blob: 683b2ba18eb4aeebf4cb04bf0a91e790a85bcb86 [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <string>
#include <vector>
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/callback_helpers.h"
#include "base/message_loop.h"
#include "base/run_loop.h"
#include "cobalt/media/base/decoder_buffer.h"
#include "cobalt/media/base/decrypt_config.h"
#include "cobalt/media/base/gmock_callback_support.h"
#include "cobalt/media/base/mock_filters.h"
#include "cobalt/media/base/test_helpers.h"
#include "cobalt/media/base/video_frame.h"
#include "cobalt/media/filters/decrypting_video_decoder.h"
#include "starboard/types.h"
#include "testing/gmock/include/gmock/gmock.h"
using ::testing::_;
using ::testing::Invoke;
using ::testing::Return;
using ::testing::SaveArg;
using ::testing::StrictMock;
namespace cobalt {
namespace media {
const uint8_t kFakeKeyId[] = {0x4b, 0x65, 0x79, 0x20, 0x49, 0x44};
const uint8_t kFakeIv[DecryptConfig::kDecryptionKeySize] = {0};
const int kDecodingDelay = 3;
// Create a fake non-empty encrypted buffer.
static scoped_refptr<DecoderBuffer> CreateFakeEncryptedBuffer() {
const int buffer_size = 16; // Need a non-empty buffer;
scoped_refptr<DecoderBuffer> buffer(new DecoderBuffer(buffer_size));
buffer->set_decrypt_config(std::unique_ptr<DecryptConfig>(new DecryptConfig(
std::string(reinterpret_cast<const char*>(kFakeKeyId),
arraysize(kFakeKeyId)),
std::string(reinterpret_cast<const char*>(kFakeIv), arraysize(kFakeIv)),
std::vector<SubsampleEntry>())));
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_P3(ResetAndRunCallback, callback, p1, p2) {
base::ResetAndReturn(callback).Run(p1, p2);
}
} // namespace
class DecryptingVideoDecoderTest : public testing::Test {
public:
DecryptingVideoDecoderTest()
: decoder_(new DecryptingVideoDecoder(
message_loop_.task_runner(), new MediaLog(),
base::Bind(&DecryptingVideoDecoderTest::OnWaitingForDecryptionKey,
base::Unretained(this)))),
cdm_context_(new StrictMock<MockCdmContext>()),
decryptor_(new StrictMock<MockDecryptor>()),
num_decrypt_and_decode_calls_(0),
num_frames_in_decryptor_(0),
encrypted_buffer_(CreateFakeEncryptedBuffer()),
decoded_video_frame_(
VideoFrame::CreateBlackFrame(TestVideoConfig::NormalCodedSize())),
null_video_frame_(scoped_refptr<VideoFrame>()) {}
virtual ~DecryptingVideoDecoderTest() { Destroy(); }
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() : NULL));
}
// Initializes the |decoder_| and expects |success|. Note the initialization
// can succeed or fail.
void InitializeAndExpectResult(const VideoDecoderConfig& config,
bool success) {
decoder_->Initialize(config, false, cdm_context_.get(),
NewExpectedBoolCB(success),
base::Bind(&DecryptingVideoDecoderTest::FrameReady,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
}
// Initialize the |decoder_| and expects it to succeed.
void Initialize() {
SetCdmType(CDM_WITH_DECRYPTOR);
EXPECT_CALL(*decryptor_, InitializeVideoDecoder(_, _))
.WillOnce(RunCallback<1>(true));
EXPECT_CALL(*decryptor_, RegisterNewKeyCB(Decryptor::kVideo, _))
.WillOnce(SaveArg<1>(&key_added_cb_));
InitializeAndExpectResult(TestVideoConfig::NormalEncrypted(), true);
}
// Reinitialize the |decoder_| and expects it to succeed.
void Reinitialize() {
EXPECT_CALL(*decryptor_, DeinitializeDecoder(Decryptor::kVideo));
EXPECT_CALL(*decryptor_, InitializeVideoDecoder(_, _))
.WillOnce(RunCallback<1>(true));
EXPECT_CALL(*decryptor_, RegisterNewKeyCB(Decryptor::kVideo, _))
.WillOnce(SaveArg<1>(&key_added_cb_));
InitializeAndExpectResult(TestVideoConfig::LargeEncrypted(), true);
}
// Decode |buffer| and expect DecodeDone to get called with |status|.
void DecodeAndExpect(const scoped_refptr<DecoderBuffer>& buffer,
DecodeStatus status) {
EXPECT_CALL(*this, DecodeDone(status));
decoder_->Decode(buffer, base::Bind(&DecryptingVideoDecoderTest::DecodeDone,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
}
// Helper function to simulate the decrypting and decoding process in the
// |decryptor_| with a decoding delay of kDecodingDelay buffers.
void DecryptAndDecodeVideo(const scoped_refptr<DecoderBuffer>& encrypted,
const Decryptor::VideoDecodeCB& video_decode_cb) {
num_decrypt_and_decode_calls_++;
if (!encrypted->end_of_stream()) num_frames_in_decryptor_++;
if (num_decrypt_and_decode_calls_ <= kDecodingDelay ||
num_frames_in_decryptor_ == 0) {
video_decode_cb.Run(Decryptor::kNeedMoreData,
scoped_refptr<VideoFrame>());
return;
}
num_frames_in_decryptor_--;
video_decode_cb.Run(Decryptor::kSuccess, decoded_video_frame_);
}
// Sets up expectations and actions to put DecryptingVideoDecoder in an
// active normal decoding state.
void EnterNormalDecodingState() {
EXPECT_CALL(*decryptor_, DecryptAndDecodeVideo(_, _))
.WillRepeatedly(
Invoke(this, &DecryptingVideoDecoderTest::DecryptAndDecodeVideo));
EXPECT_CALL(*this, FrameReady(decoded_video_frame_));
for (int i = 0; i < kDecodingDelay + 1; ++i)
DecodeAndExpect(encrypted_buffer_, DecodeStatus::OK);
}
// Sets up expectations and actions to put DecryptingVideoDecoder in an end
// of stream state. This function must be called after
// EnterNormalDecodingState() to work.
void EnterEndOfStreamState() {
// The codec in the |decryptor_| will be flushed.
EXPECT_CALL(*this, FrameReady(decoded_video_frame_)).Times(kDecodingDelay);
DecodeAndExpect(DecoderBuffer::CreateEOSBuffer(), DecodeStatus::OK);
EXPECT_EQ(0, num_frames_in_decryptor_);
}
// Make the video decode callback pending by saving and not firing it.
void EnterPendingDecodeState() {
EXPECT_TRUE(pending_video_decode_cb_.is_null());
EXPECT_CALL(*decryptor_, DecryptAndDecodeVideo(encrypted_buffer_, _))
.WillOnce(SaveArg<1>(&pending_video_decode_cb_));
decoder_->Decode(encrypted_buffer_,
base::Bind(&DecryptingVideoDecoderTest::DecodeDone,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
// Make sure the Decode() on the decoder triggers a DecryptAndDecode() on
// the decryptor.
EXPECT_FALSE(pending_video_decode_cb_.is_null());
}
void EnterWaitingForKeyState() {
EXPECT_CALL(*decryptor_, DecryptAndDecodeVideo(_, _))
.WillRepeatedly(RunCallback<1>(Decryptor::kNoKey, null_video_frame_));
EXPECT_CALL(*this, OnWaitingForDecryptionKey());
decoder_->Decode(encrypted_buffer_,
base::Bind(&DecryptingVideoDecoderTest::DecodeDone,
base::Unretained(this)));
base::RunLoop().RunUntilIdle();
}
void AbortPendingVideoDecodeCB() {
if (!pending_video_decode_cb_.is_null()) {
base::ResetAndReturn(&pending_video_decode_cb_)
.Run(Decryptor::kSuccess, scoped_refptr<VideoFrame>(NULL));
}
}
void AbortAllPendingCBs() {
if (!pending_init_cb_.is_null()) {
ASSERT_TRUE(pending_video_decode_cb_.is_null());
base::ResetAndReturn(&pending_init_cb_).Run(false);
return;
}
AbortPendingVideoDecodeCB();
}
void Reset() {
EXPECT_CALL(*decryptor_, ResetDecoder(Decryptor::kVideo))
.WillRepeatedly(InvokeWithoutArgs(
this, &DecryptingVideoDecoderTest::AbortPendingVideoDecodeCB));
decoder_->Reset(NewExpectedClosure());
base::RunLoop().RunUntilIdle();
}
void Destroy() {
EXPECT_CALL(*decryptor_, DeinitializeDecoder(Decryptor::kVideo))
.WillRepeatedly(InvokeWithoutArgs(
this, &DecryptingVideoDecoderTest::AbortAllPendingCBs));
decoder_.reset();
base::RunLoop().RunUntilIdle();
}
MOCK_METHOD1(FrameReady, void(const scoped_refptr<VideoFrame>&));
MOCK_METHOD1(DecodeDone, void(DecodeStatus));
MOCK_METHOD0(OnWaitingForDecryptionKey, void(void));
base::MessageLoop message_loop_;
std::unique_ptr<DecryptingVideoDecoder> decoder_;
std::unique_ptr<StrictMock<MockCdmContext>> cdm_context_;
std::unique_ptr<StrictMock<MockDecryptor>> decryptor_;
// Variables to help the |decryptor_| to simulate decoding delay and flushing.
int num_decrypt_and_decode_calls_;
int num_frames_in_decryptor_;
Decryptor::DecoderInitCB pending_init_cb_;
Decryptor::NewKeyCB key_added_cb_;
Decryptor::VideoDecodeCB pending_video_decode_cb_;
// Constant buffer/frames.
scoped_refptr<DecoderBuffer> encrypted_buffer_;
scoped_refptr<VideoFrame> decoded_video_frame_;
scoped_refptr<VideoFrame> null_video_frame_;
private:
DISALLOW_COPY_AND_ASSIGN(DecryptingVideoDecoderTest);
};
TEST_F(DecryptingVideoDecoderTest, Initialize_Normal) { Initialize(); }
TEST_F(DecryptingVideoDecoderTest, Initialize_CdmWithoutDecryptor) {
SetCdmType(CDM_WITHOUT_DECRYPTOR);
InitializeAndExpectResult(TestVideoConfig::NormalEncrypted(), false);
}
TEST_F(DecryptingVideoDecoderTest, Initialize_Failure) {
SetCdmType(CDM_WITH_DECRYPTOR);
EXPECT_CALL(*decryptor_, InitializeVideoDecoder(_, _))
.WillRepeatedly(RunCallback<1>(false));
EXPECT_CALL(*decryptor_, RegisterNewKeyCB(Decryptor::kVideo, _))
.WillRepeatedly(SaveArg<1>(&key_added_cb_));
InitializeAndExpectResult(TestVideoConfig::NormalEncrypted(), false);
}
TEST_F(DecryptingVideoDecoderTest, Reinitialize_Normal) {
Initialize();
EnterNormalDecodingState();
Reinitialize();
}
TEST_F(DecryptingVideoDecoderTest, Reinitialize_Failure) {
Initialize();
EnterNormalDecodingState();
EXPECT_CALL(*decryptor_, DeinitializeDecoder(Decryptor::kVideo));
EXPECT_CALL(*decryptor_, InitializeVideoDecoder(_, _))
.WillOnce(RunCallback<1>(false));
// Reinitialize() expects the reinitialization to succeed. Call
// InitializeAndExpectResult() directly to test the reinitialization failure.
InitializeAndExpectResult(TestVideoConfig::NormalEncrypted(), false);
}
// Test normal decrypt and decode case.
TEST_F(DecryptingVideoDecoderTest, DecryptAndDecode_Normal) {
Initialize();
EnterNormalDecodingState();
}
// Test the case where the decryptor returns error when doing decrypt and
// decode.
TEST_F(DecryptingVideoDecoderTest, DecryptAndDecode_DecodeError) {
Initialize();
EXPECT_CALL(*decryptor_, DecryptAndDecodeVideo(_, _))
.WillRepeatedly(
RunCallback<1>(Decryptor::kError, scoped_refptr<VideoFrame>(NULL)));
DecodeAndExpect(encrypted_buffer_, DecodeStatus::DECODE_ERROR);
// After a decode error occurred, all following decodes return DECODE_ERROR.
DecodeAndExpect(encrypted_buffer_, DecodeStatus::DECODE_ERROR);
}
// Test the case where the decryptor receives end-of-stream buffer.
TEST_F(DecryptingVideoDecoderTest, DecryptAndDecode_EndOfStream) {
Initialize();
EnterNormalDecodingState();
EnterEndOfStreamState();
}
// Test the case where the a key is added when the decryptor is in
// kWaitingForKey state.
TEST_F(DecryptingVideoDecoderTest, KeyAdded_DuringWaitingForKey) {
Initialize();
EnterWaitingForKeyState();
EXPECT_CALL(*decryptor_, DecryptAndDecodeVideo(_, _))
.WillRepeatedly(
RunCallback<1>(Decryptor::kSuccess, decoded_video_frame_));
EXPECT_CALL(*this, FrameReady(decoded_video_frame_));
EXPECT_CALL(*this, DecodeDone(DecodeStatus::OK));
key_added_cb_.Run();
base::RunLoop().RunUntilIdle();
}
// Test the case where the a key is added when the decryptor is in
// kPendingDecode state.
TEST_F(DecryptingVideoDecoderTest, KeyAdded_DuringPendingDecode) {
Initialize();
EnterPendingDecodeState();
EXPECT_CALL(*decryptor_, DecryptAndDecodeVideo(_, _))
.WillRepeatedly(
RunCallback<1>(Decryptor::kSuccess, decoded_video_frame_));
EXPECT_CALL(*this, FrameReady(decoded_video_frame_));
EXPECT_CALL(*this, DecodeDone(DecodeStatus::OK));
// The video decode callback is returned after the correct decryption key is
// added.
key_added_cb_.Run();
base::ResetAndReturn(&pending_video_decode_cb_)
.Run(Decryptor::kNoKey, null_video_frame_);
base::RunLoop().RunUntilIdle();
}
// Test resetting when the decoder is in kIdle state but has not decoded any
// frame.
TEST_F(DecryptingVideoDecoderTest, Reset_DuringIdleAfterInitialization) {
Initialize();
Reset();
}
// Test resetting when the decoder is in kIdle state after it has decoded one
// frame.
TEST_F(DecryptingVideoDecoderTest, Reset_DuringIdleAfterDecodedOneFrame) {
Initialize();
EnterNormalDecodingState();
Reset();
}
// Test resetting when the decoder is in kPendingDecode state.
TEST_F(DecryptingVideoDecoderTest, Reset_DuringPendingDecode) {
Initialize();
EnterPendingDecodeState();
EXPECT_CALL(*this, DecodeDone(DecodeStatus::ABORTED));
Reset();
}
// Test resetting when the decoder is in kWaitingForKey state.
TEST_F(DecryptingVideoDecoderTest, Reset_DuringWaitingForKey) {
Initialize();
EnterWaitingForKeyState();
EXPECT_CALL(*this, DecodeDone(DecodeStatus::ABORTED));
Reset();
}
// Test resetting when the decoder has hit end of stream and is in
// kDecodeFinished state.
TEST_F(DecryptingVideoDecoderTest, Reset_AfterDecodeFinished) {
Initialize();
EnterNormalDecodingState();
EnterEndOfStreamState();
Reset();
}
// Test resetting after the decoder has been reset.
TEST_F(DecryptingVideoDecoderTest, Reset_AfterReset) {
Initialize();
EnterNormalDecodingState();
Reset();
Reset();
}
// Test destruction when the decoder is in kPendingDecoderInit state.
TEST_F(DecryptingVideoDecoderTest, Destroy_DuringPendingDecoderInit) {
SetCdmType(CDM_WITH_DECRYPTOR);
EXPECT_CALL(*decryptor_, InitializeVideoDecoder(_, _))
.WillOnce(SaveArg<1>(&pending_init_cb_));
InitializeAndExpectResult(TestVideoConfig::NormalEncrypted(), false);
EXPECT_FALSE(pending_init_cb_.is_null());
Destroy();
}
// Test destruction when the decoder is in kIdle state but has not decoded any
// frame.
TEST_F(DecryptingVideoDecoderTest, Destroy_DuringIdleAfterInitialization) {
Initialize();
Destroy();
}
// Test destruction when the decoder is in kIdle state after it has decoded one
// frame.
TEST_F(DecryptingVideoDecoderTest, Destroy_DuringIdleAfterDecodedOneFrame) {
Initialize();
EnterNormalDecodingState();
Destroy();
}
// Test destruction when the decoder is in kPendingDecode state.
TEST_F(DecryptingVideoDecoderTest, Destroy_DuringPendingDecode) {
Initialize();
EnterPendingDecodeState();
EXPECT_CALL(*this, DecodeDone(DecodeStatus::ABORTED));
Destroy();
}
// Test destruction when the decoder is in kWaitingForKey state.
TEST_F(DecryptingVideoDecoderTest, Destroy_DuringWaitingForKey) {
Initialize();
EnterWaitingForKeyState();
EXPECT_CALL(*this, DecodeDone(DecodeStatus::ABORTED));
Destroy();
}
// Test destruction when the decoder has hit end of stream and is in
// kDecodeFinished state.
TEST_F(DecryptingVideoDecoderTest, Destroy_AfterDecodeFinished) {
Initialize();
EnterNormalDecodingState();
EnterEndOfStreamState();
Destroy();
}
// Test destruction when there is a pending reset on the decoder.
// Reset is pending because it cannot complete when the video decode callback
// is pending.
TEST_F(DecryptingVideoDecoderTest, Destroy_DuringPendingReset) {
Initialize();
EnterPendingDecodeState();
EXPECT_CALL(*decryptor_, ResetDecoder(Decryptor::kVideo));
EXPECT_CALL(*this, DecodeDone(DecodeStatus::ABORTED));
decoder_->Reset(NewExpectedClosure());
Destroy();
}
// Test destruction after the decoder has been reset.
TEST_F(DecryptingVideoDecoderTest, Destroy_AfterReset) {
Initialize();
EnterNormalDecodingState();
Reset();
Destroy();
}
} // namespace media
} // namespace cobalt