Google Git
Sign in
webrtc / src / / fe24f58c73e4d0db3be92913d11ad92c2900f4a8 / . / video / end_to_end_tests / stats_tests.cc
blob: d6820eeac2a3de7f4576042dc36d2e4dffeaec55 [file] [log] [blame]
/*
* Copyright 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 "absl/algorithm/container.h"
#include "absl/types/optional.h"
#include "api/task_queue/task_queue_base.h"
#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/rtp_rtcp/source/rtp_packet.h"
#include "modules/video_coding/include/video_coding_defines.h"
#include "rtc_base/strings/string_builder.h"
#include "rtc_base/synchronization/mutex.h"
#include "rtc_base/task_queue_for_test.h"
#include "system_wrappers/include/metrics.h"
#include "system_wrappers/include/sleep.h"
#include "test/call_test.h"
#include "test/fake_encoder.h"
#include "test/gtest.h"
#include "test/rtcp_packet_parser.h"
#include "test/video_test_constants.h"
namespace webrtc {
namespace {
enum : int { // The first valid value is 1.
kVideoContentTypeExtensionId = 1,
};
} // namespace
class StatsEndToEndTest : public test::CallTest {
public:
StatsEndToEndTest() {
RegisterRtpExtension(RtpExtension(RtpExtension::kVideoContentTypeUri,
kVideoContentTypeExtensionId));
}
};
TEST_F(StatsEndToEndTest, GetStats) {
static const int kStartBitrateBps = 3000000;
static const int kExpectedRenderDelayMs = 20;
class StatsObserver : public test::EndToEndTest {
public:
StatsObserver()
: EndToEndTest(test::VideoTestConstants::kLongTimeout),
encoder_factory_([]() {
return std::make_unique<test::DelayedEncoder>(
Clock::GetRealTimeClock(), 10);
}) {}
private:
Action OnSendRtp(rtc::ArrayView<const uint8_t> packet) override {
// Drop every 25th packet => 4% loss.
static const int kPacketLossFrac = 25;
RtpPacket header;
if (header.Parse(packet) &&
expected_send_ssrcs_.find(header.Ssrc()) !=
expected_send_ssrcs_.end() &&
header.SequenceNumber() % kPacketLossFrac == 0) {
return DROP_PACKET;
}
check_stats_event_.Set();
return SEND_PACKET;
}
Action OnSendRtcp(rtc::ArrayView<const uint8_t> packet) override {
check_stats_event_.Set();
return SEND_PACKET;
}
Action OnReceiveRtp(rtc::ArrayView<const uint8_t> packet) override {
check_stats_event_.Set();
return SEND_PACKET;
}
Action OnReceiveRtcp(rtc::ArrayView<const uint8_t> packet) override {
check_stats_event_.Set();
return SEND_PACKET;
}
bool CheckReceiveStats() {
for (size_t i = 0; i < receive_streams_.size(); ++i) {
VideoReceiveStreamInterface::Stats stats =
receive_streams_[i]->GetStats();
EXPECT_EQ(expected_receive_ssrcs_[i], stats.ssrc);
// Make sure all fields have been populated.
// TODO(pbos): Use CompoundKey if/when we ever know that all stats are
// always filled for all receivers.
receive_stats_filled_["IncomingRate"] |=
stats.network_frame_rate != 0 || stats.total_bitrate_bps != 0;
send_stats_filled_["DecoderImplementationName"] |=
stats.decoder_implementation_name ==
test::FakeDecoder::kImplementationName;
receive_stats_filled_["PowerEfficientDecoder"] =
stats.power_efficient_decoder.has_value();
receive_stats_filled_["RenderDelayAsHighAsExpected"] |=
stats.render_delay_ms >= kExpectedRenderDelayMs;
receive_stats_filled_["FrameCallback"] |= stats.decode_frame_rate != 0;
receive_stats_filled_["FrameRendered"] |= stats.render_frame_rate != 0;
receive_stats_filled_["StatisticsUpdated"] |=
stats.rtp_stats.packets_lost != 0 || stats.rtp_stats.jitter != 0;
receive_stats_filled_["DataCountersUpdated"] |=
stats.rtp_stats.packet_counter.payload_bytes != 0 ||
stats.rtp_stats.packet_counter.header_bytes != 0 ||
stats.rtp_stats.packet_counter.packets != 0 ||
stats.rtp_stats.packet_counter.padding_bytes != 0;
receive_stats_filled_["CodecStats"] |= stats.target_delay_ms != 0;
receive_stats_filled_["FrameCounts"] |=
stats.frame_counts.key_frames != 0 ||
stats.frame_counts.delta_frames != 0;
receive_stats_filled_["JitterBufferDelay"] =
stats.jitter_buffer_delay > TimeDelta::Zero();
receive_stats_filled_["JitterBufferTargetDelay"] =
stats.jitter_buffer_target_delay > TimeDelta::Zero();
receive_stats_filled_["JitterBufferEmittedCount"] =
stats.jitter_buffer_emitted_count != 0;
receive_stats_filled_["JitterBufferMinimumDelay"] =
stats.jitter_buffer_minimum_delay > TimeDelta::Zero();
receive_stats_filled_["CName"] |= !stats.c_name.empty();
receive_stats_filled_["RtcpPacketTypeCount"] |=
stats.rtcp_packet_type_counts.fir_packets != 0 ||
stats.rtcp_packet_type_counts.nack_packets != 0 ||
stats.rtcp_packet_type_counts.pli_packets != 0 ||
stats.rtcp_packet_type_counts.nack_requests != 0 ||
stats.rtcp_packet_type_counts.unique_nack_requests != 0;
RTC_DCHECK(stats.current_payload_type == -1 ||
stats.current_payload_type ==
test::VideoTestConstants::kFakeVideoSendPayloadType);
receive_stats_filled_["IncomingPayloadType"] |=
stats.current_payload_type ==
test::VideoTestConstants::kFakeVideoSendPayloadType;
}
return AllStatsFilled(receive_stats_filled_);
}
bool CheckSendStats() {
RTC_DCHECK(send_stream_);
VideoSendStream::Stats stats;
SendTask(task_queue_, [&]() { stats = send_stream_->GetStats(); });
size_t expected_num_streams =
test::VideoTestConstants::kNumSimulcastStreams +
expected_send_ssrcs_.size();
send_stats_filled_["NumStreams"] |=
stats.substreams.size() == expected_num_streams;
send_stats_filled_["CpuOveruseMetrics"] |=
stats.avg_encode_time_ms != 0 && stats.encode_usage_percent != 0 &&
stats.total_encode_time_ms != 0;
send_stats_filled_["EncoderImplementationName"] |=
stats.encoder_implementation_name ==
test::FakeEncoder::kImplementationName;
send_stats_filled_["PowerEfficientEncoder"] |=
stats.power_efficient_encoder == true;
for (const auto& kv : stats.substreams) {
if (expected_send_ssrcs_.find(kv.first) == expected_send_ssrcs_.end())
continue; // Probably RTX.
send_stats_filled_[CompoundKey("CapturedFrameRate", kv.first)] |=
stats.input_frame_rate != 0;
const VideoSendStream::StreamStats& stream_stats = kv.second;
send_stats_filled_[CompoundKey("StatisticsUpdated", kv.first)] |=
stream_stats.report_block_data.has_value();
send_stats_filled_[CompoundKey("DataCountersUpdated", kv.first)] |=
stream_stats.rtp_stats.fec.packets != 0 ||
stream_stats.rtp_stats.transmitted.padding_bytes != 0 ||
stream_stats.rtp_stats.retransmitted.packets != 0 ||
stream_stats.rtp_stats.transmitted.packets != 0;
send_stats_filled_[CompoundKey("BitrateStatisticsObserver.Total",
kv.first)] |=
stream_stats.total_bitrate_bps != 0;
send_stats_filled_[CompoundKey("BitrateStatisticsObserver.Retransmit",
kv.first)] |=
stream_stats.retransmit_bitrate_bps != 0;
send_stats_filled_[CompoundKey("FrameCountObserver", kv.first)] |=
stream_stats.frame_counts.delta_frames != 0 ||
stream_stats.frame_counts.key_frames != 0;
send_stats_filled_[CompoundKey("OutgoingRate", kv.first)] |=
stats.encode_frame_rate != 0;
send_stats_filled_[CompoundKey("Delay", kv.first)] |=
stream_stats.avg_delay_ms != 0 || stream_stats.max_delay_ms != 0;
// TODO(pbos): Use CompoundKey when the test makes sure that all SSRCs
// report dropped packets.
send_stats_filled_["RtcpPacketTypeCount"] |=
stream_stats.rtcp_packet_type_counts.fir_packets != 0 ||
stream_stats.rtcp_packet_type_counts.nack_packets != 0 ||
stream_stats.rtcp_packet_type_counts.pli_packets != 0 ||
stream_stats.rtcp_packet_type_counts.nack_requests != 0 ||
stream_stats.rtcp_packet_type_counts.unique_nack_requests != 0;
}
return AllStatsFilled(send_stats_filled_);
}
std::string CompoundKey(const char* name, uint32_t ssrc) {
rtc::StringBuilder oss;
oss << name << "_" << ssrc;
return oss.Release();
}
bool AllStatsFilled(const std::map<std::string, bool>& stats_map) {
for (const auto& stat : stats_map) {
if (!stat.second)
return false;
}
return true;
}
BuiltInNetworkBehaviorConfig GetSendTransportConfig() const override {
BuiltInNetworkBehaviorConfig network_config;
network_config.loss_percent = 5;
return network_config;
}
void ModifySenderBitrateConfig(
BitrateConstraints* bitrate_config) override {
bitrate_config->start_bitrate_bps = kStartBitrateBps;
}
void ModifyVideoConfigs(
VideoSendStream::Config* send_config,
std::vector<VideoReceiveStreamInterface::Config>* receive_configs,
VideoEncoderConfig* encoder_config) override {
// Set low simulcast bitrates to not have to wait for bandwidth ramp-up.
encoder_config->max_bitrate_bps = 50000;
for (auto& layer : encoder_config->simulcast_layers) {
layer.min_bitrate_bps = 10000;
layer.target_bitrate_bps = 15000;
layer.max_bitrate_bps = 20000;
}
send_config->rtp.c_name = "SomeCName";
send_config->rtp.nack.rtp_history_ms =
test::VideoTestConstants::kNackRtpHistoryMs;
send_config->rtp.rtx.payload_type =
test::VideoTestConstants::kSendRtxPayloadType;
const std::vector<uint32_t>& ssrcs = send_config->rtp.ssrcs;
for (size_t i = 0; i < ssrcs.size(); ++i) {
expected_send_ssrcs_.insert(ssrcs[i]);
expected_receive_ssrcs_.push_back(
(*receive_configs)[i].rtp.remote_ssrc);
(*receive_configs)[i].render_delay_ms = kExpectedRenderDelayMs;
(*receive_configs)[i].rtp.nack.rtp_history_ms =
test::VideoTestConstants::kNackRtpHistoryMs;
(*receive_configs)[i].rtp.rtx_ssrc =
test::VideoTestConstants::kSendRtxSsrcs[i];
(*receive_configs)[i].rtp.rtx_associated_payload_types
[test::VideoTestConstants::kSendRtxPayloadType] =
test::VideoTestConstants::kFakeVideoSendPayloadType;
}
for (size_t i = 0; i < test::VideoTestConstants::kNumSimulcastStreams;
++i)
send_config->rtp.rtx.ssrcs.push_back(
test::VideoTestConstants::kSendRtxSsrcs[i]);
// Use a delayed encoder to make sure we see CpuOveruseMetrics stats that
// are non-zero.
send_config->encoder_settings.encoder_factory = &encoder_factory_;
}
size_t GetNumVideoStreams() const override {
return test::VideoTestConstants::kNumSimulcastStreams;
}
void OnVideoStreamsCreated(VideoSendStream* send_stream,
const std::vector<VideoReceiveStreamInterface*>&
receive_streams) override {
send_stream_ = send_stream;
receive_streams_ = receive_streams;
task_queue_ = TaskQueueBase::Current();
}
void PerformTest() override {
Clock* clock = Clock::GetRealTimeClock();
int64_t now_ms = clock->TimeInMilliseconds();
int64_t stop_time_ms =
now_ms + test::VideoTestConstants::kLongTimeout.ms();
bool receive_ok = false;
bool send_ok = false;
while (now_ms < stop_time_ms) {
if (!receive_ok && task_queue_) {
SendTask(task_queue_, [&]() { receive_ok = CheckReceiveStats(); });
}
if (!send_ok)
send_ok = CheckSendStats();
if (receive_ok && send_ok)
return;
int64_t time_until_timeout_ms = stop_time_ms - now_ms;
if (time_until_timeout_ms > 0)
check_stats_event_.Wait(TimeDelta::Millis(time_until_timeout_ms));
now_ms = clock->TimeInMilliseconds();
}
ADD_FAILURE() << "Timed out waiting for filled stats.";
for (const auto& kv : receive_stats_filled_) {
if (!kv.second) {
ADD_FAILURE() << "Missing receive stats: " << kv.first;
}
}
for (const auto& kv : send_stats_filled_) {
if (!kv.second) {
ADD_FAILURE() << "Missing send stats: " << kv.first;
}
}
}
test::FunctionVideoEncoderFactory encoder_factory_;
std::vector<VideoReceiveStreamInterface*> receive_streams_;
std::map<std::string, bool> receive_stats_filled_;
VideoSendStream* send_stream_ = nullptr;
std::map<std::string, bool> send_stats_filled_;
std::vector<uint32_t> expected_receive_ssrcs_;
std::set<uint32_t> expected_send_ssrcs_;
rtc::Event check_stats_event_;
TaskQueueBase* task_queue_ = nullptr;
} test;
RunBaseTest(&test);
}
TEST_F(StatsEndToEndTest, TimingFramesAreReported) {
static const int kExtensionId = 5;
RegisterRtpExtension(
RtpExtension(RtpExtension::kVideoTimingUri, kExtensionId));
class StatsObserver : public test::EndToEndTest {
public:
StatsObserver() : EndToEndTest(test::VideoTestConstants::kLongTimeout) {}
private:
void ModifyVideoConfigs(
VideoSendStream::Config* send_config,
std::vector<VideoReceiveStreamInterface::Config>* receive_configs,
VideoEncoderConfig* encoder_config) override {
send_config->rtp.extensions.clear();
send_config->rtp.extensions.push_back(
RtpExtension(RtpExtension::kVideoTimingUri, kExtensionId));
}
void OnVideoStreamsCreated(VideoSendStream* send_stream,
const std::vector<VideoReceiveStreamInterface*>&
receive_streams) override {
receive_streams_ = receive_streams;
task_queue_ = TaskQueueBase::Current();
}
void PerformTest() override {
// No frames reported initially.
SendTask(task_queue_, [&]() {
for (const auto& receive_stream : receive_streams_) {
EXPECT_FALSE(receive_stream->GetStats().timing_frame_info);
}
});
// Wait for at least one timing frame to be sent with 100ms grace period.
SleepMs(kDefaultTimingFramesDelayMs + 100);
// Check that timing frames are reported for each stream.
SendTask(task_queue_, [&]() {
for (const auto& receive_stream : receive_streams_) {
EXPECT_TRUE(receive_stream->GetStats().timing_frame_info);
}
});
}
std::vector<VideoReceiveStreamInterface*> receive_streams_;
TaskQueueBase* task_queue_ = nullptr;
} test;
RunBaseTest(&test);
}
TEST_F(StatsEndToEndTest, TestReceivedRtpPacketStats) {
static const size_t kNumRtpPacketsToSend = 5;
class ReceivedRtpStatsObserver : public test::EndToEndTest {
public:
explicit ReceivedRtpStatsObserver(TaskQueueBase* task_queue)
: EndToEndTest(test::VideoTestConstants::kDefaultTimeout),
task_queue_(task_queue) {}
private:
void OnVideoStreamsCreated(VideoSendStream* send_stream,
const std::vector<VideoReceiveStreamInterface*>&
receive_streams) override {
receive_stream_ = receive_streams[0];
}
void OnStreamsStopped() override { task_safety_flag_->SetNotAlive(); }
Action OnSendRtp(rtc::ArrayView<const uint8_t> packet) override {
if (sent_rtp_ >= kNumRtpPacketsToSend) {
// Need to check the stats on the correct thread.
task_queue_->PostTask(SafeTask(task_safety_flag_, [this]() {
VideoReceiveStreamInterface::Stats stats =
receive_stream_->GetStats();
if (kNumRtpPacketsToSend == stats.rtp_stats.packet_counter.packets) {
observation_complete_.Set();
}
}));
return DROP_PACKET;
}
++sent_rtp_;
return SEND_PACKET;
}
void PerformTest() override {
EXPECT_TRUE(Wait())
<< "Timed out while verifying number of received RTP packets.";
}
VideoReceiveStreamInterface* receive_stream_ = nullptr;
uint32_t sent_rtp_ = 0;
TaskQueueBase* const task_queue_;
rtc::scoped_refptr<PendingTaskSafetyFlag> task_safety_flag_ =
PendingTaskSafetyFlag::CreateDetached();
} test(task_queue());
RunBaseTest(&test);
}
#if defined(WEBRTC_WIN)
// Disabled due to flakiness on Windows (bugs.webrtc.org/7483).
#define MAYBE_ContentTypeSwitches DISABLED_ContentTypeSwitches
#else
#define MAYBE_ContentTypeSwitches ContentTypeSwitches
#endif
TEST_F(StatsEndToEndTest, MAYBE_ContentTypeSwitches) {
class StatsObserver : public test::BaseTest,
public rtc::VideoSinkInterface<VideoFrame> {
public:
StatsObserver()
: BaseTest(test::VideoTestConstants::kLongTimeout),
num_frames_received_(0) {}
bool ShouldCreateReceivers() const override { return true; }
void OnFrame(const VideoFrame& video_frame) override {
// The RTT is needed to estimate `ntp_time_ms` which is used by
// end-to-end delay stats. Therefore, start counting received frames once
// `ntp_time_ms` is valid.
if (video_frame.ntp_time_ms() > 0 &&
Clock::GetRealTimeClock()->CurrentNtpInMilliseconds() >=
video_frame.ntp_time_ms()) {
MutexLock lock(&mutex_);
++num_frames_received_;
}
}
Action OnSendRtp(rtc::ArrayView<const uint8_t> packet) override {
if (MinNumberOfFramesReceived())
observation_complete_.Set();
return SEND_PACKET;
}
bool MinNumberOfFramesReceived() const {
// Have some room for frames with wrong content type during switch.
const int kMinRequiredHistogramSamples = 200 + 50;
MutexLock lock(&mutex_);
return num_frames_received_ > kMinRequiredHistogramSamples;
}
// May be called several times.
void PerformTest() override {
EXPECT_TRUE(Wait()) << "Timed out waiting for enough packets.";
// Reset frame counter so next PerformTest() call will do something.
{
MutexLock lock(&mutex_);
num_frames_received_ = 0;
}
}
mutable Mutex mutex_;
int num_frames_received_ RTC_GUARDED_BY(&mutex_);
} test;
metrics::Reset();
CallConfig send_config = SendCallConfig();
test.ModifySenderBitrateConfig(&send_config.bitrate_config);
CallConfig recv_config = RecvCallConfig();
test.ModifyReceiverBitrateConfig(&recv_config.bitrate_config);
VideoEncoderConfig encoder_config_with_screenshare;
SendTask(task_queue(), [this, &test, &send_config, &recv_config,
&encoder_config_with_screenshare]() {
CreateSenderCall(send_config);
CreateReceiverCall(recv_config);
CreateReceiveTransport(test.GetReceiveTransportConfig(), &test);
CreateSendTransport(test.GetReceiveTransportConfig(), &test);
receiver_call_->SignalChannelNetworkState(MediaType::VIDEO, kNetworkUp);
CreateSendConfig(1, 0, 0);
CreateMatchingReceiveConfigs();
// Modify send and receive configs.
GetVideoSendConfig()->rtp.nack.rtp_history_ms =
test::VideoTestConstants::kNackRtpHistoryMs;
video_receive_configs_[0].rtp.nack.rtp_history_ms =
test::VideoTestConstants::kNackRtpHistoryMs;
video_receive_configs_[0].renderer = &test;
// RTT needed for RemoteNtpTimeEstimator for the receive stream.
video_receive_configs_[0].rtp.rtcp_xr.receiver_reference_time_report = true;
// Start with realtime video.
GetVideoEncoderConfig()->content_type =
VideoEncoderConfig::ContentType::kRealtimeVideo;
// Encoder config for the second part of the test uses screenshare.
encoder_config_with_screenshare = GetVideoEncoderConfig()->Copy();
encoder_config_with_screenshare.content_type =
VideoEncoderConfig::ContentType::kScreen;
CreateVideoStreams();
CreateFrameGeneratorCapturer(test::VideoTestConstants::kDefaultFramerate,
test::VideoTestConstants::kDefaultWidth,
test::VideoTestConstants::kDefaultHeight);
Start();
});
test.PerformTest();
// Replace old send stream.
SendTask(task_queue(), [this, &encoder_config_with_screenshare]() {
DestroyVideoSendStreams();
CreateVideoSendStream(encoder_config_with_screenshare);
SetVideoDegradation(DegradationPreference::BALANCED);
GetVideoSendStream()->Start();
});
// Continue to run test but now with screenshare.
test.PerformTest();
SendTask(task_queue(), [this]() {
Stop();
DestroyStreams();
DestroyCalls();
});
// Verify that stats have been updated for both screenshare and video.
EXPECT_METRIC_EQ(1, metrics::NumSamples("WebRTC.Video.EndToEndDelayInMs"));
EXPECT_METRIC_EQ(
1, metrics::NumSamples("WebRTC.Video.Screenshare.EndToEndDelayInMs"));
EXPECT_METRIC_EQ(1, metrics::NumSamples("WebRTC.Video.EndToEndDelayMaxInMs"));
EXPECT_METRIC_EQ(
1, metrics::NumSamples("WebRTC.Video.Screenshare.EndToEndDelayMaxInMs"));
EXPECT_METRIC_EQ(1, metrics::NumSamples("WebRTC.Video.InterframeDelayInMs"));
EXPECT_METRIC_EQ(
1, metrics::NumSamples("WebRTC.Video.Screenshare.InterframeDelayInMs"));
EXPECT_METRIC_EQ(1,
metrics::NumSamples("WebRTC.Video.InterframeDelayMaxInMs"));
EXPECT_METRIC_EQ(1, metrics::NumSamples(
"WebRTC.Video.Screenshare.InterframeDelayMaxInMs"));
}
TEST_F(StatsEndToEndTest, VerifyNackStats) {
static const int kPacketNumberToDrop = 200;
class NackObserver : public test::EndToEndTest {
public:
explicit NackObserver(TaskQueueBase* task_queue)
: EndToEndTest(test::VideoTestConstants::kLongTimeout),
task_queue_(task_queue) {}
private:
Action OnSendRtp(rtc::ArrayView<const uint8_t> packet) override {
{
MutexLock lock(&mutex_);
if (++sent_rtp_packets_ == kPacketNumberToDrop) {
RtpPacket header;
EXPECT_TRUE(header.Parse(packet));
dropped_rtp_packet_ = header.SequenceNumber();
return DROP_PACKET;
}
}
task_queue_->PostTask(
SafeTask(task_safety_flag_, [this]() { VerifyStats(); }));
return SEND_PACKET;
}
Action OnReceiveRtcp(rtc::ArrayView<const uint8_t> packet) override {
MutexLock lock(&mutex_);
test::RtcpPacketParser rtcp_parser;
rtcp_parser.Parse(packet);
const std::vector<uint16_t>& nacks = rtcp_parser.nack()->packet_ids();
if (!nacks.empty() && absl::c_linear_search(nacks, dropped_rtp_packet_)) {
dropped_rtp_packet_requested_ = true;
}
return SEND_PACKET;
}
void VerifyStats() {
MutexLock lock(&mutex_);
if (!dropped_rtp_packet_requested_)
return;
int send_stream_nack_packets = 0;
int receive_stream_nack_packets = 0;
VideoSendStream::Stats stats = send_stream_->GetStats();
for (const auto& kv : stats.substreams) {
const VideoSendStream::StreamStats& stream_stats = kv.second;
send_stream_nack_packets +=
stream_stats.rtcp_packet_type_counts.nack_packets;
}
for (const auto& receive_stream : receive_streams_) {
VideoReceiveStreamInterface::Stats stats = receive_stream->GetStats();
receive_stream_nack_packets +=
stats.rtcp_packet_type_counts.nack_packets;
}
if (send_stream_nack_packets >= 1 && receive_stream_nack_packets >= 1) {
// NACK packet sent on receive stream and received on sent stream.
if (MinMetricRunTimePassed())
observation_complete_.Set();
}
}
bool MinMetricRunTimePassed() {
int64_t now_ms = Clock::GetRealTimeClock()->TimeInMilliseconds();
if (!start_runtime_ms_)
start_runtime_ms_ = now_ms;
int64_t elapsed_sec = (now_ms - *start_runtime_ms_) / 1000;
return elapsed_sec > metrics::kMinRunTimeInSeconds;
}
void ModifyVideoConfigs(
VideoSendStream::Config* send_config,
std::vector<VideoReceiveStreamInterface::Config>* receive_configs,
VideoEncoderConfig* encoder_config) override {
send_config->rtp.nack.rtp_history_ms =
test::VideoTestConstants::kNackRtpHistoryMs;
(*receive_configs)[0].rtp.nack.rtp_history_ms =
test::VideoTestConstants::kNackRtpHistoryMs;
}
void OnVideoStreamsCreated(VideoSendStream* send_stream,
const std::vector<VideoReceiveStreamInterface*>&
receive_streams) override {
send_stream_ = send_stream;
receive_streams_ = receive_streams;
}
void OnStreamsStopped() override { task_safety_flag_->SetNotAlive(); }
void PerformTest() override {
EXPECT_TRUE(Wait()) << "Timed out waiting for packet to be NACKed.";
}
Mutex mutex_;
uint64_t sent_rtp_packets_ RTC_GUARDED_BY(&mutex_) = 0;
uint16_t dropped_rtp_packet_ RTC_GUARDED_BY(&mutex_) = 0;
bool dropped_rtp_packet_requested_ RTC_GUARDED_BY(&mutex_) = false;
std::vector<VideoReceiveStreamInterface*> receive_streams_;
VideoSendStream* send_stream_ = nullptr;
absl::optional<int64_t> start_runtime_ms_;
TaskQueueBase* const task_queue_;
rtc::scoped_refptr<PendingTaskSafetyFlag> task_safety_flag_ =
PendingTaskSafetyFlag::CreateDetached();
} test(task_queue());
metrics::Reset();
RunBaseTest(&test);
EXPECT_METRIC_EQ(
1, metrics::NumSamples("WebRTC.Video.UniqueNackRequestsSentInPercent"));
EXPECT_METRIC_EQ(1, metrics::NumSamples(
"WebRTC.Video.UniqueNackRequestsReceivedInPercent"));
EXPECT_METRIC_GT(metrics::MinSample("WebRTC.Video.NackPacketsSentPerMinute"),
0);
}
TEST_F(StatsEndToEndTest, CallReportsRttForSender) {
static const int kSendDelayMs = 30;
static const int kReceiveDelayMs = 70;
SendTask(task_queue(), [this]() {
BuiltInNetworkBehaviorConfig config;
config.queue_delay_ms = kSendDelayMs;
CreateCalls();
CreateSendTransport(config, /*observer*/ nullptr);
config.queue_delay_ms = kReceiveDelayMs;
CreateReceiveTransport(config, /*observer*/ nullptr);
CreateSendConfig(1, 0, 0);
CreateMatchingReceiveConfigs();
CreateVideoStreams();
CreateFrameGeneratorCapturer(test::VideoTestConstants::kDefaultFramerate,
test::VideoTestConstants::kDefaultWidth,
test::VideoTestConstants::kDefaultHeight);
receiver_call_->SignalChannelNetworkState(MediaType::VIDEO, kNetworkUp);
Start();
});
int64_t start_time_ms = env().clock().TimeInMilliseconds();
while (true) {
Call::Stats stats;
SendTask(task_queue(),
[this, &stats]() { stats = sender_call_->GetStats(); });
ASSERT_GE(start_time_ms + test::VideoTestConstants::kDefaultTimeout.ms(),
env().clock().TimeInMilliseconds())
<< "No RTT stats before timeout!";
if (stats.rtt_ms != -1) {
// To avoid failures caused by rounding or minor ntp clock adjustments,
// relax expectation by 1ms.
constexpr int kAllowedErrorMs = 1;
EXPECT_GE(stats.rtt_ms, kSendDelayMs + kReceiveDelayMs - kAllowedErrorMs);
break;
}
SleepMs(10);
}
SendTask(task_queue(), [this]() {
Stop();
DestroyStreams();
DestroyCalls();
});
}
} // namespace webrtc