1 files changed, 218 insertions, 0 deletions

diff --git a/botan/src/block/twofish/twofish.cpp b/botan/src/block/twofish/twofish.cpp
new file mode 100644
index 0000000..9784b00
--- /dev/null
+++ b/botan/src/block/twofish/twofish.cpp
@@ -0,0 +1,218 @@
+/*
+* Twofish
+* (C) 1999-2007 Jack Lloyd
+*
+* Distributed under the terms of the Botan license
+*/
+
+#include <botan/twofish.h>
+#include <botan/loadstor.h>
+#include <botan/rotate.h>
+
+namespace Botan {
+
+/*
+* Twofish Encryption
+*/
+void Twofish::enc(const byte in[], byte out[]) const
+   {
+   u32bit A = load_le<u32bit>(in, 0) ^ round_key[0];
+   u32bit B = load_le<u32bit>(in, 1) ^ round_key[1];
+   u32bit C = load_le<u32bit>(in, 2) ^ round_key[2];
+   u32bit D = load_le<u32bit>(in, 3) ^ round_key[3];
+
+   for(u32bit j = 0; j != 16; j += 2)
+      {
+      u32bit X, Y;
+
+      X = SBox0[get_byte(3, A)] ^ SBox1[get_byte(2, A)] ^
+          SBox2[get_byte(1, A)] ^ SBox3[get_byte(0, A)];
+      Y = SBox0[get_byte(0, B)] ^ SBox1[get_byte(3, B)] ^
+          SBox2[get_byte(2, B)] ^ SBox3[get_byte(1, B)];
+      X += Y;
+      Y += X + round_key[2*j + 9];
+      X += round_key[2*j + 8];
+
+      C = rotate_right(C ^ X, 1);
+      D = rotate_left(D, 1) ^ Y;
+
+      X = SBox0[get_byte(3, C)] ^ SBox1[get_byte(2, C)] ^
+          SBox2[get_byte(1, C)] ^ SBox3[get_byte(0, C)];
+      Y = SBox0[get_byte(0, D)] ^ SBox1[get_byte(3, D)] ^
+          SBox2[get_byte(2, D)] ^ SBox3[get_byte(1, D)];
+      X += Y;
+      Y += X + round_key[2*j + 11];
+      X += round_key[2*j + 10];
+
+      A = rotate_right(A ^ X, 1);
+      B = rotate_left(B, 1) ^ Y;
+      }
+
+   C ^= round_key[4];
+   D ^= round_key[5];
+   A ^= round_key[6];
+   B ^= round_key[7];
+
+   store_le(out, C, D, A, B);
+   }
+
+/*
+* Twofish Decryption
+*/
+void Twofish::dec(const byte in[], byte out[]) const
+   {
+   u32bit A = load_le<u32bit>(in, 0) ^ round_key[4];
+   u32bit B = load_le<u32bit>(in, 1) ^ round_key[5];
+   u32bit C = load_le<u32bit>(in, 2) ^ round_key[6];
+   u32bit D = load_le<u32bit>(in, 3) ^ round_key[7];
+
+   for(u32bit j = 0; j != 16; j += 2)
+      {
+      u32bit X, Y;
+
+      X = SBox0[get_byte(3, A)] ^ SBox1[get_byte(2, A)] ^
+          SBox2[get_byte(1, A)] ^ SBox3[get_byte(0, A)];
+      Y = SBox0[get_byte(0, B)] ^ SBox1[get_byte(3, B)] ^
+          SBox2[get_byte(2, B)] ^ SBox3[get_byte(1, B)];
+      X += Y;
+      Y += X + round_key[39 - 2*j];
+      X += round_key[38 - 2*j];
+
+      C = rotate_left(C, 1) ^ X;
+      D = rotate_right(D ^ Y, 1);
+
+      X = SBox0[get_byte(3, C)] ^ SBox1[get_byte(2, C)] ^
+          SBox2[get_byte(1, C)] ^ SBox3[get_byte(0, C)];
+      Y = SBox0[get_byte(0, D)] ^ SBox1[get_byte(3, D)] ^
+          SBox2[get_byte(2, D)] ^ SBox3[get_byte(1, D)];
+      X += Y;
+      Y += X + round_key[37 - 2*j];
+      X += round_key[36 - 2*j];
+
+      A = rotate_left(A, 1) ^ X;
+      B = rotate_right(B ^ Y, 1);
+      }
+
+   C ^= round_key[0];
+   D ^= round_key[1];
+   A ^= round_key[2];
+   B ^= round_key[3];
+
+   store_le(out, C, D, A, B);
+   }
+
+/*
+* Twofish Key Schedule
+*/
+void Twofish::key_schedule(const byte key[], u32bit length)
+   {
+   SecureBuffer<byte, 16> S;
+
+   for(u32bit j = 0; j != length; ++j)
+      rs_mul(S + 4*(j/8), key[j], j);
+
+   if(length == 16)
+      {
+      for(u32bit j = 0; j != 256; ++j)
+         {
+         SBox0[j] = MDS0[Q0[Q0[j]^S[ 0]]^S[ 4]];
+         SBox1[j] = MDS1[Q0[Q1[j]^S[ 1]]^S[ 5]];
+         SBox2[j] = MDS2[Q1[Q0[j]^S[ 2]]^S[ 6]];
+         SBox3[j] = MDS3[Q1[Q1[j]^S[ 3]]^S[ 7]];
+         }
+      for(u32bit j = 0; j != 40; j += 2)
+         {
+         u32bit X = MDS0[Q0[Q0[j  ]^key[ 8]]^key[ 0]] ^
+                    MDS1[Q0[Q1[j  ]^key[ 9]]^key[ 1]] ^
+                    MDS2[Q1[Q0[j  ]^key[10]]^key[ 2]] ^
+                    MDS3[Q1[Q1[j  ]^key[11]]^key[ 3]];
+         u32bit Y = MDS0[Q0[Q0[j+1]^key[12]]^key[ 4]] ^
+                    MDS1[Q0[Q1[j+1]^key[13]]^key[ 5]] ^
+                    MDS2[Q1[Q0[j+1]^key[14]]^key[ 6]] ^
+                    MDS3[Q1[Q1[j+1]^key[15]]^key[ 7]];
+         Y = rotate_left(Y, 8); X += Y; Y += X;
+         round_key[j] = X; round_key[j+1] = rotate_left(Y, 9);
+         }
+      }
+   else if(length == 24)
+      {
+      for(u32bit j = 0; j != 256; ++j)
+         {
+         SBox0[j] = MDS0[Q0[Q0[Q1[j]^S[ 0]]^S[ 4]]^S[ 8]];
+         SBox1[j] = MDS1[Q0[Q1[Q1[j]^S[ 1]]^S[ 5]]^S[ 9]];
+         SBox2[j] = MDS2[Q1[Q0[Q0[j]^S[ 2]]^S[ 6]]^S[10]];
+         SBox3[j] = MDS3[Q1[Q1[Q0[j]^S[ 3]]^S[ 7]]^S[11]];
+         }
+      for(u32bit j = 0; j != 40; j += 2)
+         {
+         u32bit X = MDS0[Q0[Q0[Q1[j  ]^key[16]]^key[ 8]]^key[ 0]] ^
+                    MDS1[Q0[Q1[Q1[j  ]^key[17]]^key[ 9]]^key[ 1]] ^
+                    MDS2[Q1[Q0[Q0[j  ]^key[18]]^key[10]]^key[ 2]] ^
+                    MDS3[Q1[Q1[Q0[j  ]^key[19]]^key[11]]^key[ 3]];
+         u32bit Y = MDS0[Q0[Q0[Q1[j+1]^key[20]]^key[12]]^key[ 4]] ^
+                    MDS1[Q0[Q1[Q1[j+1]^key[21]]^key[13]]^key[ 5]] ^
+                    MDS2[Q1[Q0[Q0[j+1]^key[22]]^key[14]]^key[ 6]] ^
+                    MDS3[Q1[Q1[Q0[j+1]^key[23]]^key[15]]^key[ 7]];
+         Y = rotate_left(Y, 8); X += Y; Y += X;
+         round_key[j] = X; round_key[j+1] = rotate_left(Y, 9);
+         }
+      }
+   else if(length == 32)
+      {
+      for(u32bit j = 0; j != 256; ++j)
+         {
+         SBox0[j] = MDS0[Q0[Q0[Q1[Q1[j]^S[ 0]]^S[ 4]]^S[ 8]]^S[12]];
+         SBox1[j] = MDS1[Q0[Q1[Q1[Q0[j]^S[ 1]]^S[ 5]]^S[ 9]]^S[13]];
+         SBox2[j] = MDS2[Q1[Q0[Q0[Q0[j]^S[ 2]]^S[ 6]]^S[10]]^S[14]];
+         SBox3[j] = MDS3[Q1[Q1[Q0[Q1[j]^S[ 3]]^S[ 7]]^S[11]]^S[15]];
+         }
+      for(u32bit j = 0; j != 40; j += 2)
+         {
+         u32bit X = MDS0[Q0[Q0[Q1[Q1[j  ]^key[24]]^key[16]]^key[ 8]]^key[ 0]] ^
+                    MDS1[Q0[Q1[Q1[Q0[j  ]^key[25]]^key[17]]^key[ 9]]^key[ 1]] ^
+                    MDS2[Q1[Q0[Q0[Q0[j  ]^key[26]]^key[18]]^key[10]]^key[ 2]] ^
+                    MDS3[Q1[Q1[Q0[Q1[j  ]^key[27]]^key[19]]^key[11]]^key[ 3]];
+         u32bit Y = MDS0[Q0[Q0[Q1[Q1[j+1]^key[28]]^key[20]]^key[12]]^key[ 4]] ^
+                    MDS1[Q0[Q1[Q1[Q0[j+1]^key[29]]^key[21]]^key[13]]^key[ 5]] ^
+                    MDS2[Q1[Q0[Q0[Q0[j+1]^key[30]]^key[22]]^key[14]]^key[ 6]] ^
+                    MDS3[Q1[Q1[Q0[Q1[j+1]^key[31]]^key[23]]^key[15]]^key[ 7]];
+         Y = rotate_left(Y, 8); X += Y; Y += X;
+         round_key[j] = X; round_key[j+1] = rotate_left(Y, 9);
+         }
+      }
+   }
+
+/*
+* Do one column of the RS matrix multiplcation
+*/
+void Twofish::rs_mul(byte S[4], byte key, u32bit offset)
+   {
+   if(key)
+      {
+      byte X = POLY_TO_EXP[key - 1];
+
+      byte RS1 = RS[(4*offset  ) % 32];
+      byte RS2 = RS[(4*offset+1) % 32];
+      byte RS3 = RS[(4*offset+2) % 32];
+      byte RS4 = RS[(4*offset+3) % 32];
+
+      S[0] ^= EXP_TO_POLY[(X + POLY_TO_EXP[RS1 - 1]) % 255];
+      S[1] ^= EXP_TO_POLY[(X + POLY_TO_EXP[RS2 - 1]) % 255];
+      S[2] ^= EXP_TO_POLY[(X + POLY_TO_EXP[RS3 - 1]) % 255];
+      S[3] ^= EXP_TO_POLY[(X + POLY_TO_EXP[RS4 - 1]) % 255];
+      }
+   }
+
+/*
+* Clear memory of sensitive data
+*/
+void Twofish::clear() throw()
+   {
+   SBox0.clear();
+   SBox1.clear();
+   SBox2.clear();
+   SBox3.clear();
+   round_key.clear();
+   }
+
+}