* css.c: Functions for DVD authentification and unscrambling
*****************************************************************************
* Copyright (C) 1999-2001 VideoLAN
- * $Id: css.c,v 1.4 2001/07/07 21:10:58 gbazin Exp $
+ * $Id: css.c,v 1.5 2001/07/11 02:01:03 sam Exp $
*
* Author: Stéphane Borel <stef@via.ecp.fr>
*
#ifdef HAVE_CSS
static int CSSGetASF ( dvdcss_handle dvdcss );
static void CSSCryptKey ( int i_key_type, int i_varient,
- u8 const * pi_challenge, u8* pi_key );
+ u8 const * p_challenge, u8* p_key );
static int CSSCracker ( int i_start, unsigned char * p_crypted,
unsigned char * p_decrypted,
dvd_key_t * p_sector_key, dvd_key_t * p_key );
{
#ifdef HAVE_CSS
/* structures defined in cdrom.h or dvdio.h */
- char p_buffer[2048 + 4 + 1];
+ unsigned char p_buffer[2048 + 4 + 1];
char psz_warning[32];
int i_agid = 0;
int i_ret = -1;
for( i = 0 ; i < 10; ++i )
{
- dvdcss->css.disc.pi_challenge[i] = i;
+ dvdcss->css.disc.p_challenge[i] = i;
}
/* Get challenge from host */
for( i = 0 ; i < 10 ; ++i )
{
- p_buffer[9-i] = dvdcss->css.disc.pi_challenge[i];
+ p_buffer[9-i] = dvdcss->css.disc.p_challenge[i];
}
/* Send challenge to LU */
/* Send key1 to host */
for( i = 0 ; i < KEY_SIZE ; i++ )
{
- dvdcss->css.disc.pi_key1[i] = p_buffer[4-i];
+ dvdcss->css.disc.p_key1[i] = p_buffer[4-i];
}
for( i = 0 ; i < 32 ; ++i )
{
- CSSCryptKey( 0, i, dvdcss->css.disc.pi_challenge,
- dvdcss->css.disc.pi_key_check );
+ CSSCryptKey( 0, i, dvdcss->css.disc.p_challenge,
+ dvdcss->css.disc.p_key_check );
- if( memcmp( dvdcss->css.disc.pi_key_check,
- dvdcss->css.disc.pi_key1, KEY_SIZE ) == 0 )
+ if( memcmp( dvdcss->css.disc.p_key_check,
+ dvdcss->css.disc.p_key1, KEY_SIZE ) == 0 )
{
sprintf( psz_warning, "drive authentic, using variant %d", i );
_dvdcss_debug( dvdcss, psz_warning );
/* Send challenge to host */
for( i = 0 ; i < 10 ; ++i )
{
- dvdcss->css.disc.pi_challenge[i] = p_buffer[9-i];
+ dvdcss->css.disc.p_challenge[i] = p_buffer[9-i];
}
CSSCryptKey( 1, dvdcss->css.disc.i_varient,
- dvdcss->css.disc.pi_challenge,
- dvdcss->css.disc.pi_key2 );
+ dvdcss->css.disc.p_challenge,
+ dvdcss->css.disc.p_key2 );
/* Get key2 from host */
for( i = 0 ; i < KEY_SIZE ; ++i )
{
- p_buffer[4-i] = dvdcss->css.disc.pi_key2[i];
+ p_buffer[4-i] = dvdcss->css.disc.p_key2[i];
}
/* Send key2 to LU */
_dvdcss_debug( dvdcss, "authentication established" );
- memcpy( dvdcss->css.disc.pi_challenge,
- dvdcss->css.disc.pi_key1, KEY_SIZE );
- memcpy( dvdcss->css.disc.pi_challenge+KEY_SIZE,
- dvdcss->css.disc.pi_key2, KEY_SIZE );
+ memcpy( dvdcss->css.disc.p_challenge,
+ dvdcss->css.disc.p_key1, KEY_SIZE );
+ memcpy( dvdcss->css.disc.p_challenge+KEY_SIZE,
+ dvdcss->css.disc.p_key2, KEY_SIZE );
CSSCryptKey( 2, dvdcss->css.disc.i_varient,
- dvdcss->css.disc.pi_challenge,
- dvdcss->css.disc.pi_key_check );
+ dvdcss->css.disc.p_challenge,
+ dvdcss->css.disc.p_key_check );
_dvdcss_debug( dvdcss, "received session key" );
/* Unencrypt disc key using bus key */
for( i = 0 ; i < 2048 ; i++ )
{
- p_buffer[ i ] ^= dvdcss->css.disc.pi_key_check[ 4 - (i % KEY_SIZE) ];
- }
- memcpy( dvdcss->css.disc.pi_key_check, p_buffer, 2048 );
-
- /* initialize title key to know it empty */
- for( i = 0 ; i < KEY_SIZE ; i++ )
- {
- dvdcss->css.pi_title_key[i] = 0;
+ p_buffer[ i ] ^= dvdcss->css.disc.p_key_check[ 4 - (i % KEY_SIZE) ];
}
+ memcpy( dvdcss->css.disc.p_key_check, p_buffer, 2048 );
/* Test authentication success */
switch( CSSGetASF( dvdcss ) )
*****************************************************************************
* The DVD should have been opened and authenticated before.
*****************************************************************************/
-int CSSGetKey( dvdcss_handle dvdcss )
+int CSSGetKey( dvdcss_handle dvdcss, int i_pos, dvd_key_t p_titlekey )
{
#ifdef HAVE_CSS
/*
* with Frank A. Stevenson algorithm.
* Does not use any player key table and ioctls.
*/
- u8 pi_buf[0x800];
- dvd_key_t pi_key;
- int i_pos;
+ u8 p_buf[0x800];
+ dvd_key_t p_key;
boolean_t b_encrypted;
boolean_t b_stop_scanning;
int i_blocks_read;
for( i = 0 ; i < KEY_SIZE ; i++ )
{
- pi_key[i] = 0;
+ p_key[i] = 0;
}
b_encrypted = 0;
b_stop_scanning = 0;
- /* Position of the title on the disc */
- i_pos = dvdcss->css.i_title_pos;
-
- do {
- i_pos = dvdcss_seek( dvdcss, i_pos );
- i_blocks_read = dvdcss_read( dvdcss, pi_buf, 1, DVDCSS_NOFLAGS );
-
- /* PES_scrambling_control */
- if( pi_buf[0x14] & 0x30 )
+ do
{
- b_encrypted = 1;
- i_best_plen = 0;
- i_best_p = 0;
+ i_pos = dvdcss_seek( dvdcss, i_pos );
+ i_blocks_read = dvdcss_read( dvdcss, p_buf, 1, DVDCSS_NOFLAGS );
- for( i = 2 ; i < 0x30 ; i++ )
+ /* PES_scrambling_control */
+ if( p_buf[0x14] & 0x30 )
{
- for( j = i+1 ; ( j < 0x80 ) &&
- ( pi_buf[0x7F - (j%i)] == pi_buf[0x7F-j] ) ; j++ );
+ b_encrypted = 1;
+ i_best_plen = 0;
+ i_best_p = 0;
+
+ for( i = 2 ; i < 0x30 ; i++ )
{
- if( j > i_best_plen )
+ for( j = i+1 ;
+ j < 0x80 && ( p_buf[0x7F - (j%i)] == p_buf[0x7F-j] );
+ j++ );
{
- i_best_plen = j;
- i_best_p = i;
+ if( j > i_best_plen )
+ {
+ i_best_plen = j;
+ i_best_p = i;
+ }
}
}
- }
- if( ( i_best_plen > 20 ) && ( i_best_plen / i_best_p >= 2) )
- {
- i = CSSCracker( 0, &pi_buf[0x80],
- &pi_buf[0x80 - ( i_best_plen / i_best_p) *i_best_p],
- (dvd_key_t*)&pi_buf[0x54],
- &pi_key );
- b_stop_scanning = ( i >= 0 );
+ if( ( i_best_plen > 20 ) && ( i_best_plen / i_best_p >= 2) )
+ {
+ i = CSSCracker( 0, &p_buf[0x80],
+ &p_buf[0x80 - ( i_best_plen / i_best_p) *i_best_p],
+ (dvd_key_t*)&p_buf[0x54],
+ &p_key );
+ b_stop_scanning = ( i >= 0 );
+ }
}
- }
- i_pos += i_blocks_read;
- } while( i_blocks_read == 0x1 && !b_stop_scanning);
+ i_pos += i_blocks_read;
+
+ } while( i_blocks_read == 0x1 && !b_stop_scanning );
- if( b_stop_scanning)
+ if( b_stop_scanning )
{
- memcpy( dvdcss->css.pi_title_key,
- &pi_key, sizeof(dvd_key_t) );
+ memcpy( p_titlekey, &p_key, sizeof(dvd_key_t) );
_dvdcss_debug( dvdcss, "vts key initialized" );
return 0;
}
if( !b_encrypted )
{
- _dvdcss_debug( dvdcss, "this file was _NOT_ encrypted!" );
+ _dvdcss_debug( dvdcss, "file was unscrambled" );
return 0;
}
* sec : sector to descramble
* key : title key for this sector
*****************************************************************************/
-int CSSDescrambleSector( dvd_key_t pi_key, u8* pi_sec )
+int CSSDescrambleSector( dvd_key_t p_key, u8* p_sec )
{
#ifdef HAVE_CSS
unsigned int i_t1, i_t2, i_t3, i_t4, i_t5, i_t6;
- u8* pi_end = pi_sec + 0x800;
+ u8* p_end = p_sec + 0x800;
/* PES_scrambling_control */
- if( pi_sec[0x14] & 0x30)
+ if( p_sec[0x14] & 0x30)
{
- i_t1 = ((pi_key)[0] ^ pi_sec[0x54]) | 0x100;
- i_t2 = (pi_key)[1] ^ pi_sec[0x55];
- i_t3 = (((pi_key)[2]) | ((pi_key)[3] << 8) |
- ((pi_key)[4] << 16)) ^ ((pi_sec[0x56]) |
- (pi_sec[0x57] << 8) | (pi_sec[0x58] << 16));
+ i_t1 = ((p_key)[0] ^ p_sec[0x54]) | 0x100;
+ i_t2 = (p_key)[1] ^ p_sec[0x55];
+ i_t3 = (((p_key)[2]) | ((p_key)[3] << 8) |
+ ((p_key)[4] << 16)) ^ ((p_sec[0x56]) |
+ (p_sec[0x57] << 8) | (p_sec[0x58] << 16));
i_t4 = i_t3 & 7;
i_t3 = i_t3 * 2 + 8 - i_t4;
- pi_sec += 0x80;
+ p_sec += 0x80;
i_t5 = 0;
- while( pi_sec != pi_end )
+ while( p_sec != p_end )
{
- i_t4 = pi_css_tab2[i_t2] ^ pi_css_tab3[i_t1];
+ i_t4 = p_css_tab2[i_t2] ^ p_css_tab3[i_t1];
i_t2 = i_t1>>1;
i_t1 = ( ( i_t1 & 1 ) << 8 ) ^ i_t4;
- i_t4 = pi_css_tab5[i_t4];
+ i_t4 = p_css_tab5[i_t4];
i_t6 = ((((((( i_t3 >> 3 ) ^ i_t3 ) >> 1 ) ^
i_t3 ) >> 8 ) ^ i_t3 ) >> 5) & 0xff;
i_t3 = (i_t3 << 8 ) | i_t6;
- i_t6 = pi_css_tab4[i_t6];
+ i_t6 = p_css_tab4[i_t6];
i_t5 += i_t6 + i_t4;
- *pi_sec = pi_css_tab1[*pi_sec] ^( i_t5 & 0xff );
- pi_sec++;
+ *p_sec = p_css_tab1[*p_sec] ^( i_t5 & 0xff );
+ p_sec++;
i_t5 >>= 8;
}
}
* i_varient : between 0 and 31.
*****************************************************************************/
static void CSSCryptKey( int i_key_type, int i_varient,
- u8 const * pi_challenge, u8* pi_key )
+ u8 const * p_challenge, u8* p_key )
{
/* Permutation table for challenge */
- u8 ppi_perm_challenge[3][10] =
+ u8 pp_perm_challenge[3][10] =
{ { 1, 3, 0, 7, 5, 2, 9, 6, 4, 8 },
{ 6, 1, 9, 3, 8, 5, 7, 4, 0, 2 },
{ 4, 0, 3, 5, 7, 2, 8, 6, 1, 9 } };
/* Permutation table for varient table for key2 and buskey */
- u8 ppi_perm_varient[2][32] =
+ u8 pp_perm_varient[2][32] =
{ { 0x0a, 0x08, 0x0e, 0x0c, 0x0b, 0x09, 0x0f, 0x0d,
0x1a, 0x18, 0x1e, 0x1c, 0x1b, 0x19, 0x1f, 0x1d,
0x02, 0x00, 0x06, 0x04, 0x03, 0x01, 0x07, 0x05,
0x13, 0x1b, 0x17, 0x1f, 0x03, 0x0b, 0x07, 0x0f,
0x11, 0x19, 0x15, 0x1d, 0x01, 0x09, 0x05, 0x0d } };
- u8 pi_varients[32] =
+ u8 p_varients[32] =
{ 0xB7, 0x74, 0x85, 0xD0, 0xCC, 0xDB, 0xCA, 0x73,
0x03, 0xFE, 0x31, 0x03, 0x52, 0xE0, 0xB7, 0x42,
0x63, 0x16, 0xF2, 0x2A, 0x79, 0x52, 0xFF, 0x1B,
0x7A, 0x11, 0xCA, 0x1A, 0x9B, 0x40, 0xAD, 0x01 };
/* The "secret" key */
- u8 pi_secret[5] = { 0x55, 0xD6, 0xC4, 0xC5, 0x28 };
+ u8 p_secret[5] = { 0x55, 0xD6, 0xC4, 0xC5, 0x28 };
- u8 pi_bits[30];
- u8 pi_scratch[10];
- u8 pi_tmp1[5];
- u8 pi_tmp2[5];
+ u8 p_bits[30];
+ u8 p_scratch[10];
+ u8 p_tmp1[5];
+ u8 p_tmp2[5];
u8 i_lfsr0_o; /* 1 bit used */
u8 i_lfsr1_o; /* 1 bit used */
u32 i_lfsr0;
int i;
for (i = 9; i >= 0; --i)
- pi_scratch[i] = pi_challenge[ppi_perm_challenge[i_key_type][i]];
+ p_scratch[i] = p_challenge[pp_perm_challenge[i_key_type][i]];
i_css_varient = ( i_key_type == 0 ) ? i_varient :
- ppi_perm_varient[i_key_type-1][i_varient];
+ pp_perm_varient[i_key_type-1][i_varient];
/*
* This encryption engine implements one of 32 variations
*/
for( i = 5 ; --i >= 0 ; )
{
- pi_tmp1[i] = pi_scratch[5 + i] ^ pi_secret[i] ^ pi_crypt_tab2[i];
+ p_tmp1[i] = p_scratch[5 + i] ^ p_secret[i] ^ p_crypt_tab2[i];
}
/*
* initial values are non-zero. Thus when we initialise them from
* the seed, we ensure that a bit is set.
*/
- i_lfsr0 = ( pi_tmp1[0] << 17 ) | ( pi_tmp1[1] << 9 ) |
- (( pi_tmp1[2] & ~7 ) << 1 ) | 8 | ( pi_tmp1[2] & 7 );
- i_lfsr1 = ( pi_tmp1[3] << 9 ) | 0x100 | pi_tmp1[4];
+ i_lfsr0 = ( p_tmp1[0] << 17 ) | ( p_tmp1[1] << 9 ) |
+ (( p_tmp1[2] & ~7 ) << 1 ) | 8 | ( p_tmp1[2] & 7 );
+ i_lfsr1 = ( p_tmp1[3] << 9 ) | 0x100 | p_tmp1[4];
- i_index = sizeof(pi_bits);
+ i_index = sizeof(p_bits);
i_carry = 0;
do
i_val |= ( i_combined & 1 ) << i_bit;
}
- pi_bits[--i_index] = i_val;
+ p_bits[--i_index] = i_val;
} while( i_index > 0 );
/* This term is used throughout the following to
* select one of 32 different variations on the
* algorithm.
*/
- i_cse = pi_varients[i_css_varient] ^ pi_crypt_tab2[i_css_varient];
+ i_cse = p_varients[i_css_varient] ^ p_crypt_tab2[i_css_varient];
/* Now the actual blocks doing the encryption. Each
* of these works on 40 bits at a time and are quite
* similar.
*/
i_index = 0;
- for( i = 5, i_term = 0 ; --i >= 0 ; i_term = pi_scratch[i] )
+ for( i = 5, i_term = 0 ; --i >= 0 ; i_term = p_scratch[i] )
{
- i_index = pi_bits[25 + i] ^ pi_scratch[i];
- i_index = pi_crypt_tab1[i_index] ^ ~pi_crypt_tab2[i_index] ^ i_cse;
+ i_index = p_bits[25 + i] ^ p_scratch[i];
+ i_index = p_crypt_tab1[i_index] ^ ~p_crypt_tab2[i_index] ^ i_cse;
- pi_tmp1[i] = pi_crypt_tab2[i_index] ^ pi_crypt_tab3[i_index] ^ i_term;
+ p_tmp1[i] = p_crypt_tab2[i_index] ^ p_crypt_tab3[i_index] ^ i_term;
}
- pi_tmp1[4] ^= pi_tmp1[0];
+ p_tmp1[4] ^= p_tmp1[0];
- for( i = 5, i_term = 0 ; --i >= 0 ; i_term = pi_tmp1[i] )
+ for( i = 5, i_term = 0 ; --i >= 0 ; i_term = p_tmp1[i] )
{
- i_index = pi_bits[20 + i] ^ pi_tmp1[i];
- i_index = pi_crypt_tab1[i_index] ^ ~pi_crypt_tab2[i_index] ^ i_cse;
+ i_index = p_bits[20 + i] ^ p_tmp1[i];
+ i_index = p_crypt_tab1[i_index] ^ ~p_crypt_tab2[i_index] ^ i_cse;
- pi_tmp2[i] = pi_crypt_tab2[i_index] ^ pi_crypt_tab3[i_index] ^ i_term;
+ p_tmp2[i] = p_crypt_tab2[i_index] ^ p_crypt_tab3[i_index] ^ i_term;
}
- pi_tmp2[4] ^= pi_tmp2[0];
+ p_tmp2[4] ^= p_tmp2[0];
- for( i = 5, i_term = 0 ; --i >= 0 ; i_term = pi_tmp2[i] )
+ for( i = 5, i_term = 0 ; --i >= 0 ; i_term = p_tmp2[i] )
{
- i_index = pi_bits[15 + i] ^ pi_tmp2[i];
- i_index = pi_crypt_tab1[i_index] ^ ~pi_crypt_tab2[i_index] ^ i_cse;
- i_index = pi_crypt_tab2[i_index] ^ pi_crypt_tab3[i_index] ^ i_term;
+ i_index = p_bits[15 + i] ^ p_tmp2[i];
+ i_index = p_crypt_tab1[i_index] ^ ~p_crypt_tab2[i_index] ^ i_cse;
+ i_index = p_crypt_tab2[i_index] ^ p_crypt_tab3[i_index] ^ i_term;
- pi_tmp1[i] = pi_crypt_tab0[i_index] ^ pi_crypt_tab2[i_index];
+ p_tmp1[i] = p_crypt_tab0[i_index] ^ p_crypt_tab2[i_index];
}
- pi_tmp1[4] ^= pi_tmp1[0];
+ p_tmp1[4] ^= p_tmp1[0];
- for( i = 5, i_term = 0 ; --i >= 0 ; i_term = pi_tmp1[i] )
+ for( i = 5, i_term = 0 ; --i >= 0 ; i_term = p_tmp1[i] )
{
- i_index = pi_bits[10 + i] ^ pi_tmp1[i];
- i_index = pi_crypt_tab1[i_index] ^ ~pi_crypt_tab2[i_index] ^ i_cse;
+ i_index = p_bits[10 + i] ^ p_tmp1[i];
+ i_index = p_crypt_tab1[i_index] ^ ~p_crypt_tab2[i_index] ^ i_cse;
- i_index = pi_crypt_tab2[i_index] ^ pi_crypt_tab3[i_index] ^ i_term;
+ i_index = p_crypt_tab2[i_index] ^ p_crypt_tab3[i_index] ^ i_term;
- pi_tmp2[i] = pi_crypt_tab0[i_index] ^ pi_crypt_tab2[i_index];
+ p_tmp2[i] = p_crypt_tab0[i_index] ^ p_crypt_tab2[i_index];
}
- pi_tmp2[4] ^= pi_tmp2[0];
+ p_tmp2[4] ^= p_tmp2[0];
- for( i = 5, i_term = 0 ; --i >= 0 ; i_term = pi_tmp2[i] )
+ for( i = 5, i_term = 0 ; --i >= 0 ; i_term = p_tmp2[i] )
{
- i_index = pi_bits[5 + i] ^ pi_tmp2[i];
- i_index = pi_crypt_tab1[i_index] ^ ~pi_crypt_tab2[i_index] ^ i_cse;
+ i_index = p_bits[5 + i] ^ p_tmp2[i];
+ i_index = p_crypt_tab1[i_index] ^ ~p_crypt_tab2[i_index] ^ i_cse;
- pi_tmp1[i] = pi_crypt_tab2[i_index] ^ pi_crypt_tab3[i_index] ^ i_term;
+ p_tmp1[i] = p_crypt_tab2[i_index] ^ p_crypt_tab3[i_index] ^ i_term;
}
- pi_tmp1[4] ^= pi_tmp1[0];
+ p_tmp1[4] ^= p_tmp1[0];
- for(i = 5, i_term = 0 ; --i >= 0 ; i_term = pi_tmp1[i] )
+ for(i = 5, i_term = 0 ; --i >= 0 ; i_term = p_tmp1[i] )
{
- i_index = pi_bits[i] ^ pi_tmp1[i];
- i_index = pi_crypt_tab1[i_index] ^ ~pi_crypt_tab2[i_index] ^ i_cse;
+ i_index = p_bits[i] ^ p_tmp1[i];
+ i_index = p_crypt_tab1[i_index] ^ ~p_crypt_tab2[i_index] ^ i_cse;
- pi_key[i] = pi_crypt_tab2[i_index] ^ pi_crypt_tab3[i_index] ^ i_term;
+ p_key[i] = p_crypt_tab2[i_index] ^ p_crypt_tab3[i_index] ^ i_term;
}
return;
dvd_key_t * p_sector_key,
dvd_key_t * p_key )
{
- unsigned char pi_buffer[10];
+ unsigned char p_buffer[10];
unsigned int i_t1, i_t2, i_t3, i_t4, i_t5, i_t6;
unsigned int i_try;
unsigned int i_candidate;
for( i = 0 ; i < 10 ; i++ )
{
- pi_buffer[i] = pi_css_tab1[p_crypted[i]] ^ p_decrypted[i];
+ p_buffer[i] = p_css_tab1[p_crypted[i]] ^ p_decrypted[i];
}
for( i_try = i_start ; i_try < 0x10000 ; i_try++ )
for( i = 0 ; i < 4 ; i++ )
{
/* advance LFSR1 normaly */
- i_t4 = pi_css_tab2[i_t2] ^ pi_css_tab3[i_t1];
+ i_t4 = p_css_tab2[i_t2] ^ p_css_tab3[i_t1];
i_t2 = i_t1 >> 1;
i_t1 = ( ( i_t1 & 1 ) << 8 ) ^ i_t4;
- i_t4 = pi_css_tab5[i_t4];
+ i_t4 = p_css_tab5[i_t4];
/* deduce i_t6 & i_t5 */
- i_t6 = pi_buffer[i];
+ i_t6 = p_buffer[i];
if( i_t5 )
{
i_t6 = ( i_t6 + 0xff ) & 0x0ff;
}
i_t6 -= i_t4;
i_t5 += i_t6 + i_t4;
- i_t6 = pi_css_tab4[ i_t6 ];
+ i_t6 = p_css_tab4[ i_t6 ];
/* feed / advance i_t3 / i_t5 */
i_t3 = ( i_t3 << 8 ) | i_t6;
i_t5 >>= 8;
/* iterate 6 more times to validate candidate key */
for( ; i < 10 ; i++ )
{
- i_t4 = pi_css_tab2[i_t2] ^ pi_css_tab3[i_t1];
+ i_t4 = p_css_tab2[i_t2] ^ p_css_tab3[i_t1];
i_t2 = i_t1 >> 1;
i_t1 = ( ( i_t1 & 1 ) << 8 ) ^ i_t4;
- i_t4 = pi_css_tab5[i_t4];
+ i_t4 = p_css_tab5[i_t4];
i_t6 = ((((((( i_t3 >> 3 ) ^ i_t3 ) >> 1 ) ^
i_t3 ) >> 8 ) ^ i_t3 ) >> 5 ) & 0xff;
i_t3 = ( i_t3 << 8 ) | i_t6;
- i_t6 = pi_css_tab4[i_t6];
+ i_t6 = p_css_tab4[i_t6];
i_t5 += i_t6 + i_t4;
- if( ( i_t5 & 0xff ) != pi_buffer[i] )
+ if( ( i_t5 & 0xff ) != p_buffer[i] )
{
break;
}