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/*
* Copyright (c) 2013 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 "media/engine/internal_encoder_factory.h"
#include "media/engine/simulcast_encoder_adapter.h"
#include "modules/rtp_rtcp/source/create_video_rtp_depacketizer.h"
#include "modules/rtp_rtcp/source/rtp_packet.h"
#include "modules/video_coding/codecs/vp8/include/vp8.h"
#include "modules/video_coding/codecs/vp9/include/vp9.h"
#include "rtc_base/numerics/safe_conversions.h"
#include "rtc_base/numerics/sequence_number_util.h"
#include "rtc_base/synchronization/mutex.h"
#include "rtc_base/task_queue_for_test.h"
#include "test/call_test.h"
#include "test/video_test_constants.h"
namespace webrtc {
namespace {
const int kFrameMaxWidth = 1280;
const int kFrameMaxHeight = 720;
const int kFrameRate = 30;
const int kMaxSecondsLost = 5;
const int kMaxFramesLost = kFrameRate * kMaxSecondsLost;
const int kMinPacketsToObserve = 10;
const int kEncoderBitrateBps = 300000;
const uint32_t kPictureIdWraparound = (1 << 15);
const size_t kNumTemporalLayers[] = {1, 2, 3};
} // namespace
class PictureIdObserver : public test::RtpRtcpObserver {
public:
explicit PictureIdObserver(VideoCodecType codec_type)
: test::RtpRtcpObserver(test::VideoTestConstants::kDefaultTimeout),
depacketizer_(CreateVideoRtpDepacketizer(codec_type)),
max_expected_picture_id_gap_(0),
max_expected_tl0_idx_gap_(0),
num_ssrcs_to_observe_(1) {}
void SetExpectedSsrcs(size_t num_expected_ssrcs) {
MutexLock lock(&mutex_);
num_ssrcs_to_observe_ = num_expected_ssrcs;
}
void ResetObservedSsrcs() {
MutexLock lock(&mutex_);
// Do not clear the timestamp and picture_id, to ensure that we check
// consistency between reinits and recreations.
num_packets_sent_.clear();
observed_ssrcs_.clear();
}
void SetMaxExpectedPictureIdGap(int max_expected_picture_id_gap) {
MutexLock lock(&mutex_);
max_expected_picture_id_gap_ = max_expected_picture_id_gap;
// Expect smaller gap for `tl0_pic_idx` (running index for temporal_idx 0).
max_expected_tl0_idx_gap_ = max_expected_picture_id_gap_ / 2;
}
private:
struct ParsedPacket {
uint32_t timestamp;
uint32_t ssrc;
int16_t picture_id;
int16_t tl0_pic_idx;
uint8_t temporal_idx;
VideoFrameType frame_type;
};
bool ParsePayload(const uint8_t* packet,
size_t length,
ParsedPacket* parsed) const {
RtpPacket rtp_packet;
EXPECT_TRUE(rtp_packet.Parse(packet, length));
EXPECT_TRUE(
rtp_packet.Ssrc() == test::VideoTestConstants::kVideoSendSsrcs[0] ||
rtp_packet.Ssrc() == test::VideoTestConstants::kVideoSendSsrcs[1] ||
rtp_packet.Ssrc() == test::VideoTestConstants::kVideoSendSsrcs[2])
<< "Unknown SSRC sent.";
if (rtp_packet.payload_size() == 0) {
return false; // Padding packet.
}
parsed->timestamp = rtp_packet.Timestamp();
parsed->ssrc = rtp_packet.Ssrc();
absl::optional<VideoRtpDepacketizer::ParsedRtpPayload> parsed_payload =
depacketizer_->Parse(rtp_packet.PayloadBuffer());
EXPECT_TRUE(parsed_payload);
if (const auto* vp8_header = absl::get_if<RTPVideoHeaderVP8>(
&parsed_payload->video_header.video_type_header)) {
parsed->picture_id = vp8_header->pictureId;
parsed->tl0_pic_idx = vp8_header->tl0PicIdx;
parsed->temporal_idx = vp8_header->temporalIdx;
} else if (const auto* vp9_header = absl::get_if<RTPVideoHeaderVP9>(
&parsed_payload->video_header.video_type_header)) {
parsed->picture_id = vp9_header->picture_id;
parsed->tl0_pic_idx = vp9_header->tl0_pic_idx;
parsed->temporal_idx = vp9_header->temporal_idx;
} else {
RTC_DCHECK_NOTREACHED();
}
parsed->frame_type = parsed_payload->video_header.frame_type;
return true;
}
// Verify continuity and monotonicity of picture_id sequence.
void VerifyPictureId(const ParsedPacket& current,
const ParsedPacket& last) const
RTC_EXCLUSIVE_LOCKS_REQUIRED(&mutex_) {
if (current.timestamp == last.timestamp) {
EXPECT_EQ(last.picture_id, current.picture_id);
return; // Same frame.
}
// Packet belongs to a new frame.
// Picture id should be increasing.
EXPECT_TRUE((AheadOf<uint16_t, kPictureIdWraparound>(current.picture_id,
last.picture_id)));
// Expect continuously increasing picture id.
int diff = ForwardDiff<uint16_t, kPictureIdWraparound>(last.picture_id,
current.picture_id);
EXPECT_LE(diff - 1, max_expected_picture_id_gap_);
if (diff > 2) {
// If the VideoSendStream is destroyed, any frames still in queue is lost.
// This can result in a two-frame gap, which will result in logs like
// "packet transmission failed, no matching RTP module found, or
// transmission error".
// A larger gap is only possible for first frame after a recreation, i.e.
// key frames.
EXPECT_EQ(VideoFrameType::kVideoFrameKey, current.frame_type);
}
}
void VerifyTl0Idx(const ParsedPacket& current, const ParsedPacket& last) const
RTC_EXCLUSIVE_LOCKS_REQUIRED(&mutex_) {
if (current.tl0_pic_idx == kNoTl0PicIdx ||
current.temporal_idx == kNoTemporalIdx) {
return; // No temporal layers.
}
if (current.timestamp == last.timestamp || current.temporal_idx != 0) {
EXPECT_EQ(last.tl0_pic_idx, current.tl0_pic_idx);
return;
}
// New frame with `temporal_idx` 0.
// `tl0_pic_idx` should be increasing.
EXPECT_TRUE(AheadOf<uint8_t>(current.tl0_pic_idx, last.tl0_pic_idx));
// Expect continuously increasing idx.
int diff = ForwardDiff<uint8_t>(last.tl0_pic_idx, current.tl0_pic_idx);
if (diff > 1) {
// If the VideoSendStream is destroyed, any frames still in queue is lost.
// Gaps only possible for first frame after a recreation, i.e. key frames.
EXPECT_EQ(VideoFrameType::kVideoFrameKey, current.frame_type);
EXPECT_LE(diff - 1, max_expected_tl0_idx_gap_);
}
}
Action OnSendRtp(rtc::ArrayView<const uint8_t> packet) override {
MutexLock lock(&mutex_);
ParsedPacket parsed;
if (!ParsePayload(packet.data(), packet.size(), &parsed))
return SEND_PACKET;
uint32_t ssrc = parsed.ssrc;
if (last_observed_packet_.find(ssrc) != last_observed_packet_.end()) {
// Compare to last packet.
VerifyPictureId(parsed, last_observed_packet_[ssrc]);
VerifyTl0Idx(parsed, last_observed_packet_[ssrc]);
}
last_observed_packet_[ssrc] = parsed;
// Pass the test when enough media packets have been received on all
// streams.
if (++num_packets_sent_[ssrc] >= kMinPacketsToObserve &&
observed_ssrcs_.find(ssrc) == observed_ssrcs_.end()) {
observed_ssrcs_.insert(ssrc);
if (observed_ssrcs_.size() == num_ssrcs_to_observe_) {
observation_complete_.Set();
}
}
return SEND_PACKET;
}
Mutex mutex_;
const std::unique_ptr<VideoRtpDepacketizer> depacketizer_;
std::map<uint32_t, ParsedPacket> last_observed_packet_ RTC_GUARDED_BY(mutex_);
std::map<uint32_t, size_t> num_packets_sent_ RTC_GUARDED_BY(mutex_);
int max_expected_picture_id_gap_ RTC_GUARDED_BY(mutex_);
int max_expected_tl0_idx_gap_ RTC_GUARDED_BY(mutex_);
size_t num_ssrcs_to_observe_ RTC_GUARDED_BY(mutex_);
std::set<uint32_t> observed_ssrcs_ RTC_GUARDED_BY(mutex_);
};
class PictureIdTest : public test::CallTest,
public ::testing::WithParamInterface<size_t> {
public:
PictureIdTest() : num_temporal_layers_(GetParam()) {}
virtual ~PictureIdTest() {
SendTask(task_queue(), [this]() {
send_transport_.reset();
receive_transport_.reset();
DestroyCalls();
});
}
void SetupEncoder(VideoEncoderFactory* encoder_factory,
const std::string& payload_name);
void SetVideoEncoderConfig(int num_streams);
void TestPictureIdContinuousAfterReconfigure(
const std::vector<int>& ssrc_counts);
void TestPictureIdIncreaseAfterRecreateStreams(
const std::vector<int>& ssrc_counts);
private:
const size_t num_temporal_layers_;
std::unique_ptr<PictureIdObserver> observer_;
};
// TODO(bugs.webrtc.org/13725): Enable on android when flakiness fixed.
#if defined(WEBRTC_ANDROID)
#define MAYBE_TemporalLayers DISABLED_TemporalLayers
#else
#define MAYBE_TemporalLayers TemporalLayers
#endif
INSTANTIATE_TEST_SUITE_P(MAYBE_TemporalLayers,
PictureIdTest,
::testing::ValuesIn(kNumTemporalLayers));
void PictureIdTest::SetupEncoder(VideoEncoderFactory* encoder_factory,
const std::string& payload_name) {
observer_.reset(
new PictureIdObserver(PayloadStringToCodecType(payload_name)));
SendTask(task_queue(), [this, encoder_factory, payload_name]() {
CreateCalls();
CreateSendTransport(BuiltInNetworkBehaviorConfig(), observer_.get());
CreateSendConfig(test::VideoTestConstants::kNumSimulcastStreams, 0, 0,
send_transport_.get());
GetVideoSendConfig()->encoder_settings.encoder_factory = encoder_factory;
GetVideoSendConfig()->rtp.payload_name = payload_name;
GetVideoEncoderConfig()->codec_type =
PayloadStringToCodecType(payload_name);
SetVideoEncoderConfig(/* number_of_streams */ 1);
});
}
void PictureIdTest::SetVideoEncoderConfig(int num_streams) {
GetVideoEncoderConfig()->number_of_streams = num_streams;
GetVideoEncoderConfig()->max_bitrate_bps = kEncoderBitrateBps;
// Always divide the same total bitrate across all streams so that sending a
// single stream avoids lowering the bitrate estimate and requiring a
// subsequent rampup.
const int encoder_stream_bps = kEncoderBitrateBps / num_streams;
double scale_factor = 1.0;
for (int i = num_streams - 1; i >= 0; --i) {
VideoStream& stream = GetVideoEncoderConfig()->simulcast_layers[i];
// Reduce the min bitrate by 10% to account for overhead that might
// otherwise cause streams to not be enabled.
stream.min_bitrate_bps = static_cast<int>(encoder_stream_bps * 0.9);
stream.target_bitrate_bps = encoder_stream_bps;
stream.max_bitrate_bps = encoder_stream_bps;
stream.num_temporal_layers = num_temporal_layers_;
stream.scale_resolution_down_by = scale_factor;
scale_factor *= 2.0;
}
}
void PictureIdTest::TestPictureIdContinuousAfterReconfigure(
const std::vector<int>& ssrc_counts) {
SendTask(task_queue(), [this]() {
CreateVideoStreams();
CreateFrameGeneratorCapturer(kFrameRate, kFrameMaxWidth, kFrameMaxHeight);
// Initial test with a single stream.
Start();
});
EXPECT_TRUE(observer_->Wait()) << "Timed out waiting for packets.";
// Reconfigure VideoEncoder and test picture id increase.
// Expect continuously increasing picture id, equivalent to no gaps.
observer_->SetMaxExpectedPictureIdGap(0);
for (int ssrc_count : ssrc_counts) {
SetVideoEncoderConfig(ssrc_count);
observer_->SetExpectedSsrcs(ssrc_count);
observer_->ResetObservedSsrcs();
// Make sure the picture_id sequence is continuous on reinit and recreate.
SendTask(task_queue(), [this]() {
GetVideoSendStream()->ReconfigureVideoEncoder(
GetVideoEncoderConfig()->Copy());
});
EXPECT_TRUE(observer_->Wait()) << "Timed out waiting for packets.";
}
SendTask(task_queue(), [this]() {
Stop();
DestroyStreams();
});
}
void PictureIdTest::TestPictureIdIncreaseAfterRecreateStreams(
const std::vector<int>& ssrc_counts) {
SendTask(task_queue(), [this]() {
CreateVideoStreams();
CreateFrameGeneratorCapturer(kFrameRate, kFrameMaxWidth, kFrameMaxHeight);
// Initial test with a single stream.
Start();
});
EXPECT_TRUE(observer_->Wait()) << "Timed out waiting for packets.";
// Recreate VideoSendStream and test picture id increase.
// When the VideoSendStream is destroyed, any frames still in queue is lost
// with it, therefore it is expected that some frames might be lost.
observer_->SetMaxExpectedPictureIdGap(kMaxFramesLost);
for (int ssrc_count : ssrc_counts) {
SendTask(task_queue(), [this, &ssrc_count]() {
DestroyVideoSendStreams();
SetVideoEncoderConfig(ssrc_count);
observer_->SetExpectedSsrcs(ssrc_count);
observer_->ResetObservedSsrcs();
CreateVideoSendStreams();
GetVideoSendStream()->Start();
CreateFrameGeneratorCapturer(kFrameRate, kFrameMaxWidth, kFrameMaxHeight);
});
EXPECT_TRUE(observer_->Wait()) << "Timed out waiting for packets.";
}
SendTask(task_queue(), [this]() {
Stop();
DestroyStreams();
});
}
TEST_P(PictureIdTest, ContinuousAfterReconfigureVp8) {
test::FunctionVideoEncoderFactory encoder_factory(
[]() { return VP8Encoder::Create(); });
SetupEncoder(&encoder_factory, "VP8");
TestPictureIdContinuousAfterReconfigure({1, 3, 3, 1, 1});
}
// TODO(bugs.webrtc.org/14985): Investigate and reenable.
TEST_P(PictureIdTest, DISABLED_IncreasingAfterRecreateStreamVp8) {
test::FunctionVideoEncoderFactory encoder_factory(
[]() { return VP8Encoder::Create(); });
SetupEncoder(&encoder_factory, "VP8");
TestPictureIdIncreaseAfterRecreateStreams({1, 3, 3, 1, 1});
}
TEST_P(PictureIdTest, ContinuousAfterStreamCountChangeVp8) {
test::FunctionVideoEncoderFactory encoder_factory(
[]() { return VP8Encoder::Create(); });
// Make sure that the picture id is not reset if the stream count goes
// down and then up.
SetupEncoder(&encoder_factory, "VP8");
TestPictureIdContinuousAfterReconfigure({3, 1, 3});
}
TEST_P(PictureIdTest, ContinuousAfterReconfigureSimulcastEncoderAdapter) {
InternalEncoderFactory internal_encoder_factory;
test::FunctionVideoEncoderFactory encoder_factory(
[&internal_encoder_factory]() {
return std::make_unique<SimulcastEncoderAdapter>(
&internal_encoder_factory, SdpVideoFormat("VP8"));
});
SetupEncoder(&encoder_factory, "VP8");
TestPictureIdContinuousAfterReconfigure({1, 3, 3, 1, 1});
}
// TODO(bugs.webrtc.org/14985): Investigate and reenable.
TEST_P(PictureIdTest,
DISABLED_IncreasingAfterRecreateStreamSimulcastEncoderAdapter) {
InternalEncoderFactory internal_encoder_factory;
test::FunctionVideoEncoderFactory encoder_factory(
[&internal_encoder_factory]() {
return std::make_unique<SimulcastEncoderAdapter>(
&internal_encoder_factory, SdpVideoFormat("VP8"));
});
SetupEncoder(&encoder_factory, "VP8");
TestPictureIdIncreaseAfterRecreateStreams({1, 3, 3, 1, 1});
}
TEST_P(PictureIdTest, ContinuousAfterStreamCountChangeSimulcastEncoderAdapter) {
InternalEncoderFactory internal_encoder_factory;
test::FunctionVideoEncoderFactory encoder_factory(
[&internal_encoder_factory]() {
return std::make_unique<SimulcastEncoderAdapter>(
&internal_encoder_factory, SdpVideoFormat("VP8"));
});
// Make sure that the picture id is not reset if the stream count goes
// down and then up.
SetupEncoder(&encoder_factory, "VP8");
TestPictureIdContinuousAfterReconfigure({3, 1, 3});
}
// TODO(bugs.webrtc.org/14985): Investigate and reenable.
TEST_P(PictureIdTest, DISABLED_IncreasingAfterRecreateStreamVp9) {
test::FunctionVideoEncoderFactory encoder_factory(
[]() { return VP9Encoder::Create(); });
SetupEncoder(&encoder_factory, "VP9");
TestPictureIdIncreaseAfterRecreateStreams({1, 1});
}
} // namespace webrtc
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