/* $Id: muxmp4.c,v 1.24 2005/11/04 13:09:41 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. */ /* libmp4v2 header */ #include "mp4.h" #include "hb.h" void AddIPodUUID(MP4FileHandle, MP4TrackId); struct hb_mux_object_s { HB_MUX_COMMON; hb_job_t * job; /* libmp4v2 handle */ MP4FileHandle file; /* Cumulated durations so far, in timescale units (see MP4Mux) */ uint64_t sum_dur; /* Chapter state information for muxing */ MP4TrackId chapter_track; int current_chapter; uint64_t chapter_duration; /* Sample rate of the first audio track. * Used for the timescale */ int samplerate; }; struct hb_mux_data_s { MP4TrackId track; }; struct hb_text_sample_s { uint8_t sample[1280]; uint32_t length; MP4Duration duration; }; /********************************************************************** * MP4CreateTextSample ********************************************************************** * Creates a buffer for a text track sample *********************************************************************/ static struct hb_text_sample_s *MP4CreateTextSample( char *textString, uint64_t duration ) { struct hb_text_sample_s *sample = NULL; int stringLength = strlen(textString); int x; if( stringLength < 1024 ) { sample = malloc( sizeof( struct hb_text_sample_s ) ); //textLength = (stringLength; // Account for BOM sample->length = stringLength + 2 + 12; // Account for text length code and other marker sample->duration = (MP4Duration)duration; // 2-byte length marker sample->sample[0] = (stringLength >> 8) & 0xff; sample->sample[1] = stringLength & 0xff; strncpy( (char *)&(sample->sample[2]), textString, stringLength ); x = 2 + stringLength; // Modifier Length Marker sample->sample[x] = 0x00; sample->sample[x+1] = 0x00; sample->sample[x+2] = 0x00; sample->sample[x+3] = 0x0C; // Modifier Type Code sample->sample[x+4] = 'e'; sample->sample[x+5] = 'n'; sample->sample[x+6] = 'c'; sample->sample[x+7] = 'd'; // Modifier Value sample->sample[x+8] = 0x00; sample->sample[x+9] = 0x00; sample->sample[x+10] = (256 >> 8) & 0xff; sample->sample[x+11] = 256 & 0xff; } return sample; } /********************************************************************** * MP4GenerateChapterSample ********************************************************************** * Creates a buffer for a text track sample *********************************************************************/ static struct hb_text_sample_s *MP4GenerateChapterSample( hb_mux_object_t * m, uint64_t duration, int chapter ) { // We substract 1 from the chapter number because the chapters start at // 1 but our name array starts at 0. We substract another 1 because we're // writing the text of the previous chapter mark (when we get the start // of chapter 2 we know the duration of chapter 1 & can write its mark). hb_chapter_t *chapter_data = hb_list_item( m->job->title->list_chapter, chapter - 2 ); char tmp_buffer[1024]; char *string = tmp_buffer; tmp_buffer[0] = '\0'; if( chapter_data != NULL ) { string = chapter_data->title; } if( strlen(string) == 0 || strlen(string) >= 1024 ) { snprintf( tmp_buffer, 1023, "Chapter %03i", chapter - 2 ); string = tmp_buffer; } return MP4CreateTextSample( string, duration ); } /********************************************************************** * MP4Init ********************************************************************** * Allocates hb_mux_data_t structures, create file and write headers *********************************************************************/ static int MP4Init( 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; u_int16_t language_code; /* Flags for enabling/disabling tracks in an MP4. */ typedef enum { TRACK_DISABLED = 0x0, TRACK_ENABLED = 0x1, TRACK_IN_MOVIE = 0x2, TRACK_IN_PREVIEW = 0x4, TRACK_IN_POSTER = 0x8} track_header_flags; if( (audio = hb_list_item(title->list_audio, 0)) != NULL ) { /* Need the sample rate of the first audio track to use as the timescale. */ m->samplerate = audio->config.out.samplerate; audio = NULL; } else { m->samplerate = 90000; } /* Create an empty mp4 file */ if (job->largeFileSize) /* Use 64-bit MP4 file */ { m->file = MP4Create( job->file, MP4_DETAILS_ERROR, MP4_CREATE_64BIT_DATA ); hb_log("Using 64-bit MP4 formatting."); } else /* Limit MP4s to less than 4 GB */ { m->file = MP4Create( job->file, MP4_DETAILS_ERROR, 0 ); } if (m->file == MP4_INVALID_FILE_HANDLE) { hb_error("muxmp4.c: MP4Create failed!"); *job->die = 1; return 0; } /* Video track */ mux_data = malloc( sizeof( hb_mux_data_t ) ); job->mux_data = mux_data; /* When using the standard 90000 timescale, QuickTime tends to have synchronization issues (audio not playing at the correct speed). To workaround this, we use the audio samplerate as the timescale */ if (!(MP4SetTimeScale( m->file, m->samplerate ))) { hb_error("muxmp4.c: MP4SetTimeScale failed!"); *job->die = 1; return 0; } if( job->vcodec == HB_VCODEC_X264 ) { /* Stolen from mp4creator */ if(!(MP4SetVideoProfileLevel( m->file, 0x7F ))) { hb_error("muxmp4.c: MP4SetVideoProfileLevel failed!"); *job->die = 1; return 0; } mux_data->track = MP4AddH264VideoTrack( m->file, m->samplerate, MP4_INVALID_DURATION, job->width, job->height, job->config.h264.sps[1], /* AVCProfileIndication */ job->config.h264.sps[2], /* profile_compat */ job->config.h264.sps[3], /* AVCLevelIndication */ 3 ); /* 4 bytes length before each NAL unit */ MP4AddH264SequenceParameterSet( m->file, mux_data->track, job->config.h264.sps, job->config.h264.sps_length ); MP4AddH264PictureParameterSet( m->file, mux_data->track, job->config.h264.pps, job->config.h264.pps_length ); if( job->h264_level == 30 || job->ipod_atom) { hb_log("About to add iPod atom"); AddIPodUUID(m->file, mux_data->track); } } else /* FFmpeg or XviD */ { if(!(MP4SetVideoProfileLevel( m->file, MPEG4_SP_L3 ))) { hb_error("muxmp4.c: MP4SetVideoProfileLevel failed!"); *job->die = 1; return 0; } mux_data->track = MP4AddVideoTrack( m->file, m->samplerate, MP4_INVALID_DURATION, job->width, job->height, MP4_MPEG4_VIDEO_TYPE ); if (mux_data->track == MP4_INVALID_TRACK_ID) { hb_error("muxmp4.c: MP4AddVideoTrack failed!"); *job->die = 1; return 0; } /* VOL from FFmpeg or XviD */ if (!(MP4SetTrackESConfiguration( m->file, mux_data->track, job->config.mpeg4.bytes, job->config.mpeg4.length ))) { hb_error("muxmp4.c: MP4SetTrackESConfiguration failed!"); *job->die = 1; return 0; } } // COLR atom for color and gamma correction. // Per the notes at: // http://developer.apple.com/quicktime/icefloe/dispatch019.html#colr // http://forum.doom9.org/showthread.php?t=133982#post1090068 // we say anything that's likely to be HD content is ITU BT.709 and // DVD, SD TV & other content is ITU BT.601. We look at the title height // rather than the job height here to get uncropped input dimensions. if ( job->title->height >= 720 ) { // we guess that 720p or above is ITU BT.709 HD content MP4AddColr(m->file, mux_data->track, 1, 1, 1); } else { // ITU BT.601 DVD or SD TV content MP4AddColr(m->file, mux_data->track, 6, 1, 6); } if( job->pixel_ratio ) { /* PASP atom for anamorphic video */ float width, height; width = job->pixel_aspect_width; height = job->pixel_aspect_height; MP4AddPixelAspectRatio(m->file, mux_data->track, (uint32_t)width, (uint32_t)height); MP4SetTrackFloatProperty(m->file, mux_data->track, "tkhd.width", job->width * (width / height)); } /* firstAudioTrack will be used to reference the first audio track when we add a chapter track */ MP4TrackId firstAudioTrack = 0; /* add the audio tracks */ for( i = 0; i < hb_list_count( title->list_audio ); i++ ) { static u_int8_t reserved2[16] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x00, 0x10, 0x00, 0x00, 0x00, 0x00, }; audio = hb_list_item( title->list_audio, i ); mux_data = malloc( sizeof( hb_mux_data_t ) ); audio->priv.mux_data = mux_data; if( audio->config.out.codec == HB_ACODEC_AC3 ) { mux_data->track = MP4AddAC3AudioTrack( m->file, m->samplerate, 1536, MP4_MPEG4_AUDIO_TYPE ); MP4SetTrackBytesProperty( m->file, mux_data->track, "udta.name.value", (const u_int8_t*)"Surround", strlen("Surround")); } else { mux_data->track = MP4AddAudioTrack( m->file, m->samplerate, 1024, MP4_MPEG4_AUDIO_TYPE ); MP4SetTrackBytesProperty( m->file, mux_data->track, "udta.name.value", (const u_int8_t*)"Stereo", strlen("Stereo")); MP4SetAudioProfileLevel( m->file, 0x0F ); MP4SetTrackESConfiguration( m->file, mux_data->track, audio->priv.config.aac.bytes, audio->priv.config.aac.length ); /* Set the correct number of channels for this track */ reserved2[9] = (u_int8_t)HB_AMIXDOWN_GET_DISCRETE_CHANNEL_COUNT(audio->config.out.mixdown); MP4SetTrackBytesProperty(m->file, mux_data->track, "mdia.minf.stbl.stsd.mp4a.reserved2", reserved2, sizeof(reserved2)); } /* Set the language for this track */ /* The language is stored as 5-bit text - 0x60 */ language_code = audio->config.lang.iso639_2[0] - 0x60; language_code <<= 5; language_code |= audio->config.lang.iso639_2[1] - 0x60; language_code <<= 5; language_code |= audio->config.lang.iso639_2[2] - 0x60; MP4SetTrackIntegerProperty(m->file, mux_data->track, "mdia.mdhd.language", language_code); /* Set the audio track alternate group */ MP4SetTrackIntegerProperty(m->file, mux_data->track, "tkhd.alternate_group", 1); /* If we ever upgrade mpeg4ip, the line above should be replaced with the line below.*/ // MP4SetTrackIntegerProperty(m->file, mux_data->track, "mdia.minf.stbl.stsd.mp4a.channels", (u_int16_t)HB_AMIXDOWN_GET_DISCRETE_CHANNEL_COUNT(audio->amixdown)); /* store a reference to the first audio track, so we can use it to feed the chapter text track's sample rate */ if (i == 0) { firstAudioTrack = mux_data->track; /* Enable the first audio track */ MP4SetTrackIntegerProperty(m->file, mux_data->track, "tkhd.flags", (TRACK_ENABLED | TRACK_IN_MOVIE)); } else /* Disable the other audio tracks so QuickTime doesn't play them all at once. */ { MP4SetTrackIntegerProperty(m->file, mux_data->track, "tkhd.flags", (TRACK_DISABLED | TRACK_IN_MOVIE)); hb_log("Disabled extra audio track %i", mux_data->track-1); } } if (job->chapter_markers) { /* add a text track for the chapters */ MP4TrackId textTrack; textTrack = MP4AddChapterTextTrack(m->file, firstAudioTrack); m->chapter_track = textTrack; m->chapter_duration = 0; m->current_chapter = job->chapter_start; } /* Add encoded-by metadata listing version and build date */ char *tool_string; tool_string = (char *)malloc(80); snprintf( tool_string, 80, "HandBrake %s %i", HB_VERSION, HB_BUILD); MP4SetMetadataTool(m->file, tool_string); free(tool_string); return 0; } static int MP4Mux( hb_mux_object_t * m, hb_mux_data_t * mux_data, hb_buffer_t * buf ) { hb_job_t * job = m->job; int64_t duration; if( mux_data == job->mux_data ) { /* Add the sample before the new frame. It is important that this be calculated prior to the duration of the new video sample, as we want to sync to right after it. (This is because of how durations for text tracks work in QT) */ if( job->chapter_markers && buf->new_chap ) { struct hb_text_sample_s *sample; /* If this is an x264 encode with bframes the IDR frame we're trying to mark will be displayed offset by its renderOffset so we need to offset the chapter by the same amount. MP4 render offsets don't seem to work for text tracks so we have to fudge the duration instead. */ duration = m->sum_dur - m->chapter_duration; if ( job->areBframes ) { duration += buf->renderOffset * m->samplerate / 90000; } if ( duration <= 0 ) { /* The initial & final chapters can have very short durations * (less than the error in our total duration estimate) so * the duration calc above can result in a negative number. * when this happens give the chapter a short duration (1/3 * of an ntsc frame time). */ duration = 1000 * m->samplerate / 90000; } sample = MP4GenerateChapterSample( m, duration, buf->new_chap ); if( !MP4WriteSample(m->file, m->chapter_track, sample->sample, sample->length, sample->duration, 0, true) ) { hb_error("Failed to write to output file, disk full?"); *job->die = 1; } free(sample); m->current_chapter = buf->new_chap; m->chapter_duration += duration; } /* Video */ /* Because we use the audio samplerate as the timescale, we have to use potentially variable durations so the video doesn't go out of sync */ int64_t bias = ( buf->start * m->samplerate / 90000 ) - m->sum_dur; duration = ( buf->stop - buf->start ) * m->samplerate / 90000 + bias; if ( duration <= 0 ) { /* We got an illegal mp4/h264 duration. This shouldn't be possible and usually indicates a bug in the upstream code. Complain in the hope that someone will go find the bug but try to fix the error so that the file will still be playable. */ hb_log("MP4Mux: illegal duration %lld, bias %lld, start %lld (%lld)," "stop %lld (%lld), sum_dur %lld", duration, bias, buf->start * m->samplerate / 90000, buf->start, buf->stop * m->samplerate / 90000, buf->stop, m->sum_dur ); /* we don't know when the next frame starts so we can't pick a valid duration for this one so we pick something "short" (roughly 1/3 of an NTSC frame time) and rely on the bias calc for the next frame to correct things (a duration underestimate just results in a large bias on the next frame). */ duration = 1000 * m->samplerate / 90000; } m->sum_dur += duration; } else { /* Audio */ duration = MP4_INVALID_DURATION; } /* Here's where the sample actually gets muxed. If it's an audio sample, don't offset the sample's playback. If it's a video sample and there are no b-frames, ditto. If there are b-frames, offset by the initDelay plus the difference between the presentation time stamp x264 gives and the decoding time stamp from the buffer data. */ if( !MP4WriteSample( m->file, mux_data->track, buf->data, buf->size, duration, ((mux_data->track != 1) || (job->areBframes==0) || (job->vcodec != HB_VCODEC_X264)) ? 0 : ( buf->renderOffset * m->samplerate / 90000), ((buf->frametype & HB_FRAME_KEY) != 0) ) ) { hb_error("Failed to write to output file, disk full?"); *job->die = 1; } return 0; } static int MP4End( hb_mux_object_t * m ) { hb_job_t * job = m->job; /* Write our final chapter marker */ if( m->job->chapter_markers ) { int64_t duration = m->sum_dur - m->chapter_duration; if ( duration <= 0 ) { /* The initial & final chapters can have very short durations * (less than the error in our total duration estimate) so * the duration calc above can result in a negative number. * when this happens give the chapter a short duration (1/3 * of an ntsc frame time). */ duration = 1000 * m->samplerate / 90000; } struct hb_text_sample_s *sample = MP4GenerateChapterSample( m, duration, m->current_chapter + 1 ); if( !MP4WriteSample(m->file, m->chapter_track, sample->sample, sample->length, sample->duration, 0, true) ) { hb_error("Failed to write to output file, disk full?"); *job->die = 1; } free(sample); } if (job->areBframes) { // Insert track edit to get A/V back in sync. The edit amount is // the rendering offset of the first sample. MP4AddTrackEdit(m->file, 1, MP4_INVALID_EDIT_ID, MP4GetSampleRenderingOffset(m->file,1,1), MP4GetTrackDuration(m->file, 1), 0); if ( m->job->chapter_markers ) { // apply same edit to chapter track to keep it in sync with video MP4AddTrackEdit(m->file, m->chapter_track, MP4_INVALID_EDIT_ID, MP4GetSampleRenderingOffset(m->file,1,1), MP4GetTrackDuration(m->file, m->chapter_track), 0); } } MP4Close( m->file ); if ( job->mp4_optimize ) { hb_log( "muxmp4: optimizing file" ); char filename[1024]; memset( filename, 0, 1024 ); snprintf( filename, 1024, "%s.tmp", job->file ); MP4Optimize( job->file, filename, MP4_DETAILS_ERROR ); remove( job->file ); rename( filename, job->file ); } return 0; } hb_mux_object_t * hb_mux_mp4_init( hb_job_t * job ) { hb_mux_object_t * m = calloc( sizeof( hb_mux_object_t ), 1 ); m->init = MP4Init; m->mux = MP4Mux; m->end = MP4End; m->job = job; return m; }