377 lines
12 KiB
C++
377 lines
12 KiB
C++
// Copyright 2014 Google Inc. 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 "media/formats/mp4/segmenter.h"
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#include <algorithm>
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#include "base/stl_util.h"
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#include "media/base/buffer_writer.h"
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#include "media/base/encryption_key_source.h"
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#include "media/base/media_sample.h"
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#include "media/base/media_stream.h"
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#include "media/base/muxer_options.h"
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#include "media/base/video_stream_info.h"
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#include "media/formats/mp4/box_definitions.h"
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#include "media/formats/mp4/key_rotation_fragmenter.h"
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namespace media {
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namespace mp4 {
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namespace {
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// Generate 64bit IV by default.
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const size_t kDefaultIvSize = 8u;
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const size_t kCencKeyIdSize = 16u;
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// The version of cenc implemented here. CENC 4.
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const int kCencSchemeVersion = 0x00010000;
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uint64 Rescale(uint64 time_in_old_scale, uint32 old_scale, uint32 new_scale) {
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return static_cast<double>(time_in_old_scale) / old_scale * new_scale;
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}
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void GenerateSinf(const EncryptionKey& encryption_key,
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FourCC old_type,
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ProtectionSchemeInfo* sinf) {
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sinf->format.format = old_type;
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sinf->type.type = FOURCC_CENC;
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sinf->type.version = kCencSchemeVersion;
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sinf->info.track_encryption.is_encrypted = true;
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sinf->info.track_encryption.default_iv_size =
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encryption_key.iv.empty() ? kDefaultIvSize : encryption_key.iv.size();
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sinf->info.track_encryption.default_kid = encryption_key.key_id;
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}
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void GenerateEncryptedSampleEntry(const EncryptionKey& encryption_key,
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double clear_lead_in_seconds,
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SampleDescription* description) {
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DCHECK(description);
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if (description->type == kVideo) {
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DCHECK_EQ(1u, description->video_entries.size());
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// Add a second entry for clear content if needed.
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if (clear_lead_in_seconds > 0)
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description->video_entries.push_back(description->video_entries[0]);
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// Convert the first entry to an encrypted entry.
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VideoSampleEntry& entry = description->video_entries[0];
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GenerateSinf(encryption_key, entry.format, &entry.sinf);
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entry.format = FOURCC_ENCV;
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} else {
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DCHECK_EQ(kAudio, description->type);
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DCHECK_EQ(1u, description->audio_entries.size());
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// Add a second entry for clear content if needed.
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if (clear_lead_in_seconds > 0)
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description->audio_entries.push_back(description->audio_entries[0]);
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// Convert the first entry to an encrypted entry.
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AudioSampleEntry& entry = description->audio_entries[0];
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GenerateSinf(encryption_key, entry.format, &entry.sinf);
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entry.format = FOURCC_ENCA;
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}
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}
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void GenerateEncryptedSampleEntryForKeyRotation(
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double clear_lead_in_seconds,
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SampleDescription* description) {
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// Fill encrypted sample entry with default key.
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EncryptionKey encryption_key;
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encryption_key.key_id.assign(kCencKeyIdSize, 0);
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GenerateEncryptedSampleEntry(
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encryption_key, clear_lead_in_seconds, description);
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}
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uint8 GetNaluLengthSize(const StreamInfo& stream_info) {
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if (stream_info.stream_type() != kStreamVideo)
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return 0;
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const VideoStreamInfo& video_stream_info =
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static_cast<const VideoStreamInfo&>(stream_info);
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return video_stream_info.nalu_length_size();
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}
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EncryptionKeySource::TrackType GetTrackTypeForEncryption(
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const StreamInfo& stream_info, uint32 max_sd_pixels) {
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if (stream_info.stream_type() == kStreamAudio)
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return EncryptionKeySource::TRACK_TYPE_AUDIO;
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DCHECK_EQ(kStreamVideo, stream_info.stream_type());
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const VideoStreamInfo& video_stream_info =
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static_cast<const VideoStreamInfo&>(stream_info);
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uint32 pixels = video_stream_info.width() * video_stream_info.height();
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return (pixels > max_sd_pixels) ? EncryptionKeySource::TRACK_TYPE_HD
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: EncryptionKeySource::TRACK_TYPE_SD;
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}
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} // namespace
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Segmenter::Segmenter(const MuxerOptions& options,
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scoped_ptr<FileType> ftyp,
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scoped_ptr<Movie> moov)
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: options_(options),
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ftyp_(ftyp.Pass()),
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moov_(moov.Pass()),
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moof_(new MovieFragment()),
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fragment_buffer_(new BufferWriter()),
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sidx_(new SegmentIndex()),
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segment_initialized_(false),
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end_of_segment_(false),
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muxer_listener_(NULL) {}
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Segmenter::~Segmenter() { STLDeleteElements(&fragmenters_); }
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Status Segmenter::Initialize(const std::vector<MediaStream*>& streams,
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event::MuxerListener* muxer_listener,
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EncryptionKeySource* encryption_key_source,
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uint32 max_sd_pixels,
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double clear_lead_in_seconds,
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double crypto_period_duration_in_seconds) {
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DCHECK_LT(0u, streams.size());
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muxer_listener_ = muxer_listener;
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moof_->header.sequence_number = 0;
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moof_->tracks.resize(streams.size());
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segment_durations_.resize(streams.size());
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fragmenters_.resize(streams.size());
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for (uint32 i = 0; i < streams.size(); ++i) {
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stream_map_[streams[i]] = i;
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moof_->tracks[i].header.track_id = i + 1;
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if (streams[i]->info()->stream_type() == kStreamVideo) {
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// Use the first video stream as the reference stream (which is 1-based).
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if (sidx_->reference_id == 0)
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sidx_->reference_id = i + 1;
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}
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if (!encryption_key_source) {
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fragmenters_[i] = new Fragmenter(&moof_->tracks[i]);
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continue;
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}
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uint8 nalu_length_size = GetNaluLengthSize(*streams[i]->info());
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EncryptionKeySource::TrackType track_type =
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GetTrackTypeForEncryption(*streams[i]->info(), max_sd_pixels);
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SampleDescription& description =
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moov_->tracks[i].media.information.sample_table.description;
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const bool key_rotation_enabled = crypto_period_duration_in_seconds != 0;
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if (key_rotation_enabled) {
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GenerateEncryptedSampleEntryForKeyRotation(clear_lead_in_seconds,
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&description);
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fragmenters_[i] = new KeyRotationFragmenter(
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moof_.get(),
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&moof_->tracks[i],
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encryption_key_source,
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track_type,
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crypto_period_duration_in_seconds * streams[i]->info()->time_scale(),
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clear_lead_in_seconds * streams[i]->info()->time_scale(),
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nalu_length_size);
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continue;
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}
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scoped_ptr<EncryptionKey> encryption_key(new EncryptionKey());
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Status status =
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encryption_key_source->GetKey(track_type, encryption_key.get());
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if (!status.ok())
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return status;
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GenerateEncryptedSampleEntry(
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*encryption_key, clear_lead_in_seconds, &description);
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// One and only one pssh box is needed.
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if (moov_->pssh.empty()) {
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moov_->pssh.resize(1);
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moov_->pssh[0].raw_box = encryption_key->pssh;
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}
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fragmenters_[i] = new EncryptingFragmenter(
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&moof_->tracks[i],
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encryption_key.Pass(),
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clear_lead_in_seconds * streams[i]->info()->time_scale(),
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nalu_length_size);
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}
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// Choose the first stream if there is no VIDEO.
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if (sidx_->reference_id == 0)
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sidx_->reference_id = 1;
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sidx_->timescale = streams[GetReferenceStreamId()]->info()->time_scale();
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// Use the reference stream's time scale as movie time scale.
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moov_->header.timescale = sidx_->timescale;
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moof_->header.sequence_number = 1;
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return DoInitialize();
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}
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Status Segmenter::Finalize() {
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end_of_segment_ = true;
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for (std::vector<Fragmenter*>::iterator it = fragmenters_.begin();
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it != fragmenters_.end();
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++it) {
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Status status = FinalizeFragment(*it);
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if (!status.ok())
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return status;
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}
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// Set tracks and moov durations.
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// Note that the updated moov box will be written to output file for VOD case
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// only.
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for (std::vector<Track>::iterator track = moov_->tracks.begin();
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track != moov_->tracks.end();
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++track) {
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track->header.duration = Rescale(track->media.header.duration,
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track->media.header.timescale,
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moov_->header.timescale);
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if (track->header.duration > moov_->header.duration)
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moov_->header.duration = track->header.duration;
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}
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return DoFinalize();
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}
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Status Segmenter::AddSample(const MediaStream* stream,
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scoped_refptr<MediaSample> sample) {
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// Find the fragmenter for this stream.
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DCHECK(stream);
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DCHECK(stream_map_.find(stream) != stream_map_.end());
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uint32 stream_id = stream_map_[stream];
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Fragmenter* fragmenter = fragmenters_[stream_id];
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// Set default sample duration if it has not been set yet.
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if (moov_->extends.tracks[stream_id].default_sample_duration == 0) {
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moov_->extends.tracks[stream_id].default_sample_duration =
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sample->duration();
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}
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if (!segment_initialized_) {
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InitializeSegment();
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segment_initialized_ = true;
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}
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if (fragmenter->fragment_finalized()) {
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return Status(error::FRAGMENT_FINALIZED,
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"Current fragment is finalized already.");
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}
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bool finalize_fragment = false;
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if (fragmenter->fragment_duration() >=
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options_.fragment_duration * stream->info()->time_scale()) {
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if (sample->is_key_frame() || !options_.fragment_sap_aligned) {
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finalize_fragment = true;
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}
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}
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if (segment_durations_[stream_id] >=
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options_.segment_duration * stream->info()->time_scale()) {
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if (sample->is_key_frame() || !options_.segment_sap_aligned) {
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end_of_segment_ = true;
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finalize_fragment = true;
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}
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}
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Status status;
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if (finalize_fragment) {
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status = FinalizeFragment(fragmenter);
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if (!status.ok())
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return status;
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}
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status = fragmenter->AddSample(sample);
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if (!status.ok())
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return status;
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moov_->tracks[stream_id].media.header.duration += sample->duration();
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segment_durations_[stream_id] += sample->duration();
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return Status::OK;
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}
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uint32 Segmenter::GetReferenceTimeScale() const {
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return moov_->header.timescale;
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}
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double Segmenter::GetDuration() const {
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if (moov_->header.timescale == 0) {
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// Handling the case where this is not properly initialized.
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return 0.0;
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}
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return static_cast<double>(moov_->header.duration) / moov_->header.timescale;
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}
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void Segmenter::InitializeSegment() {
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sidx_->references.clear();
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end_of_segment_ = false;
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std::vector<uint64>::iterator it = segment_durations_.begin();
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for (; it != segment_durations_.end(); ++it)
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*it = 0;
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}
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Status Segmenter::FinalizeSegment() {
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segment_initialized_ = false;
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return DoFinalizeSegment();
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}
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uint32 Segmenter::GetReferenceStreamId() {
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DCHECK(sidx_);
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return sidx_->reference_id - 1;
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}
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Status Segmenter::FinalizeFragment(Fragmenter* fragmenter) {
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fragmenter->FinalizeFragment();
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// Check if all tracks are ready for fragmentation.
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for (std::vector<Fragmenter*>::iterator it = fragmenters_.begin();
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it != fragmenters_.end();
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++it) {
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if (!(*it)->fragment_finalized())
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return Status::OK;
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}
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MediaData mdat;
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// Fill in data offsets. Data offset base is moof size + mdat box size.
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// (mdat is still empty, mdat size is the same as mdat box size).
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uint64 base = moof_->ComputeSize() + mdat.ComputeSize();
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for (uint i = 0; i < moof_->tracks.size(); ++i) {
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TrackFragment& traf = moof_->tracks[i];
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Fragmenter* fragmenter = fragmenters_[i];
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if (fragmenter->aux_data()->Size() > 0) {
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traf.auxiliary_offset.offsets[0] += base;
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base += fragmenter->aux_data()->Size();
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}
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traf.runs[0].data_offset += base;
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base += fragmenter->data()->Size();
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}
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// Generate segment reference.
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sidx_->references.resize(sidx_->references.size() + 1);
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fragmenters_[GetReferenceStreamId()]->GenerateSegmentReference(
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&sidx_->references[sidx_->references.size() - 1]);
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sidx_->references[sidx_->references.size() - 1].referenced_size = base;
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// Write the fragment to buffer.
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moof_->Write(fragment_buffer_.get());
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for (uint i = 0; i < moof_->tracks.size(); ++i) {
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Fragmenter* fragmenter = fragmenters_[i];
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mdat.data_size =
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fragmenter->aux_data()->Size() + fragmenter->data()->Size();
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mdat.Write(fragment_buffer_.get());
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if (fragmenter->aux_data()->Size()) {
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fragment_buffer_->AppendBuffer(*fragmenter->aux_data());
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}
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fragment_buffer_->AppendBuffer(*fragmenter->data());
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}
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// Increase sequence_number for next fragment.
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++moof_->header.sequence_number;
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if (end_of_segment_)
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return FinalizeSegment();
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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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