(1)(2) xor linear_tmp_s(1)(2);
linear_s(1)(3) <= non_linear_s1(1)(3) xor linear xor linear_tmp_s(1)(3);
chiffrement_o(0)(0) <= linear_s(1)(2) when permutation_i='1' else chiffrement_i(0)(0);
chiffrement_o(0)(1) <= linear_s(0)(3) when permutation_i='1' else chiffrement_i(0)(1);
chiffrement_o(0)(2) <= linear_s(1)(0) when permutation_i='1' else chiffrement_i(0)(2);
chiffrement_o(0)(3) <= linear_s(0)(2) when permutation_i='1' else chiffrement_i(0)(3);
chiffrement_o(1)(0) <= linear_s(0)(0) when permutation_i='1' else chiffrement_i(1)(0);
chiffrement_o(1)(1) <= linear_s(0)(1) when permutation_i='1' else chiffrement_i(1)(1);
chiffrement_o(1)(2) <= linear_s(1)(1) when permutation_i='1' else chiffrement_i(1)(2);
chiffrement_o(1)(3) <= linear_s(1)(3) when permutation_i='1' else chiffrement_i(1)(3);
chiffrement_o(2)(0) <= chiffrement_i(0)(3) when permutation_i='1' else linear_s(0)(0);
chiffrement_o(2)(1) <= chiffrement_i(0)(1) when permutation_i='1' else linear_s(0)(1);
chiffrement_o(2)(2) <= chiffrement_i(1)(0) when permutation_i='1' else linear_s(0)(2);
chiffrement_o(2)(3) <= chiffrement_i(1)(1) when permutation_i='1' else linear_s(0)(3);
chiffrement_o(3)(0) <= chiffrement_i(1)(2) when permutation_i='1' else linear_s(1)(0);
chiffrement_o(3)(1) <= chiffrement_i(0)(0) when permutation_i='1' else linear_s(1)(1);
chiffrement_o(3)(2) <= chiffrement_i(0)(2) when permutation_i='1' else linear_s(1)(2);
chiffrement_o(3)(3) <= chiffrement_i(1)(3) when permutation_i='1' else linear_s(1)(3);
end chiffrement_arch;
configuration chiffrement_conf of chiffrement is
for chiffrement_arch
for boucle_ligne
for boucle_colonne
for all : sbox
use entity work.sbox( sbox_arch );
end for;
end for;
end for;
end for;
end configuration chiffrement_conf ;
|
