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author | kokke <spam@rowdy.dk> | 2014-12-10 23:30:23 +0100 |
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committer | kokke <spam@rowdy.dk> | 2014-12-10 23:30:23 +0100 |
commit | b146090a0677eabb470f360304525a0d4615173a (patch) | |
tree | 0fbc71b88f7978ef305b198c45184080e76434d8 /aes.c | |
parent | Create unlicense.txt (diff) | |
parent | No-copy operation (diff) | |
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Diffstat (limited to '')
-rw-r--r-- | aes.c | 189 |
1 files changed, 103 insertions, 86 deletions
@@ -60,7 +60,9 @@ NOTE: String length must be evenly divisible by 16byte (str_len % 16 == 0) // in - pointer to the CipherText to be decrypted. // out - pointer to buffer to hold output of the decryption. // state - array holding the intermediate results during decryption. -static uint8_t* in, *out, state[4][4]; +//static uint8_t* in, *out, state[4][4]; +typedef uint8_t state_t[4][4]; +static state_t* state; // The array that stores the round keys. static uint8_t RoundKey[176]; @@ -219,7 +221,7 @@ static void AddRoundKey(uint8_t round) { for(j = 0; j < 4; ++j) { - state[j][i] ^= RoundKey[round * Nb * 4 + i * Nb + j]; + (*state)[i][j] ^= RoundKey[round * Nb * 4 + i * Nb + j]; } } } @@ -233,7 +235,7 @@ static void SubBytes(void) { for(j = 0; j < 4; ++j) { - state[i][j] = getSBoxValue(state[i][j]); + (*state)[j][i] = getSBoxValue((*state)[j][i]); } } } @@ -246,27 +248,27 @@ static void ShiftRows(void) uint8_t temp; // Rotate first row 1 columns to left - temp = state[1][0]; - state[1][0] = state[1][1]; - state[1][1] = state[1][2]; - state[1][2] = state[1][3]; - state[1][3] = temp; + temp = (*state)[0][1]; + (*state)[0][1] = (*state)[1][1]; + (*state)[1][1] = (*state)[2][1]; + (*state)[2][1] = (*state)[3][1]; + (*state)[3][1] = temp; // Rotate second row 2 columns to left - temp = state[2][0]; - state[2][0] = state[2][2]; - state[2][2] = temp; + temp = (*state)[0][2]; + (*state)[0][2] = (*state)[2][2]; + (*state)[2][2] = temp; - temp = state[2][1]; - state[2][1] = state[2][3]; - state[2][3] = temp; + temp = (*state)[1][2]; + (*state)[1][2] = (*state)[3][2]; + (*state)[3][2] = temp; // Rotate third row 3 columns to left - temp = state[3][0]; - state[3][0] = state[3][3]; - state[3][3] = state[3][2]; - state[3][2] = state[3][1]; - state[3][1] = temp; + temp = (*state)[0][3]; + (*state)[0][3] = (*state)[3][3]; + (*state)[3][3] = (*state)[2][3]; + (*state)[2][3] = (*state)[1][3]; + (*state)[1][3] = temp; } static uint8_t xtime(uint8_t x) @@ -281,12 +283,12 @@ static void MixColumns(void) uint8_t Tmp,Tm,t; for(i = 0; i < 4; ++i) { - t = state[0][i]; - Tmp = state[0][i] ^ state[1][i] ^ state[2][i] ^ state[3][i] ; - Tm = state[0][i] ^ state[1][i] ; Tm = xtime(Tm); state[0][i] ^= Tm ^ Tmp ; - Tm = state[1][i] ^ state[2][i] ; Tm = xtime(Tm); state[1][i] ^= Tm ^ Tmp ; - Tm = state[2][i] ^ state[3][i] ; Tm = xtime(Tm); state[2][i] ^= Tm ^ Tmp ; - Tm = state[3][i] ^ t ; Tm = xtime(Tm); state[3][i] ^= Tm ^ Tmp ; + t = (*state)[i][0]; + Tmp = (*state)[i][0] ^ (*state)[i][1] ^ (*state)[i][2] ^ (*state)[i][3] ; + Tm = (*state)[i][0] ^ (*state)[i][1] ; Tm = xtime(Tm); (*state)[i][0] ^= Tm ^ Tmp ; + Tm = (*state)[i][1] ^ (*state)[i][2] ; Tm = xtime(Tm); (*state)[i][1] ^= Tm ^ Tmp ; + Tm = (*state)[i][2] ^ (*state)[i][3] ; Tm = xtime(Tm); (*state)[i][2] ^= Tm ^ Tmp ; + Tm = (*state)[i][3] ^ t ; Tm = xtime(Tm); (*state)[i][3] ^= Tm ^ Tmp ; } } @@ -322,16 +324,16 @@ static void InvMixColumns(void) for(i=0;i<4;++i) { - a = state[0][i]; - b = state[1][i]; - c = state[2][i]; - d = state[3][i]; + a = (*state)[i][0]; + b = (*state)[i][1]; + c = (*state)[i][2]; + d = (*state)[i][3]; - state[0][i] = Multiply(a, 0x0e) ^ Multiply(b, 0x0b) ^ Multiply(c, 0x0d) ^ Multiply(d, 0x09); - state[1][i] = Multiply(a, 0x09) ^ Multiply(b, 0x0e) ^ Multiply(c, 0x0b) ^ Multiply(d, 0x0d); - state[2][i] = Multiply(a, 0x0d) ^ Multiply(b, 0x09) ^ Multiply(c, 0x0e) ^ Multiply(d, 0x0b); - state[3][i] = Multiply(a, 0x0b) ^ Multiply(b, 0x0d) ^ Multiply(c, 0x09) ^ Multiply(d, 0x0e); + (*state)[i][0] = Multiply(a, 0x0e) ^ Multiply(b, 0x0b) ^ Multiply(c, 0x0d) ^ Multiply(d, 0x09); + (*state)[i][1] = Multiply(a, 0x09) ^ Multiply(b, 0x0e) ^ Multiply(c, 0x0b) ^ Multiply(d, 0x0d); + (*state)[i][2] = Multiply(a, 0x0d) ^ Multiply(b, 0x09) ^ Multiply(c, 0x0e) ^ Multiply(d, 0x0b); + (*state)[i][3] = Multiply(a, 0x0b) ^ Multiply(b, 0x0d) ^ Multiply(c, 0x09) ^ Multiply(d, 0x0e); } } @@ -345,7 +347,7 @@ static void InvSubBytes(void) { for(j=0;j<4;++j) { - state[i][j] = getSBoxInvert(state[i][j]); + (*state)[j][i] = getSBoxInvert((*state)[j][i]); } } } @@ -355,43 +357,44 @@ static void InvShiftRows(void) uint8_t temp; // Rotate first row 1 columns to right - temp=state[1][3]; - state[1][3]=state[1][2]; - state[1][2]=state[1][1]; - state[1][1]=state[1][0]; - state[1][0]=temp; + temp=(*state)[3][1]; + (*state)[3][1]=(*state)[2][1]; + (*state)[2][1]=(*state)[1][1]; + (*state)[1][1]=(*state)[0][1]; + (*state)[0][1]=temp; // Rotate second row 2 columns to right - temp=state[2][0]; - state[2][0]=state[2][2]; - state[2][2]=temp; + temp=(*state)[0][2]; + (*state)[0][2]=(*state)[2][2]; + (*state)[2][2]=temp; - temp=state[2][1]; - state[2][1]=state[2][3]; - state[2][3]=temp; + temp=(*state)[1][2]; + (*state)[1][2]=(*state)[3][2]; + (*state)[3][2]=temp; // Rotate third row 3 columns to right - temp=state[3][0]; - state[3][0]=state[3][1]; - state[3][1]=state[3][2]; - state[3][2]=state[3][3]; - state[3][3]=temp; + temp=(*state)[0][3]; + (*state)[0][3]=(*state)[1][3]; + (*state)[1][3]=(*state)[2][3]; + (*state)[2][3]=(*state)[3][3]; + (*state)[3][3]=temp; } // Cipher is the main function that encrypts the PlainText. static void Cipher(void) { - uint8_t i, j, round = 0; + //uint8_t i, j, + uint8_t round = 0; // Copy the input PlainText to state array. - for(i = 0; i < 4; ++i) - { - for(j = 0; j < 4 ; ++j) - { - state[j][i] = in[(i * 4) + j]; - } - } +// for(i = 0; i < 4; ++i) +// { +// for(j = 0; j < 4 ; ++j) +// { +// (*state)[i][j] = in[(i * 4) + j]; +// } +// } // Add the First round key to the state before starting the rounds. AddRoundKey(0); @@ -415,27 +418,28 @@ static void Cipher(void) // The encryption process is over. // Copy the state array to output array. - for(i = 0; i < 4; ++i) - { - for(j = 0; j < 4; ++j) - { - out[(i * 4) + j] = state[j][i]; - } - } +// for(i = 0; i < 4; ++i) +// { +// for(j = 0; j < 4; ++j) +// { +// out[(i * 4) + j] = (*state)[i][j]; +// } +// } } static void InvCipher(void) { - uint8_t i,j,round=0; + //uint8_t i,j, + uint8_t round=0; // Copy the input CipherText to state array. - for(i=0;i<4;++i) - { - for(j=0;j<4;++j) - { - state[j][i] = in[i*4 + j]; - } - } +// for(i=0;i<4;++i) +// { +// for(j=0;j<4;++j) +// { +// (*state)[i][j] = in[i*4 + j]; +// } +// } // Add the First round key to the state before starting the rounds. AddRoundKey(Nr); @@ -459,13 +463,13 @@ static void InvCipher(void) // The decryption process is over. // Copy the state array to output array. - for(i=0;i<4;++i) - { - for(j=0;j<4;++j) - { - out[i*4+j]=state[j][i]; - } - } +// for(i=0;i<4;++i) +// { +// for(j=0;j<4;++j) +// { +// out[i*4+j]=(*state)[i][j]; +// } +// } } @@ -473,12 +477,11 @@ static void InvCipher(void) /* Public functions: */ /*****************************************************************************/ -void AES128_ECB_encrypt(uint8_t* input, const uint8_t* key, uint8_t *output) +void AES128_ECB_encrypt_nc(uint8_t* data, const uint8_t* key) { // Copy the Key and CipherText Key = key; - in = input; - out = output; + state = (state_t*)data; // The KeyExpansion routine must be called before encryption. KeyExpansion(); @@ -487,14 +490,28 @@ void AES128_ECB_encrypt(uint8_t* input, const uint8_t* key, uint8_t *output) Cipher(); } -void AES128_ECB_decrypt(uint8_t* input, const uint8_t* key, uint8_t *output) +void AES128_ECB_decrypt_nc(uint8_t* data, const uint8_t* key) { Key = key; - in = input; - out = output; + state = (state_t*)data; KeyExpansion(); InvCipher(); } +void AES128_ECB_encrypt(uint8_t* input, const uint8_t* key, uint8_t *output) +{ + uint8_t i; + for (i=0;i<16;++i) + output[i] = input[i]; + AES128_ECB_encrypt_nc(output, key); +} + +void AES128_ECB_decrypt(uint8_t* input, const uint8_t* key, uint8_t *output) +{ + uint8_t i; + for (i=0;i<16;++i) + output[i] = input[i]; + AES128_ECB_decrypt_nc(output, key); +} |