/* $Id: muxogm.c,v 1.4 2005/02/20 00:41:56 titer Exp $ This file is part of the HandBrake source code. Homepage: . It may be used under the terms of the GNU General Public License. */ #include "hb.h" #include struct hb_mux_object_s { HB_MUX_COMMON; hb_job_t * job; FILE * file; }; struct hb_mux_data_s { int codec; ogg_stream_state os; int i_packet_no; }; typedef struct __attribute__((__packed__)) { uint8_t i_packet_type; char stream_type[8]; char sub_type[4]; int32_t i_size; int64_t i_time_unit; int64_t i_samples_per_unit; int32_t i_default_len; int32_t i_buffer_size; int16_t i_bits_per_sample; int16_t i_padding_0; // hum hum union { struct { int32_t i_width; int32_t i_height; } video; struct { int16_t i_channels; int16_t i_block_align; int32_t i_avgbytespersec; } audio; } header; } ogg_stream_header_t; #define SetWLE( p, v ) _SetWLE( (uint8_t*)p, v) static void _SetWLE( uint8_t *p, uint16_t i_dw ) { p[1] = ( i_dw >> 8 )&0xff; p[0] = ( i_dw )&0xff; } #define SetDWLE( p, v ) _SetDWLE( (uint8_t*)p, v) static void _SetDWLE( uint8_t *p, uint32_t i_dw ) { p[3] = ( i_dw >> 24 )&0xff; p[2] = ( i_dw >> 16 )&0xff; p[1] = ( i_dw >> 8 )&0xff; p[0] = ( i_dw )&0xff; } #define SetQWLE( p, v ) _SetQWLE( (uint8_t*)p, v) static void _SetQWLE( uint8_t *p, uint64_t i_qw ) { SetDWLE( p, i_qw&0xffffffff ); SetDWLE( p+4, ( i_qw >> 32)&0xffffffff ); } static int OGMFlush( hb_mux_object_t * m, hb_mux_data_t * mux_data ) { for( ;; ) { ogg_page og; if( ogg_stream_flush( &mux_data->os, &og ) == 0 ) { break; } if( fwrite( og.header, og.header_len, 1, m->file ) <= 0 || fwrite( og.body, og.body_len, 1, m->file ) <= 0 ) { return -1; } } return 0; } /********************************************************************** * OGMInit ********************************************************************** * Allocates hb_mux_data_t structures, create file and write headers *********************************************************************/ static int OGMInit( hb_mux_object_t * m ) { hb_job_t * job = m->job; hb_title_t * title = job->title; hb_audio_t * audio; hb_mux_data_t * mux_data; int i; ogg_packet op; ogg_stream_header_t h; /* Open output file */ if( ( m->file = fopen( job->file, "wb" ) ) == NULL ) { hb_log( "muxogm: failed to open `%s'", job->file ); return -1; } hb_log( "muxogm: `%s' opened", job->file ); /* Video track */ mux_data = malloc( sizeof( hb_mux_data_t ) ); mux_data->codec = job->vcodec; mux_data->i_packet_no = 0; job->mux_data = mux_data; ogg_stream_init( &mux_data->os, 0 ); /* Audio */ for( i = 0; i < hb_list_count( title->list_audio ); i++ ) { audio = hb_list_item( title->list_audio, i ); mux_data = malloc( sizeof( hb_mux_data_t ) ); mux_data->codec = job->acodec; mux_data->i_packet_no = 0; audio->mux_data = mux_data; ogg_stream_init( &mux_data->os, i + 1 ); } /* First pass: all b_o_s packets */ /* Video */ mux_data = job->mux_data; memset( &h, 0, sizeof( ogg_stream_header_t ) ); h.i_packet_type = 0x01; memcpy( h.stream_type, "video ", 8 ); if( mux_data->codec == HB_VCODEC_X264 ) { memcpy( h.sub_type, "H264", 4 ); } else if( mux_data->codec == HB_VCODEC_XVID ) { memcpy( h.sub_type, "XVID", 4 ); } else { memcpy( h.sub_type, "DX50", 4 ); } SetDWLE( &h.i_size, sizeof( ogg_stream_header_t ) - 1); SetQWLE( &h.i_time_unit, (int64_t) 10 * 1000 * 1000 * (int64_t) job->vrate_base / (int64_t) job->vrate ); SetQWLE( &h.i_samples_per_unit, 1 ); SetDWLE( &h.i_default_len, 0 ); SetDWLE( &h.i_buffer_size, 1024*1024 ); SetWLE ( &h.i_bits_per_sample, 0 ); SetDWLE( &h.header.video.i_width, job->width ); SetDWLE( &h.header.video.i_height, job->height ); op.packet = (unsigned char*)&h; op.bytes = sizeof( ogg_stream_header_t ); op.b_o_s = 1; op.e_o_s = 0; op.granulepos = 0; op.packetno = mux_data->i_packet_no++; ogg_stream_packetin( &mux_data->os, &op ); OGMFlush( m, mux_data ); /* Audio */ for( i = 0; i < hb_list_count( title->list_audio ); i++ ) { audio = hb_list_item( title->list_audio, i ); mux_data = audio->mux_data; memset( &h, 0, sizeof( ogg_stream_header_t ) ); switch( job->acodec ) { case HB_ACODEC_LAME: { h.i_packet_type = 0x01; memcpy( h.stream_type, "audio ", 8 ); memcpy( h.sub_type, "55 ", 4 ); SetDWLE( &h.i_size, sizeof( ogg_stream_header_t ) - 1); SetQWLE( &h.i_time_unit, 0 ); SetQWLE( &h.i_samples_per_unit, job->arate ); SetDWLE( &h.i_default_len, 1 ); SetDWLE( &h.i_buffer_size, 30 * 1024 ); SetWLE ( &h.i_bits_per_sample, 0 ); SetDWLE( &h.header.audio.i_channels, 2 ); SetDWLE( &h.header.audio.i_block_align, 0 ); SetDWLE( &h.header.audio.i_avgbytespersec, job->abitrate / 8 ); op.packet = (char*) &h; op.bytes = sizeof( ogg_stream_header_t ); op.b_o_s = 1; op.e_o_s = 0; op.granulepos = 0; op.packetno = mux_data->i_packet_no++; ogg_stream_packetin( &mux_data->os, &op ); break; } case HB_ACODEC_VORBIS: { memcpy( &op, audio->config.vorbis.headers[0], sizeof( ogg_packet ) ); op.packet = audio->config.vorbis.headers[0] + sizeof( ogg_packet ); ogg_stream_packetin( &mux_data->os, &op ); break; } default: hb_log( "muxogm: unhandled codec" ); break; } OGMFlush( m, mux_data ); } /* second pass: all non b_o_s packets */ for( i = 0; i < hb_list_count( title->list_audio ); i++ ) { audio = hb_list_item( title->list_audio, i ); if( job->acodec == HB_ACODEC_VORBIS ) { int j; mux_data = audio->mux_data; for( j = 1; j < 3; j++ ) { memcpy( &op, audio->config.vorbis.headers[j], sizeof( ogg_packet ) ); op.packet = audio->config.vorbis.headers[j] + sizeof( ogg_packet ); ogg_stream_packetin( &mux_data->os, &op ); OGMFlush( m, mux_data ); } } } hb_log( "muxogm: headers written" ); return 0; } static int OGMMux( hb_mux_object_t * m, hb_mux_data_t * mux_data, hb_buffer_t * buf ) { ogg_packet op; switch( mux_data->codec ) { case HB_VCODEC_FFMPEG: case HB_VCODEC_XVID: case HB_VCODEC_X264: op.bytes = buf->size + 1; op.packet = malloc( op.bytes ); op.packet[0] = buf->key ? 0x08 : 0x00; memcpy( &op.packet[1], buf->data, buf->size ); op.b_o_s = 0; op.e_o_s = 0; op.granulepos = mux_data->i_packet_no; op.packetno = mux_data->i_packet_no++; break; case HB_ACODEC_LAME: op.bytes = buf->size + 1; op.packet = malloc( op.bytes ); op.packet[0] = 0x08; memcpy( &op.packet[1], buf->data, buf->size ); op.b_o_s = 0; op.e_o_s = 0; op.granulepos = mux_data->i_packet_no * 1152; op.packetno = mux_data->i_packet_no++; break; case HB_ACODEC_VORBIS: memcpy( &op, buf->data, sizeof( ogg_packet ) ); op.packet = malloc( op.bytes ); memcpy( op.packet, buf->data + sizeof( ogg_packet ), op.bytes ); break; default: hb_log( "muxogm: unhandled codec" ); op.bytes = 0; op.packet = NULL; break; } if( op.packet ) { ogg_stream_packetin( &mux_data->os, &op ); for( ;; ) { ogg_page og; if( ogg_stream_pageout( &mux_data->os, &og ) == 0 ) { break; } if( fwrite( og.header, og.header_len, 1, m->file ) <= 0 || fwrite( og.body, og.body_len, 1, m->file ) <= 0 ) { hb_log( "muxogm: write failed" ); break; } } free( op.packet ); } return 0; } static int OGMEnd( hb_mux_object_t * m ) { hb_job_t * job = m->job; hb_title_t * title = job->title; hb_audio_t * audio; hb_mux_data_t * mux_data; int i; mux_data = job->mux_data; if( OGMFlush( m, mux_data ) < 0 ) { return -1; } ogg_stream_clear( &mux_data->os ); for( i = 0; i < hb_list_count( title->list_audio ); i++ ) { audio = hb_list_item( title->list_audio, i ); mux_data = audio->mux_data; if( OGMFlush( m, mux_data ) < 0 ) { return -1; } ogg_stream_clear( &mux_data->os ); } fclose( m->file ); hb_log( "muxogm: `%s' closed", job->file ); return 0; } hb_mux_object_t * hb_mux_ogm_init( hb_job_t * job ) { hb_mux_object_t * m = calloc( sizeof( hb_mux_object_t ), 1 ); m->init = OGMInit; m->mux = OGMMux; m->end = OGMEnd; m->job = job; return m; }