/***************************************************************************** * cc.h ***************************************************************************** * Copyright (C) 2007 Laurent Aimar * $Id$ * * Authors: Laurent Aimar * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA. *****************************************************************************/ #ifndef VLC_CC_H_ #define VLC_CC_H_ #include #define CC_PKT_BYTE0(field) (0xFC | (0x03 & field)) /* CC have a maximum rate of 9600 bit/s (per field?) */ #define CC_MAX_DATA_SIZE (2 * 3*600) enum cc_payload_type_e { CC_PAYLOAD_NONE, CC_PAYLOAD_RAW, CC_PAYLOAD_GA94, CC_PAYLOAD_DVD, CC_PAYLOAD_REPLAYTV, CC_PAYLOAD_SCTE20, }; typedef struct { /* Which channel are present */ uint64_t i_708channels; uint8_t i_608channels; /* */ bool b_reorder; struct { uint8_t pktsize; uint8_t seq; uint8_t sid_bs; enum { CEA708_PKT_END, CEA708_PKT_WAIT_BLOCK_HEADER, CEA708_PKT_WAIT_EXT_BLOCK_HEADER, CEA708_PKT_IN_BLOCK, } state; } cea708; /* */ enum cc_payload_type_e i_payload_type; int i_payload_other_count; /* CC data per field * byte[x+0]: field (0/1) * byte[x+1]: cc data 1 * byte[x+2]: cc data 2 */ size_t i_data; uint8_t p_data[CC_MAX_DATA_SIZE]; } cc_data_t; static inline void cc_Init( cc_data_t *c ) { c->i_608channels = 0; c->i_708channels = 0; c->i_data = 0; c->b_reorder = false; c->cea708.pktsize = 0; c->cea708.seq = 0; c->cea708.sid_bs = 0; c->cea708.state = CEA708_PKT_END; c->i_payload_type = CC_PAYLOAD_NONE; c->i_payload_other_count = 0; } static inline void cc_Exit( cc_data_t *c ) { VLC_UNUSED(c); return; } static inline void cc_Flush( cc_data_t *c ) { c->i_data = 0; c->cea708.state = CEA708_PKT_END; } static inline void cc_ProbeCEA708OneByte( cc_data_t *c, bool b_start, const uint8_t cc ) { if( b_start ) { const uint8_t i_pkt_sequence = cc >> 6; if( i_pkt_sequence > 0 && ((c->cea708.seq + 1) % 4) != i_pkt_sequence ) { c->cea708.pktsize = 0; c->cea708.seq = i_pkt_sequence; c->cea708.state = CEA708_PKT_END; } else { c->cea708.seq = i_pkt_sequence; c->cea708.pktsize = cc & 63; if( c->cea708.pktsize == 0 ) c->cea708.pktsize = 127; else c->cea708.pktsize = c->cea708.pktsize * 2 - 1; c->cea708.state = CEA708_PKT_WAIT_BLOCK_HEADER; } } else if( c->cea708.pktsize == 0 ) /* empty pkt reading service blocks */ { c->cea708.state = CEA708_PKT_END; } else if( c->cea708.state != CEA708_PKT_END ) { switch( c->cea708.state ) { case CEA708_PKT_WAIT_BLOCK_HEADER: /* Byte is service block header */ { uint8_t i_sid = cc >> 5; c->cea708.sid_bs = cc & 0x1F; if( i_sid != 0x00 && c->cea708.sid_bs != 0 ) { if( i_sid != 0x07 ) { const uint8_t mask = (1 << --i_sid); c->i_708channels |= (mask + (mask - 1)); c->cea708.state = CEA708_PKT_IN_BLOCK; } else if( c->cea708.sid_bs < 2 ) { c->cea708.state = CEA708_PKT_END; } else { /* need to look up next byte in next pkt */ c->cea708.state = CEA708_PKT_WAIT_EXT_BLOCK_HEADER; } } else c->cea708.state = CEA708_PKT_END; } break; case CEA708_PKT_WAIT_EXT_BLOCK_HEADER: { uint8_t i_extsid = cc & 0x3F; if( i_extsid >= 0x07 ) { const uint8_t mask = (1 << --i_extsid); c->i_708channels |= (mask + (mask - 1)); } if( c->cea708.sid_bs == 0 ) c->cea708.state = CEA708_PKT_WAIT_BLOCK_HEADER; else c->cea708.state = CEA708_PKT_IN_BLOCK; } break; case CEA708_PKT_IN_BLOCK: { c->cea708.sid_bs--; if( c->cea708.sid_bs == 0 ) c->cea708.state = CEA708_PKT_WAIT_BLOCK_HEADER; } break; default: vlc_assert_unreachable(); break; } c->cea708.pktsize--; if(c->cea708.pktsize == 0) c->cea708.state = CEA708_PKT_END; } } static inline void cc_ProbeCEA708( cc_data_t *c, uint8_t i_field, const uint8_t cc[2] ) { if( i_field == 3 ) /* DTVCC_PACKET_START */ cc_ProbeCEA708OneByte( c, true, cc[0] ); else /* DTVCC_PACKET_DATA */ cc_ProbeCEA708OneByte( c, false, cc[0] ); cc_ProbeCEA708OneByte( c, false, cc[1] ); } static inline void cc_AppendData( cc_data_t *c, uint8_t cc_preamble, const uint8_t cc[2] ) { const uint8_t i_field = cc_preamble & 0x03; if( i_field == 0 || i_field == 1 ) /* NTSC_CC_FIELD_1 NTSC_CC_FIELD_2 */ { c->i_608channels |= (3 << (2 * i_field)); } else { cc_ProbeCEA708( c, i_field, cc ); /* By default enable at least channel 1 */ c->i_708channels |= 1; } c->p_data[c->i_data++] = cc_preamble; c->p_data[c->i_data++] = cc[0]; c->p_data[c->i_data++] = cc[1]; } static inline void cc_Extract( cc_data_t *c, enum cc_payload_type_e i_payload_type, bool b_top_field_first, const uint8_t *p_src, int i_src ) { if( c->i_payload_type != CC_PAYLOAD_NONE && c->i_payload_type != i_payload_type ) { c->i_payload_other_count++; if( c->i_payload_other_count < 50 ) return; } c->i_payload_type = i_payload_type; c->i_payload_other_count = 0; if( i_payload_type == CC_PAYLOAD_RAW ) { for( int i = 0; i + 2 < i_src; i += 3 ) { if( c->i_data + 3 > CC_MAX_DATA_SIZE ) break; const uint8_t *cc = &p_src[i]; cc_AppendData( c, cc[0], &cc[1] ); } c->b_reorder = true; } else if( i_payload_type == CC_PAYLOAD_GA94 ) { /* cc_data() * u1 reserved(1) * u1 process_cc_data_flag * u1 additional_data_flag * u5 cc_count * u8 reserved(1111 1111) * for cc_count * u5 marker bit(1111 1) * u1 cc_valid * u2 cc_type * u8 cc_data_1 * u8 cc_data_2 * u8 marker bit(1111 1111) * if additional_data_flag * unknown */ /* cc_type: * 0x00: field 1 * 0x01: field 2 */ const uint8_t *cc = &p_src[0]; const int i_count_cc = cc[0]&0x1f; int i; if( !(cc[0]&0x40) ) // process flag return; if( i_src < 1+1 + i_count_cc*3 + 1) // broken packet return; if( i_count_cc <= 0 ) // no cc present return; if( cc[2+i_count_cc * 3] != 0xff ) // marker absent return; cc += 2; for( i = 0; i < i_count_cc; i++, cc += 3 ) { if( c->i_data + 3 > CC_MAX_DATA_SIZE ) break; cc_AppendData( c, cc[0], &cc[1] ); } c->b_reorder = true; } else if( i_payload_type == CC_PAYLOAD_DVD ) { /* user_data * (u32 stripped earlier) * u32 (0x43 0x43 0x01 0xf8) * u1 caption_odd_field_first (CC1/CC2) * u1 caption_filler * u5 cc_block_count (== cc_count / 2) * u1 caption_extra_field_added (because odd cc_count) * for cc_block_count * 2 + caption_extra_field_added * u7 cc_filler_1 * u1 cc_field_is_odd * u8 cc_data_1 * u8 cc_data_2 */ const int b_truncate = p_src[4] & 0x01; const int i_field_first = (p_src[4] & 0x80) ? 0 : 1; const int i_count_cc2 = (p_src[4] >> 1) & 0xf; const uint8_t *cc = &p_src[5]; int i; if( i_src < 4+1+6*i_count_cc2 - ( b_truncate ? 3 : 0) ) return; for( i = 0; i < i_count_cc2; i++ ) { int j; for( j = 0; j < 2; j++, cc += 3 ) { const int i_field = j == i_field_first ? 0 : 1; if( b_truncate && i == i_count_cc2 - 1 && j == 1 ) break; if( (cc[0] & 0xfe) != 0xfe ) continue; if( c->i_data + 3 > CC_MAX_DATA_SIZE ) continue; cc_AppendData( c, CC_PKT_BYTE0(i_field), &cc[1] ); } } c->b_reorder = false; } else if( i_payload_type == CC_PAYLOAD_REPLAYTV ) { const uint8_t *cc = &p_src[0]; for( int i_cc_count = i_src >> 2; i_cc_count > 0; i_cc_count--, cc += 4 ) { if( c->i_data + 3 > CC_MAX_DATA_SIZE ) return; uint8_t i_field = (cc[0] & 0x02) >> 1; cc_AppendData( c, CC_PKT_BYTE0(i_field), &cc[2] ); } c->b_reorder = false; } else /* CC_PAYLOAD_SCTE20 */ { /* user_data(2) * (u32 stripped earlier) * u16 p_cc_scte20 * u5 cc_count * for cc_count * u2 cc_priority * u2 cc_field_num * u5 cc_line_offset * u8 cc_data_1[1:8] * u8 cc_data_2[1:8] * u1 marker bit * un additional_realtimevideodata * un reserved */ bs_t s; bs_init( &s, &p_src[2], i_src - 2 ); const int i_cc_count = bs_read( &s, 5 ); for( int i = 0; i < i_cc_count; i++ ) { bs_skip( &s, 2 ); const int i_field_idx = bs_read( &s, 2 ); bs_skip( &s, 5 ); uint8_t cc[2]; for( int j = 0; j < 2; j++ ) { cc[j] = 0; for( int k = 0; k < 8; k++ ) cc[j] |= bs_read( &s, 1 ) << k; } bs_skip( &s, 1 ); if( i_field_idx == 0 ) continue; if( c->i_data + 2*3 > CC_MAX_DATA_SIZE ) continue; /* 1,2,3 -> 0,1,0. I.E. repeated field 3 is merged with field 1 */ int i_field = ((i_field_idx - 1) & 1); if (!b_top_field_first) i_field ^= 1; cc_AppendData( c, CC_PKT_BYTE0(i_field), &cc[0] ); } c->b_reorder = true; } } static inline void cc_ProbeAndExtract( cc_data_t *c, bool b_top_field_first, const uint8_t *p_src, int i_src ) { static const uint8_t p_cc_ga94[4] = { 0x47, 0x41, 0x39, 0x34 }; static const uint8_t p_cc_dvd[4] = { 0x43, 0x43, 0x01, 0xf8 }; /* ascii 'CC', type_code, cc_block_size */ static const uint8_t p_cc_replaytv4a[2] = { 0xbb, 0x02 };/* RTV4K, BB02xxxxCC02 */ static const uint8_t p_cc_replaytv4b[2] = { 0xcc, 0x02 };/* see DVR-ClosedCaption in samples */ static const uint8_t p_cc_replaytv5a[2] = { 0x99, 0x02 };/* RTV5K, 9902xxxxAA02 */ static const uint8_t p_cc_replaytv5b[2] = { 0xaa, 0x02 };/* see DVR-ClosedCaption in samples */ static const uint8_t p_cc_scte20[2] = { 0x03, 0x81 }; /* user_data_type_code, SCTE 20 */ static const uint8_t p_cc_scte20_old[2] = { 0x03, 0x01 };/* user_data_type_code, old, Note 1 */ if( i_src < 4 ) return; enum cc_payload_type_e i_payload_type; if( !memcmp( p_cc_ga94, p_src, 4 ) && i_src >= 5+1+1+1 && p_src[4] == 0x03 ) { /* CC from DVB/ATSC TS */ i_payload_type = CC_PAYLOAD_GA94; i_src -= 5; p_src += 5; } else if( !memcmp( p_cc_dvd, p_src, 4 ) && i_src > 4+1 ) { i_payload_type = CC_PAYLOAD_DVD; } else if( i_src >= 2+2 + 2+2 && ( ( !memcmp( p_cc_replaytv4a, &p_src[0], 2 ) && !memcmp( p_cc_replaytv4b, &p_src[4], 2 ) ) || ( !memcmp( p_cc_replaytv5a, &p_src[0], 2 ) && !memcmp( p_cc_replaytv5b, &p_src[4], 2 ) ) ) ) { i_payload_type = CC_PAYLOAD_REPLAYTV; } else if( ( !memcmp( p_cc_scte20, p_src, 2 ) || !memcmp( p_cc_scte20_old, p_src, 2 ) ) && i_src > 2 ) { i_payload_type = CC_PAYLOAD_SCTE20; } else if (p_src[0] == 0x03 && p_src[1] == i_src - 2) /* DIRECTV */ { i_payload_type = CC_PAYLOAD_GA94; i_src -= 2; p_src += 2; } else { #if 0 #define V(x) ( ( x < 0x20 || x >= 0x7f ) ? '?' : x ) fprintf( stderr, "-------------- unknown user data " ); for( int i = 0; i < i_src; i++ ) fprintf( stderr, "%2.2x ", p_src[i] ); for( int i = 0; i < i_src; i++ ) fprintf( stderr, "%c ", V(p_src[i]) ); fprintf( stderr, "\n" ); #undef V #endif return; } cc_Extract( c, i_payload_type, b_top_field_first, p_src, i_src ); } #endif /* _CC_H */