path: root/src/common/md5calc.c



/***********************************************************
 * md5 calculation algorithm
 *
 * The source code referred to the following URL.
 * http://www.geocities.co.jp/SiliconValley-Oakland/8878/lab17/lab17.html
 *
 ***********************************************************/

#include "../common/random.h"
#include "md5calc.h"
#include <string.h>
#include <stdio.h>
#include <stdlib.h>

#ifndef UINT_MAX
#define UINT_MAX 4294967295U
#endif

// Global variable
static unsigned int *pX;

// String Table
static const unsigned int T[] = {
    0xd76aa478, 0xe8c7b756, 0x242070db, 0xc1bdceee, //0
    0xf57c0faf, 0x4787c62a, 0xa8304613, 0xfd469501, //4
    0x698098d8, 0x8b44f7af, 0xffff5bb1, 0x895cd7be, //8
    0x6b901122, 0xfd987193, 0xa679438e, 0x49b40821, //12
    0xf61e2562, 0xc040b340, 0x265e5a51, 0xe9b6c7aa, //16
    0xd62f105d,  0x2441453, 0xd8a1e681, 0xe7d3fbc8, //20
    0x21e1cde6, 0xc33707d6, 0xf4d50d87, 0x455a14ed, //24
    0xa9e3e905, 0xfcefa3f8, 0x676f02d9, 0x8d2a4c8a, //28
    0xfffa3942, 0x8771f681, 0x6d9d6122, 0xfde5380c, //32
    0xa4beea44, 0x4bdecfa9, 0xf6bb4b60, 0xbebfbc70, //36
    0x289b7ec6, 0xeaa127fa, 0xd4ef3085,  0x4881d05, //40
    0xd9d4d039, 0xe6db99e5, 0x1fa27cf8, 0xc4ac5665, //44
    0xf4292244, 0x432aff97, 0xab9423a7, 0xfc93a039, //48
    0x655b59c3, 0x8f0ccc92, 0xffeff47d, 0x85845dd1, //52
    0x6fa87e4f, 0xfe2ce6e0, 0xa3014314, 0x4e0811a1, //56
    0xf7537e82, 0xbd3af235, 0x2ad7d2bb, 0xeb86d391  //60
};

// ROTATE_LEFT   The left is made to rotate x [ n-bit ]. This is diverted as it is from RFC.
#define ROTATE_LEFT(x, n) (((x) << (n)) | ((x) >> (32-(n))))

// The function used for other calculation
static unsigned int F(unsigned int X, unsigned int Y, unsigned int Z)
{
    return (X & Y) | (~X & Z);
}
static unsigned int G(unsigned int X, unsigned int Y, unsigned int Z)
{
    return (X & Z) | (Y & ~Z);
}
static unsigned int H(unsigned int X, unsigned int Y, unsigned int Z)
{
    return X ^ Y ^ Z;
}
static unsigned int I(unsigned int X, unsigned int Y, unsigned int Z)
{
    return Y ^ (X | ~Z);
}

static unsigned int Round(unsigned int a, unsigned int b, unsigned int FGHI,
                          unsigned int k, unsigned int s, unsigned int i)
{
    return b + ROTATE_LEFT(a + FGHI + pX[k] + T[i], s);
}

static void Round1(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, F(b,c,d), k, s, i);
}
static void Round2(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, G(b,c,d), k, s, i);
}
static void Round3(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, H(b,c,d), k, s, i);
}
static void Round4(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, I(b,c,d), k, s, i);
}

static void MD5_Round_Calculate(const unsigned char *block,
                                unsigned int *A2, unsigned int *B2, unsigned int *C2, unsigned int *D2)
{
    //create X It is since it is required.
    unsigned int X[16]; //512bit 64byte
    int j,k;

    //Save A as AA, B as BB, C as CC, and and D as DD (saving of A, B, C, and D)
    unsigned int A=*A2, B=*B2, C=*C2, D=*D2;
    unsigned int AA = A,BB = B,CC = C,DD = D;

    //It is a large region variable reluctantly because of calculation of a round. . . for Round1...4
    pX = X;

    //Copy block(padding_message) i into X
    for (j=0,k=0; j<64; j+=4,k++)
        X[k] = ((unsigned int)block[j])            // 8byte*4 -> 32byte conversion
               | (((unsigned int)block[j+1]) << 8)    // A function called Decode as used in the field of RFC
               | (((unsigned int)block[j+2]) << 16)
               | (((unsigned int)block[j+3]) << 24);


    //Round 1
    Round1(&A,B,C,D,  0, 7,  0);
    Round1(&D,A,B,C,  1, 12,  1);
    Round1(&C,D,A,B,  2, 17,  2);
    Round1(&B,C,D,A,  3, 22,  3);
    Round1(&A,B,C,D,  4, 7,  4);
    Round1(&D,A,B,C,  5, 12,  5);
    Round1(&C,D,A,B,  6, 17,  6);
    Round1(&B,C,D,A,  7, 22,  7);
    Round1(&A,B,C,D,  8, 7,  8);
    Round1(&D,A,B,C,  9, 12,  9);
    Round1(&C,D,A,B, 10, 17, 10);
    Round1(&B,C,D,A, 11, 22, 11);
    Round1(&A,B,C,D, 12, 7, 12);
    Round1(&D,A,B,C, 13, 12, 13);
    Round1(&C,D,A,B, 14, 17, 14);
    Round1(&B,C,D,A, 15, 22, 15);

    //Round 2
    Round2(&A,B,C,D,  1, 5, 16);
    Round2(&D,A,B,C,  6, 9, 17);
    Round2(&C,D,A,B, 11, 14, 18);
    Round2(&B,C,D,A,  0, 20, 19);
    Round2(&A,B,C,D,  5, 5, 20);
    Round2(&D,A,B,C, 10, 9, 21);
    Round2(&C,D,A,B, 15, 14, 22);
    Round2(&B,C,D,A,  4, 20, 23);
    Round2(&A,B,C,D,  9, 5, 24);
    Round2(&D,A,B,C, 14, 9, 25);
    Round2(&C,D,A,B,  3, 14, 26);
    Round2(&B,C,D,A,  8, 20, 27);
    Round2(&A,B,C,D, 13, 5, 28);
    Round2(&D,A,B,C,  2, 9, 29);
    Round2(&C,D,A,B,  7, 14, 30);
    Round2(&B,C,D,A, 12, 20, 31);

    //Round 3
    Round3(&A,B,C,D,  5, 4, 32);
    Round3(&D,A,B,C,  8, 11, 33);
    Round3(&C,D,A,B, 11, 16, 34);
    Round3(&B,C,D,A, 14, 23, 35);
    Round3(&A,B,C,D,  1, 4, 36);
    Round3(&D,A,B,C,  4, 11, 37);
    Round3(&C,D,A,B,  7, 16, 38);
    Round3(&B,C,D,A, 10, 23, 39);
    Round3(&A,B,C,D, 13, 4, 40);
    Round3(&D,A,B,C,  0, 11, 41);
    Round3(&C,D,A,B,  3, 16, 42);
    Round3(&B,C,D,A,  6, 23, 43);
    Round3(&A,B,C,D,  9, 4, 44);
    Round3(&D,A,B,C, 12, 11, 45);
    Round3(&C,D,A,B, 15, 16, 46);
    Round3(&B,C,D,A,  2, 23, 47);

    //Round 4
    Round4(&A,B,C,D,  0, 6, 48);
    Round4(&D,A,B,C,  7, 10, 49);
    Round4(&C,D,A,B, 14, 15, 50);
    Round4(&B,C,D,A,  5, 21, 51);
    Round4(&A,B,C,D, 12, 6, 52);
    Round4(&D,A,B,C,  3, 10, 53);
    Round4(&C,D,A,B, 10, 15, 54);
    Round4(&B,C,D,A,  1, 21, 55);
    Round4(&A,B,C,D,  8, 6, 56);
    Round4(&D,A,B,C, 15, 10, 57);
    Round4(&C,D,A,B,  6, 15, 58);
    Round4(&B,C,D,A, 13, 21, 59);
    Round4(&A,B,C,D,  4, 6, 60);
    Round4(&D,A,B,C, 11, 10, 61);
    Round4(&C,D,A,B,  2, 15, 62);
    Round4(&B,C,D,A,  9, 21, 63);

    // Then perform the following additions. (let's add)
    *A2 = A + AA;
    *B2 = B + BB;
    *C2 = C + CC;
    *D2 = D + DD;

    //The clearance of confidential information
    memset(pX, 0, sizeof(X));
}

static void MD5_String2binary(const char *string, unsigned char *output)
{
    //var
    /*8bit*/
    unsigned char padding_message[64]; //Extended message   512bit 64byte
    unsigned char *pstring;            //The position of string in the present scanning notes is held.

    /*32bit*/
    unsigned int string_byte_len,     //The byte chief of string is held.
             string_bit_len,      //The bit length of string is held.
             copy_len,            //The number of bytes which is used by 1-3 and which remained
             msg_digest[4];       //Message digest   128bit 4byte
    unsigned int *A = &msg_digest[0], //The message digest in accordance with RFC (reference)
                  *B = &msg_digest[1],
                   *C = &msg_digest[2],
                    *D = &msg_digest[3];
    int i;

    //prog
    //Step 3.Initialize MD Buffer (although it is the initialization; step 3 of A, B, C, and D -- unavoidable -- a head)
    *A = 0x67452301;
    *B = 0xefcdab89;
    *C = 0x98badcfe;
    *D = 0x10325476;

    //Step 1.Append Padding Bits (extension of a mark bit)
    //1-1
    string_byte_len = (unsigned int)strlen(string);    //The byte chief of a character sequence is acquired.
    pstring = (unsigned char *)string; //The position of the present character sequence is set.

    //1-2  Repeat calculation until length becomes less than 64 bytes.
    for (i=string_byte_len; 64<=i; i-=64,pstring+=64)
        MD5_Round_Calculate(pstring, A,B,C,D);

    //1-3
    copy_len = string_byte_len % 64;                               //The number of bytes which remained is computed.
    strncpy((char *)padding_message, (char *)pstring, copy_len); //A message is copied to an extended bit sequence.
    memset(padding_message+copy_len, 0, 64 - copy_len);           //It buries by 0 until it becomes extended bit length.
    padding_message[copy_len] |= 0x80;                            //The next of a message is 1.

    //1-4
    //If 56 bytes or more (less than 64 bytes) of remainder becomes, it will calculate by extending to 64 bytes.
    if (56 <= copy_len) {
        MD5_Round_Calculate(padding_message, A,B,C,D);
        memset(padding_message, 0, 56); //56 bytes is newly fill uped with 0.
    }

    //Step 2.Append Length (the information on length is added)
    string_bit_len = string_byte_len * 8;             //From the byte chief to bit length (32 bytes of low rank)
    memcpy(&padding_message[56], &string_bit_len, 4); //32 bytes of low rank is set.

    //When bit length cannot be expressed in 32 bytes of low rank, it is a beam raising to a higher rank.
    if (UINT_MAX / 8 < string_byte_len) {
        unsigned int high = (string_byte_len - UINT_MAX / 8) * 8;
        memcpy(&padding_message[60], &high, 4);
    } else
        memset(&padding_message[60], 0, 4); //In this case, it is good for a higher rank at 0.

    //Step 4.Process Message in 16-Word Blocks (calculation of MD5)
    MD5_Round_Calculate(padding_message, A,B,C,D);

    //Step 5.Output (output)
    memcpy(output,msg_digest,16);
}

//-------------------------------------------------------------------
// The function for the exteriors

/** output is the coded binary in the character sequence which wants to code string. */
void MD5_Binary(const char *string, unsigned char *output)
{
    MD5_String2binary(string,output);
}

/** output is the coded character sequence in the character sequence which wants to code string. */
void MD5_String(const char *string, char *output)
{
    unsigned char digest[16];

    MD5_String2binary(string,digest);
    sprintf(output, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x",
            digest[ 0], digest[ 1], digest[ 2], digest[ 3],
            digest[ 4], digest[ 5], digest[ 6], digest[ 7],
            digest[ 8], digest[ 9], digest[10], digest[11],
            digest[12], digest[13], digest[14], digest[15]);
}

/** output is a sequence of non-zero characters to be used as password salt. */
void MD5_Salt(unsigned int len, char *output)
{
    unsigned int i;
    for (i = 0; i < len; ++i)
        output[i] = (char)(1 + rnd() % 255);

}
/***********************************************************
 * md5 calculation algorithm
 *
 * The source code referred to the following URL.
 * http://www.geocities.co.jp/SiliconValley-Oakland/8878/lab17/lab17.html
 *
 ***********************************************************/

#include "../common/random.h"
#include "md5calc.h"
#include <string.h>
#include <stdio.h>
#include <stdlib.h>

#ifndef UINT_MAX
#define UINT_MAX 4294967295U
#endif

// Global variable
static unsigned int *pX;

// String Table
static const unsigned int T[] = {
    0xd76aa478, 0xe8c7b756, 0x242070db, 0xc1bdceee, //0
    0xf57c0faf, 0x4787c62a, 0xa8304613, 0xfd469501, //4
    0x698098d8, 0x8b44f7af, 0xffff5bb1, 0x895cd7be, //8
    0x6b901122, 0xfd987193, 0xa679438e, 0x49b40821, //12
    0xf61e2562, 0xc040b340, 0x265e5a51, 0xe9b6c7aa, //16
    0xd62f105d,  0x2441453, 0xd8a1e681, 0xe7d3fbc8, //20
    0x21e1cde6, 0xc33707d6, 0xf4d50d87, 0x455a14ed, //24
    0xa9e3e905, 0xfcefa3f8, 0x676f02d9, 0x8d2a4c8a, //28
    0xfffa3942, 0x8771f681, 0x6d9d6122, 0xfde5380c, //32
    0xa4beea44, 0x4bdecfa9, 0xf6bb4b60, 0xbebfbc70, //36
    0x289b7ec6, 0xeaa127fa, 0xd4ef3085,  0x4881d05, //40
    0xd9d4d039, 0xe6db99e5, 0x1fa27cf8, 0xc4ac5665, //44
    0xf4292244, 0x432aff97, 0xab9423a7, 0xfc93a039, //48
    0x655b59c3, 0x8f0ccc92, 0xffeff47d, 0x85845dd1, //52
    0x6fa87e4f, 0xfe2ce6e0, 0xa3014314, 0x4e0811a1, //56
    0xf7537e82, 0xbd3af235, 0x2ad7d2bb, 0xeb86d391  //60
};

// ROTATE_LEFT   The left is made to rotate x [ n-bit ]. This is diverted as it is from RFC.
#define ROTATE_LEFT(x, n) (((x) << (n)) | ((x) >> (32-(n))))

// The function used for other calculation
static unsigned int F(unsigned int X, unsigned int Y, unsigned int Z)
{
    return (X & Y) | (~X & Z);
}
static unsigned int G(unsigned int X, unsigned int Y, unsigned int Z)
{
    return (X & Z) | (Y & ~Z);
}
static unsigned int H(unsigned int X, unsigned int Y, unsigned int Z)
{
    return X ^ Y ^ Z;
}
static unsigned int I(unsigned int X, unsigned int Y, unsigned int Z)
{
    return Y ^ (X | ~Z);
}

static unsigned int Round(unsigned int a, unsigned int b, unsigned int FGHI,
                          unsigned int k, unsigned int s, unsigned int i)
{
    return b + ROTATE_LEFT(a + FGHI + pX[k] + T[i], s);
}

static void Round1(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, F(b,c,d), k, s, i);
}
static void Round2(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, G(b,c,d), k, s, i);
}
static void Round3(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, H(b,c,d), k, s, i);
}
static void Round4(unsigned int *a, unsigned int b, unsigned int c,
                   unsigned int d,unsigned int k, unsigned int s, unsigned int i)
{
    *a = Round(*a, b, I(b,c,d), k, s, i);
}

static void MD5_Round_Calculate(const unsigned char *block,
                                unsigned int *A2, unsigned int *B2, unsigned int *C2, unsigned int *D2)
{
    //create X It is since it is required.
    unsigned int X[16]; //512bit 64byte
    int j,k;

    //Save A as AA, B as BB, C as CC, and and D as DD (saving of A, B, C, and D)
    unsigned int A=*A2, B=*B2, C=*C2, D=*D2;
    unsigned int AA = A,BB = B,CC = C,DD = D;

    //It is a large region variable reluctantly because of calculation of a round. . . for Round1...4
    pX = X;

    //Copy block(padding_message) i into X
    for (j=0,k=0; j<64; j+=4,k++)
        X[k] = ((unsigned int)block[j])            // 8byte*4 -> 32byte conversion
               | (((unsigned int)block[j+1]) << 8)    // A function called Decode as used in the field of RFC
               | (((unsigned int)block[j+2]) << 16)
               | (((unsigned int)block[j+3]) << 24);


    //Round 1
    Round1(&A,B,C,D,  0, 7,  0);
    Round1(&D,A,B,C,  1, 12,  1);
    Round1(&C,D,A,B,  2, 17,  2);
    Round1(&B,C,D,A,  3, 22,  3);
    Round1(&A,B,C,D,  4, 7,  4);
    Round1(&D,A,B,C,  5, 12,  5);
    Round1(&C,D,A,B,  6, 17,  6);
    Round1(&B,C,D,A,  7, 22,  7);
    Round1(&A,B,C,D,  8, 7,  8);
    Round1(&D,A,B,C,  9, 12,  9);
    Round1(&C,D,A,B, 10, 17, 10);
    Round1(&B,C,D,A, 11, 22, 11);
    Round1(&A,B,C,D, 12, 7, 12);
    Round1(&D,A,B,C, 13, 12, 13);
    Round1(&C,D,A,B, 14, 17, 14);
    Round1(&B,C,D,A, 15, 22, 15);

    //Round 2
    Round2(&A,B,C,D,  1, 5, 16);
    Round2(&D,A,B,C,  6, 9, 17);
    Round2(&C,D,A,B, 11, 14, 18);
    Round2(&B,C,D,A,  0, 20, 19);
    Round2(&A,B,C,D,  5, 5, 20);
    Round2(&D,A,B,C, 10, 9, 21);
    Round2(&C,D,A,B, 15, 14, 22);
    Round2(&B,C,D,A,  4, 20, 23);
    Round2(&A,B,C,D,  9, 5, 24);
    Round2(&D,A,B,C, 14, 9, 25);
    Round2(&C,D,A,B,  3, 14, 26);
    Round2(&B,C,D,A,  8, 20, 27);
    Round2(&A,B,C,D, 13, 5, 28);
    Round2(&D,A,B,C,  2, 9, 29);
    Round2(&C,D,A,B,  7, 14, 30);
    Round2(&B,C,D,A, 12, 20, 31);

    //Round 3
    Round3(&A,B,C,D,  5, 4, 32);
    Round3(&D,A,B,C,  8, 11, 33);
    Round3(&C,D,A,B, 11, 16, 34);
    Round3(&B,C,D,A, 14, 23, 35);
    Round3(&A,B,C,D,  1, 4, 36);
    Round3(&D,A,B,C,  4, 11, 37);
    Round3(&C,D,A,B,  7, 16, 38);
    Round3(&B,C,D,A, 10, 23, 39);
    Round3(&A,B,C,D, 13, 4, 40);
    Round3(&D,A,B,C,  0, 11, 41);
    Round3(&C,D,A,B,  3, 16, 42);
    Round3(&B,C,D,A,  6, 23, 43);
    Round3(&A,B,C,D,  9, 4, 44);
    Round3(&D,A,B,C, 12, 11, 45);
    Round3(&C,D,A,B, 15, 16, 46);
    Round3(&B,C,D,A,  2, 23, 47);

    //Round 4
    Round4(&A,B,C,D,  0, 6, 48);
    Round4(&D,A,B,C,  7, 10, 49);
    Round4(&C,D,A,B, 14, 15, 50);
    Round4(&B,C,D,A,  5, 21, 51);
    Round4(&A,B,C,D, 12, 6, 52);
    Round4(&D,A,B,C,  3, 10, 53);
    Round4(&C,D,A,B, 10, 15, 54);
    Round4(&B,C,D,A,  1, 21, 55);
    Round4(&A,B,C,D,  8, 6, 56);
    Round4(&D,A,B,C, 15, 10, 57);
    Round4(&C,D,A,B,  6, 15, 58);
    Round4(&B,C,D,A, 13, 21, 59);
    Round4(&A,B,C,D,  4, 6, 60);
    Round4(&D,A,B,C, 11, 10, 61);
    Round4(&C,D,A,B,  2, 15, 62);
    Round4(&B,C,D,A,  9, 21, 63);

    // Then perform the following additions. (let's add)
    *A2 = A + AA;
    *B2 = B + BB;
    *C2 = C + CC;
    *D2 = D + DD;

    //The clearance of confidential information
    memset(pX, 0, sizeof(X));
}

static void MD5_String2binary(const char *string, unsigned char *output)
{
    //var
    /*8bit*/
    unsigned char padding_message[64]; //Extended message   512bit 64byte
    unsigned char *pstring;            //The position of string in the present scanning notes is held.

    /*32bit*/
    unsigned int string_byte_len,     //The byte chief of string is held.
             string_bit_len,      //The bit length of string is held.
             copy_len,            //The number of bytes which is used by 1-3 and which remained
             msg_digest[4];       //Message digest   128bit 4byte
    unsigned int *A = &msg_digest[0], //The message digest in accordance with RFC (reference)
                  *B = &msg_digest[1],
                   *C = &msg_digest[2],
                    *D = &msg_digest[3];
    int i;

    //prog
    //Step 3.Initialize MD Buffer (although it is the initialization; step 3 of A, B, C, and D -- unavoidable -- a head)
    *A = 0x67452301;
    *B = 0xefcdab89;
    *C = 0x98badcfe;
    *D = 0x10325476;

    //Step 1.Append Padding Bits (extension of a mark bit)
    //1-1
    string_byte_len = (unsigned int)strlen(string);    //The byte chief of a character sequence is acquired.
    pstring = (unsigned char *)string; //The position of the present character sequence is set.

    //1-2  Repeat calculation until length becomes less than 64 bytes.
    for (i=string_byte_len; 64<=i; i-=64,pstring+=64)
        MD5_Round_Calculate(pstring, A,B,C,D);

    //1-3
    copy_len = string_byte_len % 64;                               //The number of bytes which remained is computed.
    strncpy((char *)padding_message, (char *)pstring, copy_len); //A message is copied to an extended bit sequence.
    memset(padding_message+copy_len, 0, 64 - copy_len);           //It buries by 0 until it becomes extended bit length.
    padding_message[copy_len] |= 0x80;                            //The next of a message is 1.

    //1-4
    //If 56 bytes or more (less than 64 bytes) of remainder becomes, it will calculate by extending to 64 bytes.
    if (56 <= copy_len) {
        MD5_Round_Calculate(padding_message, A,B,C,D);
        memset(padding_message, 0, 56); //56 bytes is newly fill uped with 0.
    }

    //Step 2.Append Length (the information on length is added)
    string_bit_len = string_byte_len * 8;             //From the byte chief to bit length (32 bytes of low rank)
    memcpy(&padding_message[56], &string_bit_len, 4); //32 bytes of low rank is set.

    //When bit length cannot be expressed in 32 bytes of low rank, it is a beam raising to a higher rank.
    if (UINT_MAX / 8 < string_byte_len) {
        unsigned int high = (string_byte_len - UINT_MAX / 8) * 8;
        memcpy(&padding_message[60], &high, 4);
    } else
        memset(&padding_message[60], 0, 4); //In this case, it is good for a higher rank at 0.

    //Step 4.Process Message in 16-Word Blocks (calculation of MD5)
    MD5_Round_Calculate(padding_message, A,B,C,D);

    //Step 5.Output (output)
    memcpy(output,msg_digest,16);
}

//-------------------------------------------------------------------
// The function for the exteriors

/** output is the coded binary in the character sequence which wants to code string. */
void MD5_Binary(const char *string, unsigned char *output)
{
    MD5_String2binary(string,output);
}

/** output is the coded character sequence in the character sequence which wants to code string. */
void MD5_String(const char *string, char *output)
{
    unsigned char digest[16];

    MD5_String2binary(string,digest);
    sprintf(output, "%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x",
            digest[ 0], digest[ 1], digest[ 2], digest[ 3],
            digest[ 4], digest[ 5], digest[ 6], digest[ 7],
            digest[ 8], digest[ 9], digest[10], digest[11],
            digest[12], digest[13], digest[14], digest[15]);
}

/** output is a sequence of non-zero characters to be used as password salt. */
void MD5_Salt(unsigned int len, char *output)
{
    unsigned int i;
    for (i = 0; i < len; ++i)
        output[i] = (char)(1 + rnd() % 255);

}