ccrypt.c

qq协议分析辅助

/**
 * The QQ2003C protocol plugin
 *
 * for gaim
 *
 * Copyright (C) 2004 Puzzlebird
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 *
 * OICQ encryption algorithm
 * Convert from ASM code provided by PerlOICQ
 * 
 * Puzzlebird, Nov-Dec 2002 
 */

/*****************************************************************************/
/*Notes: (OICQ uses 0x10 iterations, and modified something...)

IN : 64  bits of data in v[0] - v[1].
OUT: 64  bits of data in w[0] - w[1].
KEY: 128 bits of key  in k[0] - k[3].

delta is chosen to be the real part of 
the golden ratio: Sqrt(5/4) - 1/2 ~ 0.618034 multiplied by 2^32. 

0x61C88647 is what we can track on the ASM codes.!!
*/

#ifndef _WIN32
#include <arpa/inet.h>
#else
#include "win32dep.h"
#endif

#include <string.h>

#include "crypt.h"

void qq_encipher (
    unsigned long *const        v,
    const unsigned long *const  k,
    unsigned long *const        w) ;

void qq_decipher(
    unsigned long *const        v,
    const unsigned long *const  k,
    unsigned long *const        w);

void qq_encrypt (  
    unsigned char*  instr,
    int             instrlen,
    unsigned char*  key,
    unsigned char*  outstr,
    int*            outstrlen_prt);
	
int qq_decrypt (
    unsigned char*  instr,
    int             instrlen,
    unsigned char*  key,
    unsigned char*  outstr,
    int*            outstrlen_ptr);
							
/*****************************************************************************/
void qq_encipher (
    unsigned long *const        v,
    const unsigned long *const  k,
    unsigned long *const        w) 
{
  register unsigned long 
    y     = ntohl(v[0]),
    z     = ntohl(v[1]),
		a     = ntohl(k[0]),
    b     = ntohl(k[1]),
    c     = ntohl(k[2]),
    d     = ntohl(k[3]),
    n     = 0x10,
    sum   = 0,
    delta = 0x9E3779B9; /*  0x9E3779B9 - 0x100000000 = -0x61C88647 */

  while (n-- > 0) {
    sum += delta;
    y += ((z << 4) + a) ^ (z + sum) ^ ((z >> 5) + b);
    z += ((y << 4) + c) ^ (y + sum) ^ ((y >> 5) + d);
  }

  w[0] = htonl(y); w[1] = htonl(z);
}

/*****************************************************************************/
void qq_decipher(
    unsigned long *const        v,
    const unsigned long *const  k,
    unsigned long *const        w)
{
  register unsigned long
    y     = ntohl(v[0]),
    z     = ntohl(v[1]),
    a     = ntohl(k[0]),
    b     = ntohl(k[1]),
    c     = ntohl(k[2]),
		d     = ntohl(k[3]),
    n     = 0x10,
    sum   = 0xE3779B90, 
	/* why this ? must be related with n value*/
	delta = 0x9E3779B9;

  /* sum = delta<<5, in general sum = delta * n */
  while (n-- > 0) {
    z -= ((y << 4) + c) ^ (y + sum) ^ ((y >> 5) + d);
    y -= ((z << 4) + a) ^ (z + sum) ^ ((z >> 5) + b);
    sum -= delta;
  }
   
  w[0] = htonl(y); w[1] = htonl(z);
}

/********************************************************************
 * encrypt part
 *******************************************************************/

void qq_encrypt (  
    unsigned char*  instr,
    int             instrlen,
    unsigned char*  key,
    unsigned char*  outstr,
    int*            outstrlen_prt)
{
  unsigned char 
    plain[8],         /* plain text buffer*/
    plain_pre_8[8],   /* plain text buffer, previous 8 bytes*/
    * crypted,        /* crypted text*/
    * crypted_pre_8,  /* crypted test, previous 8 bytes*/
    * inp;            /* current position in instr*/
  int 
    pos_in_byte = 1,  /* loop in the byte */
    is_header=1,      /* header is one byte*/
    count=0,          /* number of bytes being crypted*/
    padding = 0;      /* number of padding stuff*/

  int rand(void);
  void encrypt_every_8_byte (void);    
//  int rand(void) {    /* it can be the real random seed function*/
//    return 0xdead; }  /* override with number, convenient for debug*/
  
  /*** we encrypt every eight byte ***/
  void encrypt_every_8_byte (void) {
    for(pos_in_byte=0; pos_in_byte<8; pos_in_byte++) {
      if(is_header) { plain[pos_in_byte] ^= plain_pre_8[pos_in_byte]; }
      else { plain[pos_in_byte] ^= crypted_pre_8[pos_in_byte]; }
    } /* prepare plain text*/
    qq_encipher( (unsigned long *) plain,
       		       (unsigned long *) key, 
         		     (unsigned long *) crypted);   /* encrypt it*/
    
    for(pos_in_byte=0; pos_in_byte<8; pos_in_byte++) {
      crypted[pos_in_byte] ^= plain_pre_8[pos_in_byte]; 
    } 
    memcpy(plain_pre_8, plain, 8);     /* prepare next*/
    
    crypted_pre_8   =   crypted;       /* store position of previous 8 byte*/
    crypted         +=  8;             /* prepare next output*/
    count           +=  8;             /* outstrlen increase by 8*/
    pos_in_byte     =   0;             /* back to start*/
    is_header       =   0;             /* and exit header*/
  }/* encrypt_every_8_byte*/
 
  pos_in_byte = (instrlen + 0x0a) % 8; /* header padding decided by instrlen*/
  if (pos_in_byte) { 
    pos_in_byte = 8 - pos_in_byte; 
  }
  plain[0] = (rand() & 0xf8) | pos_in_byte;
  
  memset(plain+1, rand()&0xff, pos_in_byte++);
  memset(plain_pre_8, 0x00, sizeof(plain_pre_8));

  crypted = crypted_pre_8 = outstr;
  
  padding = 1; /* pad some stuff in header*/
  while (padding <= 2) { /* at most two byte */
    if(pos_in_byte < 8) { plain[pos_in_byte++] = rand() & 0xff; padding ++; } 
    if(pos_in_byte == 8){ encrypt_every_8_byte(); } 
  }
  
  inp = instr;
  while (instrlen > 0) {
    if (pos_in_byte < 8) { plain[pos_in_byte++] = *(inp++); instrlen --; }
    if (pos_in_byte == 8){ encrypt_every_8_byte(); }
  }

  padding = 1; /* pad some stuff in tailer*/
  while (padding <= 7) { /* at most sever byte*/
    if (pos_in_byte < 8) { plain[pos_in_byte++] = 0x00; padding ++; }
    if (pos_in_byte == 8){ encrypt_every_8_byte(); }
  } 
  
  *outstrlen_prt = count;
}/* qq_encrypt*/


/******************************************************************** 
 * [decrypt part]
 * return 0 if failed, otherwise return 1
 ********************************************************************/

int qq_decrypt (
    unsigned char*  instr,
    int             instrlen,
    unsigned char*  key,
    unsigned char*  outstr,
    int*            outstrlen_ptr)
{
  unsigned char 
    decrypted[8], m[8],
    * crypt_buff, 
    * crypt_buff_pre_8, 
    * outp;
  int 
    count, 
    context_start, 
    pos_in_byte, 
    padding;
  int decrypt_every_8_byte (void);
  int decrypt_every_8_byte (void) {
    for (pos_in_byte = 0; pos_in_byte < 8; pos_in_byte ++ ) {
        if (context_start + pos_in_byte >= instrlen) return 1;
        decrypted[pos_in_byte] ^= crypt_buff[pos_in_byte];
    }
    qq_decipher( (unsigned long *) decrypted, 
       	  	     (unsigned long *) key, 
        	  	   (unsigned long *) decrypted);
    
    context_start +=  8;
    crypt_buff    +=  8;
    pos_in_byte   =   0;
    return 1;
  }/* decrypt_every_8_byte*/
  
  /* at least 16 bytes and %8 == 0*/
  if ((instrlen % 8) || (instrlen < 16)) return 0; 
  /* get information from header*/
  qq_decipher( (unsigned long *) instr, 
            (unsigned long *) key, 
            (unsigned long *) decrypted);
  pos_in_byte = decrypted[0] & 0x7;
  count = instrlen - pos_in_byte - 10; /* this is the plaintext length*/
  /* return if outstr buffer is not large enought or error plaintext length*/
  if (*outstrlen_ptr < count || count < 0) return 0;
  
  memset(m, 0, 8);
  crypt_buff_pre_8 = m;
  *outstrlen_ptr = count;   /* everything is ok! set return string length*/

  crypt_buff = instr + 8;   /* address of real data start */
  context_start = 8;        /* context is at the second 8 byte*/
  pos_in_byte ++;           /* start of paddng stuffv*/
  
  padding = 1;              /* at least one in header*/
  while (padding <= 2) {    /* there are 2 byte padding stuff in header*/
    if (pos_in_byte < 8) {  /* bypass the padding stuff, none sense data*/
      pos_in_byte ++; padding ++;
    }
    if (pos_in_byte == 8) {
      crypt_buff_pre_8 = instr;
      if (! decrypt_every_8_byte()) return 0; 
    }
  }/* while*/

  outp = outstr;
  while(count !=0) {
    if (pos_in_byte < 8) {
      *outp = crypt_buff_pre_8[pos_in_byte] ^ decrypted[pos_in_byte];
      outp ++;
      count --;
      pos_in_byte ++;
    }
    if (pos_in_byte == 8) {
      crypt_buff_pre_8 = crypt_buff - 8;
      if (! decrypt_every_8_byte()) return 0;
    }
  }/* while*/
  
  for (padding = 1; padding < 8; padding ++) {
    if (pos_in_byte < 8) {
      if (crypt_buff_pre_8[pos_in_byte] ^ decrypted[pos_in_byte]) return 0;
      pos_in_byte ++; 
    }
    if (pos_in_byte == 8 ) {
      crypt_buff_pre_8 = crypt_buff;
      if (! decrypt_every_8_byte()) return 0; 
    }
  }/* for*/
  return 1;
}/* qq_decrypt*/

/*****************************************************************************/
/* This is the Public Function */
/* return 1 is succeed, otherwise return 0*/
int crypt (
    unsigned char   flag,
    unsigned char*  instr,
    int             instrlen,
    unsigned char*  key,
    unsigned char*  outstr,
    int*            outstrlen_ptr)
{
  if (flag == DECRYPT)
    return qq_decrypt(instr, instrlen, key, outstr, outstrlen_ptr);
  else if (flag == ENCRYPT)
    qq_encrypt(instr, instrlen, key, outstr, outstrlen_ptr);

  return 1; /* flag must be DECRYPT or ENCRYPT*/
}/* qq_crypt*/
/*****************************************************************************/
/* END OF FILE*/