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author | David Foerster <david.foerster@informatik.hu-berlin.de> | 2016-05-10 20:20:14 +0200 |
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committer | David Foerster <david.foerster@informatik.hu-berlin.de> | 2016-05-10 20:20:14 +0200 |
commit | fc37cc4a02ed13d1a73b941a9f80975600fd1b99 (patch) | |
tree | ad9e5ac81111402b5c47dc06944cc5243824c4b5 /src/Crypto/Serpent.c | |
parent | 98b04198c6ea5bc07cca50956809068adf1fea82 (diff) | |
download | VeraCrypt-fc37cc4a02ed13d1a73b941a9f80975600fd1b99.tar.gz VeraCrypt-fc37cc4a02ed13d1a73b941a9f80975600fd1b99.zip |
Normalize all line terminators
Diffstat (limited to 'src/Crypto/Serpent.c')
-rw-r--r-- | src/Crypto/Serpent.c | 1876 |
1 files changed, 938 insertions, 938 deletions
diff --git a/src/Crypto/Serpent.c b/src/Crypto/Serpent.c index 87d710c4..a8c528de 100644 --- a/src/Crypto/Serpent.c +++ b/src/Crypto/Serpent.c @@ -1,938 +1,938 @@ -// serpent.cpp - written and placed in the public domain by Wei Dai
-
-/* Adapted for TrueCrypt */
-/* Adapted for VeraCrypt */
-
-#ifdef TC_WINDOWS_BOOT
-#pragma optimize ("t", on)
-#endif
-
-#include "Serpent.h"
-#include "Common/Endian.h"
-
-#include <memory.h>
-
-#if defined(_WIN32) && !defined(_DEBUG)
-#include <stdlib.h>
-#define rotlFixed _rotl
-#define rotrFixed _rotr
-#else
-#define rotlFixed(x,n) (((x) << (n)) | ((x) >> (32 - (n))))
-#define rotrFixed(x,n) (((x) >> (n)) | ((x) << (32 - (n))))
-#endif
-
-// linear transformation
-#define LT(i,a,b,c,d,e) {\
- a = rotlFixed(a, 13); \
- c = rotlFixed(c, 3); \
- d = rotlFixed(d ^ c ^ (a << 3), 7); \
- b = rotlFixed(b ^ a ^ c, 1); \
- a = rotlFixed(a ^ b ^ d, 5); \
- c = rotlFixed(c ^ d ^ (b << 7), 22);}
-
-// inverse linear transformation
-#define ILT(i,a,b,c,d,e) {\
- c = rotrFixed(c, 22); \
- a = rotrFixed(a, 5); \
- c ^= d ^ (b << 7); \
- a ^= b ^ d; \
- b = rotrFixed(b, 1); \
- d = rotrFixed(d, 7) ^ c ^ (a << 3); \
- b ^= a ^ c; \
- c = rotrFixed(c, 3); \
- a = rotrFixed(a, 13);}
-
-// order of output from S-box functions
-#define beforeS0(f) f(0,a,b,c,d,e)
-#define afterS0(f) f(1,b,e,c,a,d)
-#define afterS1(f) f(2,c,b,a,e,d)
-#define afterS2(f) f(3,a,e,b,d,c)
-#define afterS3(f) f(4,e,b,d,c,a)
-#define afterS4(f) f(5,b,a,e,c,d)
-#define afterS5(f) f(6,a,c,b,e,d)
-#define afterS6(f) f(7,a,c,d,b,e)
-#define afterS7(f) f(8,d,e,b,a,c)
-
-// order of output from inverse S-box functions
-#define beforeI7(f) f(8,a,b,c,d,e)
-#define afterI7(f) f(7,d,a,b,e,c)
-#define afterI6(f) f(6,a,b,c,e,d)
-#define afterI5(f) f(5,b,d,e,c,a)
-#define afterI4(f) f(4,b,c,e,a,d)
-#define afterI3(f) f(3,a,b,e,c,d)
-#define afterI2(f) f(2,b,d,e,c,a)
-#define afterI1(f) f(1,a,b,c,e,d)
-#define afterI0(f) f(0,a,d,b,e,c)
-
-// The instruction sequences for the S-box functions
-// come from Dag Arne Osvik's paper "Speeding up Serpent".
-
-#define S0(i, r0, r1, r2, r3, r4) \
- { \
- r3 ^= r0; \
- r4 = r1; \
- r1 &= r3; \
- r4 ^= r2; \
- r1 ^= r0; \
- r0 |= r3; \
- r0 ^= r4; \
- r4 ^= r3; \
- r3 ^= r2; \
- r2 |= r1; \
- r2 ^= r4; \
- r4 = ~r4; \
- r4 |= r1; \
- r1 ^= r3; \
- r1 ^= r4; \
- r3 |= r0; \
- r1 ^= r3; \
- r4 ^= r3; \
- }
-
-#define I0(i, r0, r1, r2, r3, r4) \
- { \
- r2 = ~r2; \
- r4 = r1; \
- r1 |= r0; \
- r4 = ~r4; \
- r1 ^= r2; \
- r2 |= r4; \
- r1 ^= r3; \
- r0 ^= r4; \
- r2 ^= r0; \
- r0 &= r3; \
- r4 ^= r0; \
- r0 |= r1; \
- r0 ^= r2; \
- r3 ^= r4; \
- r2 ^= r1; \
- r3 ^= r0; \
- r3 ^= r1; \
- r2 &= r3; \
- r4 ^= r2; \
- }
-
-#define S1(i, r0, r1, r2, r3, r4) \
- { \
- r0 = ~r0; \
- r2 = ~r2; \
- r4 = r0; \
- r0 &= r1; \
- r2 ^= r0; \
- r0 |= r3; \
- r3 ^= r2; \
- r1 ^= r0; \
- r0 ^= r4; \
- r4 |= r1; \
- r1 ^= r3; \
- r2 |= r0; \
- r2 &= r4; \
- r0 ^= r1; \
- r1 &= r2; \
- r1 ^= r0; \
- r0 &= r2; \
- r0 ^= r4; \
- }
-
-#define I1(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r1; \
- r1 ^= r3; \
- r3 &= r1; \
- r4 ^= r2; \
- r3 ^= r0; \
- r0 |= r1; \
- r2 ^= r3; \
- r0 ^= r4; \
- r0 |= r2; \
- r1 ^= r3; \
- r0 ^= r1; \
- r1 |= r3; \
- r1 ^= r0; \
- r4 = ~r4; \
- r4 ^= r1; \
- r1 |= r0; \
- r1 ^= r0; \
- r1 |= r4; \
- r3 ^= r1; \
- }
-
-#define S2(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r0; \
- r0 &= r2; \
- r0 ^= r3; \
- r2 ^= r1; \
- r2 ^= r0; \
- r3 |= r4; \
- r3 ^= r1; \
- r4 ^= r2; \
- r1 = r3; \
- r3 |= r4; \
- r3 ^= r0; \
- r0 &= r1; \
- r4 ^= r0; \
- r1 ^= r3; \
- r1 ^= r4; \
- r4 = ~r4; \
- }
-
-#define I2(i, r0, r1, r2, r3, r4) \
- { \
- r2 ^= r3; \
- r3 ^= r0; \
- r4 = r3; \
- r3 &= r2; \
- r3 ^= r1; \
- r1 |= r2; \
- r1 ^= r4; \
- r4 &= r3; \
- r2 ^= r3; \
- r4 &= r0; \
- r4 ^= r2; \
- r2 &= r1; \
- r2 |= r0; \
- r3 = ~r3; \
- r2 ^= r3; \
- r0 ^= r3; \
- r0 &= r1; \
- r3 ^= r4; \
- r3 ^= r0; \
- }
-
-#define S3(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r0; \
- r0 |= r3; \
- r3 ^= r1; \
- r1 &= r4; \
- r4 ^= r2; \
- r2 ^= r3; \
- r3 &= r0; \
- r4 |= r1; \
- r3 ^= r4; \
- r0 ^= r1; \
- r4 &= r0; \
- r1 ^= r3; \
- r4 ^= r2; \
- r1 |= r0; \
- r1 ^= r2; \
- r0 ^= r3; \
- r2 = r1; \
- r1 |= r3; \
- r1 ^= r0; \
- }
-
-#define I3(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r2; \
- r2 ^= r1; \
- r1 &= r2; \
- r1 ^= r0; \
- r0 &= r4; \
- r4 ^= r3; \
- r3 |= r1; \
- r3 ^= r2; \
- r0 ^= r4; \
- r2 ^= r0; \
- r0 |= r3; \
- r0 ^= r1; \
- r4 ^= r2; \
- r2 &= r3; \
- r1 |= r3; \
- r1 ^= r2; \
- r4 ^= r0; \
- r2 ^= r4; \
- }
-
-#define S4(i, r0, r1, r2, r3, r4) \
- { \
- r1 ^= r3; \
- r3 = ~r3; \
- r2 ^= r3; \
- r3 ^= r0; \
- r4 = r1; \
- r1 &= r3; \
- r1 ^= r2; \
- r4 ^= r3; \
- r0 ^= r4; \
- r2 &= r4; \
- r2 ^= r0; \
- r0 &= r1; \
- r3 ^= r0; \
- r4 |= r1; \
- r4 ^= r0; \
- r0 |= r3; \
- r0 ^= r2; \
- r2 &= r3; \
- r0 = ~r0; \
- r4 ^= r2; \
- }
-
-#define I4(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r2; \
- r2 &= r3; \
- r2 ^= r1; \
- r1 |= r3; \
- r1 &= r0; \
- r4 ^= r2; \
- r4 ^= r1; \
- r1 &= r2; \
- r0 = ~r0; \
- r3 ^= r4; \
- r1 ^= r3; \
- r3 &= r0; \
- r3 ^= r2; \
- r0 ^= r1; \
- r2 &= r0; \
- r3 ^= r0; \
- r2 ^= r4; \
- r2 |= r3; \
- r3 ^= r0; \
- r2 ^= r1; \
- }
-
-#define S5(i, r0, r1, r2, r3, r4) \
- { \
- r0 ^= r1; \
- r1 ^= r3; \
- r3 = ~r3; \
- r4 = r1; \
- r1 &= r0; \
- r2 ^= r3; \
- r1 ^= r2; \
- r2 |= r4; \
- r4 ^= r3; \
- r3 &= r1; \
- r3 ^= r0; \
- r4 ^= r1; \
- r4 ^= r2; \
- r2 ^= r0; \
- r0 &= r3; \
- r2 = ~r2; \
- r0 ^= r4; \
- r4 |= r3; \
- r2 ^= r4; \
- }
-
-#define I5(i, r0, r1, r2, r3, r4) \
- { \
- r1 = ~r1; \
- r4 = r3; \
- r2 ^= r1; \
- r3 |= r0; \
- r3 ^= r2; \
- r2 |= r1; \
- r2 &= r0; \
- r4 ^= r3; \
- r2 ^= r4; \
- r4 |= r0; \
- r4 ^= r1; \
- r1 &= r2; \
- r1 ^= r3; \
- r4 ^= r2; \
- r3 &= r4; \
- r4 ^= r1; \
- r3 ^= r0; \
- r3 ^= r4; \
- r4 = ~r4; \
- }
-
-#define S6(i, r0, r1, r2, r3, r4) \
- { \
- r2 = ~r2; \
- r4 = r3; \
- r3 &= r0; \
- r0 ^= r4; \
- r3 ^= r2; \
- r2 |= r4; \
- r1 ^= r3; \
- r2 ^= r0; \
- r0 |= r1; \
- r2 ^= r1; \
- r4 ^= r0; \
- r0 |= r3; \
- r0 ^= r2; \
- r4 ^= r3; \
- r4 ^= r0; \
- r3 = ~r3; \
- r2 &= r4; \
- r2 ^= r3; \
- }
-
-#define I6(i, r0, r1, r2, r3, r4) \
- { \
- r0 ^= r2; \
- r4 = r2; \
- r2 &= r0; \
- r4 ^= r3; \
- r2 = ~r2; \
- r3 ^= r1; \
- r2 ^= r3; \
- r4 |= r0; \
- r0 ^= r2; \
- r3 ^= r4; \
- r4 ^= r1; \
- r1 &= r3; \
- r1 ^= r0; \
- r0 ^= r3; \
- r0 |= r2; \
- r3 ^= r1; \
- r4 ^= r0; \
- }
-
-#define S7(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r2; \
- r2 &= r1; \
- r2 ^= r3; \
- r3 &= r1; \
- r4 ^= r2; \
- r2 ^= r1; \
- r1 ^= r0; \
- r0 |= r4; \
- r0 ^= r2; \
- r3 ^= r1; \
- r2 ^= r3; \
- r3 &= r0; \
- r3 ^= r4; \
- r4 ^= r2; \
- r2 &= r0; \
- r4 = ~r4; \
- r2 ^= r4; \
- r4 &= r0; \
- r1 ^= r3; \
- r4 ^= r1; \
- }
-
-#define I7(i, r0, r1, r2, r3, r4) \
- { \
- r4 = r2; \
- r2 ^= r0; \
- r0 &= r3; \
- r2 = ~r2; \
- r4 |= r3; \
- r3 ^= r1; \
- r1 |= r0; \
- r0 ^= r2; \
- r2 &= r4; \
- r1 ^= r2; \
- r2 ^= r0; \
- r0 |= r2; \
- r3 &= r4; \
- r0 ^= r3; \
- r4 ^= r1; \
- r3 ^= r4; \
- r4 |= r0; \
- r3 ^= r2; \
- r4 ^= r2; \
- }
-
-// key xor
-#define KX(r, a, b, c, d, e) {\
- a ^= k[4 * r + 0]; \
- b ^= k[4 * r + 1]; \
- c ^= k[4 * r + 2]; \
- d ^= k[4 * r + 3];}
-
-
-#ifdef TC_MINIMIZE_CODE_SIZE
-
-static void S0f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r3 ^= *r0;
- *r4 = *r1;
- *r1 &= *r3;
- *r4 ^= *r2;
- *r1 ^= *r0;
- *r0 |= *r3;
- *r0 ^= *r4;
- *r4 ^= *r3;
- *r3 ^= *r2;
- *r2 |= *r1;
- *r2 ^= *r4;
- *r4 = ~*r4;
- *r4 |= *r1;
- *r1 ^= *r3;
- *r1 ^= *r4;
- *r3 |= *r0;
- *r1 ^= *r3;
- *r4 ^= *r3;
-}
-
-static void S1f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r0 = ~*r0;
- *r2 = ~*r2;
- *r4 = *r0;
- *r0 &= *r1;
- *r2 ^= *r0;
- *r0 |= *r3;
- *r3 ^= *r2;
- *r1 ^= *r0;
- *r0 ^= *r4;
- *r4 |= *r1;
- *r1 ^= *r3;
- *r2 |= *r0;
- *r2 &= *r4;
- *r0 ^= *r1;
- *r1 &= *r2;
- *r1 ^= *r0;
- *r0 &= *r2;
- *r0 ^= *r4;
-}
-
-static void S2f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r4 = *r0;
- *r0 &= *r2;
- *r0 ^= *r3;
- *r2 ^= *r1;
- *r2 ^= *r0;
- *r3 |= *r4;
- *r3 ^= *r1;
- *r4 ^= *r2;
- *r1 = *r3;
- *r3 |= *r4;
- *r3 ^= *r0;
- *r0 &= *r1;
- *r4 ^= *r0;
- *r1 ^= *r3;
- *r1 ^= *r4;
- *r4 = ~*r4;
-}
-
-static void S3f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r4 = *r0;
- *r0 |= *r3;
- *r3 ^= *r1;
- *r1 &= *r4;
- *r4 ^= *r2;
- *r2 ^= *r3;
- *r3 &= *r0;
- *r4 |= *r1;
- *r3 ^= *r4;
- *r0 ^= *r1;
- *r4 &= *r0;
- *r1 ^= *r3;
- *r4 ^= *r2;
- *r1 |= *r0;
- *r1 ^= *r2;
- *r0 ^= *r3;
- *r2 = *r1;
- *r1 |= *r3;
- *r1 ^= *r0;
-}
-
-static void S4f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r1 ^= *r3;
- *r3 = ~*r3;
- *r2 ^= *r3;
- *r3 ^= *r0;
- *r4 = *r1;
- *r1 &= *r3;
- *r1 ^= *r2;
- *r4 ^= *r3;
- *r0 ^= *r4;
- *r2 &= *r4;
- *r2 ^= *r0;
- *r0 &= *r1;
- *r3 ^= *r0;
- *r4 |= *r1;
- *r4 ^= *r0;
- *r0 |= *r3;
- *r0 ^= *r2;
- *r2 &= *r3;
- *r0 = ~*r0;
- *r4 ^= *r2;
-}
-
-static void S5f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r0 ^= *r1;
- *r1 ^= *r3;
- *r3 = ~*r3;
- *r4 = *r1;
- *r1 &= *r0;
- *r2 ^= *r3;
- *r1 ^= *r2;
- *r2 |= *r4;
- *r4 ^= *r3;
- *r3 &= *r1;
- *r3 ^= *r0;
- *r4 ^= *r1;
- *r4 ^= *r2;
- *r2 ^= *r0;
- *r0 &= *r3;
- *r2 = ~*r2;
- *r0 ^= *r4;
- *r4 |= *r3;
- *r2 ^= *r4;
-}
-
-static void S6f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r2 = ~*r2;
- *r4 = *r3;
- *r3 &= *r0;
- *r0 ^= *r4;
- *r3 ^= *r2;
- *r2 |= *r4;
- *r1 ^= *r3;
- *r2 ^= *r0;
- *r0 |= *r1;
- *r2 ^= *r1;
- *r4 ^= *r0;
- *r0 |= *r3;
- *r0 ^= *r2;
- *r4 ^= *r3;
- *r4 ^= *r0;
- *r3 = ~*r3;
- *r2 &= *r4;
- *r2 ^= *r3;
-}
-
-static void S7f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4)
-{
- *r4 = *r2;
- *r2 &= *r1;
- *r2 ^= *r3;
- *r3 &= *r1;
- *r4 ^= *r2;
- *r2 ^= *r1;
- *r1 ^= *r0;
- *r0 |= *r4;
- *r0 ^= *r2;
- *r3 ^= *r1;
- *r2 ^= *r3;
- *r3 &= *r0;
- *r3 ^= *r4;
- *r4 ^= *r2;
- *r2 &= *r0;
- *r4 = ~*r4;
- *r2 ^= *r4;
- *r4 &= *r0;
- *r1 ^= *r3;
- *r4 ^= *r1;
-}
-
-static void KXf (const unsigned __int32 *k, unsigned int r, unsigned __int32 *a, unsigned __int32 *b, unsigned __int32 *c, unsigned __int32 *d)
-{
- *a ^= k[r];
- *b ^= k[r + 1];
- *c ^= k[r + 2];
- *d ^= k[r + 3];
-}
-
-#endif // TC_MINIMIZE_CODE_SIZE
-
-#ifndef TC_MINIMIZE_CODE_SIZE
-
-void serpent_set_key(const unsigned __int8 userKey[],unsigned __int8 *ks)
-{
- unsigned __int32 a,b,c,d,e;
- unsigned __int32 *k = (unsigned __int32 *)ks;
- unsigned __int32 t;
- int i;
-
- for (i = 0; i < 8; i++)
- k[i] = LE32(((unsigned __int32*)userKey)[i]);
-
- k += 8;
- t = k[-1];
- for (i = 0; i < 132; ++i)
- k[i] = t = rotlFixed(k[i-8] ^ k[i-5] ^ k[i-3] ^ t ^ 0x9e3779b9 ^ i, 11);
- k -= 20;
-
-#define LK(r, a, b, c, d, e) {\
- a = k[(8-r)*4 + 0]; \
- b = k[(8-r)*4 + 1]; \
- c = k[(8-r)*4 + 2]; \
- d = k[(8-r)*4 + 3];}
-
-#define SK(r, a, b, c, d, e) {\
- k[(8-r)*4 + 4] = a; \
- k[(8-r)*4 + 5] = b; \
- k[(8-r)*4 + 6] = c; \
- k[(8-r)*4 + 7] = d;} \
-
- for (i=0; i<4; i++)
- {
- afterS2(LK); afterS2(S3); afterS3(SK);
- afterS1(LK); afterS1(S2); afterS2(SK);
- afterS0(LK); afterS0(S1); afterS1(SK);
- beforeS0(LK); beforeS0(S0); afterS0(SK);
- k += 8*4;
- afterS6(LK); afterS6(S7); afterS7(SK);
- afterS5(LK); afterS5(S6); afterS6(SK);
- afterS4(LK); afterS4(S5); afterS5(SK);
- afterS3(LK); afterS3(S4); afterS4(SK);
- }
- afterS2(LK); afterS2(S3); afterS3(SK);
-}
-
-#else // TC_MINIMIZE_CODE_SIZE
-
-static void LKf (unsigned __int32 *k, unsigned int r, unsigned __int32 *a, unsigned __int32 *b, unsigned __int32 *c, unsigned __int32 *d)
-{
- *a = k[r];
- *b = k[r + 1];
- *c = k[r + 2];
- *d = k[r + 3];
-}
-
-static void SKf (unsigned __int32 *k, unsigned int r, unsigned __int32 *a, unsigned __int32 *b, unsigned __int32 *c, unsigned __int32 *d)
-{
- k[r + 4] = *a;
- k[r + 5] = *b;
- k[r + 6] = *c;
- k[r + 7] = *d;
-}
-
-void serpent_set_key(const unsigned __int8 userKey[], unsigned __int8 *ks)
-{
- unsigned __int32 a,b,c,d,e;
- unsigned __int32 *k = (unsigned __int32 *)ks;
- unsigned __int32 t;
- int i;
-
- for (i = 0; i < 8; i++)
- k[i] = LE32(((unsigned __int32*)userKey)[i]);
-
- k += 8;
- t = k[-1];
- for (i = 0; i < 132; ++i)
- k[i] = t = rotlFixed(k[i-8] ^ k[i-5] ^ k[i-3] ^ t ^ 0x9e3779b9 ^ i, 11);
- k -= 20;
-
- for (i=0; i<4; i++)
- {
- LKf (k, 20, &a, &e, &b, &d); S3f (&a, &e, &b, &d, &c); SKf (k, 16, &e, &b, &d, &c);
- LKf (k, 24, &c, &b, &a, &e); S2f (&c, &b, &a, &e, &d); SKf (k, 20, &a, &e, &b, &d);
- LKf (k, 28, &b, &e, &c, &a); S1f (&b, &e, &c, &a, &d); SKf (k, 24, &c, &b, &a, &e);
- LKf (k, 32, &a, &b, &c, &d); S0f (&a, &b, &c, &d, &e); SKf (k, 28, &b, &e, &c, &a);
- k += 8*4;
- LKf (k, 4, &a, &c, &d, &b); S7f (&a, &c, &d, &b, &e); SKf (k, 0, &d, &e, &b, &a);
- LKf (k, 8, &a, &c, &b, &e); S6f (&a, &c, &b, &e, &d); SKf (k, 4, &a, &c, &d, &b);
- LKf (k, 12, &b, &a, &e, &c); S5f (&b, &a, &e, &c, &d); SKf (k, 8, &a, &c, &b, &e);
- LKf (k, 16, &e, &b, &d, &c); S4f (&e, &b, &d, &c, &a); SKf (k, 12, &b, &a, &e, &c);
- }
- LKf (k, 20, &a, &e, &b, &d); S3f (&a, &e, &b, &d, &c); SKf (k, 16, &e, &b, &d, &c);
-}
-
-#endif // TC_MINIMIZE_CODE_SIZE
-
-
-#ifndef TC_MINIMIZE_CODE_SIZE
-
-void serpent_encrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks)
-{
- unsigned __int32 a, b, c, d, e;
- unsigned int i=1;
- const unsigned __int32 *k = (unsigned __int32 *)ks + 8;
- unsigned __int32 *in = (unsigned __int32 *) inBlock;
- unsigned __int32 *out = (unsigned __int32 *) outBlock;
-
- a = LE32(in[0]);
- b = LE32(in[1]);
- c = LE32(in[2]);
- d = LE32(in[3]);
-
- do
- {
- beforeS0(KX); beforeS0(S0); afterS0(LT);
- afterS0(KX); afterS0(S1); afterS1(LT);
- afterS1(KX); afterS1(S2); afterS2(LT);
- afterS2(KX); afterS2(S3); afterS3(LT);
- afterS3(KX); afterS3(S4); afterS4(LT);
- afterS4(KX); afterS4(S5); afterS5(LT);
- afterS5(KX); afterS5(S6); afterS6(LT);
- afterS6(KX); afterS6(S7);
-
- if (i == 4)
- break;
-
- ++i;
- c = b;
- b = e;
- e = d;
- d = a;
- a = e;
- k += 32;
- beforeS0(LT);
- }
- while (1);
-
- afterS7(KX);
-
- out[0] = LE32(d);
- out[1] = LE32(e);
- out[2] = LE32(b);
- out[3] = LE32(a);
-}
-
-#else // TC_MINIMIZE_CODE_SIZE
-
-typedef unsigned __int32 uint32;
-
-static void LTf (uint32 *a, uint32 *b, uint32 *c, uint32 *d)
-{
- *a = rotlFixed(*a, 13);
- *c = rotlFixed(*c, 3);
- *d = rotlFixed(*d ^ *c ^ (*a << 3), 7);
- *b = rotlFixed(*b ^ *a ^ *c, 1);
- *a = rotlFixed(*a ^ *b ^ *d, 5);
- *c = rotlFixed(*c ^ *d ^ (*b << 7), 22);
-}
-
-void serpent_encrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks)
-{
- unsigned __int32 a, b, c, d, e;
- unsigned int i=1;
- const unsigned __int32 *k = (unsigned __int32 *)ks + 8;
- unsigned __int32 *in = (unsigned __int32 *) inBlock;
- unsigned __int32 *out = (unsigned __int32 *) outBlock;
-
- a = LE32(in[0]);
- b = LE32(in[1]);
- c = LE32(in[2]);
- d = LE32(in[3]);
-
- do
- {
- KXf (k, 0, &a, &b, &c, &d); S0f (&a, &b, &c, &d, &e); LTf (&b, &e, &c, &a);
- KXf (k, 4, &b, &e, &c, &a); S1f (&b, &e, &c, &a, &d); LTf (&c, &b, &a, &e);
- KXf (k, 8, &c, &b, &a, &e); S2f (&c, &b, &a, &e, &d); LTf (&a, &e, &b, &d);
- KXf (k, 12, &a, &e, &b, &d); S3f (&a, &e, &b, &d, &c); LTf (&e, &b, &d, &c);
- KXf (k, 16, &e, &b, &d, &c); S4f (&e, &b, &d, &c, &a); LTf (&b, &a, &e, &c);
- KXf (k, 20, &b, &a, &e, &c); S5f (&b, &a, &e, &c, &d); LTf (&a, &c, &b, &e);
- KXf (k, 24, &a, &c, &b, &e); S6f (&a, &c, &b, &e, &d); LTf (&a, &c, &d, &b);
- KXf (k, 28, &a, &c, &d, &b); S7f (&a, &c, &d, &b, &e);
-
- if (i == 4)
- break;
-
- ++i;
- c = b;
- b = e;
- e = d;
- d = a;
- a = e;
- k += 32;
- LTf (&a,&b,&c,&d);
- }
- while (1);
-
- KXf (k, 32, &d, &e, &b, &a);
-
- out[0] = LE32(d);
- out[1] = LE32(e);
- out[2] = LE32(b);
- out[3] = LE32(a);
-}
-
-#endif // TC_MINIMIZE_CODE_SIZE
-
-#if !defined (TC_MINIMIZE_CODE_SIZE)
-
-void serpent_decrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks)
-{
- unsigned __int32 a, b, c, d, e;
- const unsigned __int32 *k = (unsigned __int32 *)ks + 104;
- unsigned int i=4;
- unsigned __int32 *in = (unsigned __int32 *) inBlock;
- unsigned __int32 *out = (unsigned __int32 *) outBlock;
-
- a = LE32(in[0]);
- b = LE32(in[1]);
- c = LE32(in[2]);
- d = LE32(in[3]);
-
- beforeI7(KX);
- goto start;
-
- do
- {
- c = b;
- b = d;
- d = e;
- k -= 32;
- beforeI7(ILT);
-start:
- beforeI7(I7); afterI7(KX);
- afterI7(ILT); afterI7(I6); afterI6(KX);
- afterI6(ILT); afterI6(I5); afterI5(KX);
- afterI5(ILT); afterI5(I4); afterI4(KX);
- afterI4(ILT); afterI4(I3); afterI3(KX);
- afterI3(ILT); afterI3(I2); afterI2(KX);
- afterI2(ILT); afterI2(I1); afterI1(KX);
- afterI1(ILT); afterI1(I0); afterI0(KX);
- }
- while (--i != 0);
-
- out[0] = LE32(a);
- out[1] = LE32(d);
- out[2] = LE32(b);
- out[3] = LE32(e);
-}
-
-#else // TC_MINIMIZE_CODE_SIZE
-
-static void ILTf (uint32 *a, uint32 *b, uint32 *c, uint32 *d)
-{
- *c = rotrFixed(*c, 22);
- *a = rotrFixed(*a, 5);
- *c ^= *d ^ (*b << 7);
- *a ^= *b ^ *d;
- *b = rotrFixed(*b, 1);
- *d = rotrFixed(*d, 7) ^ *c ^ (*a << 3);
- *b ^= *a ^ *c;
- *c = rotrFixed(*c, 3);
- *a = rotrFixed(*a, 13);
-}
-
-void serpent_decrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks)
-{
- unsigned __int32 a, b, c, d, e;
- const unsigned __int32 *k = (unsigned __int32 *)ks + 104;
- unsigned int i=4;
- unsigned __int32 *in = (unsigned __int32 *) inBlock;
- unsigned __int32 *out = (unsigned __int32 *) outBlock;
-
- a = LE32(in[0]);
- b = LE32(in[1]);
- c = LE32(in[2]);
- d = LE32(in[3]);
-
- KXf (k, 32, &a, &b, &c, &d);
- goto start;
-
- do
- {
- c = b;
- b = d;
- d = e;
- k -= 32;
- beforeI7(ILT);
-start:
- beforeI7(I7); KXf (k, 28, &d, &a, &b, &e);
- ILTf (&d, &a, &b, &e); afterI7(I6); KXf (k, 24, &a, &b, &c, &e);
- ILTf (&a, &b, &c, &e); afterI6(I5); KXf (k, 20, &b, &d, &e, &c);
- ILTf (&b, &d, &e, &c); afterI5(I4); KXf (k, 16, &b, &c, &e, &a);
- ILTf (&b, &c, &e, &a); afterI4(I3); KXf (k, 12, &a, &b, &e, &c);
- ILTf (&a, &b, &e, &c); afterI3(I2); KXf (k, 8, &b, &d, &e, &c);
- ILTf (&b, &d, &e, &c); afterI2(I1); KXf (k, 4, &a, &b, &c, &e);
- ILTf (&a, &b, &c, &e); afterI1(I0); KXf (k, 0, &a, &d, &b, &e);
- }
- while (--i != 0);
-
- out[0] = LE32(a);
- out[1] = LE32(d);
- out[2] = LE32(b);
- out[3] = LE32(e);
-}
-
-#endif // TC_MINIMIZE_CODE_SIZE
+// serpent.cpp - written and placed in the public domain by Wei Dai + +/* Adapted for TrueCrypt */ +/* Adapted for VeraCrypt */ + +#ifdef TC_WINDOWS_BOOT +#pragma optimize ("t", on) +#endif + +#include "Serpent.h" +#include "Common/Endian.h" + +#include <memory.h> + +#if defined(_WIN32) && !defined(_DEBUG) +#include <stdlib.h> +#define rotlFixed _rotl +#define rotrFixed _rotr +#else +#define rotlFixed(x,n) (((x) << (n)) | ((x) >> (32 - (n)))) +#define rotrFixed(x,n) (((x) >> (n)) | ((x) << (32 - (n)))) +#endif + +// linear transformation +#define LT(i,a,b,c,d,e) {\ + a = rotlFixed(a, 13); \ + c = rotlFixed(c, 3); \ + d = rotlFixed(d ^ c ^ (a << 3), 7); \ + b = rotlFixed(b ^ a ^ c, 1); \ + a = rotlFixed(a ^ b ^ d, 5); \ + c = rotlFixed(c ^ d ^ (b << 7), 22);} + +// inverse linear transformation +#define ILT(i,a,b,c,d,e) {\ + c = rotrFixed(c, 22); \ + a = rotrFixed(a, 5); \ + c ^= d ^ (b << 7); \ + a ^= b ^ d; \ + b = rotrFixed(b, 1); \ + d = rotrFixed(d, 7) ^ c ^ (a << 3); \ + b ^= a ^ c; \ + c = rotrFixed(c, 3); \ + a = rotrFixed(a, 13);} + +// order of output from S-box functions +#define beforeS0(f) f(0,a,b,c,d,e) +#define afterS0(f) f(1,b,e,c,a,d) +#define afterS1(f) f(2,c,b,a,e,d) +#define afterS2(f) f(3,a,e,b,d,c) +#define afterS3(f) f(4,e,b,d,c,a) +#define afterS4(f) f(5,b,a,e,c,d) +#define afterS5(f) f(6,a,c,b,e,d) +#define afterS6(f) f(7,a,c,d,b,e) +#define afterS7(f) f(8,d,e,b,a,c) + +// order of output from inverse S-box functions +#define beforeI7(f) f(8,a,b,c,d,e) +#define afterI7(f) f(7,d,a,b,e,c) +#define afterI6(f) f(6,a,b,c,e,d) +#define afterI5(f) f(5,b,d,e,c,a) +#define afterI4(f) f(4,b,c,e,a,d) +#define afterI3(f) f(3,a,b,e,c,d) +#define afterI2(f) f(2,b,d,e,c,a) +#define afterI1(f) f(1,a,b,c,e,d) +#define afterI0(f) f(0,a,d,b,e,c) + +// The instruction sequences for the S-box functions +// come from Dag Arne Osvik's paper "Speeding up Serpent". + +#define S0(i, r0, r1, r2, r3, r4) \ + { \ + r3 ^= r0; \ + r4 = r1; \ + r1 &= r3; \ + r4 ^= r2; \ + r1 ^= r0; \ + r0 |= r3; \ + r0 ^= r4; \ + r4 ^= r3; \ + r3 ^= r2; \ + r2 |= r1; \ + r2 ^= r4; \ + r4 = ~r4; \ + r4 |= r1; \ + r1 ^= r3; \ + r1 ^= r4; \ + r3 |= r0; \ + r1 ^= r3; \ + r4 ^= r3; \ + } + +#define I0(i, r0, r1, r2, r3, r4) \ + { \ + r2 = ~r2; \ + r4 = r1; \ + r1 |= r0; \ + r4 = ~r4; \ + r1 ^= r2; \ + r2 |= r4; \ + r1 ^= r3; \ + r0 ^= r4; \ + r2 ^= r0; \ + r0 &= r3; \ + r4 ^= r0; \ + r0 |= r1; \ + r0 ^= r2; \ + r3 ^= r4; \ + r2 ^= r1; \ + r3 ^= r0; \ + r3 ^= r1; \ + r2 &= r3; \ + r4 ^= r2; \ + } + +#define S1(i, r0, r1, r2, r3, r4) \ + { \ + r0 = ~r0; \ + r2 = ~r2; \ + r4 = r0; \ + r0 &= r1; \ + r2 ^= r0; \ + r0 |= r3; \ + r3 ^= r2; \ + r1 ^= r0; \ + r0 ^= r4; \ + r4 |= r1; \ + r1 ^= r3; \ + r2 |= r0; \ + r2 &= r4; \ + r0 ^= r1; \ + r1 &= r2; \ + r1 ^= r0; \ + r0 &= r2; \ + r0 ^= r4; \ + } + +#define I1(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r1; \ + r1 ^= r3; \ + r3 &= r1; \ + r4 ^= r2; \ + r3 ^= r0; \ + r0 |= r1; \ + r2 ^= r3; \ + r0 ^= r4; \ + r0 |= r2; \ + r1 ^= r3; \ + r0 ^= r1; \ + r1 |= r3; \ + r1 ^= r0; \ + r4 = ~r4; \ + r4 ^= r1; \ + r1 |= r0; \ + r1 ^= r0; \ + r1 |= r4; \ + r3 ^= r1; \ + } + +#define S2(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r0; \ + r0 &= r2; \ + r0 ^= r3; \ + r2 ^= r1; \ + r2 ^= r0; \ + r3 |= r4; \ + r3 ^= r1; \ + r4 ^= r2; \ + r1 = r3; \ + r3 |= r4; \ + r3 ^= r0; \ + r0 &= r1; \ + r4 ^= r0; \ + r1 ^= r3; \ + r1 ^= r4; \ + r4 = ~r4; \ + } + +#define I2(i, r0, r1, r2, r3, r4) \ + { \ + r2 ^= r3; \ + r3 ^= r0; \ + r4 = r3; \ + r3 &= r2; \ + r3 ^= r1; \ + r1 |= r2; \ + r1 ^= r4; \ + r4 &= r3; \ + r2 ^= r3; \ + r4 &= r0; \ + r4 ^= r2; \ + r2 &= r1; \ + r2 |= r0; \ + r3 = ~r3; \ + r2 ^= r3; \ + r0 ^= r3; \ + r0 &= r1; \ + r3 ^= r4; \ + r3 ^= r0; \ + } + +#define S3(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r0; \ + r0 |= r3; \ + r3 ^= r1; \ + r1 &= r4; \ + r4 ^= r2; \ + r2 ^= r3; \ + r3 &= r0; \ + r4 |= r1; \ + r3 ^= r4; \ + r0 ^= r1; \ + r4 &= r0; \ + r1 ^= r3; \ + r4 ^= r2; \ + r1 |= r0; \ + r1 ^= r2; \ + r0 ^= r3; \ + r2 = r1; \ + r1 |= r3; \ + r1 ^= r0; \ + } + +#define I3(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r2; \ + r2 ^= r1; \ + r1 &= r2; \ + r1 ^= r0; \ + r0 &= r4; \ + r4 ^= r3; \ + r3 |= r1; \ + r3 ^= r2; \ + r0 ^= r4; \ + r2 ^= r0; \ + r0 |= r3; \ + r0 ^= r1; \ + r4 ^= r2; \ + r2 &= r3; \ + r1 |= r3; \ + r1 ^= r2; \ + r4 ^= r0; \ + r2 ^= r4; \ + } + +#define S4(i, r0, r1, r2, r3, r4) \ + { \ + r1 ^= r3; \ + r3 = ~r3; \ + r2 ^= r3; \ + r3 ^= r0; \ + r4 = r1; \ + r1 &= r3; \ + r1 ^= r2; \ + r4 ^= r3; \ + r0 ^= r4; \ + r2 &= r4; \ + r2 ^= r0; \ + r0 &= r1; \ + r3 ^= r0; \ + r4 |= r1; \ + r4 ^= r0; \ + r0 |= r3; \ + r0 ^= r2; \ + r2 &= r3; \ + r0 = ~r0; \ + r4 ^= r2; \ + } + +#define I4(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r2; \ + r2 &= r3; \ + r2 ^= r1; \ + r1 |= r3; \ + r1 &= r0; \ + r4 ^= r2; \ + r4 ^= r1; \ + r1 &= r2; \ + r0 = ~r0; \ + r3 ^= r4; \ + r1 ^= r3; \ + r3 &= r0; \ + r3 ^= r2; \ + r0 ^= r1; \ + r2 &= r0; \ + r3 ^= r0; \ + r2 ^= r4; \ + r2 |= r3; \ + r3 ^= r0; \ + r2 ^= r1; \ + } + +#define S5(i, r0, r1, r2, r3, r4) \ + { \ + r0 ^= r1; \ + r1 ^= r3; \ + r3 = ~r3; \ + r4 = r1; \ + r1 &= r0; \ + r2 ^= r3; \ + r1 ^= r2; \ + r2 |= r4; \ + r4 ^= r3; \ + r3 &= r1; \ + r3 ^= r0; \ + r4 ^= r1; \ + r4 ^= r2; \ + r2 ^= r0; \ + r0 &= r3; \ + r2 = ~r2; \ + r0 ^= r4; \ + r4 |= r3; \ + r2 ^= r4; \ + } + +#define I5(i, r0, r1, r2, r3, r4) \ + { \ + r1 = ~r1; \ + r4 = r3; \ + r2 ^= r1; \ + r3 |= r0; \ + r3 ^= r2; \ + r2 |= r1; \ + r2 &= r0; \ + r4 ^= r3; \ + r2 ^= r4; \ + r4 |= r0; \ + r4 ^= r1; \ + r1 &= r2; \ + r1 ^= r3; \ + r4 ^= r2; \ + r3 &= r4; \ + r4 ^= r1; \ + r3 ^= r0; \ + r3 ^= r4; \ + r4 = ~r4; \ + } + +#define S6(i, r0, r1, r2, r3, r4) \ + { \ + r2 = ~r2; \ + r4 = r3; \ + r3 &= r0; \ + r0 ^= r4; \ + r3 ^= r2; \ + r2 |= r4; \ + r1 ^= r3; \ + r2 ^= r0; \ + r0 |= r1; \ + r2 ^= r1; \ + r4 ^= r0; \ + r0 |= r3; \ + r0 ^= r2; \ + r4 ^= r3; \ + r4 ^= r0; \ + r3 = ~r3; \ + r2 &= r4; \ + r2 ^= r3; \ + } + +#define I6(i, r0, r1, r2, r3, r4) \ + { \ + r0 ^= r2; \ + r4 = r2; \ + r2 &= r0; \ + r4 ^= r3; \ + r2 = ~r2; \ + r3 ^= r1; \ + r2 ^= r3; \ + r4 |= r0; \ + r0 ^= r2; \ + r3 ^= r4; \ + r4 ^= r1; \ + r1 &= r3; \ + r1 ^= r0; \ + r0 ^= r3; \ + r0 |= r2; \ + r3 ^= r1; \ + r4 ^= r0; \ + } + +#define S7(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r2; \ + r2 &= r1; \ + r2 ^= r3; \ + r3 &= r1; \ + r4 ^= r2; \ + r2 ^= r1; \ + r1 ^= r0; \ + r0 |= r4; \ + r0 ^= r2; \ + r3 ^= r1; \ + r2 ^= r3; \ + r3 &= r0; \ + r3 ^= r4; \ + r4 ^= r2; \ + r2 &= r0; \ + r4 = ~r4; \ + r2 ^= r4; \ + r4 &= r0; \ + r1 ^= r3; \ + r4 ^= r1; \ + } + +#define I7(i, r0, r1, r2, r3, r4) \ + { \ + r4 = r2; \ + r2 ^= r0; \ + r0 &= r3; \ + r2 = ~r2; \ + r4 |= r3; \ + r3 ^= r1; \ + r1 |= r0; \ + r0 ^= r2; \ + r2 &= r4; \ + r1 ^= r2; \ + r2 ^= r0; \ + r0 |= r2; \ + r3 &= r4; \ + r0 ^= r3; \ + r4 ^= r1; \ + r3 ^= r4; \ + r4 |= r0; \ + r3 ^= r2; \ + r4 ^= r2; \ + } + +// key xor +#define KX(r, a, b, c, d, e) {\ + a ^= k[4 * r + 0]; \ + b ^= k[4 * r + 1]; \ + c ^= k[4 * r + 2]; \ + d ^= k[4 * r + 3];} + + +#ifdef TC_MINIMIZE_CODE_SIZE + +static void S0f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r3 ^= *r0; + *r4 = *r1; + *r1 &= *r3; + *r4 ^= *r2; + *r1 ^= *r0; + *r0 |= *r3; + *r0 ^= *r4; + *r4 ^= *r3; + *r3 ^= *r2; + *r2 |= *r1; + *r2 ^= *r4; + *r4 = ~*r4; + *r4 |= *r1; + *r1 ^= *r3; + *r1 ^= *r4; + *r3 |= *r0; + *r1 ^= *r3; + *r4 ^= *r3; +} + +static void S1f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r0 = ~*r0; + *r2 = ~*r2; + *r4 = *r0; + *r0 &= *r1; + *r2 ^= *r0; + *r0 |= *r3; + *r3 ^= *r2; + *r1 ^= *r0; + *r0 ^= *r4; + *r4 |= *r1; + *r1 ^= *r3; + *r2 |= *r0; + *r2 &= *r4; + *r0 ^= *r1; + *r1 &= *r2; + *r1 ^= *r0; + *r0 &= *r2; + *r0 ^= *r4; +} + +static void S2f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r4 = *r0; + *r0 &= *r2; + *r0 ^= *r3; + *r2 ^= *r1; + *r2 ^= *r0; + *r3 |= *r4; + *r3 ^= *r1; + *r4 ^= *r2; + *r1 = *r3; + *r3 |= *r4; + *r3 ^= *r0; + *r0 &= *r1; + *r4 ^= *r0; + *r1 ^= *r3; + *r1 ^= *r4; + *r4 = ~*r4; +} + +static void S3f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r4 = *r0; + *r0 |= *r3; + *r3 ^= *r1; + *r1 &= *r4; + *r4 ^= *r2; + *r2 ^= *r3; + *r3 &= *r0; + *r4 |= *r1; + *r3 ^= *r4; + *r0 ^= *r1; + *r4 &= *r0; + *r1 ^= *r3; + *r4 ^= *r2; + *r1 |= *r0; + *r1 ^= *r2; + *r0 ^= *r3; + *r2 = *r1; + *r1 |= *r3; + *r1 ^= *r0; +} + +static void S4f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r1 ^= *r3; + *r3 = ~*r3; + *r2 ^= *r3; + *r3 ^= *r0; + *r4 = *r1; + *r1 &= *r3; + *r1 ^= *r2; + *r4 ^= *r3; + *r0 ^= *r4; + *r2 &= *r4; + *r2 ^= *r0; + *r0 &= *r1; + *r3 ^= *r0; + *r4 |= *r1; + *r4 ^= *r0; + *r0 |= *r3; + *r0 ^= *r2; + *r2 &= *r3; + *r0 = ~*r0; + *r4 ^= *r2; +} + +static void S5f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r0 ^= *r1; + *r1 ^= *r3; + *r3 = ~*r3; + *r4 = *r1; + *r1 &= *r0; + *r2 ^= *r3; + *r1 ^= *r2; + *r2 |= *r4; + *r4 ^= *r3; + *r3 &= *r1; + *r3 ^= *r0; + *r4 ^= *r1; + *r4 ^= *r2; + *r2 ^= *r0; + *r0 &= *r3; + *r2 = ~*r2; + *r0 ^= *r4; + *r4 |= *r3; + *r2 ^= *r4; +} + +static void S6f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r2 = ~*r2; + *r4 = *r3; + *r3 &= *r0; + *r0 ^= *r4; + *r3 ^= *r2; + *r2 |= *r4; + *r1 ^= *r3; + *r2 ^= *r0; + *r0 |= *r1; + *r2 ^= *r1; + *r4 ^= *r0; + *r0 |= *r3; + *r0 ^= *r2; + *r4 ^= *r3; + *r4 ^= *r0; + *r3 = ~*r3; + *r2 &= *r4; + *r2 ^= *r3; +} + +static void S7f (unsigned __int32 *r0, unsigned __int32 *r1, unsigned __int32 *r2, unsigned __int32 *r3, unsigned __int32 *r4) +{ + *r4 = *r2; + *r2 &= *r1; + *r2 ^= *r3; + *r3 &= *r1; + *r4 ^= *r2; + *r2 ^= *r1; + *r1 ^= *r0; + *r0 |= *r4; + *r0 ^= *r2; + *r3 ^= *r1; + *r2 ^= *r3; + *r3 &= *r0; + *r3 ^= *r4; + *r4 ^= *r2; + *r2 &= *r0; + *r4 = ~*r4; + *r2 ^= *r4; + *r4 &= *r0; + *r1 ^= *r3; + *r4 ^= *r1; +} + +static void KXf (const unsigned __int32 *k, unsigned int r, unsigned __int32 *a, unsigned __int32 *b, unsigned __int32 *c, unsigned __int32 *d) +{ + *a ^= k[r]; + *b ^= k[r + 1]; + *c ^= k[r + 2]; + *d ^= k[r + 3]; +} + +#endif // TC_MINIMIZE_CODE_SIZE + +#ifndef TC_MINIMIZE_CODE_SIZE + +void serpent_set_key(const unsigned __int8 userKey[],unsigned __int8 *ks) +{ + unsigned __int32 a,b,c,d,e; + unsigned __int32 *k = (unsigned __int32 *)ks; + unsigned __int32 t; + int i; + + for (i = 0; i < 8; i++) + k[i] = LE32(((unsigned __int32*)userKey)[i]); + + k += 8; + t = k[-1]; + for (i = 0; i < 132; ++i) + k[i] = t = rotlFixed(k[i-8] ^ k[i-5] ^ k[i-3] ^ t ^ 0x9e3779b9 ^ i, 11); + k -= 20; + +#define LK(r, a, b, c, d, e) {\ + a = k[(8-r)*4 + 0]; \ + b = k[(8-r)*4 + 1]; \ + c = k[(8-r)*4 + 2]; \ + d = k[(8-r)*4 + 3];} + +#define SK(r, a, b, c, d, e) {\ + k[(8-r)*4 + 4] = a; \ + k[(8-r)*4 + 5] = b; \ + k[(8-r)*4 + 6] = c; \ + k[(8-r)*4 + 7] = d;} \ + + for (i=0; i<4; i++) + { + afterS2(LK); afterS2(S3); afterS3(SK); + afterS1(LK); afterS1(S2); afterS2(SK); + afterS0(LK); afterS0(S1); afterS1(SK); + beforeS0(LK); beforeS0(S0); afterS0(SK); + k += 8*4; + afterS6(LK); afterS6(S7); afterS7(SK); + afterS5(LK); afterS5(S6); afterS6(SK); + afterS4(LK); afterS4(S5); afterS5(SK); + afterS3(LK); afterS3(S4); afterS4(SK); + } + afterS2(LK); afterS2(S3); afterS3(SK); +} + +#else // TC_MINIMIZE_CODE_SIZE + +static void LKf (unsigned __int32 *k, unsigned int r, unsigned __int32 *a, unsigned __int32 *b, unsigned __int32 *c, unsigned __int32 *d) +{ + *a = k[r]; + *b = k[r + 1]; + *c = k[r + 2]; + *d = k[r + 3]; +} + +static void SKf (unsigned __int32 *k, unsigned int r, unsigned __int32 *a, unsigned __int32 *b, unsigned __int32 *c, unsigned __int32 *d) +{ + k[r + 4] = *a; + k[r + 5] = *b; + k[r + 6] = *c; + k[r + 7] = *d; +} + +void serpent_set_key(const unsigned __int8 userKey[], unsigned __int8 *ks) +{ + unsigned __int32 a,b,c,d,e; + unsigned __int32 *k = (unsigned __int32 *)ks; + unsigned __int32 t; + int i; + + for (i = 0; i < 8; i++) + k[i] = LE32(((unsigned __int32*)userKey)[i]); + + k += 8; + t = k[-1]; + for (i = 0; i < 132; ++i) + k[i] = t = rotlFixed(k[i-8] ^ k[i-5] ^ k[i-3] ^ t ^ 0x9e3779b9 ^ i, 11); + k -= 20; + + for (i=0; i<4; i++) + { + LKf (k, 20, &a, &e, &b, &d); S3f (&a, &e, &b, &d, &c); SKf (k, 16, &e, &b, &d, &c); + LKf (k, 24, &c, &b, &a, &e); S2f (&c, &b, &a, &e, &d); SKf (k, 20, &a, &e, &b, &d); + LKf (k, 28, &b, &e, &c, &a); S1f (&b, &e, &c, &a, &d); SKf (k, 24, &c, &b, &a, &e); + LKf (k, 32, &a, &b, &c, &d); S0f (&a, &b, &c, &d, &e); SKf (k, 28, &b, &e, &c, &a); + k += 8*4; + LKf (k, 4, &a, &c, &d, &b); S7f (&a, &c, &d, &b, &e); SKf (k, 0, &d, &e, &b, &a); + LKf (k, 8, &a, &c, &b, &e); S6f (&a, &c, &b, &e, &d); SKf (k, 4, &a, &c, &d, &b); + LKf (k, 12, &b, &a, &e, &c); S5f (&b, &a, &e, &c, &d); SKf (k, 8, &a, &c, &b, &e); + LKf (k, 16, &e, &b, &d, &c); S4f (&e, &b, &d, &c, &a); SKf (k, 12, &b, &a, &e, &c); + } + LKf (k, 20, &a, &e, &b, &d); S3f (&a, &e, &b, &d, &c); SKf (k, 16, &e, &b, &d, &c); +} + +#endif // TC_MINIMIZE_CODE_SIZE + + +#ifndef TC_MINIMIZE_CODE_SIZE + +void serpent_encrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks) +{ + unsigned __int32 a, b, c, d, e; + unsigned int i=1; + const unsigned __int32 *k = (unsigned __int32 *)ks + 8; + unsigned __int32 *in = (unsigned __int32 *) inBlock; + unsigned __int32 *out = (unsigned __int32 *) outBlock; + + a = LE32(in[0]); + b = LE32(in[1]); + c = LE32(in[2]); + d = LE32(in[3]); + + do + { + beforeS0(KX); beforeS0(S0); afterS0(LT); + afterS0(KX); afterS0(S1); afterS1(LT); + afterS1(KX); afterS1(S2); afterS2(LT); + afterS2(KX); afterS2(S3); afterS3(LT); + afterS3(KX); afterS3(S4); afterS4(LT); + afterS4(KX); afterS4(S5); afterS5(LT); + afterS5(KX); afterS5(S6); afterS6(LT); + afterS6(KX); afterS6(S7); + + if (i == 4) + break; + + ++i; + c = b; + b = e; + e = d; + d = a; + a = e; + k += 32; + beforeS0(LT); + } + while (1); + + afterS7(KX); + + out[0] = LE32(d); + out[1] = LE32(e); + out[2] = LE32(b); + out[3] = LE32(a); +} + +#else // TC_MINIMIZE_CODE_SIZE + +typedef unsigned __int32 uint32; + +static void LTf (uint32 *a, uint32 *b, uint32 *c, uint32 *d) +{ + *a = rotlFixed(*a, 13); + *c = rotlFixed(*c, 3); + *d = rotlFixed(*d ^ *c ^ (*a << 3), 7); + *b = rotlFixed(*b ^ *a ^ *c, 1); + *a = rotlFixed(*a ^ *b ^ *d, 5); + *c = rotlFixed(*c ^ *d ^ (*b << 7), 22); +} + +void serpent_encrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks) +{ + unsigned __int32 a, b, c, d, e; + unsigned int i=1; + const unsigned __int32 *k = (unsigned __int32 *)ks + 8; + unsigned __int32 *in = (unsigned __int32 *) inBlock; + unsigned __int32 *out = (unsigned __int32 *) outBlock; + + a = LE32(in[0]); + b = LE32(in[1]); + c = LE32(in[2]); + d = LE32(in[3]); + + do + { + KXf (k, 0, &a, &b, &c, &d); S0f (&a, &b, &c, &d, &e); LTf (&b, &e, &c, &a); + KXf (k, 4, &b, &e, &c, &a); S1f (&b, &e, &c, &a, &d); LTf (&c, &b, &a, &e); + KXf (k, 8, &c, &b, &a, &e); S2f (&c, &b, &a, &e, &d); LTf (&a, &e, &b, &d); + KXf (k, 12, &a, &e, &b, &d); S3f (&a, &e, &b, &d, &c); LTf (&e, &b, &d, &c); + KXf (k, 16, &e, &b, &d, &c); S4f (&e, &b, &d, &c, &a); LTf (&b, &a, &e, &c); + KXf (k, 20, &b, &a, &e, &c); S5f (&b, &a, &e, &c, &d); LTf (&a, &c, &b, &e); + KXf (k, 24, &a, &c, &b, &e); S6f (&a, &c, &b, &e, &d); LTf (&a, &c, &d, &b); + KXf (k, 28, &a, &c, &d, &b); S7f (&a, &c, &d, &b, &e); + + if (i == 4) + break; + + ++i; + c = b; + b = e; + e = d; + d = a; + a = e; + k += 32; + LTf (&a,&b,&c,&d); + } + while (1); + + KXf (k, 32, &d, &e, &b, &a); + + out[0] = LE32(d); + out[1] = LE32(e); + out[2] = LE32(b); + out[3] = LE32(a); +} + +#endif // TC_MINIMIZE_CODE_SIZE + +#if !defined (TC_MINIMIZE_CODE_SIZE) + +void serpent_decrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks) +{ + unsigned __int32 a, b, c, d, e; + const unsigned __int32 *k = (unsigned __int32 *)ks + 104; + unsigned int i=4; + unsigned __int32 *in = (unsigned __int32 *) inBlock; + unsigned __int32 *out = (unsigned __int32 *) outBlock; + + a = LE32(in[0]); + b = LE32(in[1]); + c = LE32(in[2]); + d = LE32(in[3]); + + beforeI7(KX); + goto start; + + do + { + c = b; + b = d; + d = e; + k -= 32; + beforeI7(ILT); +start: + beforeI7(I7); afterI7(KX); + afterI7(ILT); afterI7(I6); afterI6(KX); + afterI6(ILT); afterI6(I5); afterI5(KX); + afterI5(ILT); afterI5(I4); afterI4(KX); + afterI4(ILT); afterI4(I3); afterI3(KX); + afterI3(ILT); afterI3(I2); afterI2(KX); + afterI2(ILT); afterI2(I1); afterI1(KX); + afterI1(ILT); afterI1(I0); afterI0(KX); + } + while (--i != 0); + + out[0] = LE32(a); + out[1] = LE32(d); + out[2] = LE32(b); + out[3] = LE32(e); +} + +#else // TC_MINIMIZE_CODE_SIZE + +static void ILTf (uint32 *a, uint32 *b, uint32 *c, uint32 *d) +{ + *c = rotrFixed(*c, 22); + *a = rotrFixed(*a, 5); + *c ^= *d ^ (*b << 7); + *a ^= *b ^ *d; + *b = rotrFixed(*b, 1); + *d = rotrFixed(*d, 7) ^ *c ^ (*a << 3); + *b ^= *a ^ *c; + *c = rotrFixed(*c, 3); + *a = rotrFixed(*a, 13); +} + +void serpent_decrypt(const unsigned __int8 *inBlock, unsigned __int8 *outBlock, unsigned __int8 *ks) +{ + unsigned __int32 a, b, c, d, e; + const unsigned __int32 *k = (unsigned __int32 *)ks + 104; + unsigned int i=4; + unsigned __int32 *in = (unsigned __int32 *) inBlock; + unsigned __int32 *out = (unsigned __int32 *) outBlock; + + a = LE32(in[0]); + b = LE32(in[1]); + c = LE32(in[2]); + d = LE32(in[3]); + + KXf (k, 32, &a, &b, &c, &d); + goto start; + + do + { + c = b; + b = d; + d = e; + k -= 32; + beforeI7(ILT); +start: + beforeI7(I7); KXf (k, 28, &d, &a, &b, &e); + ILTf (&d, &a, &b, &e); afterI7(I6); KXf (k, 24, &a, &b, &c, &e); + ILTf (&a, &b, &c, &e); afterI6(I5); KXf (k, 20, &b, &d, &e, &c); + ILTf (&b, &d, &e, &c); afterI5(I4); KXf (k, 16, &b, &c, &e, &a); + ILTf (&b, &c, &e, &a); afterI4(I3); KXf (k, 12, &a, &b, &e, &c); + ILTf (&a, &b, &e, &c); afterI3(I2); KXf (k, 8, &b, &d, &e, &c); + ILTf (&b, &d, &e, &c); afterI2(I1); KXf (k, 4, &a, &b, &c, &e); + ILTf (&a, &b, &c, &e); afterI1(I0); KXf (k, 0, &a, &d, &b, &e); + } + while (--i != 0); + + out[0] = LE32(a); + out[1] = LE32(d); + out[2] = LE32(b); + out[3] = LE32(e); +} + +#endif // TC_MINIMIZE_CODE_SIZE |