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https://github.com/kokke/tiny-AES-c
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Update aes.c
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102
aes.c
102
aes.c
@ -52,15 +52,14 @@ NOTE: String length must be evenly divisible by 16byte (str_len % 16 == 0)
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// jcallan@github points out that declaring Multiply as a function
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// jcallan@github points out that declaring Multiply as a function
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// reduces code size considerably with the Keil ARM compiler.
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// reduces code size considerably with the Keil ARM compiler.
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// See this link for more information: https://github.com/kokke/tiny-AES128-C/pull/3
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// See this link for more information: https://github.com/kokke/tiny-AES128-C/pull/3
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#define MULTIPLY_AS_A_FUNCTION 0
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#ifndef MULTIPLY_AS_A_FUNCTION
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#define MULTIPLY_AS_A_FUNCTION 0
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#endif
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/*****************************************************************************/
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/*****************************************************************************/
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/* Private variables: */
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/* Private variables: */
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/*****************************************************************************/
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/*****************************************************************************/
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// in - pointer to the CipherText to be decrypted.
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// out - pointer to buffer to hold output of the decryption.
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// state - array holding the intermediate results during decryption.
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// state - array holding the intermediate results during decryption.
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//static uint8_t* in, *out, state[4][4];
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typedef uint8_t state_t[4][4];
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typedef uint8_t state_t[4][4];
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static state_t* state;
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static state_t* state;
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@ -259,12 +258,12 @@ static void ShiftRows(void)
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(*state)[0][2] = (*state)[2][2];
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(*state)[0][2] = (*state)[2][2];
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(*state)[2][2] = temp;
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(*state)[2][2] = temp;
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temp = (*state)[1][2];
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temp = (*state)[1][2];
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(*state)[1][2] = (*state)[3][2];
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(*state)[1][2] = (*state)[3][2];
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(*state)[3][2] = temp;
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(*state)[3][2] = temp;
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// Rotate third row 3 columns to left
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// Rotate third row 3 columns to left
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temp = (*state)[0][3];
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temp = (*state)[0][3];
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(*state)[0][3] = (*state)[3][3];
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(*state)[0][3] = (*state)[3][3];
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(*state)[3][3] = (*state)[2][3];
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(*state)[3][3] = (*state)[2][3];
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(*state)[2][3] = (*state)[1][3];
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(*state)[2][3] = (*state)[1][3];
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@ -288,7 +287,7 @@ static void MixColumns(void)
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Tm = (*state)[i][0] ^ (*state)[i][1] ; Tm = xtime(Tm); (*state)[i][0] ^= Tm ^ Tmp ;
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Tm = (*state)[i][0] ^ (*state)[i][1] ; Tm = xtime(Tm); (*state)[i][0] ^= Tm ^ Tmp ;
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Tm = (*state)[i][1] ^ (*state)[i][2] ; Tm = xtime(Tm); (*state)[i][1] ^= Tm ^ Tmp ;
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Tm = (*state)[i][1] ^ (*state)[i][2] ; Tm = xtime(Tm); (*state)[i][1] ^= Tm ^ Tmp ;
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Tm = (*state)[i][2] ^ (*state)[i][3] ; Tm = xtime(Tm); (*state)[i][2] ^= Tm ^ Tmp ;
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Tm = (*state)[i][2] ^ (*state)[i][3] ; Tm = xtime(Tm); (*state)[i][2] ^= Tm ^ Tmp ;
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Tm = (*state)[i][3] ^ t ; Tm = xtime(Tm); (*state)[i][3] ^= Tm ^ Tmp ;
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Tm = (*state)[i][3] ^ t ; Tm = xtime(Tm); (*state)[i][3] ^= Tm ^ Tmp ;
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}
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}
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}
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}
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@ -312,8 +311,6 @@ static uint8_t Multiply(uint8_t x, uint8_t y)
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#endif
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#endif
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// MixColumns function mixes the columns of the state matrix.
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// MixColumns function mixes the columns of the state matrix.
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// The method used to multiply may be difficult to understand for the inexperienced.
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// The method used to multiply may be difficult to understand for the inexperienced.
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// Please use the references to gain more information.
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// Please use the references to gain more information.
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@ -323,13 +320,11 @@ static void InvMixColumns(void)
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uint8_t a,b,c,d;
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uint8_t a,b,c,d;
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for(i=0;i<4;++i)
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for(i=0;i<4;++i)
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{
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{
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a = (*state)[i][0];
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a = (*state)[i][0];
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b = (*state)[i][1];
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b = (*state)[i][1];
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c = (*state)[i][2];
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c = (*state)[i][2];
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d = (*state)[i][3];
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d = (*state)[i][3];
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(*state)[i][0] = Multiply(a, 0x0e) ^ Multiply(b, 0x0b) ^ Multiply(c, 0x0d) ^ Multiply(d, 0x09);
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(*state)[i][0] = Multiply(a, 0x0e) ^ Multiply(b, 0x0b) ^ Multiply(c, 0x0d) ^ Multiply(d, 0x09);
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(*state)[i][1] = Multiply(a, 0x09) ^ Multiply(b, 0x0e) ^ Multiply(c, 0x0b) ^ Multiply(d, 0x0d);
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(*state)[i][1] = Multiply(a, 0x09) ^ Multiply(b, 0x0e) ^ Multiply(c, 0x0b) ^ Multiply(d, 0x0d);
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(*state)[i][2] = Multiply(a, 0x0d) ^ Multiply(b, 0x09) ^ Multiply(c, 0x0e) ^ Multiply(d, 0x0b);
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(*state)[i][2] = Multiply(a, 0x0d) ^ Multiply(b, 0x09) ^ Multiply(c, 0x0e) ^ Multiply(d, 0x0b);
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@ -338,7 +333,7 @@ static void InvMixColumns(void)
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}
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}
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// The SubBytes Function Substitutes the values in the
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// The SubBytes function substitutes the values in the
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// state matrix with values in an S-box.
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// state matrix with values in an S-box.
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static void InvSubBytes(void)
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static void InvSubBytes(void)
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{
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{
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@ -384,18 +379,8 @@ static void InvShiftRows(void)
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// Cipher is the main function that encrypts the PlainText.
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// Cipher is the main function that encrypts the PlainText.
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static void Cipher(void)
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static void Cipher(void)
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{
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{
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//uint8_t i, j,
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uint8_t round = 0;
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uint8_t round = 0;
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// Copy the input PlainText to state array.
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// for(i = 0; i < 4; ++i)
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// {
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// for(j = 0; j < 4 ; ++j)
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// {
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// (*state)[i][j] = in[(i * 4) + j];
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// }
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// }
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// Add the First round key to the state before starting the rounds.
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// Add the First round key to the state before starting the rounds.
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AddRoundKey(0);
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AddRoundKey(0);
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@ -415,32 +400,12 @@ static void Cipher(void)
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SubBytes();
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SubBytes();
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ShiftRows();
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ShiftRows();
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AddRoundKey(Nr);
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AddRoundKey(Nr);
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// The encryption process is over.
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// Copy the state array to output array.
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// for(i = 0; i < 4; ++i)
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// {
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// for(j = 0; j < 4; ++j)
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// {
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// out[(i * 4) + j] = (*state)[i][j];
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// }
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// }
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}
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}
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static void InvCipher(void)
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static void InvCipher(void)
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{
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{
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//uint8_t i,j,
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uint8_t round=0;
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uint8_t round=0;
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// Copy the input CipherText to state array.
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// for(i=0;i<4;++i)
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// {
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// for(j=0;j<4;++j)
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// {
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// (*state)[i][j] = in[i*4 + j];
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// }
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// }
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// Add the First round key to the state before starting the rounds.
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// Add the First round key to the state before starting the rounds.
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AddRoundKey(Nr);
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AddRoundKey(Nr);
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@ -460,58 +425,47 @@ static void InvCipher(void)
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InvShiftRows();
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InvShiftRows();
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InvSubBytes();
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InvSubBytes();
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AddRoundKey(0);
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AddRoundKey(0);
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// The decryption process is over.
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// Copy the state array to output array.
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// for(i=0;i<4;++i)
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// {
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// for(j=0;j<4;++j)
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// {
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// out[i*4+j]=(*state)[i][j];
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// }
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// }
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}
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}
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// This can be replaced with a call to memcpy
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static void BufferCopy(uint8_t* output, uint8_t* input)
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{
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uint8_t i;
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for (i=0;i<16;++i)
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{
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output[i] = input[i];
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}
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}
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/*****************************************************************************/
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/*****************************************************************************/
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/* Public functions: */
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/* Public functions: */
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/*****************************************************************************/
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/*****************************************************************************/
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void AES128_ECB_encrypt_nc(uint8_t* data, const uint8_t* key)
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void AES128_ECB_encrypt(uint8_t* input, const uint8_t* key, uint8_t* output)
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{
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{
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// Copy the Key and CipherText
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// Copy input to output, and work in-memory on output
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Key = key;
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BufferCopy(output, input);
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state = (state_t*)data;
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state = (state_t*)output;
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// The KeyExpansion routine must be called before encryption.
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// The KeyExpansion routine must be called before encryption.
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Key = key;
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KeyExpansion();
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KeyExpansion();
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// The next function call encrypts the PlainText with the Key using AES algorithm.
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// The next function call encrypts the PlainText with the Key using AES algorithm.
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Cipher();
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Cipher();
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}
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}
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void AES128_ECB_decrypt_nc(uint8_t* data, const uint8_t* key)
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void AES128_ECB_decrypt(uint8_t* input, const uint8_t* key, uint8_t *output)
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{
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{
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Key = key;
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// Copy input to output, and work in-memory on output
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state = (state_t*)data;
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BufferCopy(output, input);
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state = (state_t*)output;
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Key = key;
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KeyExpansion();
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KeyExpansion();
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InvCipher();
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InvCipher();
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}
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}
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void AES128_ECB_encrypt(uint8_t* input, const uint8_t* key, uint8_t *output)
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{
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uint8_t i;
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for (i=0;i<16;++i)
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output[i] = input[i];
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AES128_ECB_encrypt_nc(output, key);
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}
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void AES128_ECB_decrypt(uint8_t* input, const uint8_t* key, uint8_t *output)
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{
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uint8_t i;
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for (i=0;i<16;++i)
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output[i] = input[i];
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AES128_ECB_decrypt_nc(output, key);
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}
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