shaka-packager/packager/media/crypto/encryption_handler_unittest.cc

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// Copyright 2017 Google LLC. 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/crypto/encryption_handler.h>
#include <absl/log/log.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <packager/media/base/aes_cryptor.h>
#include <packager/media/base/media_handler_test_base.h>
#include <packager/media/base/mock_aes_cryptor.h>
#include <packager/media/base/protection_system_ids.h>
#include <packager/media/base/raw_key_source.h>
#include <packager/media/crypto/aes_encryptor_factory.h>
#include <packager/media/crypto/subsample_generator.h>
#include <packager/status/status_test_util.h>
namespace shaka {
namespace media {
namespace {
using ::testing::_;
using ::testing::ByMove;
using ::testing::Combine;
using ::testing::DoAll;
using ::testing::ElementsAre;
using ::testing::Invoke;
using ::testing::Mock;
using ::testing::Return;
using ::testing::SetArgPointee;
using ::testing::StrictMock;
using ::testing::UnorderedElementsAre;
using ::testing::Values;
using ::testing::ValuesIn;
using ::testing::WithParamInterface;
const size_t kStreamIndex = 0;
const int32_t kTimeScale = 1000;
const char kAudioStreamLabel[] = "AUDIO";
const char kSdVideoStreamLabel[] = "SD";
const uint8_t kKeyId[]{
0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
0x08, 0x09, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15,
};
const uint8_t kKey[]{
0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
0x08, 0x09, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15,
};
const uint8_t kIv[]{
0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
0x08, 0x09, 0x10, 0x11, 0x12, 0x13, 0x14, 0x15,
};
// The default KID for key rotation is all 0s.
const uint8_t kKeyRotationDefaultKeyId[] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
};
class MockKeySource : public RawKeySource {
public:
MOCK_METHOD2(GetKey,
Status(const std::string& stream_label, EncryptionKey* key));
MOCK_METHOD4(GetCryptoPeriodKey,
Status(uint32_t crypto_period_index,
int32_t crypto_period_duration_in_seconds,
const std::string& stream_label,
EncryptionKey* key));
};
class MockSubsampleGenerator : public SubsampleGenerator {
public:
MockSubsampleGenerator() : SubsampleGenerator(true) {}
MOCK_METHOD2(Initialize,
Status(FourCC protection_scheme, const StreamInfo& stream_info));
MOCK_METHOD3(GenerateSubsamples,
Status(const uint8_t* frame,
size_t frame_size,
std::vector<SubsampleEntry>* subsamples));
};
class MockAesEncryptorFactory : public AesEncryptorFactory {
public:
MOCK_METHOD6(CreateEncryptor,
std::unique_ptr<AesCryptor>(FourCC protection_scheme,
uint8_t crypt_byte_block,
uint8_t skip_byte_block,
Codec codec,
const std::vector<uint8_t>& key,
const std::vector<uint8_t>& iv));
};
} // namespace
class EncryptionHandlerTest : public MediaHandlerGraphTestBase {
public:
void SetUp() override { SetUpEncryptionHandler(EncryptionParams()); }
void SetUpEncryptionHandler(const EncryptionParams& encryption_params) {
EncryptionParams new_encryption_params = encryption_params;
if (!encryption_params.stream_label_func) {
// Setup default stream label function.
new_encryption_params.stream_label_func =
[](const EncryptionParams::EncryptedStreamAttributes&
stream_attributes) {
if (stream_attributes.stream_type ==
EncryptionParams::EncryptedStreamAttributes::kAudio) {
return kAudioStreamLabel;
}
return kSdVideoStreamLabel;
};
}
encryption_handler_.reset(
new EncryptionHandler(new_encryption_params, &mock_key_source_));
SetUpGraph(1 /* one input */, 1 /* one output */, encryption_handler_);
// Inject default subsamples to avoid parsing problems.
const std::vector<SubsampleEntry> empty_subsamples;
InjectSubsamples(empty_subsamples);
}
Status Process(std::unique_ptr<StreamData> stream_data) {
return encryption_handler_->Process(std::move(stream_data));
}
EncryptionKey GetMockEncryptionKey() {
EncryptionKey encryption_key;
encryption_key.key_id.assign(kKeyId, kKeyId + sizeof(kKeyId));
encryption_key.key_ids.emplace_back(encryption_key.key_id);
encryption_key.key.assign(kKey, kKey + sizeof(kKey));
encryption_key.iv.assign(kIv, kIv + sizeof(kIv));
return encryption_key;
}
void InjectSubsamples(const std::vector<SubsampleEntry>& subsamples) {
std::unique_ptr<MockSubsampleGenerator> mock_generator(
new MockSubsampleGenerator);
EXPECT_CALL(*mock_generator, GenerateSubsamples(_, _, _))
.WillRepeatedly(
DoAll(SetArgPointee<2>(subsamples), Return(Status::OK)));
encryption_handler_->InjectSubsampleGeneratorForTesting(
std::move(mock_generator));
}
void InjectEncryptorFactoryForTesting(
std::unique_ptr<AesEncryptorFactory> encryptor_factory) {
encryption_handler_->InjectEncryptorFactoryForTesting(
std::move(encryptor_factory));
}
protected:
std::shared_ptr<EncryptionHandler> encryption_handler_;
StrictMock<MockKeySource> mock_key_source_;
};
TEST_F(EncryptionHandlerTest, Initialize) {
ASSERT_OK(encryption_handler_->Initialize());
}
TEST_F(EncryptionHandlerTest, OnlyOneOutput) {
// Connecting another handler will fail.
ASSERT_OK(encryption_handler_->AddHandler(some_handler()));
ASSERT_EQ(error::INVALID_ARGUMENT,
encryption_handler_->Initialize().error_code());
}
TEST_F(EncryptionHandlerTest, OnlyOneInput) {
ASSERT_OK(some_handler()->AddHandler(encryption_handler_));
ASSERT_EQ(error::INVALID_ARGUMENT,
encryption_handler_->Initialize().error_code());
}
TEST_F(EncryptionHandlerTest, GetKeyFailed) {
const EncryptionKey mock_encryption_key = GetMockEncryptionKey();
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(Return(Status(error::INVALID_ARGUMENT, "")));
ASSERT_NOT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, kCodecH264))));
}
TEST_F(EncryptionHandlerTest, CreateEncryptorFailed) {
const EncryptionKey mock_encryption_key = GetMockEncryptionKey();
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(
DoAll(SetArgPointee<1>(mock_encryption_key), Return(Status::OK)));
std::unique_ptr<MockAesEncryptorFactory> mock_encryptor_factory(
new MockAesEncryptorFactory);
EXPECT_CALL(*mock_encryptor_factory,
CreateEncryptor(_, _, _, _, mock_encryption_key.key,
mock_encryption_key.iv))
.WillOnce(Return(ByMove(nullptr)));
InjectEncryptorFactoryForTesting(std::move(mock_encryptor_factory));
ASSERT_NOT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, kCodecH264))));
}
namespace {
const bool kIsKeyFrame = true;
const bool kIsSubsegment = true;
const bool kEncrypted = true;
const int64_t kSegmentDuration = 1000;
// The contents of the data does not matter.
const uint8_t kData[] = {0x00, 0x01, 0x02, 0x03, 0x04,
0x05, 0x06, 0x07, 0x08, 0x09};
const size_t kDataSize = sizeof(kData);
} // namespace
class EncryptionHandlerEncryptionTest
: public EncryptionHandlerTest,
public WithParamInterface<std::tuple<FourCC, Codec>> {
public:
void SetUp() override {
protection_scheme_ = std::get<0>(GetParam());
codec_ = std::get<1>(GetParam());
}
uint8_t GetExpectedCryptByteBlock() {
switch (protection_scheme_) {
case FOURCC_cenc:
case FOURCC_cbc1:
return 0;
case FOURCC_cens:
case FOURCC_cbcs:
case kAppleSampleAesProtectionScheme:
return codec_ == kCodecAAC ? 0 : 1;
default:
return 0;
}
}
uint8_t GetExpectedSkipByteBlock() {
// Always use full sample encryption for audio.
if (codec_ == kCodecAAC)
return 0;
switch (protection_scheme_) {
case FOURCC_cenc:
case FOURCC_cbc1:
return 0;
case FOURCC_cens:
case FOURCC_cbcs:
case kAppleSampleAesProtectionScheme:
return 9;
default:
return 0;
}
}
uint8_t GetExpectedPerSampleIvSize() {
switch (protection_scheme_) {
case FOURCC_cenc:
case FOURCC_cens:
case FOURCC_cbc1:
return sizeof(kIv);
case FOURCC_cbcs:
case kAppleSampleAesProtectionScheme:
return 0;
default:
return 0;
}
}
std::vector<uint8_t> GetExpectedConstantIv() {
switch (protection_scheme_) {
case FOURCC_cbcs:
case kAppleSampleAesProtectionScheme:
return std::vector<uint8_t>(std::begin(kIv), std::end(kIv));
default:
return std::vector<uint8_t>();
}
}
protected:
FourCC protection_scheme_;
Codec codec_;
};
TEST_P(EncryptionHandlerEncryptionTest, VerifyEncryptorFactoryParams) {
EncryptionParams encryption_params;
encryption_params.protection_scheme = protection_scheme_;
SetUpEncryptionHandler(encryption_params);
const EncryptionKey mock_encryption_key = GetMockEncryptionKey();
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(
DoAll(SetArgPointee<1>(mock_encryption_key), Return(Status::OK)));
std::unique_ptr<MockAesCryptor> mock_encryptor(new MockAesCryptor);
std::unique_ptr<MockAesEncryptorFactory> mock_encryptor_factory(
new MockAesEncryptorFactory);
EXPECT_CALL(*mock_encryptor_factory,
CreateEncryptor(protection_scheme_, GetExpectedCryptByteBlock(),
GetExpectedSkipByteBlock(), codec_,
mock_encryption_key.key, mock_encryption_key.iv))
.WillOnce(Return(ByMove(std::move(mock_encryptor))));
InjectEncryptorFactoryForTesting(std::move(mock_encryptor_factory));
if (IsVideoCodec(codec_)) {
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, codec_))));
} else {
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetAudioStreamInfo(kTimeScale, codec_))));
}
}
TEST_P(EncryptionHandlerEncryptionTest, ClearLeadWithNoKeyRotation) {
const double kClearLeadInSeconds = 1.5 * kSegmentDuration / kTimeScale;
EncryptionParams encryption_params;
encryption_params.protection_scheme = protection_scheme_;
encryption_params.clear_lead_in_seconds = kClearLeadInSeconds;
SetUpEncryptionHandler(encryption_params);
const EncryptionKey mock_encryption_key = GetMockEncryptionKey();
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(
DoAll(SetArgPointee<1>(mock_encryption_key), Return(Status::OK)));
if (IsVideoCodec(codec_)) {
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, codec_))));
} else {
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetAudioStreamInfo(kTimeScale, codec_))));
}
EXPECT_THAT(
GetOutputStreamDataVector(),
ElementsAre(IsStreamInfo(kStreamIndex, kTimeScale, kEncrypted, _)));
const StreamInfo* stream_info =
GetOutputStreamDataVector().back()->stream_info.get();
ASSERT_TRUE(stream_info);
EXPECT_TRUE(stream_info->has_clear_lead());
EXPECT_THAT(stream_info->encryption_config(),
MatchEncryptionConfig(
protection_scheme_, GetExpectedCryptByteBlock(),
GetExpectedSkipByteBlock(), GetExpectedPerSampleIvSize(),
GetExpectedConstantIv(), mock_encryption_key.key_id));
ClearOutputStreamDataVector();
Mock::VerifyAndClearExpectations(&mock_key_source_);
// There are three segments. Only the third segment is encrypted.
for (int i = 0; i < 3; ++i) {
// Use single-frame segment for testing.
ASSERT_OK(Process(StreamData::FromMediaSample(
kStreamIndex, GetMediaSample(i * kSegmentDuration, kSegmentDuration,
kIsKeyFrame, kData, kDataSize))));
ASSERT_OK(Process(StreamData::FromSegmentInfo(
kStreamIndex, GetSegmentInfo(i * kSegmentDuration, kSegmentDuration,
!kIsSubsegment))));
const bool is_encrypted = i == 2;
const auto& output_stream_data = GetOutputStreamDataVector();
EXPECT_THAT(output_stream_data,
ElementsAre(IsMediaSample(kStreamIndex, i * kSegmentDuration,
kSegmentDuration, is_encrypted, _),
IsSegmentInfo(kStreamIndex, i * kSegmentDuration,
kSegmentDuration, !kIsSubsegment,
is_encrypted)));
if (is_encrypted) {
const auto* media_sample = output_stream_data.front()->media_sample.get();
const auto* decrypt_config = media_sample->decrypt_config();
EXPECT_EQ(std::vector<uint8_t>(kKeyId, kKeyId + sizeof(kKeyId)),
decrypt_config->key_id());
EXPECT_EQ(std::vector<uint8_t>(kIv, kIv + sizeof(kIv)),
decrypt_config->iv());
EXPECT_TRUE(decrypt_config->subsamples().empty());
EXPECT_EQ(protection_scheme_, decrypt_config->protection_scheme());
EXPECT_EQ(GetExpectedCryptByteBlock(),
decrypt_config->crypt_byte_block());
EXPECT_EQ(GetExpectedSkipByteBlock(), decrypt_config->skip_byte_block());
}
EXPECT_FALSE(output_stream_data.back()
->segment_info->key_rotation_encryption_config);
ClearOutputStreamDataVector();
}
}
TEST_P(EncryptionHandlerEncryptionTest, ClearLeadWithKeyRotation) {
const double kClearLeadInSeconds = 1.5 * kSegmentDuration / kTimeScale;
const int kSegmentsPerCryptoPeriod = 2; // 2 segments.
const double kCryptoPeriodDurationInSeconds =
kSegmentsPerCryptoPeriod * kSegmentDuration / kTimeScale;
EncryptionParams encryption_params;
encryption_params.protection_scheme = protection_scheme_;
encryption_params.clear_lead_in_seconds = kClearLeadInSeconds;
encryption_params.crypto_period_duration_in_seconds =
kCryptoPeriodDurationInSeconds;
SetUpEncryptionHandler(encryption_params);
if (IsVideoCodec(codec_)) {
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, codec_))));
} else {
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetAudioStreamInfo(kTimeScale, codec_))));
}
EXPECT_THAT(
GetOutputStreamDataVector(),
ElementsAre(IsStreamInfo(kStreamIndex, kTimeScale, kEncrypted, _)));
const StreamInfo* stream_info =
GetOutputStreamDataVector().back()->stream_info.get();
ASSERT_TRUE(stream_info);
EXPECT_TRUE(stream_info->has_clear_lead());
const EncryptionConfig& encryption_config = stream_info->encryption_config();
EXPECT_EQ(protection_scheme_, encryption_config.protection_scheme);
EXPECT_EQ(GetExpectedCryptByteBlock(), encryption_config.crypt_byte_block);
EXPECT_EQ(GetExpectedSkipByteBlock(), encryption_config.skip_byte_block);
EXPECT_EQ(std::vector<uint8_t>(std::begin(kKeyRotationDefaultKeyId),
std::end(kKeyRotationDefaultKeyId)),
encryption_config.key_id);
ClearOutputStreamDataVector();
// There are five segments with the first two not encrypted.
for (int i = 0; i < 5; ++i) {
if ((i % kSegmentsPerCryptoPeriod) == 0) {
EXPECT_CALL(mock_key_source_,
GetCryptoPeriodKey(i / kSegmentsPerCryptoPeriod,
kCryptoPeriodDurationInSeconds, _, _))
.WillOnce(DoAll(SetArgPointee<3>(GetMockEncryptionKey()),
Return(Status::OK)));
}
// Use single-frame segment for testing.
ASSERT_OK(Process(StreamData::FromMediaSample(
kStreamIndex, GetMediaSample(i * kSegmentDuration, kSegmentDuration,
kIsKeyFrame, kData, kDataSize))));
ASSERT_OK(Process(StreamData::FromSegmentInfo(
kStreamIndex, GetSegmentInfo(i * kSegmentDuration, kSegmentDuration,
!kIsSubsegment))));
const bool is_encrypted = i >= 2;
const auto& output_stream_data = GetOutputStreamDataVector();
EXPECT_THAT(output_stream_data,
ElementsAre(IsMediaSample(kStreamIndex, i * kSegmentDuration,
kSegmentDuration, is_encrypted, _),
IsSegmentInfo(kStreamIndex, i * kSegmentDuration,
kSegmentDuration, !kIsSubsegment,
is_encrypted)));
EXPECT_THAT(*output_stream_data.back()
->segment_info->key_rotation_encryption_config,
MatchEncryptionConfig(
protection_scheme_, GetExpectedCryptByteBlock(),
GetExpectedSkipByteBlock(), GetExpectedPerSampleIvSize(),
GetExpectedConstantIv(), GetMockEncryptionKey().key_id));
Mock::VerifyAndClearExpectations(&mock_key_source_);
ClearOutputStreamDataVector();
}
}
INSTANTIATE_TEST_CASE_P(ProtectionSchemes,
EncryptionHandlerEncryptionTest,
Combine(Values(kAppleSampleAesProtectionScheme,
FOURCC_cenc,
FOURCC_cens,
FOURCC_cbc1,
FOURCC_cbcs),
Values(kCodecAAC, kCodecH264)));
struct SubsampleTestCase {
std::vector<SubsampleEntry> subsamples;
std::vector<uint8_t> expected_output;
};
inline bool operator==(const SubsampleEntry& lhs, const SubsampleEntry& rhs) {
return lhs.clear_bytes == rhs.clear_bytes &&
lhs.cipher_bytes == rhs.cipher_bytes;
}
namespace {
const int64_t kSampleDuration = 1000;
// This mock encryption increases every byte by 0x10. See the function below.
const SubsampleTestCase kSubsampleTestCases[] = {
{
std::vector<SubsampleEntry>(), // No subsamples, i.e. full sample
// encrypted.
{0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19},
},
{
{{8, 2}}, // One subsample.
{0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x18, 0x19},
},
{
{{6, 2}, {2, 0}}, // Two subsamples.
{0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x16, 0x17, 0x08, 0x09},
},
{
{{6, 2}, {0, 2}}, // Two subsamples.
{0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x16, 0x17, 0x18, 0x19},
},
};
bool MockEncrypt(const uint8_t* text,
size_t text_size,
uint8_t* crypt_text,
size_t* crypt_text_size) {
*crypt_text_size = text_size;
for (size_t i = 0; i < text_size; i++)
crypt_text[i] = text[i] + 0x10;
return true;
}
} // namespace
class EncryptionHandlerSubsampleTest
: public EncryptionHandlerTest,
public WithParamInterface<SubsampleTestCase> {};
INSTANTIATE_TEST_CASE_P(SubsampleTestCases,
EncryptionHandlerSubsampleTest,
ValuesIn(kSubsampleTestCases));
TEST_P(EncryptionHandlerSubsampleTest, SubsampleTest) {
std::unique_ptr<MockAesCryptor> mock_encryptor(new MockAesCryptor);
EXPECT_CALL(*mock_encryptor, CryptInternal(_, _, _, _))
.WillRepeatedly(Invoke(MockEncrypt));
ASSERT_TRUE(mock_encryptor->SetIv(
std::vector<uint8_t>(std::begin(kIv), std::end(kIv))));
std::unique_ptr<MockAesEncryptorFactory> mock_encryptor_factory(
new MockAesEncryptorFactory);
EXPECT_CALL(*mock_encryptor_factory, CreateEncryptor(_, _, _, _, _, _))
.WillOnce(Return(ByMove(std::move(mock_encryptor))));
InjectEncryptorFactoryForTesting(std::move(mock_encryptor_factory));
InjectSubsamples(GetParam().subsamples);
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(
DoAll(SetArgPointee<1>(GetMockEncryptionKey()), Return(Status::OK)));
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, kCodecH264))));
ASSERT_OK(Process(StreamData::FromMediaSample(
kStreamIndex,
GetMediaSample(0, kSampleDuration, kIsKeyFrame, kData, kDataSize))));
const auto& output_stream_data = GetOutputStreamDataVector();
EXPECT_THAT(output_stream_data,
ElementsAre(IsStreamInfo(kStreamIndex, kTimeScale, kEncrypted, _),
IsMediaSample(kStreamIndex, 0, kSampleDuration,
kEncrypted, _)));
const MediaSample& sample = *output_stream_data.back()->media_sample;
EXPECT_EQ(
GetParam().expected_output,
std::vector<uint8_t>(sample.data(), sample.data() + sample.data_size()));
const DecryptConfig& decrypt_config = *sample.decrypt_config();
EXPECT_EQ(GetParam().subsamples, decrypt_config.subsamples());
}
class EncryptionHandlerTrackTypeTest : public EncryptionHandlerTest {};
TEST_F(EncryptionHandlerTrackTypeTest, AudioTrackType) {
EncryptionParams::EncryptedStreamAttributes captured_stream_attributes;
EncryptionParams encryption_params;
encryption_params.stream_label_func =
[&captured_stream_attributes](
const EncryptionParams::EncryptedStreamAttributes&
stream_attributes) {
captured_stream_attributes = stream_attributes;
return kAudioStreamLabel;
};
SetUpEncryptionHandler(encryption_params);
EXPECT_CALL(mock_key_source_, GetKey(kAudioStreamLabel, _))
.WillOnce(
DoAll(SetArgPointee<1>(GetMockEncryptionKey()), Return(Status::OK)));
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetAudioStreamInfo(kTimeScale))));
EXPECT_EQ(EncryptionParams::EncryptedStreamAttributes::kAudio,
captured_stream_attributes.stream_type);
}
TEST_F(EncryptionHandlerTrackTypeTest, VideoTrackType) {
const int32_t kWidth = 12;
const int32_t kHeight = 34;
EncryptionParams::EncryptedStreamAttributes captured_stream_attributes;
EncryptionParams encryption_params;
encryption_params.stream_label_func =
[&captured_stream_attributes](
const EncryptionParams::EncryptedStreamAttributes&
stream_attributes) {
captured_stream_attributes = stream_attributes;
return kSdVideoStreamLabel;
};
SetUpEncryptionHandler(encryption_params);
EXPECT_CALL(mock_key_source_, GetKey(kSdVideoStreamLabel, _))
.WillOnce(
DoAll(SetArgPointee<1>(GetMockEncryptionKey()), Return(Status::OK)));
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, kWidth, kHeight))));
EXPECT_EQ(EncryptionParams::EncryptedStreamAttributes::kVideo,
captured_stream_attributes.stream_type);
EXPECT_EQ(captured_stream_attributes.oneof.video.width, kWidth);
EXPECT_EQ(captured_stream_attributes.oneof.video.height, kHeight);
}
class EncryptionHandlerPsshTest : public EncryptionHandlerTest {};
TEST_F(EncryptionHandlerPsshTest, GeneratesPssh) {
EncryptionParams encryption_params;
encryption_params.protection_scheme = FOURCC_cenc;
encryption_params.protection_systems =
ProtectionSystem::kWidevine | ProtectionSystem::kPlayReady;
SetUpEncryptionHandler(encryption_params);
const EncryptionKey mock_encryption_key = GetMockEncryptionKey();
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(
DoAll(SetArgPointee<1>(mock_encryption_key), Return(Status::OK)));
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, kCodecH264))));
EXPECT_THAT(GetOutputStreamDataVector(),
ElementsAre(IsStreamInfo(_, kTimeScale, kEncrypted, _)));
const StreamInfo* stream_info =
GetOutputStreamDataVector().back()->stream_info.get();
std::vector<uint8_t> widevine_system_id(
kWidevineSystemId, kWidevineSystemId + std::size(kWidevineSystemId));
std::vector<uint8_t> playready_system_id(
kPlayReadySystemId, kPlayReadySystemId + std::size(kPlayReadySystemId));
ASSERT_THAT(
stream_info->encryption_config().key_system_info,
UnorderedElementsAre(IsPsshInfoWithSystemId(widevine_system_id),
IsPsshInfoWithSystemId(playready_system_id)));
}
TEST_F(EncryptionHandlerPsshTest, UsesKeyInfoFirst) {
EncryptionParams encryption_params;
encryption_params.protection_scheme = FOURCC_cenc;
encryption_params.protection_systems = ProtectionSystem::kWidevine;
SetUpEncryptionHandler(encryption_params);
std::vector<uint8_t> widevine_system_id(
kWidevineSystemId, kWidevineSystemId + std::size(kWidevineSystemId));
EncryptionKey mock_encryption_key = GetMockEncryptionKey();
ProtectionSystemSpecificInfo protection_info;
protection_info.system_id = widevine_system_id;
mock_encryption_key.key_system_info.emplace_back(protection_info);
EXPECT_CALL(mock_key_source_, GetKey(_, _))
.WillOnce(
DoAll(SetArgPointee<1>(mock_encryption_key), Return(Status::OK)));
ASSERT_OK(Process(StreamData::FromStreamInfo(
kStreamIndex, GetVideoStreamInfo(kTimeScale, kCodecH264))));
EXPECT_THAT(GetOutputStreamDataVector(),
ElementsAre(IsStreamInfo(_, kTimeScale, kEncrypted, _)));
const StreamInfo* stream_info =
GetOutputStreamDataVector().back()->stream_info.get();
ASSERT_THAT(stream_info->encryption_config().key_system_info,
ElementsAre(IsPsshInfoWithSystemId(widevine_system_id)));
// Should use above info, not generate new info.
ASSERT_TRUE(
stream_info->encryption_config().key_system_info[0].psshs.empty());
}
} // namespace media
} // namespace shaka