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media / filters / decrypting_demuxer_stream_unittest.cc [blame]
// Copyright 2012 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "media/filters/decrypting_demuxer_stream.h"
#include <stdint.h>
#include <string>
#include <vector>
#include "base/functional/bind.h"
#include "base/functional/callback_helpers.h"
#include "base/run_loop.h"
#include "base/test/gmock_callback_support.h"
#include "base/test/gmock_move_support.h"
#include "base/test/task_environment.h"
#include "media/base/decoder_buffer.h"
#include "media/base/decrypt_config.h"
#include "media/base/media_util.h"
#include "media/base/mock_filters.h"
#include "media/base/mock_media_log.h"
#include "media/base/test_helpers.h"
#include "testing/gmock/include/gmock/gmock.h"
using ::base::test::RunCallback;
using ::base::test::RunOnceCallback;
using ::base::test::RunOnceCallbackRepeatedly;
using ::testing::_;
using ::testing::HasSubstr;
using ::testing::InSequence;
using ::testing::Invoke;
using ::testing::InvokeWithoutArgs;
using ::testing::Return;
using ::testing::SaveArg;
using ::testing::StrictMock;
using ::testing::WithArg;
namespace media {
static const int kFakeBufferSize = 16;
static const uint8_t kFakeKeyId[] = {0x4b, 0x65, 0x79, 0x20, 0x49, 0x44};
static const uint8_t kFakeIv[DecryptConfig::kDecryptionKeySize] = {};
// Create a fake non-empty buffer in an encrypted stream. When |is_clear| is
// true, the buffer is not encrypted (signaled by an empty IV).
static scoped_refptr<DecoderBuffer> CreateFakeEncryptedStreamBuffer(
bool is_clear) {
auto buffer = base::MakeRefCounted<DecoderBuffer>(kFakeBufferSize);
std::string iv = is_clear
? std::string()
: std::string(reinterpret_cast<const char*>(kFakeIv),
std::size(kFakeIv));
if (!is_clear) {
buffer->set_decrypt_config(DecryptConfig::CreateCencConfig(
std::string(reinterpret_cast<const char*>(kFakeKeyId),
std::size(kFakeKeyId)),
iv, {}));
}
return buffer;
}
// Use anonymous namespace here to prevent the actions to be defined multiple
// times across multiple test files. Sadly we can't use static for them.
namespace {
ACTION_P(ReturnBuffer, buffer) {
std::move(arg0).Run(
buffer.get() ? DemuxerStream::kOk : DemuxerStream::kAborted, {buffer});
}
} // namespace
class DecryptingDemuxerStreamTest : public testing::Test {
public:
DecryptingDemuxerStreamTest()
: demuxer_stream_(std::make_unique<DecryptingDemuxerStream>(
task_environment_.GetMainThreadTaskRunner(),
&media_log_,
base::BindRepeating(&DecryptingDemuxerStreamTest::OnWaiting,
base::Unretained(this)))),
cdm_context_(std::make_unique<StrictMock<MockCdmContext>>()),
decryptor_(std::make_unique<StrictMock<MockDecryptor>>()),
is_initialized_(false),
input_audio_stream_(std::make_unique<StrictMock<MockDemuxerStream>>(
DemuxerStream::AUDIO)),
input_video_stream_(std::make_unique<StrictMock<MockDemuxerStream>>(
DemuxerStream::VIDEO)),
clear_buffer_(base::MakeRefCounted<DecoderBuffer>(kFakeBufferSize)),
clear_encrypted_stream_buffer_(CreateFakeEncryptedStreamBuffer(true)),
encrypted_buffer_(CreateFakeEncryptedStreamBuffer(false)),
decrypted_buffer_(
base::MakeRefCounted<DecoderBuffer>(kFakeBufferSize)) {}
DecryptingDemuxerStreamTest(const DecryptingDemuxerStreamTest&) = delete;
DecryptingDemuxerStreamTest& operator=(const DecryptingDemuxerStreamTest&) =
delete;
~DecryptingDemuxerStreamTest() override {
if (is_initialized_)
EXPECT_CALL(*decryptor_, CancelDecrypt(_));
demuxer_stream_.reset();
base::RunLoop().RunUntilIdle();
}
void OnInitialized(PipelineStatus expected_status, PipelineStatus status) {
EXPECT_EQ(expected_status, status);
is_initialized_ = status == PIPELINE_OK;
}
void InitializeAudioAndExpectStatus(const AudioDecoderConfig& config,
PipelineStatus expected_status) {
input_audio_stream_->set_audio_decoder_config(config);
demuxer_stream_->Initialize(
input_audio_stream_.get(), cdm_context_.get(),
base::BindOnce(&DecryptingDemuxerStreamTest::OnInitialized,
base::Unretained(this), expected_status));
base::RunLoop().RunUntilIdle();
}
void InitializeVideoAndExpectStatus(const VideoDecoderConfig& config,
PipelineStatus expected_status) {
input_video_stream_->set_video_decoder_config(config);
demuxer_stream_->Initialize(
input_video_stream_.get(), cdm_context_.get(),
base::BindOnce(&DecryptingDemuxerStreamTest::OnInitialized,
base::Unretained(this), expected_status));
base::RunLoop().RunUntilIdle();
}
enum CdmType { CDM_WITHOUT_DECRYPTOR, CDM_WITH_DECRYPTOR };
void SetCdmType(CdmType cdm_type) {
const bool has_decryptor = cdm_type == CDM_WITH_DECRYPTOR;
EXPECT_CALL(*cdm_context_, GetDecryptor())
.WillRepeatedly(Return(has_decryptor ? decryptor_.get() : nullptr));
}
// The following functions are used to test stream-type-neutral logic in
// DecryptingDemuxerStream. Therefore, we don't specify audio or video in the
// function names. But for testing purpose, they all use an audio input
// demuxer stream.
void Initialize(int audio_init_times = 1, int video_init_times = 1) {
SetCdmType(CDM_WITH_DECRYPTOR);
EXPECT_CALL(*cdm_context_, RegisterEventCB(_)).WillOnce([&](auto cb) {
event_cb_ = cb;
return std::make_unique<CallbackRegistration>();
});
AudioDecoderConfig input_config(AudioCodec::kVorbis, kSampleFormatPlanarF32,
CHANNEL_LAYOUT_STEREO, 44100,
EmptyExtraData(), EncryptionScheme::kCenc);
EXPECT_MEDIA_LOG(HasSubstr("kAudioTracks")).Times(audio_init_times);
EXPECT_MEDIA_LOG(HasSubstr("kVideoTracks")).Times(video_init_times);
InitializeAudioAndExpectStatus(input_config, PIPELINE_OK);
const AudioDecoderConfig& output_config =
demuxer_stream_->audio_decoder_config();
EXPECT_EQ(DemuxerStream::AUDIO, demuxer_stream_->type());
EXPECT_FALSE(output_config.is_encrypted());
EXPECT_EQ(input_config.bytes_per_channel(),
output_config.bytes_per_channel());
EXPECT_EQ(input_config.channel_layout(), output_config.channel_layout());
EXPECT_EQ(input_config.sample_format(), output_config.sample_format());
EXPECT_EQ(input_config.samples_per_second(),
output_config.samples_per_second());
}
void ReadAndExpectBufferReadyWith(
DemuxerStream::Status status,
scoped_refptr<DecoderBuffer> decrypted_buffer) {
if (status != DemuxerStream::kOk)
EXPECT_CALL(*this, BufferReady(status, IsEmpty()));
else if (decrypted_buffer->end_of_stream())
EXPECT_CALL(*this, BufferReady(status, ReadOneAndIsEndOfStream()));
else {
DemuxerStream::DecoderBufferVector buffers;
buffers.emplace_back(decrypted_buffer_);
EXPECT_CALL(*this, BufferReady(status, buffers));
}
demuxer_stream_->Read(
1, base::BindOnce(&DecryptingDemuxerStreamTest::BufferReady,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
}
void EnterClearReadingState(bool is_stream_encrypted) {
// Unencrypted streams never have a DecryptConfig.
EXPECT_FALSE(clear_encrypted_stream_buffer_->decrypt_config());
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillOnce(ReturnBuffer(is_stream_encrypted
? clear_encrypted_stream_buffer_
: clear_buffer_));
// For clearbuffer, decryptor->Decrypt() will not be called.
DemuxerStream::DecoderBufferVector buffers;
EXPECT_CALL(*this, BufferReady(DemuxerStream::kOk, _))
.WillOnce(SaveArg<1>(&buffers));
demuxer_stream_->Read(
1, base::BindOnce(&DecryptingDemuxerStreamTest::BufferReady,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
DCHECK_EQ(buffers.size(), 1u);
EXPECT_FALSE(buffers[0]->decrypt_config());
}
// Sets up expectations and actions to put DecryptingDemuxerStream in an
// active normal reading state.
void EnterNormalReadingState() {
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillOnce(ReturnBuffer(encrypted_buffer_));
EXPECT_CALL(*decryptor_, Decrypt(_, _, _))
.WillOnce(RunOnceCallback<2>(Decryptor::kSuccess, decrypted_buffer_));
ReadAndExpectBufferReadyWith(DemuxerStream::kOk, decrypted_buffer_);
}
// Make the read callback pending by saving and not firing it.
void EnterPendingReadState() {
EXPECT_TRUE(!pending_demuxer_read_cb_);
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillOnce(MoveArg<0>(&pending_demuxer_read_cb_));
demuxer_stream_->Read(
1, base::BindOnce(&DecryptingDemuxerStreamTest::BufferReady,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
// Make sure the Read() triggers a Read() on the input demuxer stream.
EXPECT_FALSE(!pending_demuxer_read_cb_);
}
// Make the decrypt callback pending by intercepting the call and not firing
// the callback.
void EnterPendingDecryptState() {
EXPECT_TRUE(!pending_decrypt_cb_);
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillRepeatedly(ReturnBuffer(encrypted_buffer_));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillOnce(WithArg<2>(Invoke([&](Decryptor::DecryptCB callback) {
pending_decrypt_cb_ = std::move(callback);
})));
demuxer_stream_->Read(
1, base::BindOnce(&DecryptingDemuxerStreamTest::BufferReady,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
// Make sure Read() triggers a Decrypt() on the decryptor.
EXPECT_FALSE(!pending_decrypt_cb_);
}
void EnterWaitingForKeyState() {
InSequence s;
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillRepeatedly(ReturnBuffer(encrypted_buffer_));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillRepeatedly(RunOnceCallbackRepeatedly<2>(
Decryptor::kNoKey, scoped_refptr<DecoderBuffer>()));
EXPECT_MEDIA_LOG(HasSubstr("DecryptingDemuxerStream: no key for key ID"));
EXPECT_CALL(*this, OnWaiting(WaitingReason::kNoDecryptionKey));
demuxer_stream_->Read(
1, base::BindOnce(&DecryptingDemuxerStreamTest::BufferReady,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
}
void AbortPendingDecryptCB() {
if (pending_decrypt_cb_) {
std::move(pending_decrypt_cb_).Run(Decryptor::kSuccess, nullptr);
}
}
void SatisfyPendingDemuxerReadCB(DemuxerStream::Status status) {
scoped_refptr<DecoderBuffer> buffer =
(status == DemuxerStream::kOk) ? encrypted_buffer_ : nullptr;
std::move(pending_demuxer_read_cb_).Run(status, {buffer});
}
void Reset() {
EXPECT_CALL(*decryptor_, CancelDecrypt(Decryptor::kAudio))
.WillRepeatedly(InvokeWithoutArgs(
this, &DecryptingDemuxerStreamTest::AbortPendingDecryptCB));
demuxer_stream_->Reset(NewExpectedClosure());
base::RunLoop().RunUntilIdle();
}
MOCK_METHOD2(BufferReady,
void(DemuxerStream::Status, DemuxerStream::DecoderBufferVector));
MOCK_METHOD1(OnWaiting, void(WaitingReason));
base::test::SingleThreadTaskEnvironment task_environment_;
StrictMock<MockMediaLog> media_log_;
std::unique_ptr<DecryptingDemuxerStream> demuxer_stream_;
std::unique_ptr<StrictMock<MockCdmContext>> cdm_context_;
std::unique_ptr<StrictMock<MockDecryptor>> decryptor_;
// Whether the |demuxer_stream_| is successfully initialized.
bool is_initialized_;
std::unique_ptr<StrictMock<MockDemuxerStream>> input_audio_stream_;
std::unique_ptr<StrictMock<MockDemuxerStream>> input_video_stream_;
DemuxerStream::ReadCB pending_demuxer_read_cb_;
CdmContext::EventCB event_cb_;
Decryptor::DecryptCB pending_decrypt_cb_;
// Constant buffers to be returned by the input demuxer streams and the
// |decryptor_|.
scoped_refptr<DecoderBuffer> clear_buffer_;
scoped_refptr<DecoderBuffer> clear_encrypted_stream_buffer_;
scoped_refptr<DecoderBuffer> encrypted_buffer_;
scoped_refptr<DecoderBuffer> decrypted_buffer_;
};
TEST_F(DecryptingDemuxerStreamTest, Initialize_NormalAudio) {
Initialize();
}
TEST_F(DecryptingDemuxerStreamTest, Initialize_NormalVideo) {
SetCdmType(CDM_WITH_DECRYPTOR);
EXPECT_CALL(*cdm_context_, RegisterEventCB(_)).WillOnce([&](auto cb) {
event_cb_ = cb;
return std::make_unique<CallbackRegistration>();
});
VideoDecoderConfig input_config = TestVideoConfig::NormalEncrypted();
EXPECT_MEDIA_LOG(HasSubstr("kAudioTracks"));
EXPECT_MEDIA_LOG(HasSubstr("kVideoTracks"));
InitializeVideoAndExpectStatus(input_config, PIPELINE_OK);
const VideoDecoderConfig& output_config =
demuxer_stream_->video_decoder_config();
EXPECT_EQ(DemuxerStream::VIDEO, demuxer_stream_->type());
EXPECT_FALSE(output_config.is_encrypted());
EXPECT_EQ(input_config.codec(), output_config.codec());
EXPECT_EQ(input_config.alpha_mode(), output_config.alpha_mode());
EXPECT_EQ(input_config.profile(), output_config.profile());
EXPECT_EQ(input_config.coded_size(), output_config.coded_size());
EXPECT_EQ(input_config.visible_rect(), output_config.visible_rect());
EXPECT_EQ(input_config.natural_size(), output_config.natural_size());
ASSERT_EQ(input_config.extra_data(), output_config.extra_data());
}
TEST_F(DecryptingDemuxerStreamTest, Initialize_CdmWithoutDecryptor) {
SetCdmType(CDM_WITHOUT_DECRYPTOR);
AudioDecoderConfig input_config(AudioCodec::kVorbis, kSampleFormatPlanarF32,
CHANNEL_LAYOUT_STEREO, 44100,
EmptyExtraData(), EncryptionScheme::kCenc);
EXPECT_MEDIA_LOG(HasSubstr("kAudioTracks"));
EXPECT_MEDIA_LOG(HasSubstr("kVideoTracks"));
InitializeAudioAndExpectStatus(input_config, DECODER_ERROR_NOT_SUPPORTED);
}
// Test normal read case where the buffer is encrypted.
TEST_F(DecryptingDemuxerStreamTest, Read_Normal) {
Initialize();
EnterNormalReadingState();
}
// Test normal read case where the buffer is clear.
TEST_F(DecryptingDemuxerStreamTest, Read_ClearBufferInEncryptedStream) {
Initialize();
EnterClearReadingState(true);
}
TEST_F(DecryptingDemuxerStreamTest, Read_ClearBufferInClearStream) {
Initialize();
EnterClearReadingState(false);
}
// Test the case where the decryptor returns error during read.
TEST_F(DecryptingDemuxerStreamTest, Read_DecryptError) {
Initialize();
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillRepeatedly(ReturnBuffer(encrypted_buffer_));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillRepeatedly(RunOnceCallbackRepeatedly<2>(
Decryptor::kError, scoped_refptr<DecoderBuffer>()));
EXPECT_MEDIA_LOG(HasSubstr("DecryptingDemuxerStream: decrypt error"));
ReadAndExpectBufferReadyWith(DemuxerStream::kError, nullptr);
}
// Test the case where the decryptor errors for mismatched subsamples
TEST_F(DecryptingDemuxerStreamTest, Read_MismatchedSubsampleError) {
Initialize();
encrypted_buffer_ = CreateMismatchedBufferForTest();
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillRepeatedly(ReturnBuffer(encrypted_buffer_));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillRepeatedly(RunOnceCallbackRepeatedly<2>(
Decryptor::kError, scoped_refptr<DecoderBuffer>()));
EXPECT_MEDIA_LOG(
HasSubstr("DecryptingDemuxerStream: Subsamples for Buffer do not match"));
ReadAndExpectBufferReadyWith(DemuxerStream::kError, nullptr);
}
// Test the case where the decryptor returns kNeedMoreData during read.
TEST_F(DecryptingDemuxerStreamTest, Read_DecryptNeedMoreData) {
Initialize();
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillRepeatedly(ReturnBuffer(encrypted_buffer_));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillRepeatedly(RunOnceCallbackRepeatedly<2>(
Decryptor::kNeedMoreData, scoped_refptr<DecoderBuffer>()));
EXPECT_MEDIA_LOG(HasSubstr("DecryptingDemuxerStream: decrypt error"));
ReadAndExpectBufferReadyWith(DemuxerStream::kError, nullptr);
}
// Test the case where the input is an end-of-stream buffer.
TEST_F(DecryptingDemuxerStreamTest, Read_EndOfStream) {
Initialize();
EnterNormalReadingState();
// No Decryptor::Decrypt() call is expected for EOS buffer.
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillOnce(ReturnBuffer(DecoderBuffer::CreateEOSBuffer()));
ReadAndExpectBufferReadyWith(DemuxerStream::kOk,
DecoderBuffer::CreateEOSBuffer());
}
// Test the case where the a key is added when the decryptor is in
// kWaitingForKey state.
TEST_F(DecryptingDemuxerStreamTest, KeyAdded_DuringWaitingForKey) {
Initialize();
EnterWaitingForKeyState();
EXPECT_MEDIA_LOG(
HasSubstr("DecryptingDemuxerStream: key was added, resuming decrypt"));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillRepeatedly(
RunOnceCallbackRepeatedly<2>(Decryptor::kSuccess, decrypted_buffer_));
DemuxerStream::DecoderBufferVector buffers;
buffers.emplace_back(decrypted_buffer_);
EXPECT_CALL(*this, BufferReady(DemuxerStream::kOk, buffers));
event_cb_.Run(CdmContext::Event::kHasAdditionalUsableKey);
base::RunLoop().RunUntilIdle();
}
// Test the case where the a key is added when the decryptor is in
// kPendingDecrypt state.
TEST_F(DecryptingDemuxerStreamTest, KeyAdded_DuringPendingDecrypt) {
Initialize();
EnterPendingDecryptState();
EXPECT_MEDIA_LOG(HasSubstr("DecryptingDemuxerStream: no key for key ID"));
EXPECT_MEDIA_LOG(
HasSubstr("DecryptingDemuxerStream: key was added, resuming decrypt"));
EXPECT_CALL(*decryptor_, Decrypt(_, encrypted_buffer_, _))
.WillRepeatedly(
RunOnceCallbackRepeatedly<2>(Decryptor::kSuccess, decrypted_buffer_));
DemuxerStream::DecoderBufferVector buffers;
buffers.emplace_back(decrypted_buffer_);
EXPECT_CALL(*this, BufferReady(DemuxerStream::kOk, buffers));
// The decrypt callback is returned after the correct decryption key is added.
event_cb_.Run(CdmContext::Event::kHasAdditionalUsableKey);
std::move(pending_decrypt_cb_).Run(Decryptor::kNoKey, nullptr);
base::RunLoop().RunUntilIdle();
}
// Test resetting in kIdle state but has not returned any buffer.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringIdleAfterInitialization) {
Initialize();
Reset();
}
// Test resetting in kIdle state after having returned one buffer.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringIdleAfterReadOneBuffer) {
Initialize();
EnterNormalReadingState();
Reset();
}
// Test resetting in kPendingDemuxerRead state.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringPendingDemuxerRead) {
Initialize();
EnterPendingReadState();
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
Reset();
SatisfyPendingDemuxerReadCB(DemuxerStream::kOk);
base::RunLoop().RunUntilIdle();
}
// Test resetting in kPendingDecrypt state.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringPendingDecrypt) {
Initialize();
EnterPendingDecryptState();
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
Reset();
}
// Test resetting in kWaitingForKey state.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringWaitingForKey) {
Initialize();
EnterWaitingForKeyState();
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
Reset();
}
// Test resetting after reset.
TEST_F(DecryptingDemuxerStreamTest, Reset_AfterReset) {
Initialize();
EnterNormalReadingState();
Reset();
Reset();
}
// Test aborted read on the demuxer stream.
TEST_F(DecryptingDemuxerStreamTest, DemuxerRead_Aborted) {
Initialize();
// ReturnBuffer() with null triggers aborted demuxer read.
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillOnce(ReturnBuffer(scoped_refptr<DecoderBuffer>()));
ReadAndExpectBufferReadyWith(DemuxerStream::kAborted, nullptr);
}
// Test resetting when waiting for an aborted read.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringAbortedDemuxerRead) {
Initialize();
EnterPendingReadState();
// Make sure we get a null audio frame returned.
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
Reset();
SatisfyPendingDemuxerReadCB(DemuxerStream::kAborted);
base::RunLoop().RunUntilIdle();
}
// Test config change on the input demuxer stream.
TEST_F(DecryptingDemuxerStreamTest, DemuxerRead_ConfigChanged) {
Initialize(2, 2);
AudioDecoderConfig new_config(AudioCodec::kVorbis, kSampleFormatPlanarF32,
CHANNEL_LAYOUT_STEREO, 88200, EmptyExtraData(),
EncryptionScheme::kCenc);
input_audio_stream_->set_audio_decoder_config(new_config);
EXPECT_CALL(*input_audio_stream_, OnRead(_))
.WillOnce(RunOnceCallback<0>(DemuxerStream::kConfigChanged,
DemuxerStream::DecoderBufferVector()));
ReadAndExpectBufferReadyWith(DemuxerStream::kConfigChanged, nullptr);
}
// Test resetting when waiting for a config changed read.
TEST_F(DecryptingDemuxerStreamTest, Reset_DuringConfigChangedDemuxerRead) {
Initialize(2, 2);
EnterPendingReadState();
// Make sure we get a |kConfigChanged| instead of a |kAborted|.
EXPECT_CALL(*this, BufferReady(DemuxerStream::kConfigChanged, IsEmpty()));
Reset();
SatisfyPendingDemuxerReadCB(DemuxerStream::kConfigChanged);
base::RunLoop().RunUntilIdle();
}
// The following tests test destruction in various scenarios. The destruction
// happens in DecryptingDemuxerStreamTest's dtor.
// Test destruction in kIdle state but has not returned any buffer.
TEST_F(DecryptingDemuxerStreamTest, Destroy_DuringIdleAfterInitialization) {
Initialize();
}
// Test destruction in kIdle state after having returned one buffer.
TEST_F(DecryptingDemuxerStreamTest, Destroy_DuringIdleAfterReadOneBuffer) {
Initialize();
EnterNormalReadingState();
}
// Test destruction in kPendingDemuxerRead state.
TEST_F(DecryptingDemuxerStreamTest, Destroy_DuringPendingDemuxerRead) {
Initialize();
EnterPendingReadState();
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
}
// Test destruction in kPendingDecrypt state.
TEST_F(DecryptingDemuxerStreamTest, Destroy_DuringPendingDecrypt) {
Initialize();
EnterPendingDecryptState();
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
}
// Test destruction in kWaitingForKey state.
TEST_F(DecryptingDemuxerStreamTest, Destroy_DuringWaitingForKey) {
Initialize();
EnterWaitingForKeyState();
EXPECT_CALL(*this, BufferReady(DemuxerStream::kAborted, IsEmpty()));
}
// Test destruction after reset.
TEST_F(DecryptingDemuxerStreamTest, Destroy_AfterReset) {
Initialize();
EnterNormalReadingState();
Reset();
}
} // namespace media