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media / gpu / h265_decoder_unittest.cc [blame]
// Copyright 2020 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/gpu/h265_decoder.h"
#include <cstring>
#include <memory>
#include <string>
#include "base/check.h"
#include "base/containers/extend.h"
#include "base/containers/queue.h"
#include "base/containers/span.h"
#include "base/files/file_util.h"
#include "base/memory/raw_ptr.h"
#include "base/types/optional_util.h"
#include "media/base/test_data_util.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
using ::testing::_;
using ::testing::Args;
using ::testing::Expectation;
using ::testing::InSequence;
using ::testing::Invoke;
using ::testing::MakeMatcher;
using ::testing::Matcher;
using ::testing::MatcherInterface;
using ::testing::MatchResultListener;
using ::testing::Mock;
using ::testing::Return;
using ::testing::WithArg;
namespace media {
namespace {
constexpr char kSpsPps[] = "bear-sps-pps.hevc";
constexpr char kFrame0[] = "bear-frame0.hevc";
constexpr char kFrame1[] = "bear-frame1.hevc";
constexpr char kFrame2[] = "bear-frame2.hevc";
constexpr char kFrame3[] = "bear-frame3.hevc";
constexpr char kFrame4[] = "bear-frame4.hevc";
constexpr char kFrame5[] = "bear-frame5.hevc";
constexpr char k10BitFrame0[] = "bear-320x180-10bit-frame-0.hevc";
constexpr char k10BitFrame1[] = "bear-320x180-10bit-frame-1.hevc";
constexpr char k10BitFrame2[] = "bear-320x180-10bit-frame-2.hevc";
constexpr char k10BitFrame3[] = "bear-320x180-10bit-frame-3.hevc";
constexpr char kYUV444Frame[] = "blackwhite_yuv444p-frame.hevc";
// Checks whether the decrypt config in the picture matches the decrypt config
// passed to this matcher.
MATCHER_P(DecryptConfigMatches, decrypt_config, "") {
return arg->decrypt_config()->Matches(*decrypt_config);
}
MATCHER(SubsampleSizeMatches, "Verify subsample sizes match buffer size") {
const size_t buffer_size = ::testing::get<0>(arg);
const std::vector<SubsampleEntry>& subsamples = ::testing::get<1>(arg);
size_t subsample_total_size = 0;
for (const auto& sample : subsamples) {
subsample_total_size += sample.cypher_bytes;
subsample_total_size += sample.clear_bytes;
}
return subsample_total_size == buffer_size;
}
// To have better description on mismatch.
class HasPocMatcher : public MatcherInterface<scoped_refptr<H265Picture>> {
public:
explicit HasPocMatcher(int expected_poc) : expected_poc_(expected_poc) {}
bool MatchAndExplain(scoped_refptr<H265Picture> p,
MatchResultListener* listener) const override {
if (p->pic_order_cnt_val_ == expected_poc_)
return true;
*listener << "with poc: " << p->pic_order_cnt_val_;
return false;
}
void DescribeTo(std::ostream* os) const override {
*os << "with poc " << expected_poc_;
}
private:
int expected_poc_;
};
Matcher<scoped_refptr<H265Picture>> HasPoc(int expected_poc) {
return MakeMatcher(new HasPocMatcher(expected_poc));
}
} // namespace
class MockH265Accelerator : public H265Decoder::H265Accelerator {
public:
MockH265Accelerator() = default;
MOCK_METHOD0(CreateH265Picture, scoped_refptr<H265Picture>());
MOCK_METHOD8(SubmitFrameMetadata,
Status(const H265SPS* sps,
const H265PPS* pps,
const H265SliceHeader* slice_hdr,
const H265Picture::Vector& ref_pic_list,
const H265Picture::Vector& ref_pic_set_lt_curr,
const H265Picture::Vector& ref_pic_set_st_curr_after,
const H265Picture::Vector& ref_pic_set_st_curr_before,
scoped_refptr<H265Picture> pic));
MOCK_METHOD(Status,
SubmitSlice,
(const H265SPS* sps,
const H265PPS* pps,
const H265SliceHeader* slice_hdr,
const H265Picture::Vector& ref_pic_list0,
const H265Picture::Vector& ref_pic_list1,
const H265Picture::Vector& ref_pic_set_lt_curr,
const H265Picture::Vector& ref_pic_set_st_curr_after,
const H265Picture::Vector& ref_pic_set_st_curr_before,
scoped_refptr<H265Picture> pic,
const uint8_t* data,
size_t size,
const std::vector<SubsampleEntry>& subsamples));
MOCK_METHOD1(SubmitDecode, Status(scoped_refptr<H265Picture> pic));
MOCK_METHOD1(OutputPicture, bool(scoped_refptr<H265Picture>));
MOCK_METHOD2(SetStream,
Status(base::span<const uint8_t> stream,
const DecryptConfig* decrypt_config));
bool IsChromaSamplingSupported(VideoChromaSampling format) override {
return format == VideoChromaSampling::k420;
}
void Reset() override {}
};
// Test H265Decoder by feeding different h265 frame sequences and make sure it
// behaves as expected.
class H265DecoderTest : public ::testing::Test {
public:
H265DecoderTest() = default;
void SetUp() override;
// Sets the bitstreams to be decoded, frame by frame. The content of each
// file is the encoded bitstream of a single video frame.
void SetInputFrameFiles(const std::vector<std::string>& frame_files);
// Keeps decoding the input bitstream set at |SetInputFrameFiles| until the
// decoder has consumed all bitstreams or returned from
// |H265Decoder::Decode|. Returns the same result as |H265Decoder::Decode|.
// If |set_stream_expect| is true, it will setup EXPECT_CALL for SetStream.
AcceleratedVideoDecoder::DecodeResult Decode(bool set_stream_expect = true);
void ResetExpectations() {
// Sets default behaviors for mock methods for convenience.
ON_CALL(*accelerator_, CreateH265Picture()).WillByDefault(Invoke([]() {
return new H265Picture();
}));
ON_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.WillByDefault(Return(H265Decoder::H265Accelerator::Status::kOk));
ON_CALL(*accelerator_, SubmitDecode(_))
.WillByDefault(Return(H265Decoder::H265Accelerator::Status::kOk));
ON_CALL(*accelerator_, OutputPicture(_)).WillByDefault(Return(true));
ON_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.With(Args<10, 11>(SubsampleSizeMatches()))
.WillByDefault(Return(H265Decoder::H265Accelerator::Status::kOk));
EXPECT_CALL(*accelerator_, SetStream(_, _))
.WillRepeatedly(
Return(H265Decoder::H265Accelerator::Status::kNotSupported));
}
protected:
std::unique_ptr<H265Decoder> decoder_;
raw_ptr<MockH265Accelerator> accelerator_;
private:
base::queue<std::string> input_frame_files_;
std::vector<uint8_t> bitstream_;
scoped_refptr<DecoderBuffer> decoder_buffer_;
};
void H265DecoderTest::SetUp() {
auto mock_accelerator = std::make_unique<MockH265Accelerator>();
accelerator_ = mock_accelerator.get();
decoder_.reset(new H265Decoder(std::move(mock_accelerator),
VIDEO_CODEC_PROFILE_UNKNOWN));
ResetExpectations();
}
void H265DecoderTest::SetInputFrameFiles(
const std::vector<std::string>& input_frame_files) {
for (auto f : input_frame_files)
input_frame_files_.push(f);
}
AcceleratedVideoDecoder::DecodeResult H265DecoderTest::Decode(
bool set_stream_expect) {
while (true) {
auto result = decoder_->Decode();
int32_t bitstream_id = 0;
if (result != AcceleratedVideoDecoder::kRanOutOfStreamData ||
input_frame_files_.empty())
return result;
auto input_file = GetTestDataFilePath(input_frame_files_.front());
input_frame_files_.pop();
CHECK(
base::OptionalUnwrapTo(base::ReadFileToBytes(input_file), bitstream_));
decoder_buffer_ = DecoderBuffer::CopyFrom(bitstream_);
EXPECT_NE(decoder_buffer_.get(), nullptr);
if (set_stream_expect)
EXPECT_CALL(*accelerator_, SetStream(_, _));
decoder_->SetStream(bitstream_id++, *decoder_buffer_);
}
}
TEST_F(H265DecoderTest, DecodeSingleFrame) {
SetInputFrameFiles({kSpsPps, kFrame0});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
// Also test running out of surfaces.
EXPECT_CALL(*accelerator_, CreateH265Picture()).WillOnce(Return(nullptr));
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfSurfaces, Decode());
EXPECT_TRUE(Mock::VerifyAndClearExpectations(&*accelerator_));
ResetExpectations();
{
InSequence sequence;
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(1);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(1);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(1);
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0))).Times(1);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0)));
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, SkipNonIDRFrames) {
SetInputFrameFiles({kSpsPps, kFrame1, kFrame2, kFrame0});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
{
InSequence sequence;
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(1);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(1);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(1);
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0))).Times(1);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0)));
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, DecodeProfileMain) {
SetInputFrameFiles(
{kSpsPps, kFrame0, kFrame1, kFrame2, kFrame3, kFrame4, kFrame5});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(6);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(6);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(6);
Expectation decode_poc0, decode_poc1, decode_poc2, decode_poc3, decode_poc4,
decode_poc8;
{
InSequence decode_order;
decode_poc0 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)));
decode_poc4 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(4)));
decode_poc2 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(2)));
decode_poc1 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(1)));
decode_poc3 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(3)));
decode_poc8 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(8)));
}
{
InSequence display_order;
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0))).After(decode_poc0);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(1))).After(decode_poc1);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(2))).After(decode_poc2);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(3))).After(decode_poc3);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(4))).After(decode_poc4);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(8))).After(decode_poc8);
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, Decode10BitStream) {
SetInputFrameFiles({k10BitFrame0, k10BitFrame1, k10BitFrame2, k10BitFrame3});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(gfx::Rect(320, 180), decoder_->GetVisibleRect());
EXPECT_EQ(HEVCPROFILE_MAIN10, decoder_->GetProfile());
EXPECT_EQ(10u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(4);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(4);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(4);
// Two pictures will be kept in the DPB for reordering. The second and third
// pictures should be outputted after feeding the fourth frame.
Expectation decode_poc0, decode_poc1, decode_poc2, decode_poc3;
{
InSequence decode_order;
decode_poc0 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)));
decode_poc3 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(3)));
decode_poc2 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(2)));
decode_poc1 = EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(1)));
}
{
InSequence display_order;
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0))).After(decode_poc0);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(1))).After(decode_poc1);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(2))).After(decode_poc2);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(3))).After(decode_poc3);
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, DenyDecodeNonYUV420) {
// YUV444 frame causes kDecodeError.
SetInputFrameFiles({kYUV444Frame});
ASSERT_EQ(AcceleratedVideoDecoder::kDecodeError, Decode());
}
TEST_F(H265DecoderTest, OutputPictureFailureCausesDecodeToFail) {
// Provide enough data that Decode() will try to output a frame.
SetInputFrameFiles({kSpsPps, kFrame0, kFrame1, kFrame2});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(3);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(3);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(3);
EXPECT_CALL(*accelerator_, SubmitDecode(_)).Times(3);
EXPECT_CALL(*accelerator_, OutputPicture(_)).WillRepeatedly(Return(false));
EXPECT_EQ(AcceleratedVideoDecoder::kDecodeError, Decode());
}
// Verify that the decryption config is passed to the accelerator.
TEST_F(H265DecoderTest, SetEncryptedStream) {
std::vector<uint8_t> bitstream1, bitstream2;
auto input_file1 = GetTestDataFilePath(kSpsPps);
CHECK(base::OptionalUnwrapTo(base::ReadFileToBytes(input_file1), bitstream1));
auto input_file2 = GetTestDataFilePath(kFrame0);
CHECK(base::OptionalUnwrapTo(base::ReadFileToBytes(input_file2), bitstream2));
std::vector<uint8_t> bitstream = bitstream1;
base::Extend(bitstream, bitstream2);
const char kAnyKeyId[] = "any_16byte_keyid";
const char kAnyIv[] = "any_16byte_iv___";
const std::vector<SubsampleEntry> subsamples = {
// No encrypted bytes. This test only checks whether the data is passed
// thru to the acclerator so making this completely clear.
{static_cast<uint32_t>(bitstream.size()), 0},
};
std::unique_ptr<DecryptConfig> decrypt_config =
DecryptConfig::CreateCencConfig(kAnyKeyId, kAnyIv, subsamples);
EXPECT_CALL(*accelerator_,
SubmitFrameMetadata(_, _, _, _, _, _, _,
DecryptConfigMatches(decrypt_config.get())))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kOk));
EXPECT_CALL(*accelerator_,
SubmitDecode(DecryptConfigMatches(decrypt_config.get())))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kOk));
auto buffer = DecoderBuffer::CopyFrom(bitstream);
ASSERT_NE(buffer.get(), nullptr);
buffer->set_decrypt_config(std::move(decrypt_config));
decoder_->SetStream(0, *buffer);
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, decoder_->Decode());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, decoder_->Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, SubmitFrameMetadataRetry) {
SetInputFrameFiles({kSpsPps, kFrame0});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
{
InSequence sequence;
EXPECT_CALL(*accelerator_, CreateH265Picture());
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain));
}
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode());
// Try again, assuming key still not set. Only SubmitFrameMetadata()
// should be called again.
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(0);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain));
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode());
// Assume key has been provided now, next call to Decode() should proceed.
{
InSequence sequence;
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)));
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0)));
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, SubmitSliceRetry) {
SetInputFrameFiles({kSpsPps, kFrame0});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
{
InSequence sequence;
EXPECT_CALL(*accelerator_, CreateH265Picture());
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain));
}
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode());
// Try again, assuming key still not set. Only SubmitSlice() should be
// called again.
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(0);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(0);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain));
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode());
// Assume key has been provided now, next call to Decode() should proceed.
{
InSequence sequence;
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)));
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0)));
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, SubmitDecodeRetry) {
SetInputFrameFiles({kSpsPps, kFrame0, kFrame1});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
{
InSequence sequence;
EXPECT_CALL(*accelerator_, CreateH265Picture());
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain));
}
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode());
// Try again, assuming key still not set. Only SubmitDecode() should be
// called again.
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(0);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(0);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(0);
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain));
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode());
// Assume key has been provided now, next call to Decode() should output
// the first frame.
{
InSequence sequence;
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0)));
EXPECT_CALL(*accelerator_, CreateH265Picture());
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _));
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(4)));
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0)));
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(4)));
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, SetStreamRetry) {
SetInputFrameFiles({kSpsPps, kFrame0});
EXPECT_CALL(*accelerator_, SetStream(_, _))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kTryAgain))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kOk))
.WillOnce(Return(H265Decoder::H265Accelerator::Status::kOk));
EXPECT_EQ(AcceleratedVideoDecoder::kTryAgain, Decode(false));
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode(false));
EXPECT_EQ(gfx::Size(320, 184), decoder_->GetPicSize());
EXPECT_EQ(HEVCPROFILE_MAIN, decoder_->GetProfile());
EXPECT_EQ(8u, decoder_->GetBitDepth());
EXPECT_EQ(17u, decoder_->GetRequiredNumOfPictures());
{
InSequence sequence;
EXPECT_CALL(*accelerator_, CreateH265Picture()).Times(1);
EXPECT_CALL(*accelerator_, SubmitFrameMetadata(_, _, _, _, _, _, _, _))
.Times(1);
EXPECT_CALL(*accelerator_, SubmitSlice(_, _, _, _, _, _, _, _, _, _, _, _))
.Times(1);
EXPECT_CALL(*accelerator_, SubmitDecode(HasPoc(0))).Times(1);
EXPECT_CALL(*accelerator_, OutputPicture(HasPoc(0))).Times(1);
}
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode(false));
EXPECT_TRUE(decoder_->Flush());
}
TEST_F(H265DecoderTest, DecodeMultiFrameInput) {
SetInputFrameFiles({"bear.hevc"});
EXPECT_EQ(AcceleratedVideoDecoder::kConfigChange, Decode());
EXPECT_EQ(AcceleratedVideoDecoder::kRanOutOfStreamData, Decode());
EXPECT_TRUE(decoder_->Flush());
}
} // namespace media