/src/openssl30/crypto/idea/i_cbc.c
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1 | | /* |
2 | | * Copyright 1995-2020 The OpenSSL Project Authors. All Rights Reserved. |
3 | | * |
4 | | * Licensed under the Apache License 2.0 (the "License"). You may not use |
5 | | * this file except in compliance with the License. You can obtain a copy |
6 | | * in the file LICENSE in the source distribution or at |
7 | | * https://www.openssl.org/source/license.html |
8 | | */ |
9 | | |
10 | | /* |
11 | | * IDEA low level APIs are deprecated for public use, but still ok for internal |
12 | | * use where we're using them to implement the higher level EVP interface, as is |
13 | | * the case here. |
14 | | */ |
15 | | #include "internal/deprecated.h" |
16 | | |
17 | | #include <openssl/idea.h> |
18 | | #include "idea_local.h" |
19 | | |
20 | | void IDEA_cbc_encrypt(const unsigned char *in, unsigned char *out, |
21 | | long length, IDEA_KEY_SCHEDULE *ks, unsigned char *iv, |
22 | | int encrypt) |
23 | 0 | { |
24 | 0 | register unsigned long tin0, tin1; |
25 | 0 | register unsigned long tout0, tout1, xor0, xor1; |
26 | 0 | register long l = length; |
27 | 0 | unsigned long tin[2]; |
28 | |
|
29 | 0 | if (encrypt) { |
30 | 0 | n2l(iv, tout0); |
31 | 0 | n2l(iv, tout1); |
32 | 0 | iv -= 8; |
33 | 0 | for (l -= 8; l >= 0; l -= 8) { |
34 | 0 | n2l(in, tin0); |
35 | 0 | n2l(in, tin1); |
36 | 0 | tin0 ^= tout0; |
37 | 0 | tin1 ^= tout1; |
38 | 0 | tin[0] = tin0; |
39 | 0 | tin[1] = tin1; |
40 | 0 | IDEA_encrypt(tin, ks); |
41 | 0 | tout0 = tin[0]; |
42 | 0 | l2n(tout0, out); |
43 | 0 | tout1 = tin[1]; |
44 | 0 | l2n(tout1, out); |
45 | 0 | } |
46 | 0 | if (l != -8) { |
47 | 0 | n2ln(in, tin0, tin1, l + 8); |
48 | 0 | tin0 ^= tout0; |
49 | 0 | tin1 ^= tout1; |
50 | 0 | tin[0] = tin0; |
51 | 0 | tin[1] = tin1; |
52 | 0 | IDEA_encrypt(tin, ks); |
53 | 0 | tout0 = tin[0]; |
54 | 0 | l2n(tout0, out); |
55 | 0 | tout1 = tin[1]; |
56 | 0 | l2n(tout1, out); |
57 | 0 | } |
58 | 0 | l2n(tout0, iv); |
59 | 0 | l2n(tout1, iv); |
60 | 0 | } else { |
61 | 0 | n2l(iv, xor0); |
62 | 0 | n2l(iv, xor1); |
63 | 0 | iv -= 8; |
64 | 0 | for (l -= 8; l >= 0; l -= 8) { |
65 | 0 | n2l(in, tin0); |
66 | 0 | tin[0] = tin0; |
67 | 0 | n2l(in, tin1); |
68 | 0 | tin[1] = tin1; |
69 | 0 | IDEA_encrypt(tin, ks); |
70 | 0 | tout0 = tin[0] ^ xor0; |
71 | 0 | tout1 = tin[1] ^ xor1; |
72 | 0 | l2n(tout0, out); |
73 | 0 | l2n(tout1, out); |
74 | 0 | xor0 = tin0; |
75 | 0 | xor1 = tin1; |
76 | 0 | } |
77 | 0 | if (l != -8) { |
78 | 0 | n2l(in, tin0); |
79 | 0 | tin[0] = tin0; |
80 | 0 | n2l(in, tin1); |
81 | 0 | tin[1] = tin1; |
82 | 0 | IDEA_encrypt(tin, ks); |
83 | 0 | tout0 = tin[0] ^ xor0; |
84 | 0 | tout1 = tin[1] ^ xor1; |
85 | 0 | l2nn(tout0, tout1, out, l + 8); |
86 | 0 | xor0 = tin0; |
87 | 0 | xor1 = tin1; |
88 | 0 | } |
89 | 0 | l2n(xor0, iv); |
90 | 0 | l2n(xor1, iv); |
91 | 0 | } |
92 | 0 | tin0 = tin1 = tout0 = tout1 = xor0 = xor1 = 0; |
93 | 0 | tin[0] = tin[1] = 0; |
94 | 0 | } |
95 | | |
96 | | void IDEA_encrypt(unsigned long *d, IDEA_KEY_SCHEDULE *key) |
97 | 0 | { |
98 | 0 | register IDEA_INT *p; |
99 | 0 | register unsigned long x1, x2, x3, x4, t0, t1, ul; |
100 | |
|
101 | 0 | x2 = d[0]; |
102 | 0 | x1 = (x2 >> 16); |
103 | 0 | x4 = d[1]; |
104 | 0 | x3 = (x4 >> 16); |
105 | |
|
106 | 0 | p = &(key->data[0][0]); |
107 | |
|
108 | 0 | E_IDEA(0); |
109 | 0 | E_IDEA(1); |
110 | 0 | E_IDEA(2); |
111 | 0 | E_IDEA(3); |
112 | 0 | E_IDEA(4); |
113 | 0 | E_IDEA(5); |
114 | 0 | E_IDEA(6); |
115 | 0 | E_IDEA(7); |
116 | |
|
117 | 0 | x1 &= 0xffff; |
118 | 0 | idea_mul(x1, x1, *p, ul); |
119 | 0 | p++; |
120 | |
|
121 | 0 | t0 = x3 + *(p++); |
122 | 0 | t1 = x2 + *(p++); |
123 | |
|
124 | 0 | x4 &= 0xffff; |
125 | 0 | idea_mul(x4, x4, *p, ul); |
126 | |
|
127 | 0 | d[0] = (t0 & 0xffff) | ((x1 & 0xffff) << 16); |
128 | 0 | d[1] = (x4 & 0xffff) | ((t1 & 0xffff) << 16); |
129 | 0 | } |