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ntlmhash.c
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ntlmhash.c
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#include <unistd.h>
#include <string.h>
//Init values
#define INIT_A 0x67452301
#define INIT_B 0xefcdab89
#define INIT_C 0x98badcfe
#define INIT_D 0x10325476
#define SQRT_2 0x5a827999
#define SQRT_3 0x6ed9eba1
unsigned int nt_buffer[16];
unsigned int output[4];
char hex_format[33];
char itoa16[16] = "0123456789ABCDEF";
//This is the MD4 compress function
static void ntlm_crypt()
{
unsigned int a = INIT_A;
unsigned int b = INIT_B;
unsigned int c = INIT_C;
unsigned int d = INIT_D;
/* Round 1 */
a += (d ^ (b & (c ^ d))) + nt_buffer[0] ;a = (a << 3 ) | (a >> 29);
d += (c ^ (a & (b ^ c))) + nt_buffer[1] ;d = (d << 7 ) | (d >> 25);
c += (b ^ (d & (a ^ b))) + nt_buffer[2] ;c = (c << 11) | (c >> 21);
b += (a ^ (c & (d ^ a))) + nt_buffer[3] ;b = (b << 19) | (b >> 13);
a += (d ^ (b & (c ^ d))) + nt_buffer[4] ;a = (a << 3 ) | (a >> 29);
d += (c ^ (a & (b ^ c))) + nt_buffer[5] ;d = (d << 7 ) | (d >> 25);
c += (b ^ (d & (a ^ b))) + nt_buffer[6] ;c = (c << 11) | (c >> 21);
b += (a ^ (c & (d ^ a))) + nt_buffer[7] ;b = (b << 19) | (b >> 13);
a += (d ^ (b & (c ^ d))) + nt_buffer[8] ;a = (a << 3 ) | (a >> 29);
d += (c ^ (a & (b ^ c))) + nt_buffer[9] ;d = (d << 7 ) | (d >> 25);
c += (b ^ (d & (a ^ b))) + nt_buffer[10] ;c = (c << 11) | (c >> 21);
b += (a ^ (c & (d ^ a))) + nt_buffer[11] ;b = (b << 19) | (b >> 13);
a += (d ^ (b & (c ^ d))) + nt_buffer[12] ;a = (a << 3 ) | (a >> 29);
d += (c ^ (a & (b ^ c))) + nt_buffer[13] ;d = (d << 7 ) | (d >> 25);
c += (b ^ (d & (a ^ b))) + nt_buffer[14] ;c = (c << 11) | (c >> 21);
b += (a ^ (c & (d ^ a))) + nt_buffer[15] ;b = (b << 19) | (b >> 13);
/* Round 2 */
a += ((b & (c | d)) | (c & d)) + nt_buffer[0] +SQRT_2; a = (a<<3 ) | (a>>29);
d += ((a & (b | c)) | (b & c)) + nt_buffer[4] +SQRT_2; d = (d<<5 ) | (d>>27);
c += ((d & (a | b)) | (a & b)) + nt_buffer[8] +SQRT_2; c = (c<<9 ) | (c>>23);
b += ((c & (d | a)) | (d & a)) + nt_buffer[12]+SQRT_2; b = (b<<13) | (b>>19);
a += ((b & (c | d)) | (c & d)) + nt_buffer[1] +SQRT_2; a = (a<<3 ) | (a>>29);
d += ((a & (b | c)) | (b & c)) + nt_buffer[5] +SQRT_2; d = (d<<5 ) | (d>>27);
c += ((d & (a | b)) | (a & b)) + nt_buffer[9] +SQRT_2; c = (c<<9 ) | (c>>23);
b += ((c & (d | a)) | (d & a)) + nt_buffer[13]+SQRT_2; b = (b<<13) | (b>>19);
a += ((b & (c | d)) | (c & d)) + nt_buffer[2] +SQRT_2; a = (a<<3 ) | (a>>29);
d += ((a & (b | c)) | (b & c)) + nt_buffer[6] +SQRT_2; d = (d<<5 ) | (d>>27);
c += ((d & (a | b)) | (a & b)) + nt_buffer[10]+SQRT_2; c = (c<<9 ) | (c>>23);
b += ((c & (d | a)) | (d & a)) + nt_buffer[14]+SQRT_2; b = (b<<13) | (b>>19);
a += ((b & (c | d)) | (c & d)) + nt_buffer[3] +SQRT_2; a = (a<<3 ) | (a>>29);
d += ((a & (b | c)) | (b & c)) + nt_buffer[7] +SQRT_2; d = (d<<5 ) | (d>>27);
c += ((d & (a | b)) | (a & b)) + nt_buffer[11]+SQRT_2; c = (c<<9 ) | (c>>23);
b += ((c & (d | a)) | (d & a)) + nt_buffer[15]+SQRT_2; b = (b<<13) | (b>>19);
/* Round 3 */
a += (d ^ c ^ b) + nt_buffer[0] + SQRT_3; a = (a << 3 ) | (a >> 29);
d += (c ^ b ^ a) + nt_buffer[8] + SQRT_3; d = (d << 9 ) | (d >> 23);
c += (b ^ a ^ d) + nt_buffer[4] + SQRT_3; c = (c << 11) | (c >> 21);
b += (a ^ d ^ c) + nt_buffer[12] + SQRT_3; b = (b << 15) | (b >> 17);
a += (d ^ c ^ b) + nt_buffer[2] + SQRT_3; a = (a << 3 ) | (a >> 29);
d += (c ^ b ^ a) + nt_buffer[10] + SQRT_3; d = (d << 9 ) | (d >> 23);
c += (b ^ a ^ d) + nt_buffer[6] + SQRT_3; c = (c << 11) | (c >> 21);
b += (a ^ d ^ c) + nt_buffer[14] + SQRT_3; b = (b << 15) | (b >> 17);
a += (d ^ c ^ b) + nt_buffer[1] + SQRT_3; a = (a << 3 ) | (a >> 29);
d += (c ^ b ^ a) + nt_buffer[9] + SQRT_3; d = (d << 9 ) | (d >> 23);
c += (b ^ a ^ d) + nt_buffer[5] + SQRT_3; c = (c << 11) | (c >> 21);
b += (a ^ d ^ c) + nt_buffer[13] + SQRT_3; b = (b << 15) | (b >> 17);
a += (d ^ c ^ b) + nt_buffer[3] + SQRT_3; a = (a << 3 ) | (a >> 29);
d += (c ^ b ^ a) + nt_buffer[11] + SQRT_3; d = (d << 9 ) | (d >> 23);
c += (b ^ a ^ d) + nt_buffer[7] + SQRT_3; c = (c << 11) | (c >> 21);
b += (a ^ d ^ c) + nt_buffer[15] + SQRT_3; b = (b << 15) | (b >> 17);
output[0] = a + INIT_A;
output[1] = b + INIT_B;
output[2] = c + INIT_C;
output[3] = d + INIT_D;
}
//This include the Unicode conversion and the padding
static void prepare_key(char *key)
{
int i=0;
int length=strlen(key);
memset(nt_buffer,0,16*4);
//The length of key need to be <= 27
for(;i<length/2;i++)
nt_buffer[i] = key[2*i] | (key[2*i+1]<<16);
//padding
if(length%2==1)
nt_buffer[i] = key[length-1] | 0x800000;
else
nt_buffer[i]=0x80;
//put the length
nt_buffer[14] = length << 4;
}
//This convert the output to hexadecimal form
static void convert_hex()
{
int i=0;
//Iterate the integer
for(;i<4;i++)
{
int j=0;
unsigned int n=output[i];
//iterate the bytes of the integer
for(;j<4;j++)
{
unsigned int convert=n%256;
hex_format[i*8+j*2+1]=itoa16[convert%16];
convert=convert/16;
hex_format[i*8+j*2+0]=itoa16[convert%16];
n=n/256;
}
}
//null terminate the string
hex_format[33]=0;
}
int main(int argc, char **argv)
{
prepare_key(argv[1]);
ntlm_crypt();
convert_hex();
write(1, hex_format, 32);
return 0;
}