shaka-packager/packager/media/base/media_handler_test_base.cc

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// Copyright 2017 Google Inc. 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/base/media_handler_test_base.h"
#include "packager/media/base/audio_stream_info.h"
#include "packager/media/base/text_stream_info.h"
#include "packager/media/base/video_stream_info.h"
#include "packager/status_test_util.h"
namespace {
const int kTrackId = 1;
const uint64_t kDuration = 10000;
const char kCodecString[] = "codec string";
const uint8_t kSampleBits = 1;
const uint8_t kNumChannels = 2;
const uint32_t kSamplingFrequency = 48000;
const uint64_t kSeekPrerollNs = 12345;
const uint64_t kCodecDelayNs = 56789;
const uint32_t kMaxBitrate = 13579;
const uint32_t kAvgBitrate = 13000;
const char kLanguage[] = "eng";
const uint16_t kWidth = 10u;
const uint16_t kHeight = 20u;
const uint32_t kPixelWidth = 2u;
const uint32_t kPixelHeight = 3u;
const int16_t kTrickPlayFactor = 0;
const uint8_t kNaluLengthSize = 1u;
const bool kEncrypted = true;
// Use H264 code config.
const uint8_t kCodecConfig[]{
// clang-format off
// Header
0x01, 0x64, 0x00, 0x1e, 0xff,
// SPS count (ignore top three bits)
0xe1,
// SPS
0x00, 0x19, // Size
0x67, 0x64, 0x00, 0x1e, 0xac, 0xd9, 0x40, 0xa0, 0x2f, 0xf9, 0x70, 0x11,
0x00, 0x00, 0x03, 0x03, 0xe9, 0x00, 0x00, 0xea, 0x60, 0x0f, 0x16, 0x2d,
0x96,
// PPS count
0x01,
// PPS
0x00, 0x06, // Size
0x68, 0xeb, 0xe3, 0xcb, 0x22, 0xc0,
// clang-format on
};
// Mock data, we don't really care about what is inside.
const uint8_t kData[]{
0x01, 0x02, 0x03, 0x04, 0x05, 0x06,
};
} // namespace
namespace shaka {
namespace media {
std::string BoolToString(bool value) {
return value ? "true" : "false";
}
bool TryMatchStreamDataType(const StreamDataType& actual,
const StreamDataType& expected,
::testing::MatchResultListener* listener) {
if (actual != expected) {
std::string expected_as_string = StreamDataTypeToString(expected);
std::string actual_as_string = StreamDataTypeToString(actual);
*listener << "which is " << actual_as_string << " (expected "
<< expected_as_string << ")";
return false;
}
return true;
}
bool TryMatchStreamType(const StreamType& actual,
const StreamType& expected,
::testing::MatchResultListener* listener) {
if (actual != expected) {
std::string expected_as_string = StreamTypeToString(expected);
std::string actual_as_string = StreamTypeToString(actual);
*listener << "which is " << actual_as_string << " (expected "
<< expected_as_string << ")";
return false;
}
return true;
}
std::string ToPrettyString(const std::string& str) {
std::string out;
// Opening quotation.
out.push_back('"');
for (char c : str) {
if (isspace(c)) {
// Make all white space characters spaces to avoid print issues in
// the terminal.
out.push_back(' ');
} else if (isalnum(c)) {
// If the character is alpha-numeric, then print it as is. Just using
// these characters, it should be enough to understand the string.
out.push_back(c);
} else {
// Replace all other characters with '.'. This is to avoid print issues
// (e.g. \n) or readability issues (e.g. ").
out.push_back('.');
}
}
// Closing quotation.
out.push_back('"');
return out;
}
bool FakeInputMediaHandler::ValidateOutputStreamIndex(size_t index) const {
return true;
}
Status FakeInputMediaHandler::InitializeInternal() {
return Status::OK;
}
Status FakeInputMediaHandler::Process(std::unique_ptr<StreamData> stream_data) {
return Status(error::INTERNAL_ERROR,
"FakeInputMediaHandler should never be a downstream handler.");
}
Status MockOutputMediaHandler::InitializeInternal() {
return Status::OK;
}
Status MockOutputMediaHandler::Process(
std::unique_ptr<StreamData> stream_data) {
OnProcess(stream_data.get());
return Status::OK;
}
Status MockOutputMediaHandler::OnFlushRequest(size_t index) {
OnFlush(index);
return Status::OK;
}
Status FakeMediaHandler::InitializeInternal() {
return Status::OK;
}
Status FakeMediaHandler::Process(std::unique_ptr<StreamData> stream_data) {
stream_data_vector_.push_back(std::move(stream_data));
return Status::OK;
}
Status FakeMediaHandler::OnFlushRequest(size_t input_stream_index) {
return Status::OK;
}
bool FakeMediaHandler::ValidateOutputStreamIndex(size_t stream_index) const {
return true;
}
bool MediaHandlerTestBase::IsVideoCodec(Codec codec) const {
return codec >= kCodecVideo && codec < kCodecVideoMaxPlusOne;
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetVideoStreamInfo(
uint32_t time_scale) const {
return GetVideoStreamInfo(time_scale, kCodecVP9, kWidth, kHeight);
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetVideoStreamInfo(
uint32_t time_scale,
uint32_t width,
uint64_t height) const {
return GetVideoStreamInfo(time_scale, kCodecVP9, width, height);
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetVideoStreamInfo(
uint32_t time_scale,
Codec codec) const {
return GetVideoStreamInfo(time_scale, codec, kWidth, kHeight);
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetVideoStreamInfo(
uint32_t time_scale,
Codec codec,
uint32_t width,
uint64_t height) const {
return std::unique_ptr<VideoStreamInfo>(new VideoStreamInfo(
kTrackId, time_scale, kDuration, codec, H26xStreamFormat::kUnSpecified,
kCodecString, kCodecConfig, sizeof(kCodecConfig), width, height,
kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage,
!kEncrypted));
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetAudioStreamInfo(
uint32_t time_scale) const {
return GetAudioStreamInfo(time_scale, kCodecAAC);
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetAudioStreamInfo(
uint32_t time_scale,
Codec codec) const {
return std::unique_ptr<AudioStreamInfo>(new AudioStreamInfo(
kTrackId, time_scale, kDuration, codec, kCodecString, kCodecConfig,
sizeof(kCodecConfig), kSampleBits, kNumChannels, kSamplingFrequency,
kSeekPrerollNs, kCodecDelayNs, kMaxBitrate, kAvgBitrate, kLanguage,
!kEncrypted));
}
std::shared_ptr<MediaSample> MediaHandlerTestBase::GetMediaSample(
int64_t timestamp,
int64_t duration,
bool is_keyframe) const {
return GetMediaSample(timestamp, duration, is_keyframe, kData, sizeof(kData));
}
std::shared_ptr<MediaSample> MediaHandlerTestBase::GetMediaSample(
int64_t timestamp,
int64_t duration,
bool is_keyframe,
const uint8_t* data,
size_t data_length) const {
std::shared_ptr<MediaSample> sample =
MediaSample::CopyFrom(data, data_length, nullptr, 0, is_keyframe);
sample->set_dts(timestamp);
sample->set_pts(timestamp);
sample->set_duration(duration);
return sample;
}
std::unique_ptr<SegmentInfo> MediaHandlerTestBase::GetSegmentInfo(
int64_t start_timestamp,
int64_t duration,
bool is_subsegment) const {
std::unique_ptr<SegmentInfo> info(new SegmentInfo);
info->start_timestamp = start_timestamp;
info->duration = duration;
info->is_subsegment = is_subsegment;
return info;
}
std::unique_ptr<StreamInfo> MediaHandlerTestBase::GetTextStreamInfo(
uint32_t timescale) const {
// None of this information is actually used by the text out handler.
// The stream info is just needed to signal the start of the stream.
return std::unique_ptr<StreamInfo>(
new TextStreamInfo(0, timescale, 0, kUnknownCodec, "", "", 0, 0, ""));
}
std::unique_ptr<TextSample> MediaHandlerTestBase::GetTextSample(
const std::string& id,
int64_t start,
int64_t end,
const std::string& payload) const {
std::unique_ptr<TextSample> sample(new TextSample);
sample->set_id(id);
sample->SetTime(start, end);
sample->AppendPayload(payload);
return sample;
}
std::unique_ptr<CueEvent> MediaHandlerTestBase::GetCueEvent(
double time_in_seconds) const {
std::unique_ptr<CueEvent> event(new CueEvent);
event->time_in_seconds = time_in_seconds;
return event;
}
Status MediaHandlerTestBase::SetUpAndInitializeGraph(
std::shared_ptr<MediaHandler> handler,
size_t input_count,
size_t output_count) {
DCHECK(handler);
DCHECK_EQ(nullptr, handler_);
DCHECK(inputs_.empty());
DCHECK(outputs_.empty());
handler_ = std::move(handler);
Status status;
// Add and connect all the requested inputs.
for (size_t i = 0; i < input_count; i++) {
inputs_.emplace_back(new FakeInputMediaHandler);
}
for (auto& input : inputs_) {
status.Update(input->AddHandler(handler_));
}
if (!status.ok()) {
return status;
}
// Add and connect all the requested outputs.
for (size_t i = 0; i < output_count; i++) {
outputs_.emplace_back(new testing::NiceMock<MockOutputMediaHandler>);
}
for (auto& output : outputs_) {
status.Update(handler_->AddHandler(output));
}
if (!status.ok()) {
return status;
}
// Initialize the graph.
for (auto& input : inputs_) {
status.Update(input->Initialize());
}
// In the case that there are no inputs, the start of the graph
// is at |handler_| so it needs to be initialized or else the graph
// won't be initialized.
if (inputs_.empty()) {
status.Update(handler_->Initialize());
}
return status;
}
FakeInputMediaHandler* MediaHandlerTestBase::Input(size_t index) {
DCHECK_LT(index, inputs_.size());
return inputs_[index].get();
}
MockOutputMediaHandler* MediaHandlerTestBase::Output(size_t index) {
DCHECK_LT(index, outputs_.size());
return outputs_[index].get();
}
MediaHandlerGraphTestBase::MediaHandlerGraphTestBase()
: next_handler_(new FakeMediaHandler),
some_handler_(new FakeMediaHandler) {}
void MediaHandlerGraphTestBase::SetUpGraph(
size_t num_inputs,
size_t num_outputs,
std::shared_ptr<MediaHandler> handler) {
// Input handler is not really used anywhere but just to satisfy one input
// one output restriction for the encryption handler.
auto input_handler = std::make_shared<FakeMediaHandler>();
for (size_t i = 0; i < num_inputs; ++i)
ASSERT_OK(input_handler->SetHandler(i, handler));
// All outputs are routed to |next_handler_|.
for (size_t i = 0; i < num_outputs; ++i)
ASSERT_OK(handler->SetHandler(i, next_handler_));
}
const std::vector<std::unique_ptr<StreamData>>&
MediaHandlerGraphTestBase::GetOutputStreamDataVector() const {
return next_handler_->stream_data_vector();
}
void MediaHandlerGraphTestBase::ClearOutputStreamDataVector() {
next_handler_->clear_stream_data_vector();
}
} // namespace media
} // namespace shaka