blob: 307b5085c906b226aec828b35a87e48913ee3c3e [file] [log] [blame]
/*
* Copyright (c) 2018 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include <memory>
#include "api/test/simulated_network.h"
#include "api/test/video/function_video_encoder_factory.h"
#include "call/fake_network_pipe.h"
#include "call/simulated_network.h"
#include "modules/include/module_common_types_public.h"
#include "modules/rtp_rtcp/source/rtp_packet.h"
#include "modules/video_coding/codecs/h264/include/h264.h"
#include "modules/video_coding/codecs/vp8/include/vp8.h"
#include "modules/video_coding/codecs/vp9/include/vp9.h"
#include "rtc_base/synchronization/mutex.h"
#include "rtc_base/task_queue_for_test.h"
#include "test/call_test.h"
#include "test/gmock.h"
#include "test/gtest.h"
#include "test/video_test_constants.h"
using ::testing::Contains;
namespace webrtc {
namespace {
constexpr int kWidth = 1280;
constexpr int kHeight = 720;
constexpr int kFps = 30;
constexpr int kFramesToObserve = 10;
uint8_t PayloadNameToPayloadType(const std::string& payload_name) {
if (payload_name == "VP8") {
return test::VideoTestConstants::kPayloadTypeVP8;
} else if (payload_name == "VP9") {
return test::VideoTestConstants::kPayloadTypeVP9;
} else if (payload_name == "H264") {
return test::VideoTestConstants::kPayloadTypeH264;
} else {
RTC_DCHECK_NOTREACHED();
return 0;
}
}
int RemoveOlderOrEqual(uint32_t timestamp, std::vector<uint32_t>* timestamps) {
int num_removed = 0;
while (!timestamps->empty()) {
auto it = timestamps->begin();
if (IsNewerTimestamp(*it, timestamp))
break;
timestamps->erase(it);
++num_removed;
}
return num_removed;
}
class FrameObserver : public test::RtpRtcpObserver,
public rtc::VideoSinkInterface<VideoFrame> {
public:
FrameObserver()
: test::RtpRtcpObserver(test::VideoTestConstants::kDefaultTimeout) {}
void Reset(uint8_t expected_payload_type) {
MutexLock lock(&mutex_);
num_sent_frames_ = 0;
num_rendered_frames_ = 0;
expected_payload_type_ = expected_payload_type;
}
private:
// Sends kFramesToObserve.
Action OnSendRtp(rtc::ArrayView<const uint8_t> packet) override {
MutexLock lock(&mutex_);
RtpPacket rtp_packet;
EXPECT_TRUE(rtp_packet.Parse(packet));
EXPECT_EQ(rtp_packet.Ssrc(), test::VideoTestConstants::kVideoSendSsrcs[0]);
if (rtp_packet.payload_size() == 0)
return SEND_PACKET; // Skip padding, may be sent after OnFrame is called.
if (expected_payload_type_ &&
rtp_packet.PayloadType() != expected_payload_type_.value()) {
return DROP_PACKET; // All frames sent.
}
if (!last_timestamp_ || rtp_packet.Timestamp() != *last_timestamp_) {
// New frame.
// Sent enough frames?
if (num_sent_frames_ >= kFramesToObserve)
return DROP_PACKET;
++num_sent_frames_;
sent_timestamps_.push_back(rtp_packet.Timestamp());
}
last_timestamp_ = rtp_packet.Timestamp();
return SEND_PACKET;
}
// Verifies that all sent frames are decoded and rendered.
void OnFrame(const VideoFrame& rendered_frame) override {
MutexLock lock(&mutex_);
EXPECT_THAT(sent_timestamps_, Contains(rendered_frame.timestamp()));
// Remove old timestamps too, only the newest decoded frame is rendered.
num_rendered_frames_ +=
RemoveOlderOrEqual(rendered_frame.timestamp(), &sent_timestamps_);
if (num_rendered_frames_ >= kFramesToObserve) {
EXPECT_TRUE(sent_timestamps_.empty()) << "All sent frames not decoded.";
observation_complete_.Set();
}
}
Mutex mutex_;
absl::optional<uint32_t> last_timestamp_; // Only accessed from pacer thread.
absl::optional<uint8_t> expected_payload_type_ RTC_GUARDED_BY(mutex_);
int num_sent_frames_ RTC_GUARDED_BY(mutex_) = 0;
int num_rendered_frames_ RTC_GUARDED_BY(mutex_) = 0;
std::vector<uint32_t> sent_timestamps_ RTC_GUARDED_BY(mutex_);
};
} // namespace
class MultiCodecReceiveTest : public test::CallTest {
public:
MultiCodecReceiveTest() {
SendTask(task_queue(), [this]() {
CreateCalls();
CreateSendTransport(BuiltInNetworkBehaviorConfig(), &observer_);
CreateReceiveTransport(BuiltInNetworkBehaviorConfig(), &observer_);
});
}
virtual ~MultiCodecReceiveTest() {
SendTask(task_queue(), [this]() {
send_transport_.reset();
receive_transport_.reset();
DestroyCalls();
});
}
struct CodecConfig {
std::string payload_name;
size_t num_temporal_layers;
};
void ConfigureEncoder(const CodecConfig& config,
VideoEncoderFactory* encoder_factory);
void ConfigureDecoders(const std::vector<CodecConfig>& configs,
VideoDecoderFactory* decoder_factory);
void RunTestWithCodecs(const std::vector<CodecConfig>& configs);
private:
FrameObserver observer_;
};
void MultiCodecReceiveTest::ConfigureDecoders(
const std::vector<CodecConfig>& configs,
VideoDecoderFactory* decoder_factory) {
video_receive_configs_[0].decoders.clear();
// Placing the payload names in a std::set retains the unique names only.
video_receive_configs_[0].decoder_factory = decoder_factory;
std::set<std::string> unique_payload_names;
for (const auto& config : configs)
if (unique_payload_names.insert(config.payload_name).second) {
VideoReceiveStreamInterface::Decoder decoder =
test::CreateMatchingDecoder(
PayloadNameToPayloadType(config.payload_name),
config.payload_name);
video_receive_configs_[0].decoders.push_back(decoder);
}
}
void MultiCodecReceiveTest::ConfigureEncoder(
const CodecConfig& config,
VideoEncoderFactory* encoder_factory) {
GetVideoSendConfig()->encoder_settings.encoder_factory = encoder_factory;
GetVideoSendConfig()->rtp.payload_name = config.payload_name;
GetVideoSendConfig()->rtp.payload_type =
PayloadNameToPayloadType(config.payload_name);
GetVideoEncoderConfig()->codec_type =
PayloadStringToCodecType(config.payload_name);
EXPECT_EQ(1u, GetVideoEncoderConfig()->simulcast_layers.size());
GetVideoEncoderConfig()->simulcast_layers[0].num_temporal_layers =
config.num_temporal_layers;
GetVideoEncoderConfig()->video_format.name = config.payload_name;
}
void MultiCodecReceiveTest::RunTestWithCodecs(
const std::vector<CodecConfig>& configs) {
EXPECT_TRUE(!configs.empty());
test::FunctionVideoEncoderFactory encoder_factory(
[](const SdpVideoFormat& format) -> std::unique_ptr<VideoEncoder> {
if (format.name == "VP8") {
return VP8Encoder::Create();
}
if (format.name == "VP9") {
return VP9Encoder::Create();
}
if (format.name == "H264") {
return H264Encoder::Create();
}
RTC_DCHECK_NOTREACHED() << format.name;
return nullptr;
});
test::FunctionVideoDecoderFactory decoder_factory(
[](const SdpVideoFormat& format) -> std::unique_ptr<VideoDecoder> {
if (format.name == "VP8") {
return VP8Decoder::Create();
}
if (format.name == "VP9") {
return VP9Decoder::Create();
}
if (format.name == "H264") {
return H264Decoder::Create();
}
RTC_DCHECK_NOTREACHED() << format.name;
return nullptr;
});
// Create and start call.
SendTask(task_queue(),
[this, &configs, &encoder_factory, &decoder_factory]() {
CreateSendConfig(1, 0, 0);
ConfigureEncoder(configs[0], &encoder_factory);
CreateMatchingReceiveConfigs();
video_receive_configs_[0].renderer = &observer_;
// Disable to avoid post-decode frame dropping in
// VideoRenderFrames.
video_receive_configs_[0].enable_prerenderer_smoothing = false;
ConfigureDecoders(configs, &decoder_factory);
CreateVideoStreams();
CreateFrameGeneratorCapturer(kFps, kWidth, kHeight);
Start();
});
EXPECT_TRUE(observer_.Wait()) << "Timed out waiting for frames.";
for (size_t i = 1; i < configs.size(); ++i) {
// Recreate VideoSendStream with new config (codec, temporal layers).
SendTask(task_queue(), [this, i, &configs, &encoder_factory]() {
DestroyVideoSendStreams();
observer_.Reset(PayloadNameToPayloadType(configs[i].payload_name));
ConfigureEncoder(configs[i], &encoder_factory);
CreateVideoSendStreams();
GetVideoSendStream()->Start();
CreateFrameGeneratorCapturer(kFps, kWidth / 2, kHeight / 2);
ConnectVideoSourcesToStreams();
StartVideoSources();
});
EXPECT_TRUE(observer_.Wait()) << "Timed out waiting for frames.";
}
SendTask(task_queue(), [this]() {
Stop();
DestroyStreams();
});
}
TEST_F(MultiCodecReceiveTest, SingleStreamReceivesVp8Vp9) {
RunTestWithCodecs({{"VP8", 1}, {"VP9", 1}, {"VP8", 1}});
}
TEST_F(MultiCodecReceiveTest, SingleStreamReceivesVp8Vp9WithTl) {
RunTestWithCodecs({{"VP8", 2}, {"VP9", 2}, {"VP8", 2}});
}
#if defined(WEBRTC_USE_H264)
TEST_F(MultiCodecReceiveTest, SingleStreamReceivesVp8H264) {
RunTestWithCodecs({{"VP8", 1}, {"H264", 1}, {"VP8", 1}});
}
TEST_F(MultiCodecReceiveTest, SingleStreamReceivesVp8H264WithTl) {
RunTestWithCodecs({{"VP8", 3}, {"H264", 1}, {"VP8", 3}});
}
TEST_F(MultiCodecReceiveTest, SingleStreamReceivesVp8Vp9H264) {
RunTestWithCodecs({{"VP8", 1}, {"VP9", 1}, {"H264", 1}, {"VP9", 1}});
}
TEST_F(MultiCodecReceiveTest, SingleStreamReceivesVp8Vp9H264WithTl) {
RunTestWithCodecs({{"VP8", 3}, {"VP9", 2}, {"H264", 1}, {"VP9", 3}});
}
#endif // defined(WEBRTC_USE_H264)
} // namespace webrtc