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authorlloyd <[email protected]>2008-11-08 19:46:52 +0000
committerlloyd <[email protected]>2008-11-08 19:46:52 +0000
commitf1c459725da56fd8ed5766e7779300182fa26bcf (patch)
tree32295cec92df1155563ae8a535dc695d6800d7f6 /src/block/aes/aes.cpp
parent8dba7b5264403e781bbb86ff61850e4377dca7b9 (diff)
Split ciphers into block and stream ciphers. Move base class headers
Diffstat (limited to 'src/block/aes/aes.cpp')
-rw-r--r--src/block/aes/aes.cpp208
1 files changed, 208 insertions, 0 deletions
diff --git a/src/block/aes/aes.cpp b/src/block/aes/aes.cpp
new file mode 100644
index 000000000..24f1f6213
--- /dev/null
+++ b/src/block/aes/aes.cpp
@@ -0,0 +1,208 @@
+/*************************************************
+* AES Source File *
+* (C) 1999-2007 Jack Lloyd *
+*************************************************/
+
+#include <botan/aes.h>
+#include <botan/loadstor.h>
+
+namespace Botan {
+
+/*************************************************
+* AES Encryption *
+*************************************************/
+void AES::enc(const byte in[], byte out[]) const
+ {
+ const u32bit* TE0 = TE;
+ const u32bit* TE1 = TE + 256;
+ const u32bit* TE2 = TE + 512;
+ const u32bit* TE3 = TE + 768;
+
+ u32bit T0, T1, T2, T3, B0, B1, B2, B3;
+ B0 = TE0[in[ 0] ^ ME[ 0]] ^ TE1[in[ 5] ^ ME[ 5]] ^
+ TE2[in[10] ^ ME[10]] ^ TE3[in[15] ^ ME[15]] ^ EK[0];
+ B1 = TE0[in[ 4] ^ ME[ 4]] ^ TE1[in[ 9] ^ ME[ 9]] ^
+ TE2[in[14] ^ ME[14]] ^ TE3[in[ 3] ^ ME[ 3]] ^ EK[1];
+ B2 = TE0[in[ 8] ^ ME[ 8]] ^ TE1[in[13] ^ ME[13]] ^
+ TE2[in[ 2] ^ ME[ 2]] ^ TE3[in[ 7] ^ ME[ 7]] ^ EK[2];
+ B3 = TE0[in[12] ^ ME[12]] ^ TE1[in[ 1] ^ ME[ 1]] ^
+ TE2[in[ 6] ^ ME[ 6]] ^ TE3[in[11] ^ ME[11]] ^ EK[3];
+ for(u32bit j = 1; j != ROUNDS - 1; j += 2)
+ {
+ T0 = TE0[get_byte(0, B0)] ^ TE1[get_byte(1, B1)] ^
+ TE2[get_byte(2, B2)] ^ TE3[get_byte(3, B3)] ^ EK[4*j+0];
+ T1 = TE0[get_byte(0, B1)] ^ TE1[get_byte(1, B2)] ^
+ TE2[get_byte(2, B3)] ^ TE3[get_byte(3, B0)] ^ EK[4*j+1];
+ T2 = TE0[get_byte(0, B2)] ^ TE1[get_byte(1, B3)] ^
+ TE2[get_byte(2, B0)] ^ TE3[get_byte(3, B1)] ^ EK[4*j+2];
+ T3 = TE0[get_byte(0, B3)] ^ TE1[get_byte(1, B0)] ^
+ TE2[get_byte(2, B1)] ^ TE3[get_byte(3, B2)] ^ EK[4*j+3];
+ B0 = TE0[get_byte(0, T0)] ^ TE1[get_byte(1, T1)] ^
+ TE2[get_byte(2, T2)] ^ TE3[get_byte(3, T3)] ^ EK[4*j+4];
+ B1 = TE0[get_byte(0, T1)] ^ TE1[get_byte(1, T2)] ^
+ TE2[get_byte(2, T3)] ^ TE3[get_byte(3, T0)] ^ EK[4*j+5];
+ B2 = TE0[get_byte(0, T2)] ^ TE1[get_byte(1, T3)] ^
+ TE2[get_byte(2, T0)] ^ TE3[get_byte(3, T1)] ^ EK[4*j+6];
+ B3 = TE0[get_byte(0, T3)] ^ TE1[get_byte(1, T0)] ^
+ TE2[get_byte(2, T1)] ^ TE3[get_byte(3, T2)] ^ EK[4*j+7];
+ }
+ out[ 0] = SE[get_byte(0, B0)] ^ ME[16];
+ out[ 1] = SE[get_byte(1, B1)] ^ ME[17];
+ out[ 2] = SE[get_byte(2, B2)] ^ ME[18];
+ out[ 3] = SE[get_byte(3, B3)] ^ ME[19];
+ out[ 4] = SE[get_byte(0, B1)] ^ ME[20];
+ out[ 5] = SE[get_byte(1, B2)] ^ ME[21];
+ out[ 6] = SE[get_byte(2, B3)] ^ ME[22];
+ out[ 7] = SE[get_byte(3, B0)] ^ ME[23];
+ out[ 8] = SE[get_byte(0, B2)] ^ ME[24];
+ out[ 9] = SE[get_byte(1, B3)] ^ ME[25];
+ out[10] = SE[get_byte(2, B0)] ^ ME[26];
+ out[11] = SE[get_byte(3, B1)] ^ ME[27];
+ out[12] = SE[get_byte(0, B3)] ^ ME[28];
+ out[13] = SE[get_byte(1, B0)] ^ ME[29];
+ out[14] = SE[get_byte(2, B1)] ^ ME[30];
+ out[15] = SE[get_byte(3, B2)] ^ ME[31];
+ }
+
+/*************************************************
+* AES Decryption *
+*************************************************/
+void AES::dec(const byte in[], byte out[]) const
+ {
+ const u32bit* TD0 = TD;
+ const u32bit* TD1 = TD + 256;
+ const u32bit* TD2 = TD + 512;
+ const u32bit* TD3 = TD + 768;
+
+ u32bit T0, T1, T2, T3, B0, B1, B2, B3;
+ B0 = TD0[in[ 0] ^ MD[ 0]] ^ TD1[in[13] ^ MD[13]] ^
+ TD2[in[10] ^ MD[10]] ^ TD3[in[ 7] ^ MD[ 7]] ^ DK[0];
+ B1 = TD0[in[ 4] ^ MD[ 4]] ^ TD1[in[ 1] ^ MD[ 1]] ^
+ TD2[in[14] ^ MD[14]] ^ TD3[in[11] ^ MD[11]] ^ DK[1];
+ B2 = TD0[in[ 8] ^ MD[ 8]] ^ TD1[in[ 5] ^ MD[ 5]] ^
+ TD2[in[ 2] ^ MD[ 2]] ^ TD3[in[15] ^ MD[15]] ^ DK[2];
+ B3 = TD0[in[12] ^ MD[12]] ^ TD1[in[ 9] ^ MD[ 9]] ^
+ TD2[in[ 6] ^ MD[ 6]] ^ TD3[in[ 3] ^ MD[ 3]] ^ DK[3];
+ for(u32bit j = 1; j != ROUNDS - 1; j += 2)
+ {
+ T0 = TD0[get_byte(0, B0)] ^ TD1[get_byte(1, B3)] ^
+ TD2[get_byte(2, B2)] ^ TD3[get_byte(3, B1)] ^ DK[4*j+0];
+ T1 = TD0[get_byte(0, B1)] ^ TD1[get_byte(1, B0)] ^
+ TD2[get_byte(2, B3)] ^ TD3[get_byte(3, B2)] ^ DK[4*j+1];
+ T2 = TD0[get_byte(0, B2)] ^ TD1[get_byte(1, B1)] ^
+ TD2[get_byte(2, B0)] ^ TD3[get_byte(3, B3)] ^ DK[4*j+2];
+ T3 = TD0[get_byte(0, B3)] ^ TD1[get_byte(1, B2)] ^
+ TD2[get_byte(2, B1)] ^ TD3[get_byte(3, B0)] ^ DK[4*j+3];
+ B0 = TD0[get_byte(0, T0)] ^ TD1[get_byte(1, T3)] ^
+ TD2[get_byte(2, T2)] ^ TD3[get_byte(3, T1)] ^ DK[4*j+4];
+ B1 = TD0[get_byte(0, T1)] ^ TD1[get_byte(1, T0)] ^
+ TD2[get_byte(2, T3)] ^ TD3[get_byte(3, T2)] ^ DK[4*j+5];
+ B2 = TD0[get_byte(0, T2)] ^ TD1[get_byte(1, T1)] ^
+ TD2[get_byte(2, T0)] ^ TD3[get_byte(3, T3)] ^ DK[4*j+6];
+ B3 = TD0[get_byte(0, T3)] ^ TD1[get_byte(1, T2)] ^
+ TD2[get_byte(2, T1)] ^ TD3[get_byte(3, T0)] ^ DK[4*j+7];
+ }
+ out[ 0] = SD[get_byte(0, B0)] ^ MD[16];
+ out[ 1] = SD[get_byte(1, B3)] ^ MD[17];
+ out[ 2] = SD[get_byte(2, B2)] ^ MD[18];
+ out[ 3] = SD[get_byte(3, B1)] ^ MD[19];
+ out[ 4] = SD[get_byte(0, B1)] ^ MD[20];
+ out[ 5] = SD[get_byte(1, B0)] ^ MD[21];
+ out[ 6] = SD[get_byte(2, B3)] ^ MD[22];
+ out[ 7] = SD[get_byte(3, B2)] ^ MD[23];
+ out[ 8] = SD[get_byte(0, B2)] ^ MD[24];
+ out[ 9] = SD[get_byte(1, B1)] ^ MD[25];
+ out[10] = SD[get_byte(2, B0)] ^ MD[26];
+ out[11] = SD[get_byte(3, B3)] ^ MD[27];
+ out[12] = SD[get_byte(0, B3)] ^ MD[28];
+ out[13] = SD[get_byte(1, B2)] ^ MD[29];
+ out[14] = SD[get_byte(2, B1)] ^ MD[30];
+ out[15] = SD[get_byte(3, B0)] ^ MD[31];
+ }
+
+/*************************************************
+* AES Key Schedule *
+*************************************************/
+void AES::key(const byte key[], u32bit length)
+ {
+ static const u32bit RC[10] = {
+ 0x01000000, 0x02000000, 0x04000000, 0x08000000, 0x10000000, 0x20000000,
+ 0x40000000, 0x80000000, 0x1B000000, 0x36000000 };
+ ROUNDS = (length / 4) + 6;
+
+ SecureBuffer<u32bit, 64> XEK, XDK;
+
+ const u32bit X = length / 4;
+ for(u32bit j = 0; j != X; ++j)
+ XEK[j] = load_be<u32bit>(key, j);
+
+ for(u32bit j = X; j < 4*(ROUNDS+1); j += X)
+ {
+ XEK[j] = XEK[j-X] ^ S(rotate_left(XEK[j-1], 8)) ^ RC[(j-X)/X];
+ for(u32bit k = 1; k != X; ++k)
+ {
+ if(X == 8 && k == 4)
+ XEK[j+k] = XEK[j+k-X] ^ S(XEK[j+k-1]);
+ else
+ XEK[j+k] = XEK[j+k-X] ^ XEK[j+k-1];
+ }
+ }
+
+ for(u32bit j = 0; j != 4*(ROUNDS+1); j += 4)
+ {
+ XDK[j ] = XEK[4*ROUNDS-j ];
+ XDK[j+1] = XEK[4*ROUNDS-j+1];
+ XDK[j+2] = XEK[4*ROUNDS-j+2];
+ XDK[j+3] = XEK[4*ROUNDS-j+3];
+ }
+
+ for(u32bit j = 4; j != length + 24; ++j)
+ XDK[j] = TD[SE[get_byte(0, XDK[j])] + 0] ^
+ TD[SE[get_byte(1, XDK[j])] + 256] ^
+ TD[SE[get_byte(2, XDK[j])] + 512] ^
+ TD[SE[get_byte(3, XDK[j])] + 768];
+
+ for(u32bit j = 0; j != 4; ++j)
+ for(u32bit k = 0; k != 4; ++k)
+ {
+ ME[4*j+k ] = get_byte(k, XEK[j]);
+ ME[4*j+k+16] = get_byte(k, XEK[j+4*ROUNDS]);
+ MD[4*j+k ] = get_byte(k, XDK[j]);
+ MD[4*j+k+16] = get_byte(k, XEK[j]);
+ }
+
+ EK.copy(XEK + 4, length + 20);
+ DK.copy(XDK + 4, length + 20);
+ }
+
+/*************************************************
+* AES Byte Substitution *
+*************************************************/
+u32bit AES::S(u32bit input)
+ {
+ return make_u32bit(SE[get_byte(0, input)], SE[get_byte(1, input)],
+ SE[get_byte(2, input)], SE[get_byte(3, input)]);
+ }
+
+/*************************************************
+* AES Constructor *
+*************************************************/
+AES::AES(u32bit key_size) : BlockCipher(16, key_size)
+ {
+ if(key_size != 16 && key_size != 24 && key_size != 32)
+ throw Invalid_Key_Length(name(), key_size);
+ ROUNDS = (key_size / 4) + 6;
+ }
+
+/*************************************************
+* Clear memory of sensitive data *
+*************************************************/
+void AES::clear() throw()
+ {
+ EK.clear();
+ DK.clear();
+ ME.clear();
+ MD.clear();
+ }
+
+}