304 lines
11 KiB
C++
304 lines
11 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 "packager/media/formats/mp4/encrypting_fragmenter.h"
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#include <limits>
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#include "packager/media/base/aes_encryptor.h"
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#include "packager/media/base/buffer_reader.h"
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#include "packager/media/base/key_source.h"
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#include "packager/media/base/media_sample.h"
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#include "packager/media/filters/nalu_reader.h"
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#include "packager/media/filters/vp8_parser.h"
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#include "packager/media/filters/vp9_parser.h"
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#include "packager/media/formats/mp4/box_definitions.h"
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namespace edash_packager {
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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 kCencBlockSize = 16u;
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// Adds one or more subsamples to |*subsamples|. This may add more than one
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// if one of the values overflows the integer in the subsample.
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void AddSubsamples(uint64_t clear_bytes,
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uint64_t cipher_bytes,
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std::vector<SubsampleEntry>* subsamples) {
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CHECK_LT(cipher_bytes, std::numeric_limits<uint32_t>::max());
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const uint64_t kUInt16Max = std::numeric_limits<uint16_t>::max();
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while (clear_bytes > kUInt16Max) {
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subsamples->push_back(SubsampleEntry(kUInt16Max, 0));
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clear_bytes -= kUInt16Max;
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}
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if (clear_bytes > 0 || cipher_bytes > 0)
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subsamples->push_back(SubsampleEntry(clear_bytes, cipher_bytes));
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}
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VideoCodec GetVideoCodec(const StreamInfo& stream_info) {
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if (stream_info.stream_type() != kStreamVideo)
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return kUnknownVideoCodec;
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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.codec();
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}
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uint8_t 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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} // namespace
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EncryptingFragmenter::EncryptingFragmenter(
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scoped_refptr<StreamInfo> info,
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TrackFragment* traf,
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scoped_ptr<EncryptionKey> encryption_key,
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int64_t clear_time,
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EncryptionMode encryption_mode)
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: Fragmenter(traf),
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info_(info),
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encryption_key_(encryption_key.Pass()),
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nalu_length_size_(GetNaluLengthSize(*info)),
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video_codec_(GetVideoCodec(*info)),
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clear_time_(clear_time),
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encryption_mode_(encryption_mode) {
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DCHECK(encryption_key_);
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if (video_codec_ == kCodecVP8) {
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vpx_parser_.reset(new VP8Parser);
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} else if (video_codec_ == kCodecVP9) {
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vpx_parser_.reset(new VP9Parser);
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} else if (video_codec_ == kCodecH264) {
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header_parser_.reset(new H264VideoSliceHeaderParser);
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} else if (video_codec_ == kCodecHVC1 || video_codec_ == kCodecHEV1) {
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header_parser_.reset(new H265VideoSliceHeaderParser);
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} else if (nalu_length_size_ > 0) {
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LOG(WARNING) << "Unknown video codec '" << video_codec_
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<< "', whole subsamples will be encrypted.";
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}
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}
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EncryptingFragmenter::~EncryptingFragmenter() {}
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Status EncryptingFragmenter::AddSample(scoped_refptr<MediaSample> sample) {
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DCHECK(sample);
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if (!fragment_initialized()) {
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Status status = InitializeFragment(sample->dts());
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if (!status.ok())
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return status;
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}
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if (encryptor_) {
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Status status = EncryptSample(sample);
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if (!status.ok())
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return status;
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}
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return Fragmenter::AddSample(sample);
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}
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Status EncryptingFragmenter::InitializeFragment(int64_t first_sample_dts) {
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Status status = Fragmenter::InitializeFragment(first_sample_dts);
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if (!status.ok())
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return status;
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if (header_parser_ && !header_parser_->Initialize(info_->extra_data()))
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return Status(error::MUXER_FAILURE, "Fail to read SPS and PPS data.");
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traf()->auxiliary_size.sample_info_sizes.clear();
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traf()->auxiliary_offset.offsets.clear();
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if (IsSubsampleEncryptionRequired()) {
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traf()->sample_encryption.flags |=
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SampleEncryption::kUseSubsampleEncryption;
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}
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traf()->sample_encryption.sample_encryption_entries.clear();
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const bool enable_encryption = clear_time_ <= 0;
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if (!enable_encryption) {
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// This fragment should be in clear text.
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// At most two sample description entries, an encrypted entry and a clear
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// entry, are generated. The 1-based clear entry index is always 2.
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const uint32_t kClearSampleDescriptionIndex = 2;
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traf()->header.flags |=
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TrackFragmentHeader::kSampleDescriptionIndexPresentMask;
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traf()->header.sample_description_index = kClearSampleDescriptionIndex;
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}
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return PrepareFragmentForEncryption(enable_encryption);
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}
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void EncryptingFragmenter::FinalizeFragment() {
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if (encryptor_) {
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DCHECK_LE(clear_time_, 0);
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FinalizeFragmentForEncryption();
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} else {
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DCHECK_GT(clear_time_, 0);
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clear_time_ -= fragment_duration();
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}
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Fragmenter::FinalizeFragment();
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}
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Status EncryptingFragmenter::PrepareFragmentForEncryption(
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bool enable_encryption) {
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return (!enable_encryption || encryptor_) ? Status::OK : CreateEncryptor();
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}
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void EncryptingFragmenter::FinalizeFragmentForEncryption() {
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// The offset will be adjusted in Segmenter after knowing moof size.
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traf()->auxiliary_offset.offsets.push_back(0);
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// Optimize saiz box.
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SampleAuxiliaryInformationSize& saiz = traf()->auxiliary_size;
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saiz.sample_count = traf()->runs[0].sample_sizes.size();
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if (!saiz.sample_info_sizes.empty()) {
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if (!OptimizeSampleEntries(&saiz.sample_info_sizes,
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&saiz.default_sample_info_size)) {
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saiz.default_sample_info_size = 0;
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}
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} else {
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// |sample_info_sizes| table is filled in only for subsample encryption,
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// otherwise |sample_info_size| is just the IV size.
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DCHECK(!IsSubsampleEncryptionRequired());
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saiz.default_sample_info_size = encryptor_->iv().size();
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}
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traf()->sample_encryption.iv_size = encryptor_->iv().size();
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}
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Status EncryptingFragmenter::CreateEncryptor() {
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DCHECK(encryption_key_);
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scoped_ptr<AesEncryptor> encryptor;
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if (encryption_mode_ == kEncryptionModeAesCtr) {
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encryptor.reset(new AesCtrEncryptor);
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} else if (encryption_mode_ == kEncryptionModeAesCbc) {
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encryptor.reset(new AesCbcPkcs5Encryptor);
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} else {
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return Status(error::MUXER_FAILURE, "Unsupported encryption mode.");
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}
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const bool initialized = encryption_key_->iv.empty()
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? encryptor->InitializeWithRandomIv(
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encryption_key_->key, kDefaultIvSize)
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: encryptor->InitializeWithIv(
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encryption_key_->key, encryption_key_->iv);
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if (!initialized)
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return Status(error::MUXER_FAILURE, "Failed to create the encryptor.");
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encryptor_ = encryptor.Pass();
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return Status::OK;
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}
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void EncryptingFragmenter::EncryptBytes(uint8_t* data, uint32_t size) {
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DCHECK(encryptor_);
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CHECK(encryptor_->EncryptData(data, size, data));
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}
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Status EncryptingFragmenter::EncryptSample(scoped_refptr<MediaSample> sample) {
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DCHECK(encryptor_);
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SampleEncryptionEntry sample_encryption_entry;
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sample_encryption_entry.initialization_vector = encryptor_->iv();
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uint8_t* data = sample->writable_data();
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if (IsSubsampleEncryptionRequired()) {
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if (vpx_parser_) {
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std::vector<VPxFrameInfo> vpx_frames;
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if (!vpx_parser_->Parse(sample->data(), sample->data_size(),
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&vpx_frames)) {
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return Status(error::MUXER_FAILURE, "Failed to parse vpx frame.");
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}
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const bool is_superframe = vpx_frames.size() > 1;
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for (const VPxFrameInfo& frame : vpx_frames) {
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SubsampleEntry subsample;
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subsample.clear_bytes = frame.uncompressed_header_size;
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subsample.cipher_bytes =
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frame.frame_size - frame.uncompressed_header_size;
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// "VP Codec ISO Media File Format Binding" document requires that the
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// encrypted bytes of each frame within the superframe must be block
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// aligned so that the counter state can be computed for each frame
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// within the superframe.
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if (is_superframe) {
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uint16_t misalign_bytes = subsample.cipher_bytes % kCencBlockSize;
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subsample.clear_bytes += misalign_bytes;
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subsample.cipher_bytes -= misalign_bytes;
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}
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sample_encryption_entry.subsamples.push_back(subsample);
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if (subsample.cipher_bytes > 0)
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EncryptBytes(data + subsample.clear_bytes, subsample.cipher_bytes);
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data += frame.frame_size;
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}
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} else {
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const NaluReader::NaluType nalu_type =
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(video_codec_ == kCodecHVC1 || video_codec_ == kCodecHEV1)
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? NaluReader::kH265
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: NaluReader::kH264;
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NaluReader reader(nalu_type, nalu_length_size_, data,
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sample->data_size());
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// Store the current length of clear data. This is used to squash
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// multiple unencrypted NAL units into fewer subsample entries.
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uint64_t accumulated_clear_bytes = 0;
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Nalu nalu;
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NaluReader::Result result;
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while ((result = reader.Advance(&nalu)) == NaluReader::kOk) {
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if (nalu.is_video_slice()) {
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// For video-slice NAL units, encrypt the video slice. This skips
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// the frame header. If this is an unrecognized codec (e.g. H.265),
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// the whole NAL unit will be encrypted.
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const int64_t video_slice_header_size =
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header_parser_ ? header_parser_->GetHeaderSize(nalu) : 0;
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if (video_slice_header_size < 0)
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return Status(error::MUXER_FAILURE, "Failed to read slice header.");
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const uint64_t current_clear_bytes = nalu.header_size() +
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video_slice_header_size;
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const uint64_t cipher_bytes =
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nalu.payload_size() - video_slice_header_size;
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const uint8_t* nalu_data = nalu.data() + current_clear_bytes;
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EncryptBytes(const_cast<uint8_t*>(nalu_data), cipher_bytes);
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AddSubsamples(
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accumulated_clear_bytes + nalu_length_size_ + current_clear_bytes,
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cipher_bytes, &sample_encryption_entry.subsamples);
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accumulated_clear_bytes = 0;
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} else {
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// For non-video-slice NAL units, don't encrypt.
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accumulated_clear_bytes +=
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nalu_length_size_ + nalu.header_size() + nalu.payload_size();
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}
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}
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if (result != NaluReader::kEOStream)
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return Status(error::MUXER_FAILURE, "Failed to parse NAL units.");
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AddSubsamples(accumulated_clear_bytes, 0,
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&sample_encryption_entry.subsamples);
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}
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// The length of per-sample auxiliary datum, defined in CENC ch. 7.
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traf()->auxiliary_size.sample_info_sizes.push_back(
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sample_encryption_entry.ComputeSize());
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} else {
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EncryptBytes(data, sample->data_size());
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}
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traf()->sample_encryption.sample_encryption_entries.push_back(
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sample_encryption_entry);
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encryptor_->UpdateIv();
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return Status::OK;
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}
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bool EncryptingFragmenter::IsSubsampleEncryptionRequired() {
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return vpx_parser_ || nalu_length_size_ != 0;
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}
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} // namespace mp4
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} // namespace media
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} // namespace edash_packager
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