// Copyright 2014 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include "packager/media/formats/mp4/mp4_muxer.h" #include "packager/base/time/clock.h" #include "packager/base/time/time.h" #include "packager/media/base/aes_encryptor.h" #include "packager/media/base/audio_stream_info.h" #include "packager/media/base/fourccs.h" #include "packager/media/base/key_source.h" #include "packager/media/base/media_sample.h" #include "packager/media/base/media_stream.h" #include "packager/media/base/video_stream_info.h" #include "packager/media/codecs/es_descriptor.h" #include "packager/media/event/muxer_listener.h" #include "packager/media/file/file.h" #include "packager/media/formats/mp4/box_definitions.h" #include "packager/media/formats/mp4/multi_segment_segmenter.h" #include "packager/media/formats/mp4/single_segment_segmenter.h" namespace shaka { namespace media { namespace mp4 { namespace { // Sets the range start and end value from offset and size. // |start| and |end| are for byte-range-spec specified in RFC2616. void SetStartAndEndFromOffsetAndSize(size_t offset, size_t size, uint32_t* start, uint32_t* end) { DCHECK(start && end); *start = static_cast(offset); // Note that ranges are inclusive. So we need - 1. *end = *start + static_cast(size) - 1; } FourCC CodecToFourCC(Codec codec) { switch (codec) { case kCodecH264: return FOURCC_avc1; case kCodecHEV1: return FOURCC_hev1; case kCodecHVC1: return FOURCC_hvc1; case kCodecVP8: return FOURCC_vp08; case kCodecVP9: return FOURCC_vp09; case kCodecVP10: return FOURCC_vp10; case kCodecAAC: return FOURCC_mp4a; case kCodecAC3: return FOURCC_ac_3; case kCodecDTSC: return FOURCC_dtsc; case kCodecDTSH: return FOURCC_dtsh; case kCodecDTSL: return FOURCC_dtsl; case kCodecDTSE: return FOURCC_dtse; case kCodecDTSM: return FOURCC_dtsm; case kCodecEAC3: return FOURCC_ec_3; case kCodecOpus: return FOURCC_Opus; default: return FOURCC_NULL; } } } // namespace MP4Muxer::MP4Muxer(const MuxerOptions& options) : Muxer(options) {} MP4Muxer::~MP4Muxer() {} Status MP4Muxer::Initialize() { DCHECK(!streams().empty()); std::unique_ptr ftyp(new FileType); std::unique_ptr moov(new Movie); ftyp->major_brand = FOURCC_dash; ftyp->compatible_brands.push_back(FOURCC_iso6); ftyp->compatible_brands.push_back(FOURCC_mp41); if (streams().size() == 1 && streams()[0]->info()->stream_type() == kStreamVideo) { const FourCC codec_fourcc = CodecToFourCC( static_cast(streams()[0]->info().get())->codec()); if (codec_fourcc != FOURCC_NULL) ftyp->compatible_brands.push_back(codec_fourcc); } moov->header.creation_time = IsoTimeNow(); moov->header.modification_time = IsoTimeNow(); moov->header.next_track_id = static_cast(streams().size()) + 1; moov->tracks.resize(streams().size()); moov->extends.tracks.resize(streams().size()); // Initialize tracks. for (uint32_t i = 0; i < streams().size(); ++i) { Track& trak = moov->tracks[i]; trak.header.track_id = i + 1; TrackExtends& trex = moov->extends.tracks[i]; trex.track_id = trak.header.track_id; trex.default_sample_description_index = 1; switch (streams()[i]->info()->stream_type()) { case kStreamVideo: GenerateVideoTrak( static_cast(streams()[i]->info().get()), &trak, i + 1); break; case kStreamAudio: GenerateAudioTrak( static_cast(streams()[i]->info().get()), &trak, i + 1); break; default: NOTIMPLEMENTED() << "Not implemented for stream type: " << streams()[i]->info()->stream_type(); } } if (options().segment_template.empty()) { segmenter_.reset(new SingleSegmentSegmenter(options(), std::move(ftyp), std::move(moov))); } else { segmenter_.reset( new MultiSegmentSegmenter(options(), std::move(ftyp), std::move(moov))); } const Status segmenter_initialized = segmenter_->Initialize( streams(), muxer_listener(), progress_listener(), encryption_key_source(), max_sd_pixels(), max_hd_pixels(), max_uhd1_pixels(), clear_lead_in_seconds(), crypto_period_duration_in_seconds(), protection_scheme()); if (!segmenter_initialized.ok()) return segmenter_initialized; FireOnMediaStartEvent(); return Status::OK; } Status MP4Muxer::Finalize() { DCHECK(segmenter_); Status segmenter_finalized = segmenter_->Finalize(); if (!segmenter_finalized.ok()) return segmenter_finalized; FireOnMediaEndEvent(); LOG(INFO) << "MP4 file '" << options().output_file_name << "' finalized."; return Status::OK; } Status MP4Muxer::DoAddSample(const MediaStream* stream, std::shared_ptr sample) { DCHECK(segmenter_); return segmenter_->AddSample(stream, sample); } void MP4Muxer::InitializeTrak(const StreamInfo* info, Track* trak) { int64_t now = IsoTimeNow(); trak->header.creation_time = now; trak->header.modification_time = now; trak->header.duration = 0; trak->media.header.creation_time = now; trak->media.header.modification_time = now; trak->media.header.timescale = info->time_scale(); trak->media.header.duration = 0; if (!info->language().empty()) { // Strip off the subtag, if any. std::string main_language = info->language(); size_t dash = main_language.find('-'); if (dash != std::string::npos) { main_language.erase(dash); } // ISO-639-2/T main language code should be 3 characters. if (main_language.size() != 3) { LOG(WARNING) << "'" << main_language << "' is not a valid ISO-639-2 " << "language code, ignoring."; } else { trak->media.header.language.code = main_language; } } } void MP4Muxer::GenerateVideoTrak(const VideoStreamInfo* video_info, Track* trak, uint32_t track_id) { InitializeTrak(video_info, trak); // width and height specify the track's visual presentation size as // fixed-point 16.16 values. uint32_t pixel_width = video_info->pixel_width(); uint32_t pixel_height = video_info->pixel_height(); if (pixel_width == 0 || pixel_height == 0) { LOG(WARNING) << "pixel width/height are not set. Assuming 1:1."; pixel_width = 1; pixel_height = 1; } const double sample_aspect_ratio = static_cast(pixel_width) / pixel_height; trak->header.width = video_info->width() * sample_aspect_ratio * 0x10000; trak->header.height = video_info->height() * 0x10000; VideoSampleEntry video; video.format = CodecToFourCC(video_info->codec()); video.width = video_info->width(); video.height = video_info->height(); video.codec_configuration.data = video_info->codec_config(); if (pixel_width != 1 || pixel_height != 1) { video.pixel_aspect.h_spacing = pixel_width; video.pixel_aspect.v_spacing = pixel_height; } SampleDescription& sample_description = trak->media.information.sample_table.description; sample_description.type = kVideo; sample_description.video_entries.push_back(video); } void MP4Muxer::GenerateAudioTrak(const AudioStreamInfo* audio_info, Track* trak, uint32_t track_id) { InitializeTrak(audio_info, trak); trak->header.volume = 0x100; AudioSampleEntry audio; audio.format = CodecToFourCC(audio_info->codec()); switch(audio_info->codec()){ case kCodecAAC: audio.esds.es_descriptor.set_object_type(kISO_14496_3); // MPEG4 AAC. audio.esds.es_descriptor.set_esid(track_id); audio.esds.es_descriptor.set_decoder_specific_info( audio_info->codec_config()); audio.esds.es_descriptor.set_max_bitrate(audio_info->max_bitrate()); audio.esds.es_descriptor.set_avg_bitrate(audio_info->avg_bitrate()); break; case kCodecDTSC: case kCodecDTSH: case kCodecDTSL: case kCodecDTSE: case kCodecDTSM: audio.ddts.extra_data = audio_info->codec_config(); audio.ddts.max_bitrate = audio_info->max_bitrate(); audio.ddts.avg_bitrate = audio_info->avg_bitrate(); audio.ddts.sampling_frequency = audio_info->sampling_frequency(); audio.ddts.pcm_sample_depth = audio_info->sample_bits(); break; case kCodecAC3: audio.dac3.data = audio_info->codec_config(); break; case kCodecEAC3: audio.dec3.data = audio_info->codec_config(); break; case kCodecOpus: audio.dops.opus_identification_header = audio_info->codec_config(); break; default: NOTIMPLEMENTED(); break; } audio.channelcount = audio_info->num_channels(); audio.samplesize = audio_info->sample_bits(); audio.samplerate = audio_info->sampling_frequency(); SampleTable& sample_table = trak->media.information.sample_table; SampleDescription& sample_description = sample_table.description; sample_description.type = kAudio; sample_description.audio_entries.push_back(audio); // Opus requires at least one sample group description box and at least one // sample to group box with grouping type 'roll' within sample table box. if (audio_info->codec() == kCodecOpus) { sample_table.sample_group_descriptions.resize(1); SampleGroupDescription& sample_group_description = sample_table.sample_group_descriptions.back(); sample_group_description.grouping_type = FOURCC_roll; sample_group_description.audio_roll_recovery_entries.resize(1); // The roll distance is expressed in sample units and always takes negative // values. const uint64_t kNanosecondsPerSecond = 1000000000ull; sample_group_description.audio_roll_recovery_entries[0].roll_distance = (0 - (audio_info->seek_preroll_ns() * audio.samplerate + kNanosecondsPerSecond / 2)) / kNanosecondsPerSecond; sample_table.sample_to_groups.resize(1); SampleToGroup& sample_to_group = sample_table.sample_to_groups.back(); sample_to_group.grouping_type = FOURCC_roll; sample_to_group.entries.resize(1); SampleToGroupEntry& sample_to_group_entry = sample_to_group.entries.back(); // All samples are in track fragments. sample_to_group_entry.sample_count = 0; sample_to_group_entry.group_description_index = SampleToGroupEntry::kTrackGroupDescriptionIndexBase + 1; } else if (audio_info->seek_preroll_ns() != 0) { LOG(WARNING) << "Unexpected seek preroll for codec " << audio_info->codec(); return; } } bool MP4Muxer::GetInitRangeStartAndEnd(uint32_t* start, uint32_t* end) { DCHECK(start && end); size_t range_offset = 0; size_t range_size = 0; const bool has_range = segmenter_->GetInitRange(&range_offset, &range_size); if (!has_range) return false; SetStartAndEndFromOffsetAndSize(range_offset, range_size, start, end); return true; } bool MP4Muxer::GetIndexRangeStartAndEnd(uint32_t* start, uint32_t* end) { DCHECK(start && end); size_t range_offset = 0; size_t range_size = 0; const bool has_range = segmenter_->GetIndexRange(&range_offset, &range_size); if (!has_range) return false; SetStartAndEndFromOffsetAndSize(range_offset, range_size, start, end); return true; } void MP4Muxer::FireOnMediaStartEvent() { if (!muxer_listener()) return; if (streams().size() > 1) { LOG(ERROR) << "MuxerListener cannot take more than 1 stream."; return; } DCHECK(!streams().empty()) << "Media started without a stream."; const uint32_t timescale = segmenter_->GetReferenceTimeScale(); muxer_listener()->OnMediaStart(options(), *streams().front()->info(), timescale, MuxerListener::kContainerMp4); } void MP4Muxer::FireOnMediaEndEvent() { if (!muxer_listener()) return; uint32_t init_range_start = 0; uint32_t init_range_end = 0; const bool has_init_range = GetInitRangeStartAndEnd(&init_range_start, &init_range_end); uint32_t index_range_start = 0; uint32_t index_range_end = 0; const bool has_index_range = GetIndexRangeStartAndEnd(&index_range_start, &index_range_end); const float duration_seconds = static_cast(segmenter_->GetDuration()); const int64_t file_size = File::GetFileSize(options().output_file_name.c_str()); if (file_size <= 0) { LOG(ERROR) << "Invalid file size: " << file_size; return; } muxer_listener()->OnMediaEnd(has_init_range, init_range_start, init_range_end, has_index_range, index_range_start, index_range_end, duration_seconds, file_size); } uint64_t MP4Muxer::IsoTimeNow() { // Time in seconds from Jan. 1, 1904 to epoch time, i.e. Jan. 1, 1970. const uint64_t kIsomTimeOffset = 2082844800l; return kIsomTimeOffset + (clock() ? clock()->Now() : base::Time::Now()).ToDoubleT(); } } // namespace mp4 } // namespace media } // namespace shaka