// 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/multi_segment_segmenter.h" #include #include "packager/base/strings/string_number_conversions.h" #include "packager/base/strings/string_util.h" #include "packager/media/base/buffer_writer.h" #include "packager/media/base/muxer_options.h" #include "packager/media/base/muxer_util.h" #include "packager/media/event/muxer_listener.h" #include "packager/media/file/file.h" #include "packager/media/formats/mp4/box_definitions.h" namespace shaka { namespace media { namespace mp4 { MultiSegmentSegmenter::MultiSegmentSegmenter(const MuxerOptions& options, std::unique_ptr ftyp, std::unique_ptr moov) : Segmenter(options, std::move(ftyp), std::move(moov)), styp_(new SegmentType), num_segments_(0) { // Use the same brands for styp as ftyp. styp_->major_brand = Segmenter::ftyp()->major_brand; styp_->compatible_brands = Segmenter::ftyp()->compatible_brands; // Replace 'cmfc' with 'cmfs' for CMAF segments compatibility. std::replace(styp_->compatible_brands.begin(), styp_->compatible_brands.end(), FOURCC_cmfc, FOURCC_cmfs); } MultiSegmentSegmenter::~MultiSegmentSegmenter() {} bool MultiSegmentSegmenter::GetInitRange(size_t* offset, size_t* size) { DLOG(INFO) << "MultiSegmentSegmenter outputs init segment: " << options().output_file_name; return false; } bool MultiSegmentSegmenter::GetIndexRange(size_t* offset, size_t* size) { DLOG(INFO) << "MultiSegmentSegmenter does not have index range."; return false; } Status MultiSegmentSegmenter::DoInitialize() { DCHECK(ftyp()); DCHECK(moov()); // Generate the output file with init segment. File* file = File::Open(options().output_file_name.c_str(), "w"); if (file == NULL) { return Status(error::FILE_FAILURE, "Cannot open file for write " + options().output_file_name); } std::unique_ptr buffer(new BufferWriter); ftyp()->Write(buffer.get()); moov()->Write(buffer.get()); Status status = buffer->WriteToFile(file); if (!file->Close()) { LOG(WARNING) << "Failed to close the file properly: " << options().output_file_name; } return status; } Status MultiSegmentSegmenter::DoFinalize() { SetComplete(); return Status::OK; } Status MultiSegmentSegmenter::DoFinalizeSegment() { DCHECK(sidx()); // earliest_presentation_time is the earliest presentation time of any // access unit in the reference stream in the first subsegment. // It will be re-calculated later when subsegments are finalized. sidx()->earliest_presentation_time = sidx()->references[0].earliest_presentation_time; if (options().num_subsegments_per_sidx <= 0) return WriteSegment(); // sidx() contains pre-generated segment references with one reference per // fragment. Calculate |num_fragments_per_subsegment| and combine // pre-generated references into final subsegment references. size_t num_fragments = sidx()->references.size(); size_t num_fragments_per_subsegment = (num_fragments - 1) / options().num_subsegments_per_sidx + 1; if (num_fragments_per_subsegment <= 1) return WriteSegment(); size_t frag_index = 0; size_t subseg_index = 0; std::vector& refs = sidx()->references; uint64_t first_sap_time = refs[0].sap_delta_time + refs[0].earliest_presentation_time; for (size_t i = 1; i < num_fragments; ++i) { refs[subseg_index].referenced_size += refs[i].referenced_size; refs[subseg_index].subsegment_duration += refs[i].subsegment_duration; refs[subseg_index].earliest_presentation_time = std::min(refs[subseg_index].earliest_presentation_time, refs[i].earliest_presentation_time); if (refs[subseg_index].sap_type == SegmentReference::TypeUnknown && refs[i].sap_type != SegmentReference::TypeUnknown) { refs[subseg_index].sap_type = refs[i].sap_type; first_sap_time = refs[i].sap_delta_time + refs[i].earliest_presentation_time; } if (++frag_index >= num_fragments_per_subsegment) { // Calculate sap delta time w.r.t. sidx_->earliest_presentation_time. if (refs[subseg_index].sap_type != SegmentReference::TypeUnknown) { refs[subseg_index].sap_delta_time = first_sap_time - refs[subseg_index].earliest_presentation_time; } if (++i >= num_fragments) break; refs[++subseg_index] = refs[i]; first_sap_time = refs[i].sap_delta_time + refs[i].earliest_presentation_time; frag_index = 1; } } refs.resize(options().num_subsegments_per_sidx); // earliest_presentation_time is the earliest presentation time of any // access unit in the reference stream in the first subsegment. sidx()->earliest_presentation_time = refs[0].earliest_presentation_time; return WriteSegment(); } Status MultiSegmentSegmenter::WriteSegment() { DCHECK(sidx()); DCHECK(fragment_buffer()); DCHECK(styp_); std::unique_ptr buffer(new BufferWriter()); File* file; std::string file_name; if (options().segment_template.empty()) { // Append the segment to output file if segment template is not specified. file_name = options().output_file_name.c_str(); file = File::Open(file_name.c_str(), "a"); if (file == NULL) { return Status( error::FILE_FAILURE, "Cannot open file for append " + options().output_file_name); } } else { file_name = GetSegmentName(options().segment_template, sidx()->earliest_presentation_time, num_segments_++, options().bandwidth); file = File::Open(file_name.c_str(), "w"); if (file == NULL) { return Status(error::FILE_FAILURE, "Cannot open file for write " + file_name); } styp_->Write(buffer.get()); } // If num_subsegments_per_sidx is negative, no SIDX box is generated. if (options().num_subsegments_per_sidx >= 0) sidx()->Write(buffer.get()); const size_t segment_size = buffer->Size() + fragment_buffer()->Size(); DCHECK_NE(segment_size, 0u); Status status = buffer->WriteToFile(file); if (status.ok()) status = fragment_buffer()->WriteToFile(file); if (!file->Close()) LOG(WARNING) << "Failed to close the file properly: " << file_name; if (!status.ok()) return status; uint64_t segment_duration = 0; // ISO/IEC 23009-1:2012: the value shall be identical to sum of the the // values of all Subsegment_duration fields in the first ‘sidx’ box. for (size_t i = 0; i < sidx()->references.size(); ++i) segment_duration += sidx()->references[i].subsegment_duration; UpdateProgress(segment_duration); if (muxer_listener()) { muxer_listener()->OnSampleDurationReady(sample_duration()); muxer_listener()->OnNewSegment(file_name, sidx()->earliest_presentation_time, segment_duration, segment_size); } return Status::OK; } } // namespace mp4 } // namespace media } // namespace shaka