235 lines
8.7 KiB
C++
235 lines
8.7 KiB
C++
// Copyright 2014 Google LLC. All rights reserved.
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//
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file or at
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// https://developers.google.com/open-source/licenses/bsd
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#include "packager/media/formats/mp4/single_segment_segmenter.h"
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#include <algorithm>
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#include "packager/file/file_util.h"
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#include "packager/media/base/buffer_writer.h"
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#include "packager/media/base/muxer_options.h"
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#include "packager/media/event/progress_listener.h"
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#include "packager/media/formats/mp4/key_frame_info.h"
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namespace shaka {
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namespace media {
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namespace mp4 {
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SingleSegmentSegmenter::SingleSegmentSegmenter(const MuxerOptions& options,
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std::unique_ptr<FileType> ftyp,
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std::unique_ptr<Movie> moov)
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: Segmenter(options, std::move(ftyp), std::move(moov)) {}
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SingleSegmentSegmenter::~SingleSegmentSegmenter() {
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if (temp_file_)
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temp_file_.release()->Close();
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if (!temp_file_name_.empty()) {
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if (!File::Delete(temp_file_name_.c_str()))
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LOG(ERROR) << "Unable to delete temporary file " << temp_file_name_;
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}
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}
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bool SingleSegmentSegmenter::GetInitRange(size_t* offset, size_t* size) {
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// In Finalize, ftyp and moov gets written first so offset must be 0.
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*offset = 0;
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*size = ftyp()->ComputeSize() + moov()->ComputeSize();
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return true;
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}
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bool SingleSegmentSegmenter::GetIndexRange(size_t* offset, size_t* size) {
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// Index range is right after init range so the offset must be the size of
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// ftyp and moov.
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*offset = ftyp()->ComputeSize() + moov()->ComputeSize();
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*size = options().mp4_params.generate_sidx_in_media_segments
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? vod_sidx_->ComputeSize()
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: 0;
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return true;
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}
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std::vector<Range> SingleSegmentSegmenter::GetSegmentRanges() {
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std::vector<Range> ranges;
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uint64_t next_offset = ftyp()->ComputeSize() + moov()->ComputeSize() +
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(options().mp4_params.generate_sidx_in_media_segments
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? vod_sidx_->ComputeSize()
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: 0) +
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vod_sidx_->first_offset;
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for (const SegmentReference& segment_reference : vod_sidx_->references) {
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Range r;
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r.start = next_offset;
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// Ranges are inclusive, so -1 to the size.
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r.end = r.start + segment_reference.referenced_size - 1;
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next_offset = r.end + 1;
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ranges.push_back(r);
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}
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return ranges;
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}
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Status SingleSegmentSegmenter::DoInitialize() {
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// Single segment segmentation involves two stages:
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// Stage 1: Create media subsegments from media samples
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// Stage 2: Update media header (moov) which involves copying of media
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// subsegments
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// Assumes stage 2 takes similar amount of time as stage 1. The previous
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// progress_target was set for stage 1. Times two to account for stage 2.
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set_progress_target(progress_target() * 2);
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if (!TempFilePath(options().temp_dir, &temp_file_name_))
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return Status(error::FILE_FAILURE, "Unable to create temporary file.");
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temp_file_.reset(File::Open(temp_file_name_.c_str(), "w"));
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return temp_file_
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? Status::OK
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: Status(error::FILE_FAILURE,
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"Cannot open file to write " + temp_file_name_);
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}
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Status SingleSegmentSegmenter::DoFinalize() {
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DCHECK(temp_file_);
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DCHECK(ftyp());
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DCHECK(moov());
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DCHECK(vod_sidx_);
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// Close the temp file to prepare for reading later.
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if (!temp_file_.release()->Close()) {
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return Status(
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error::FILE_FAILURE,
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"Cannot close the temp file " + temp_file_name_ +
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", possibly file permission issue or running out of disk space.");
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}
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std::unique_ptr<File, FileCloser> file(
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File::Open(options().output_file_name.c_str(), "w"));
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if (file == NULL) {
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return Status(error::FILE_FAILURE,
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"Cannot open file to write " + options().output_file_name);
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}
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LOG(INFO) << "Update media header (moov) and rewrite the file to '"
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<< options().output_file_name << "'.";
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// Write ftyp, moov and sidx to output file.
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std::unique_ptr<BufferWriter> buffer(new BufferWriter());
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ftyp()->Write(buffer.get());
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moov()->Write(buffer.get());
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if (options().mp4_params.generate_sidx_in_media_segments)
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vod_sidx_->Write(buffer.get());
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Status status = buffer->WriteToFile(file.get());
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if (!status.ok())
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return status;
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// Load the temp file and write to output file.
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std::unique_ptr<File, FileCloser> temp_file(
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File::Open(temp_file_name_.c_str(), "r"));
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if (temp_file == NULL) {
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return Status(error::FILE_FAILURE,
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"Cannot open file to read " + temp_file_name_);
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}
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// The target of 2nd stage of single segment segmentation.
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const uint64_t re_segment_progress_target = progress_target() * 0.5;
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const int kBufSize = 0x200000; // 2MB.
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std::unique_ptr<uint8_t[]> buf(new uint8_t[kBufSize]);
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while (true) {
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int64_t size = temp_file->Read(buf.get(), kBufSize);
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if (size == 0) {
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break;
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} else if (size < 0) {
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return Status(error::FILE_FAILURE,
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"Failed to read file " + temp_file_name_);
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}
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int64_t size_written = file->Write(buf.get(), size);
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if (size_written != size) {
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return Status(error::FILE_FAILURE,
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"Failed to write file " + options().output_file_name);
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}
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UpdateProgress(static_cast<double>(size) / temp_file->Size() *
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re_segment_progress_target);
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}
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if (!temp_file.release()->Close()) {
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return Status(error::FILE_FAILURE, "Cannot close the temp file " +
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temp_file_name_ + " after reading.");
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}
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if (!file.release()->Close()) {
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return Status(
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error::FILE_FAILURE,
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"Cannot close file " + options().output_file_name +
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", possibly file permission issue or running out of disk space.");
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}
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SetComplete();
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return Status::OK;
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}
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Status SingleSegmentSegmenter::DoFinalizeSegment() {
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DCHECK(sidx());
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DCHECK(fragment_buffer());
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// sidx() contains pre-generated segment references with one reference per
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// fragment. In VOD, this segment is converted into a subsegment, i.e. one
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// reference, which contains all the fragments in sidx().
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std::vector<SegmentReference>& refs = sidx()->references;
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SegmentReference& vod_ref = refs[0];
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int64_t first_sap_time =
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refs[0].sap_delta_time + refs[0].earliest_presentation_time;
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for (uint32_t i = 1; i < refs.size(); ++i) {
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vod_ref.referenced_size += refs[i].referenced_size;
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// NOTE: We calculate subsegment duration based on the total duration of
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// this subsegment instead of subtracting earliest_presentation_time as
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// indicated in the spec.
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vod_ref.subsegment_duration += refs[i].subsegment_duration;
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vod_ref.earliest_presentation_time = std::min(
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vod_ref.earliest_presentation_time, refs[i].earliest_presentation_time);
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if (vod_ref.sap_type == SegmentReference::TypeUnknown &&
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refs[i].sap_type != SegmentReference::TypeUnknown) {
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vod_ref.sap_type = refs[i].sap_type;
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first_sap_time =
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refs[i].sap_delta_time + refs[i].earliest_presentation_time;
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}
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}
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// Calculate sap delta time w.r.t. earliest_presentation_time.
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if (vod_ref.sap_type != SegmentReference::TypeUnknown) {
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vod_ref.sap_delta_time =
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first_sap_time - vod_ref.earliest_presentation_time;
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}
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// Create segment if it does not exist yet.
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if (vod_sidx_ == NULL) {
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vod_sidx_.reset(new SegmentIndex());
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vod_sidx_->reference_id = sidx()->reference_id;
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vod_sidx_->timescale = sidx()->timescale;
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vod_sidx_->earliest_presentation_time = vod_ref.earliest_presentation_time;
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}
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vod_sidx_->references.push_back(vod_ref);
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if (muxer_listener()) {
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for (const KeyFrameInfo& key_frame_info : key_frame_infos()) {
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// Unlike multisegment-segmenter, there is no (sub)segment header (styp,
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// sidx), so this is already the offset within the (sub)segment.
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muxer_listener()->OnKeyFrame(key_frame_info.timestamp,
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key_frame_info.start_byte_offset,
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key_frame_info.size);
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}
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}
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// Append fragment buffer to temp file.
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size_t segment_size = fragment_buffer()->Size();
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Status status = fragment_buffer()->WriteToFile(temp_file_.get());
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if (!status.ok()) return status;
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UpdateProgress(vod_ref.subsegment_duration);
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if (muxer_listener()) {
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muxer_listener()->OnSampleDurationReady(sample_duration());
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muxer_listener()->OnNewSegment(options().output_file_name,
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vod_ref.earliest_presentation_time,
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vod_ref.subsegment_duration, segment_size);
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}
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return Status::OK;
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}
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} // namespace mp4
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} // namespace media
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} // namespace shaka
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