// 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/segmenter.h" #include #include "packager/base/logging.h" #include "packager/media/base/buffer_writer.h" #include "packager/media/base/media_sample.h" #include "packager/media/base/muxer_options.h" #include "packager/media/base/muxer_util.h" #include "packager/media/base/stream_info.h" #include "packager/media/chunking/chunking_handler.h" #include "packager/media/event/progress_listener.h" #include "packager/media/formats/mp4/box_definitions.h" #include "packager/media/formats/mp4/fragmenter.h" #include "packager/version/version.h" namespace shaka { namespace media { namespace mp4 { namespace { uint64_t Rescale(uint64_t time_in_old_scale, uint32_t old_scale, uint32_t new_scale) { return static_cast(time_in_old_scale) / old_scale * new_scale; } } // namespace Segmenter::Segmenter(const MuxerOptions& options, std::unique_ptr ftyp, std::unique_ptr moov) : options_(options), ftyp_(std::move(ftyp)), moov_(std::move(moov)), moof_(new MovieFragment()), fragment_buffer_(new BufferWriter()), sidx_(new SegmentIndex()) {} Segmenter::~Segmenter() {} Status Segmenter::Initialize( const std::vector>& streams, MuxerListener* muxer_listener, ProgressListener* progress_listener) { DCHECK_LT(0u, streams.size()); muxer_listener_ = muxer_listener; progress_listener_ = progress_listener; moof_->header.sequence_number = 0; moof_->tracks.resize(streams.size()); fragmenters_.resize(streams.size()); stream_durations_.resize(streams.size()); for (uint32_t i = 0; i < streams.size(); ++i) { moof_->tracks[i].header.track_id = i + 1; if (streams[i]->stream_type() == kStreamVideo) { // Use the first video stream as the reference stream (which is 1-based). if (sidx_->reference_id == 0) sidx_->reference_id = i + 1; } fragmenters_[i].reset(new Fragmenter(streams[i], &moof_->tracks[i])); } if (options_.mp4_params.use_decoding_timestamp_in_timeline) { for (uint32_t i = 0; i < streams.size(); ++i) fragmenters_[i]->set_use_decoding_timestamp_in_timeline(true); } // Choose the first stream if there is no VIDEO. if (sidx_->reference_id == 0) sidx_->reference_id = 1; sidx_->timescale = streams[GetReferenceStreamId()]->time_scale(); // Use media duration as progress target. progress_target_ = streams[GetReferenceStreamId()]->duration(); // Use the reference stream's time scale as movie time scale. moov_->header.timescale = sidx_->timescale; moof_->header.sequence_number = 1; // Fill in version information. const std::string version = GetPackagerVersion(); if (!version.empty()) { moov_->metadata.handler.handler_type = FOURCC_ID32; moov_->metadata.id3v2.language.code = "eng"; moov_->metadata.id3v2.private_frame.owner = GetPackagerProjectUrl(); moov_->metadata.id3v2.private_frame.value = version; } return DoInitialize(); } Status Segmenter::Finalize() { // Set movie duration. Note that the duration in mvhd, tkhd, mdhd should not // be touched, i.e. kept at 0. The updated moov box will be written to output // file for VOD case only. moov_->extends.header.fragment_duration = 0; for (size_t i = 0; i < stream_durations_.size(); ++i) { uint64_t duration = Rescale(stream_durations_[i], moov_->tracks[i].media.header.timescale, moov_->header.timescale); if (duration > moov_->extends.header.fragment_duration) moov_->extends.header.fragment_duration = duration; } return DoFinalize(); } Status Segmenter::AddSample(size_t stream_id, const MediaSample& sample) { // Set default sample duration if it has not been set yet. if (moov_->extends.tracks[stream_id].default_sample_duration == 0) { moov_->extends.tracks[stream_id].default_sample_duration = sample.duration(); } DCHECK_LT(stream_id, fragmenters_.size()); Fragmenter* fragmenter = fragmenters_[stream_id].get(); if (fragmenter->fragment_finalized()) { return Status(error::FRAGMENT_FINALIZED, "Current fragment is finalized already."); } Status status = fragmenter->AddSample(sample); if (!status.ok()) return status; if (sample_duration_ == 0) sample_duration_ = sample.duration(); stream_durations_[stream_id] += sample.duration(); return Status::OK; } Status Segmenter::FinalizeSegment(size_t stream_id, const SegmentInfo& segment_info) { if (segment_info.key_rotation_encryption_config) { FinalizeFragmentForKeyRotation( stream_id, segment_info.is_encrypted, *segment_info.key_rotation_encryption_config); } DCHECK_LT(stream_id, fragmenters_.size()); Fragmenter* fragmenter = fragmenters_[stream_id].get(); DCHECK(fragmenter); Status status = fragmenter->FinalizeFragment(); if (!status.ok()) return status; // Check if all tracks are ready for fragmentation. for (const std::unique_ptr& fragmenter : fragmenters_) { if (!fragmenter->fragment_finalized()) return Status::OK; } MediaData mdat; // Data offset relative to 'moof': moof size + mdat header size. // The code will also update box sizes for moof_ and its child boxes. uint64_t data_offset = moof_->ComputeSize() + mdat.HeaderSize(); // 'traf' should follow 'mfhd' moof header box. uint64_t next_traf_position = moof_->HeaderSize() + moof_->header.box_size(); for (size_t i = 0; i < moof_->tracks.size(); ++i) { TrackFragment& traf = moof_->tracks[i]; if (traf.auxiliary_offset.offsets.size() > 0) { DCHECK_EQ(traf.auxiliary_offset.offsets.size(), 1u); DCHECK(!traf.sample_encryption.sample_encryption_entries.empty()); next_traf_position += traf.box_size(); // SampleEncryption 'senc' box should be the last box in 'traf'. // |auxiliary_offset| should point to the data of SampleEncryption. traf.auxiliary_offset.offsets[0] = next_traf_position - traf.sample_encryption.box_size() + traf.sample_encryption.HeaderSize() + sizeof(uint32_t); // for sample count field in 'senc' } traf.runs[0].data_offset = data_offset + mdat.data_size; mdat.data_size += static_cast(fragmenters_[i]->data()->Size()); } // Generate segment reference. sidx_->references.resize(sidx_->references.size() + 1); fragmenters_[GetReferenceStreamId()]->GenerateSegmentReference( &sidx_->references[sidx_->references.size() - 1]); sidx_->references[sidx_->references.size() - 1].referenced_size = data_offset + mdat.data_size; // Write the fragment to buffer. moof_->Write(fragment_buffer_.get()); mdat.WriteHeader(fragment_buffer_.get()); for (const std::unique_ptr& fragmenter : fragmenters_) fragment_buffer_->AppendBuffer(*fragmenter->data()); // Increase sequence_number for next fragment. ++moof_->header.sequence_number; for (std::unique_ptr& fragmenter : fragmenters_) fragmenter->ClearFragmentFinalized(); if (!segment_info.is_subsegment) { Status status = DoFinalizeSegment(); // Reset segment information to initial state. sidx_->references.clear(); return status; } return Status::OK; } uint32_t Segmenter::GetReferenceTimeScale() const { return moov_->header.timescale; } double Segmenter::GetDuration() const { uint64_t duration = moov_->extends.header.fragment_duration; if (duration == 0) { // Handling the case where this is not properly initialized. return 0.0; } return static_cast(duration) / moov_->header.timescale; } void Segmenter::UpdateProgress(uint64_t progress) { accumulated_progress_ += progress; if (!progress_listener_) return; if (progress_target_ == 0) return; // It might happen that accumulated progress exceeds progress_target due to // computation errors, e.g. rounding error. Cap it so it never reports > 100% // progress. if (accumulated_progress_ >= progress_target_) { progress_listener_->OnProgress(1.0); } else { progress_listener_->OnProgress(static_cast(accumulated_progress_) / progress_target_); } } void Segmenter::SetComplete() { if (!progress_listener_) return; progress_listener_->OnProgress(1.0); } uint32_t Segmenter::GetReferenceStreamId() { DCHECK(sidx_); return sidx_->reference_id - 1; } void Segmenter::FinalizeFragmentForKeyRotation( size_t stream_id, bool fragment_encrypted, const EncryptionConfig& encryption_config) { if (options_.mp4_params.include_pssh_in_stream) { const std::vector& system_info = encryption_config.key_system_info; moof_->pssh.resize(system_info.size()); for (size_t i = 0; i < system_info.size(); i++) moof_->pssh[i].raw_box = system_info[i].CreateBox(); } else { LOG(WARNING) << "Key rotation and no pssh in stream may not work well together."; } // Skip the following steps if the current fragment is not going to be // encrypted. 'pssh' box needs to be included in the fragment, which is // performed above, regardless of whether the fragment is encrypted. This is // necessary for two reasons: 1) Requesting keys before reaching encrypted // content avoids playback delay due to license requests; 2) In Chrome, CDM // must be initialized before starting the playback and CDM can only be // initialized with a valid 'pssh'. if (!fragment_encrypted) return; DCHECK_LT(stream_id, moof_->tracks.size()); TrackFragment& traf = moof_->tracks[stream_id]; traf.sample_group_descriptions.resize(traf.sample_group_descriptions.size() + 1); SampleGroupDescription& sample_group_description = traf.sample_group_descriptions.back(); sample_group_description.grouping_type = FOURCC_seig; sample_group_description.cenc_sample_encryption_info_entries.resize(1); CencSampleEncryptionInfoEntry& sample_group_entry = sample_group_description.cenc_sample_encryption_info_entries.back(); sample_group_entry.is_protected = 1; sample_group_entry.per_sample_iv_size = encryption_config.per_sample_iv_size; sample_group_entry.constant_iv = encryption_config.constant_iv; sample_group_entry.crypt_byte_block = encryption_config.crypt_byte_block; sample_group_entry.skip_byte_block = encryption_config.skip_byte_block; sample_group_entry.key_id = encryption_config.key_id; } } // namespace mp4 } // namespace media } // namespace shaka