gst/realmedia/realhash.c - gst-plugins-ugly1.0 - Git at Google

 /* GStreamer
  * Copyright (C) <2005,2006> Wim Taymans <wim@fluendo.com>
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library 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
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public
  * License along with this library; if not, write to the
  * Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  */
 /* Element-Checklist-Version: 5 */

 #ifdef HAVE_CONFIG_H
 #include "config.h"
 #endif

 #ifdef HAVE_STDINT_H
 #include <stdint.h>
 #endif

 #include <string.h>

 #include <gst/gst.h>

 #include "realhash.h"

 void rtsp_ext_real_calc_response_and_checksum (char *response,
     char *chksum, char *challenge);

 /*
  * The following code has been copied from
  * xine-lib-1.1.1/src/input/libreal/real.c.
  */

 static const unsigned char xor_table[] = {
   0x05, 0x18, 0x74, 0xd0, 0x0d, 0x09, 0x02, 0x53,
   0xc0, 0x01, 0x05, 0x05, 0x67, 0x03, 0x19, 0x70,
   0x08, 0x27, 0x66, 0x10, 0x10, 0x72, 0x08, 0x09,
   0x63, 0x11, 0x03, 0x71, 0x08, 0x08, 0x70, 0x02,
   0x10, 0x57, 0x05, 0x18, 0x54, 0x00, 0x00, 0x00
 };

 #define LE_32(x) GST_READ_UINT32_LE(x)
 #define BE_32C(x,y) GST_WRITE_UINT32_BE(x,y)
 #define LE_32C(x,y) GST_WRITE_UINT32_LE(x,y)

 static void
 hash (char *field, char *param)
 {
   uint32_t a, b, c, d;

   /* fill variables */
   a = LE_32 (field);
   b = LE_32 (field + 4);
   c = LE_32 (field + 8);
   d = LE_32 (field + 12);

   a = ((b & c) | (~b & d)) + LE_32 ((param + 0x00)) + a - 0x28955B88;
   a = ((a << 0x07) | (a >> 0x19)) + b;
   d = ((a & b) | (~a & c)) + LE_32 ((param + 0x04)) + d - 0x173848AA;
   d = ((d << 0x0c) | (d >> 0x14)) + a;
   c = ((d & a) | (~d & b)) + LE_32 ((param + 0x08)) + c + 0x242070DB;
   c = ((c << 0x11) | (c >> 0x0f)) + d;
   b = ((c & d) | (~c & a)) + LE_32 ((param + 0x0c)) + b - 0x3E423112;
   b = ((b << 0x16) | (b >> 0x0a)) + c;
   a = ((b & c) | (~b & d)) + LE_32 ((param + 0x10)) + a - 0x0A83F051;
   a = ((a << 0x07) | (a >> 0x19)) + b;
   d = ((a & b) | (~a & c)) + LE_32 ((param + 0x14)) + d + 0x4787C62A;
   d = ((d << 0x0c) | (d >> 0x14)) + a;
   c = ((d & a) | (~d & b)) + LE_32 ((param + 0x18)) + c - 0x57CFB9ED;
   c = ((c << 0x11) | (c >> 0x0f)) + d;
   b = ((c & d) | (~c & a)) + LE_32 ((param + 0x1c)) + b - 0x02B96AFF;
   b = ((b << 0x16) | (b >> 0x0a)) + c;
   a = ((b & c) | (~b & d)) + LE_32 ((param + 0x20)) + a + 0x698098D8;
   a = ((a << 0x07) | (a >> 0x19)) + b;
   d = ((a & b) | (~a & c)) + LE_32 ((param + 0x24)) + d - 0x74BB0851;
   d = ((d << 0x0c) | (d >> 0x14)) + a;
   c = ((d & a) | (~d & b)) + LE_32 ((param + 0x28)) + c - 0x0000A44F;
   c = ((c << 0x11) | (c >> 0x0f)) + d;
   b = ((c & d) | (~c & a)) + LE_32 ((param + 0x2C)) + b - 0x76A32842;
   b = ((b << 0x16) | (b >> 0x0a)) + c;
   a = ((b & c) | (~b & d)) + LE_32 ((param + 0x30)) + a + 0x6B901122;
   a = ((a << 0x07) | (a >> 0x19)) + b;
   d = ((a & b) | (~a & c)) + LE_32 ((param + 0x34)) + d - 0x02678E6D;
   d = ((d << 0x0c) | (d >> 0x14)) + a;
   c = ((d & a) | (~d & b)) + LE_32 ((param + 0x38)) + c - 0x5986BC72;
   c = ((c << 0x11) | (c >> 0x0f)) + d;
   b = ((c & d) | (~c & a)) + LE_32 ((param + 0x3c)) + b + 0x49B40821;
   b = ((b << 0x16) | (b >> 0x0a)) + c;

   a = ((b & d) | (~d & c)) + LE_32 ((param + 0x04)) + a - 0x09E1DA9E;
   a = ((a << 0x05) | (a >> 0x1b)) + b;
   d = ((a & c) | (~c & b)) + LE_32 ((param + 0x18)) + d - 0x3FBF4CC0;
   d = ((d << 0x09) | (d >> 0x17)) + a;
   c = ((d & b) | (~b & a)) + LE_32 ((param + 0x2c)) + c + 0x265E5A51;
   c = ((c << 0x0e) | (c >> 0x12)) + d;
   b = ((c & a) | (~a & d)) + LE_32 ((param + 0x00)) + b - 0x16493856;
   b = ((b << 0x14) | (b >> 0x0c)) + c;
   a = ((b & d) | (~d & c)) + LE_32 ((param + 0x14)) + a - 0x29D0EFA3;
   a = ((a << 0x05) | (a >> 0x1b)) + b;
   d = ((a & c) | (~c & b)) + LE_32 ((param + 0x28)) + d + 0x02441453;
   d = ((d << 0x09) | (d >> 0x17)) + a;
   c = ((d & b) | (~b & a)) + LE_32 ((param + 0x3c)) + c - 0x275E197F;
   c = ((c << 0x0e) | (c >> 0x12)) + d;
   b = ((c & a) | (~a & d)) + LE_32 ((param + 0x10)) + b - 0x182C0438;
   b = ((b << 0x14) | (b >> 0x0c)) + c;
   a = ((b & d) | (~d & c)) + LE_32 ((param + 0x24)) + a + 0x21E1CDE6;
   a = ((a << 0x05) | (a >> 0x1b)) + b;
   d = ((a & c) | (~c & b)) + LE_32 ((param + 0x38)) + d - 0x3CC8F82A;
   d = ((d << 0x09) | (d >> 0x17)) + a;
   c = ((d & b) | (~b & a)) + LE_32 ((param + 0x0c)) + c - 0x0B2AF279;
   c = ((c << 0x0e) | (c >> 0x12)) + d;
   b = ((c & a) | (~a & d)) + LE_32 ((param + 0x20)) + b + 0x455A14ED;
   b = ((b << 0x14) | (b >> 0x0c)) + c;
   a = ((b & d) | (~d & c)) + LE_32 ((param + 0x34)) + a - 0x561C16FB;
   a = ((a << 0x05) | (a >> 0x1b)) + b;
   d = ((a & c) | (~c & b)) + LE_32 ((param + 0x08)) + d - 0x03105C08;
   d = ((d << 0x09) | (d >> 0x17)) + a;
   c = ((d & b) | (~b & a)) + LE_32 ((param + 0x1c)) + c + 0x676F02D9;
   c = ((c << 0x0e) | (c >> 0x12)) + d;
   b = ((c & a) | (~a & d)) + LE_32 ((param + 0x30)) + b - 0x72D5B376;
   b = ((b << 0x14) | (b >> 0x0c)) + c;

   a = (b ^ c ^ d) + LE_32 ((param + 0x14)) + a - 0x0005C6BE;
   a = ((a << 0x04) | (a >> 0x1c)) + b;
   d = (a ^ b ^ c) + LE_32 ((param + 0x20)) + d - 0x788E097F;
   d = ((d << 0x0b) | (d >> 0x15)) + a;
   c = (d ^ a ^ b) + LE_32 ((param + 0x2c)) + c + 0x6D9D6122;
   c = ((c << 0x10) | (c >> 0x10)) + d;
   b = (c ^ d ^ a) + LE_32 ((param + 0x38)) + b - 0x021AC7F4;
   b = ((b << 0x17) | (b >> 0x09)) + c;
   a = (b ^ c ^ d) + LE_32 ((param + 0x04)) + a - 0x5B4115BC;
   a = ((a << 0x04) | (a >> 0x1c)) + b;
   d = (a ^ b ^ c) + LE_32 ((param + 0x10)) + d + 0x4BDECFA9;
   d = ((d << 0x0b) | (d >> 0x15)) + a;
   c = (d ^ a ^ b) + LE_32 ((param + 0x1c)) + c - 0x0944B4A0;
   c = ((c << 0x10) | (c >> 0x10)) + d;
   b = (c ^ d ^ a) + LE_32 ((param + 0x28)) + b - 0x41404390;
   b = ((b << 0x17) | (b >> 0x09)) + c;
   a = (b ^ c ^ d) + LE_32 ((param + 0x34)) + a + 0x289B7EC6;
   a = ((a << 0x04) | (a >> 0x1c)) + b;
   d = (a ^ b ^ c) + LE_32 ((param + 0x00)) + d - 0x155ED806;
   d = ((d << 0x0b) | (d >> 0x15)) + a;
   c = (d ^ a ^ b) + LE_32 ((param + 0x0c)) + c - 0x2B10CF7B;
   c = ((c << 0x10) | (c >> 0x10)) + d;
   b = (c ^ d ^ a) + LE_32 ((param + 0x18)) + b + 0x04881D05;
   b = ((b << 0x17) | (b >> 0x09)) + c;
   a = (b ^ c ^ d) + LE_32 ((param + 0x24)) + a - 0x262B2FC7;
   a = ((a << 0x04) | (a >> 0x1c)) + b;
   d = (a ^ b ^ c) + LE_32 ((param + 0x30)) + d - 0x1924661B;
   d = ((d << 0x0b) | (d >> 0x15)) + a;
   c = (d ^ a ^ b) + LE_32 ((param + 0x3c)) + c + 0x1fa27cf8;
   c = ((c << 0x10) | (c >> 0x10)) + d;
   b = (c ^ d ^ a) + LE_32 ((param + 0x08)) + b - 0x3B53A99B;
   b = ((b << 0x17) | (b >> 0x09)) + c;

   a = ((~d | b) ^ c) + LE_32 ((param + 0x00)) + a - 0x0BD6DDBC;
   a = ((a << 0x06) | (a >> 0x1a)) + b;
   d = ((~c | a) ^ b) + LE_32 ((param + 0x1c)) + d + 0x432AFF97;
   d = ((d << 0x0a) | (d >> 0x16)) + a;
   c = ((~b | d) ^ a) + LE_32 ((param + 0x38)) + c - 0x546BDC59;
   c = ((c << 0x0f) | (c >> 0x11)) + d;
   b = ((~a | c) ^ d) + LE_32 ((param + 0x14)) + b - 0x036C5FC7;
   b = ((b << 0x15) | (b >> 0x0b)) + c;
   a = ((~d | b) ^ c) + LE_32 ((param + 0x30)) + a + 0x655B59C3;
   a = ((a << 0x06) | (a >> 0x1a)) + b;
   d = ((~c | a) ^ b) + LE_32 ((param + 0x0C)) + d - 0x70F3336E;
   d = ((d << 0x0a) | (d >> 0x16)) + a;
   c = ((~b | d) ^ a) + LE_32 ((param + 0x28)) + c - 0x00100B83;
   c = ((c << 0x0f) | (c >> 0x11)) + d;
   b = ((~a | c) ^ d) + LE_32 ((param + 0x04)) + b - 0x7A7BA22F;
   b = ((b << 0x15) | (b >> 0x0b)) + c;
   a = ((~d | b) ^ c) + LE_32 ((param + 0x20)) + a + 0x6FA87E4F;
   a = ((a << 0x06) | (a >> 0x1a)) + b;
   d = ((~c | a) ^ b) + LE_32 ((param + 0x3c)) + d - 0x01D31920;
   d = ((d << 0x0a) | (d >> 0x16)) + a;
   c = ((~b | d) ^ a) + LE_32 ((param + 0x18)) + c - 0x5CFEBCEC;
   c = ((c << 0x0f) | (c >> 0x11)) + d;
   b = ((~a | c) ^ d) + LE_32 ((param + 0x34)) + b + 0x4E0811A1;
   b = ((b << 0x15) | (b >> 0x0b)) + c;
   a = ((~d | b) ^ c) + LE_32 ((param + 0x10)) + a - 0x08AC817E;
   a = ((a << 0x06) | (a >> 0x1a)) + b;
   d = ((~c | a) ^ b) + LE_32 ((param + 0x2c)) + d - 0x42C50DCB;
   d = ((d << 0x0a) | (d >> 0x16)) + a;
   c = ((~b | d) ^ a) + LE_32 ((param + 0x08)) + c + 0x2AD7D2BB;
   c = ((c << 0x0f) | (c >> 0x11)) + d;
   b = ((~a | c) ^ d) + LE_32 ((param + 0x24)) + b - 0x14792C6F;
   b = ((b << 0x15) | (b >> 0x0b)) + c;

   a += LE_32 (field);
   b += LE_32 (field + 4);
   c += LE_32 (field + 8);
   d += LE_32 (field + 12);

   LE_32C (field, a);
   LE_32C (field + 4, b);
   LE_32C (field + 8, c);
   LE_32C (field + 12, d);
 }

 static void
 call_hash (char *key, char *challenge, int len)
 {
   uint8_t *ptr1, *ptr2;
   uint32_t a, b, c, d, tmp;

   ptr1 = (uint8_t *) (key + 16);
   ptr2 = (uint8_t *) (key + 20);

   a = LE_32 (ptr1);
   b = (a >> 3) & 0x3f;
   a += len * 8;
   LE_32C (ptr1, a);

   if (a < (len << 3))
     ptr2 += 4;

   tmp = LE_32 (ptr2) + (len >> 0x1d);
   LE_32C (ptr2, tmp);
   a = 64 - b;
   c = 0;
   if (a <= len) {

     memcpy (key + b + 24, challenge, a);
     hash (key, key + 24);
     c = a;
     d = c + 0x3f;

     while (d < len) {
       hash (key, challenge + d - 0x3f);
       d += 64;
       c += 64;
     }
     b = 0;
   }

   memcpy (key + b + 24, challenge + c, len - c);
 }

 void
 gst_rtsp_ext_real_calc_response_and_checksum (char *response, char *chksum,
     char *challenge)
 {
   int ch_len, table_len, resp_len;
   int i;
   char *ptr;
   char buf[128];
   char field[128];
   char zres[20];
   char buf1[128];
   char buf2[128];

   /* initialize return values */
   memset (response, 0, 64);
   memset (chksum, 0, 34);

   /* initialize buffer */
   memset (buf, 0, 128);
   ptr = buf;
   BE_32C (ptr, 0xa1e9149d);
   ptr += 4;
   BE_32C (ptr, 0x0e6b3b59);
   ptr += 4;

   if ((ch_len = MIN (strlen (challenge), 56)) == 40) {
     challenge[32] = 0;
     ch_len = 32;
   }
   memcpy (ptr, challenge, ch_len);

   /* xor challenge bytewise with xor_table */
   table_len = MIN (strlen ((char *) xor_table), 56);
   for (i = 0; i < table_len; i++)
     ptr[i] = ptr[i] ^ xor_table[i];

   /* initialize our field */
   BE_32C (field, 0x01234567);
   BE_32C (field + 4, 0x89ABCDEF);
   BE_32C (field + 8, 0xFEDCBA98);
   BE_32C (field + 12, 0x76543210);
   BE_32C (field + 16, 0x00000000);
   BE_32C (field + 20, 0x00000000);

   /* calculate response */
   call_hash (field, buf, 64);
   memset (buf1, 0, 64);
   *buf1 = (char) 128;
   memcpy (buf2, field + 16, 8);
   i = (LE_32 ((buf2)) >> 3) & 0x3f;
   if (i < 56)
     i = 56 - i;
   else
     i = 120 - i;
   call_hash (field, buf1, i);
   call_hash (field, buf2, 8);
   memcpy (zres, field, 16);

   /* convert zres to ascii string */
   for (i = 0; i < 16; i++) {
     char a, b;

     a = (zres[i] >> 4) & 15;
     b = zres[i] & 15;

     response[i * 2] = ((a < 10) ? (a + 48) : (a + 87)) & 255;
     response[i * 2 + 1] = ((b < 10) ? (b + 48) : (b + 87)) & 255;
   }

   /* add tail */
   resp_len = strlen (response);
   strcpy (&response[resp_len], "01d0a8e3");

   /* calculate checksum */
   for (i = 0; i < resp_len / 4; i++)
     chksum[i] = response[i * 4];
 }
	/* GStreamer
	* Copyright (C) <2005,2006> Wim Taymans <wim@fluendo.com>
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library 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
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public
	* License along with this library; if not, write to the
	* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*/
	/* Element-Checklist-Version: 5 */

	#ifdef HAVE_CONFIG_H
	#include "config.h"
	#endif

	#ifdef HAVE_STDINT_H
	#include <stdint.h>
	#endif

	#include <string.h>

	#include <gst/gst.h>

	#include "realhash.h"

	void rtsp_ext_real_calc_response_and_checksum (char *response,
	char chksum, char challenge);

	/*
	* The following code has been copied from
	* xine-lib-1.1.1/src/input/libreal/real.c.
	*/

	static const unsigned char xor_table[] = {
	0x05, 0x18, 0x74, 0xd0, 0x0d, 0x09, 0x02, 0x53,
	0xc0, 0x01, 0x05, 0x05, 0x67, 0x03, 0x19, 0x70,
	0x08, 0x27, 0x66, 0x10, 0x10, 0x72, 0x08, 0x09,
	0x63, 0x11, 0x03, 0x71, 0x08, 0x08, 0x70, 0x02,
	0x10, 0x57, 0x05, 0x18, 0x54, 0x00, 0x00, 0x00
	};

	#define LE_32(x) GST_READ_UINT32_LE(x)
	#define BE_32C(x,y) GST_WRITE_UINT32_BE(x,y)
	#define LE_32C(x,y) GST_WRITE_UINT32_LE(x,y)

	static void
	hash (char field, char param)
	{
	uint32_t a, b, c, d;

	/* fill variables */
	a = LE_32 (field);
	b = LE_32 (field + 4);
	c = LE_32 (field + 8);
	d = LE_32 (field + 12);

	a = ((b & c) \| (~b & d)) + LE_32 ((param + 0x00)) + a - 0x28955B88;
	a = ((a << 0x07) \| (a >> 0x19)) + b;
	d = ((a & b) \| (~a & c)) + LE_32 ((param + 0x04)) + d - 0x173848AA;
	d = ((d << 0x0c) \| (d >> 0x14)) + a;
	c = ((d & a) \| (~d & b)) + LE_32 ((param + 0x08)) + c + 0x242070DB;
	c = ((c << 0x11) \| (c >> 0x0f)) + d;
	b = ((c & d) \| (~c & a)) + LE_32 ((param + 0x0c)) + b - 0x3E423112;
	b = ((b << 0x16) \| (b >> 0x0a)) + c;
	a = ((b & c) \| (~b & d)) + LE_32 ((param + 0x10)) + a - 0x0A83F051;
	a = ((a << 0x07) \| (a >> 0x19)) + b;
	d = ((a & b) \| (~a & c)) + LE_32 ((param + 0x14)) + d + 0x4787C62A;
	d = ((d << 0x0c) \| (d >> 0x14)) + a;
	c = ((d & a) \| (~d & b)) + LE_32 ((param + 0x18)) + c - 0x57CFB9ED;
	c = ((c << 0x11) \| (c >> 0x0f)) + d;
	b = ((c & d) \| (~c & a)) + LE_32 ((param + 0x1c)) + b - 0x02B96AFF;
	b = ((b << 0x16) \| (b >> 0x0a)) + c;
	a = ((b & c) \| (~b & d)) + LE_32 ((param + 0x20)) + a + 0x698098D8;
	a = ((a << 0x07) \| (a >> 0x19)) + b;
	d = ((a & b) \| (~a & c)) + LE_32 ((param + 0x24)) + d - 0x74BB0851;
	d = ((d << 0x0c) \| (d >> 0x14)) + a;
	c = ((d & a) \| (~d & b)) + LE_32 ((param + 0x28)) + c - 0x0000A44F;
	c = ((c << 0x11) \| (c >> 0x0f)) + d;
	b = ((c & d) \| (~c & a)) + LE_32 ((param + 0x2C)) + b - 0x76A32842;
	b = ((b << 0x16) \| (b >> 0x0a)) + c;
	a = ((b & c) \| (~b & d)) + LE_32 ((param + 0x30)) + a + 0x6B901122;
	a = ((a << 0x07) \| (a >> 0x19)) + b;
	d = ((a & b) \| (~a & c)) + LE_32 ((param + 0x34)) + d - 0x02678E6D;
	d = ((d << 0x0c) \| (d >> 0x14)) + a;
	c = ((d & a) \| (~d & b)) + LE_32 ((param + 0x38)) + c - 0x5986BC72;
	c = ((c << 0x11) \| (c >> 0x0f)) + d;
	b = ((c & d) \| (~c & a)) + LE_32 ((param + 0x3c)) + b + 0x49B40821;
	b = ((b << 0x16) \| (b >> 0x0a)) + c;

	a = ((b & d) \| (~d & c)) + LE_32 ((param + 0x04)) + a - 0x09E1DA9E;
	a = ((a << 0x05) \| (a >> 0x1b)) + b;
	d = ((a & c) \| (~c & b)) + LE_32 ((param + 0x18)) + d - 0x3FBF4CC0;
	d = ((d << 0x09) \| (d >> 0x17)) + a;
	c = ((d & b) \| (~b & a)) + LE_32 ((param + 0x2c)) + c + 0x265E5A51;
	c = ((c << 0x0e) \| (c >> 0x12)) + d;
	b = ((c & a) \| (~a & d)) + LE_32 ((param + 0x00)) + b - 0x16493856;
	b = ((b << 0x14) \| (b >> 0x0c)) + c;
	a = ((b & d) \| (~d & c)) + LE_32 ((param + 0x14)) + a - 0x29D0EFA3;
	a = ((a << 0x05) \| (a >> 0x1b)) + b;
	d = ((a & c) \| (~c & b)) + LE_32 ((param + 0x28)) + d + 0x02441453;
	d = ((d << 0x09) \| (d >> 0x17)) + a;
	c = ((d & b) \| (~b & a)) + LE_32 ((param + 0x3c)) + c - 0x275E197F;
	c = ((c << 0x0e) \| (c >> 0x12)) + d;
	b = ((c & a) \| (~a & d)) + LE_32 ((param + 0x10)) + b - 0x182C0438;
	b = ((b << 0x14) \| (b >> 0x0c)) + c;
	a = ((b & d) \| (~d & c)) + LE_32 ((param + 0x24)) + a + 0x21E1CDE6;
	a = ((a << 0x05) \| (a >> 0x1b)) + b;
	d = ((a & c) \| (~c & b)) + LE_32 ((param + 0x38)) + d - 0x3CC8F82A;
	d = ((d << 0x09) \| (d >> 0x17)) + a;
	c = ((d & b) \| (~b & a)) + LE_32 ((param + 0x0c)) + c - 0x0B2AF279;
	c = ((c << 0x0e) \| (c >> 0x12)) + d;
	b = ((c & a) \| (~a & d)) + LE_32 ((param + 0x20)) + b + 0x455A14ED;
	b = ((b << 0x14) \| (b >> 0x0c)) + c;
	a = ((b & d) \| (~d & c)) + LE_32 ((param + 0x34)) + a - 0x561C16FB;
	a = ((a << 0x05) \| (a >> 0x1b)) + b;
	d = ((a & c) \| (~c & b)) + LE_32 ((param + 0x08)) + d - 0x03105C08;
	d = ((d << 0x09) \| (d >> 0x17)) + a;
	c = ((d & b) \| (~b & a)) + LE_32 ((param + 0x1c)) + c + 0x676F02D9;
	c = ((c << 0x0e) \| (c >> 0x12)) + d;
	b = ((c & a) \| (~a & d)) + LE_32 ((param + 0x30)) + b - 0x72D5B376;
	b = ((b << 0x14) \| (b >> 0x0c)) + c;

	a = (b ^ c ^ d) + LE_32 ((param + 0x14)) + a - 0x0005C6BE;
	a = ((a << 0x04) \| (a >> 0x1c)) + b;
	d = (a ^ b ^ c) + LE_32 ((param + 0x20)) + d - 0x788E097F;
	d = ((d << 0x0b) \| (d >> 0x15)) + a;
	c = (d ^ a ^ b) + LE_32 ((param + 0x2c)) + c + 0x6D9D6122;
	c = ((c << 0x10) \| (c >> 0x10)) + d;
	b = (c ^ d ^ a) + LE_32 ((param + 0x38)) + b - 0x021AC7F4;
	b = ((b << 0x17) \| (b >> 0x09)) + c;
	a = (b ^ c ^ d) + LE_32 ((param + 0x04)) + a - 0x5B4115BC;
	a = ((a << 0x04) \| (a >> 0x1c)) + b;
	d = (a ^ b ^ c) + LE_32 ((param + 0x10)) + d + 0x4BDECFA9;
	d = ((d << 0x0b) \| (d >> 0x15)) + a;
	c = (d ^ a ^ b) + LE_32 ((param + 0x1c)) + c - 0x0944B4A0;
	c = ((c << 0x10) \| (c >> 0x10)) + d;
	b = (c ^ d ^ a) + LE_32 ((param + 0x28)) + b - 0x41404390;
	b = ((b << 0x17) \| (b >> 0x09)) + c;
	a = (b ^ c ^ d) + LE_32 ((param + 0x34)) + a + 0x289B7EC6;
	a = ((a << 0x04) \| (a >> 0x1c)) + b;
	d = (a ^ b ^ c) + LE_32 ((param + 0x00)) + d - 0x155ED806;
	d = ((d << 0x0b) \| (d >> 0x15)) + a;
	c = (d ^ a ^ b) + LE_32 ((param + 0x0c)) + c - 0x2B10CF7B;
	c = ((c << 0x10) \| (c >> 0x10)) + d;
	b = (c ^ d ^ a) + LE_32 ((param + 0x18)) + b + 0x04881D05;
	b = ((b << 0x17) \| (b >> 0x09)) + c;
	a = (b ^ c ^ d) + LE_32 ((param + 0x24)) + a - 0x262B2FC7;
	a = ((a << 0x04) \| (a >> 0x1c)) + b;
	d = (a ^ b ^ c) + LE_32 ((param + 0x30)) + d - 0x1924661B;
	d = ((d << 0x0b) \| (d >> 0x15)) + a;
	c = (d ^ a ^ b) + LE_32 ((param + 0x3c)) + c + 0x1fa27cf8;
	c = ((c << 0x10) \| (c >> 0x10)) + d;
	b = (c ^ d ^ a) + LE_32 ((param + 0x08)) + b - 0x3B53A99B;
	b = ((b << 0x17) \| (b >> 0x09)) + c;

	a = ((~d \| b) ^ c) + LE_32 ((param + 0x00)) + a - 0x0BD6DDBC;
	a = ((a << 0x06) \| (a >> 0x1a)) + b;
	d = ((~c \| a) ^ b) + LE_32 ((param + 0x1c)) + d + 0x432AFF97;
	d = ((d << 0x0a) \| (d >> 0x16)) + a;
	c = ((~b \| d) ^ a) + LE_32 ((param + 0x38)) + c - 0x546BDC59;
	c = ((c << 0x0f) \| (c >> 0x11)) + d;
	b = ((~a \| c) ^ d) + LE_32 ((param + 0x14)) + b - 0x036C5FC7;
	b = ((b << 0x15) \| (b >> 0x0b)) + c;
	a = ((~d \| b) ^ c) + LE_32 ((param + 0x30)) + a + 0x655B59C3;
	a = ((a << 0x06) \| (a >> 0x1a)) + b;
	d = ((~c \| a) ^ b) + LE_32 ((param + 0x0C)) + d - 0x70F3336E;
	d = ((d << 0x0a) \| (d >> 0x16)) + a;
	c = ((~b \| d) ^ a) + LE_32 ((param + 0x28)) + c - 0x00100B83;
	c = ((c << 0x0f) \| (c >> 0x11)) + d;
	b = ((~a \| c) ^ d) + LE_32 ((param + 0x04)) + b - 0x7A7BA22F;
	b = ((b << 0x15) \| (b >> 0x0b)) + c;
	a = ((~d \| b) ^ c) + LE_32 ((param + 0x20)) + a + 0x6FA87E4F;
	a = ((a << 0x06) \| (a >> 0x1a)) + b;
	d = ((~c \| a) ^ b) + LE_32 ((param + 0x3c)) + d - 0x01D31920;
	d = ((d << 0x0a) \| (d >> 0x16)) + a;
	c = ((~b \| d) ^ a) + LE_32 ((param + 0x18)) + c - 0x5CFEBCEC;
	c = ((c << 0x0f) \| (c >> 0x11)) + d;
	b = ((~a \| c) ^ d) + LE_32 ((param + 0x34)) + b + 0x4E0811A1;
	b = ((b << 0x15) \| (b >> 0x0b)) + c;
	a = ((~d \| b) ^ c) + LE_32 ((param + 0x10)) + a - 0x08AC817E;
	a = ((a << 0x06) \| (a >> 0x1a)) + b;
	d = ((~c \| a) ^ b) + LE_32 ((param + 0x2c)) + d - 0x42C50DCB;
	d = ((d << 0x0a) \| (d >> 0x16)) + a;
	c = ((~b \| d) ^ a) + LE_32 ((param + 0x08)) + c + 0x2AD7D2BB;
	c = ((c << 0x0f) \| (c >> 0x11)) + d;
	b = ((~a \| c) ^ d) + LE_32 ((param + 0x24)) + b - 0x14792C6F;
	b = ((b << 0x15) \| (b >> 0x0b)) + c;

	a += LE_32 (field);
	b += LE_32 (field + 4);
	c += LE_32 (field + 8);
	d += LE_32 (field + 12);

	LE_32C (field, a);
	LE_32C (field + 4, b);
	LE_32C (field + 8, c);
	LE_32C (field + 12, d);
	}

	static void
	call_hash (char key, char challenge, int len)
	{
	uint8_t ptr1, ptr2;
	uint32_t a, b, c, d, tmp;

	ptr1 = (uint8_t *) (key + 16);
	ptr2 = (uint8_t *) (key + 20);

	a = LE_32 (ptr1);
	b = (a >> 3) & 0x3f;
	a += len * 8;
	LE_32C (ptr1, a);

	if (a < (len << 3))
	ptr2 += 4;

	tmp = LE_32 (ptr2) + (len >> 0x1d);
	LE_32C (ptr2, tmp);
	a = 64 - b;
	c = 0;
	if (a <= len) {

	memcpy (key + b + 24, challenge, a);
	hash (key, key + 24);
	c = a;
	d = c + 0x3f;

	while (d < len) {
	hash (key, challenge + d - 0x3f);
	d += 64;
	c += 64;
	}
	b = 0;
	}

	memcpy (key + b + 24, challenge + c, len - c);
	}

	void
	gst_rtsp_ext_real_calc_response_and_checksum (char response, char chksum,
	char *challenge)
	{
	int ch_len, table_len, resp_len;
	int i;
	char *ptr;
	char buf[128];
	char field[128];
	char zres[20];
	char buf1[128];
	char buf2[128];

	/* initialize return values */
	memset (response, 0, 64);
	memset (chksum, 0, 34);

	/* initialize buffer */
	memset (buf, 0, 128);
	ptr = buf;
	BE_32C (ptr, 0xa1e9149d);
	ptr += 4;
	BE_32C (ptr, 0x0e6b3b59);
	ptr += 4;

	if ((ch_len = MIN (strlen (challenge), 56)) == 40) {
	challenge[32] = 0;
	ch_len = 32;
	}
	memcpy (ptr, challenge, ch_len);

	/* xor challenge bytewise with xor_table */
	table_len = MIN (strlen ((char *) xor_table), 56);
	for (i = 0; i < table_len; i++)
	ptr[i] = ptr[i] ^ xor_table[i];

	/* initialize our field */
	BE_32C (field, 0x01234567);
	BE_32C (field + 4, 0x89ABCDEF);
	BE_32C (field + 8, 0xFEDCBA98);
	BE_32C (field + 12, 0x76543210);
	BE_32C (field + 16, 0x00000000);
	BE_32C (field + 20, 0x00000000);

	/* calculate response */
	call_hash (field, buf, 64);
	memset (buf1, 0, 64);
	*buf1 = (char) 128;
	memcpy (buf2, field + 16, 8);
	i = (LE_32 ((buf2)) >> 3) & 0x3f;
	if (i < 56)
	i = 56 - i;
	else
	i = 120 - i;
	call_hash (field, buf1, i);
	call_hash (field, buf2, 8);
	memcpy (zres, field, 16);

	/* convert zres to ascii string */
	for (i = 0; i < 16; i++) {
	char a, b;

	a = (zres[i] >> 4) & 15;
	b = zres[i] & 15;

	response[i * 2] = ((a < 10) ? (a + 48) : (a + 87)) & 255;
	response[i * 2 + 1] = ((b < 10) ? (b + 48) : (b + 87)) & 255;
	}

	/* add tail */
	resp_len = strlen (response);
	strcpy (&response[resp_len], "01d0a8e3");

	/* calculate checksum */
	for (i = 0; i < resp_len / 4; i++)
	chksum[i] = response[i * 4];
	}