blob: dc8527ebde4d6a62c52b0ffcfb261326d4cecfaa [file] [log] [blame]
/*
* 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 <stdio.h>
#include "media/base/vp9_profile.h"
#include "modules/video_coding/codecs/vp9/include/vp9.h"
#include "rtc_base/experiments/alr_experiment.h"
#include "rtc_base/flags.h"
#include "system_wrappers/include/field_trial_default.h"
#include "test/field_trial.h"
#include "test/gtest.h"
#include "video/video_quality_test.h"
namespace webrtc {
namespace flags {
DEFINE_bool(logs, false, "print logs to stderr");
DEFINE_string(rtc_event_log_name,
"",
"Filename for rtc event log. Two files "
"with \"_send\" and \"_recv\" suffixes will be created.");
std::string RtcEventLogName() {
return static_cast<std::string>(FLAG_rtc_event_log_name);
}
DEFINE_string(rtp_dump_name, "", "Filename for dumped received RTP stream.");
std::string RtpDumpName() {
return static_cast<std::string>(FLAG_rtp_dump_name);
}
DEFINE_string(encoded_frame_path,
"",
"The base path for encoded frame logs. Created files will have "
"the form <encoded_frame_path>.<n>.(recv|send.<m>).ivf");
std::string EncodedFramePath() {
return static_cast<std::string>(FLAG_encoded_frame_path);
}
} // namespace flags
} // namespace webrtc
namespace webrtc {
namespace {
static const int kFullStackTestDurationSecs = 45;
const char kRoundRobinPacingQueueExperiment[] =
"WebRTC-RoundRobinPacing/Enabled/";
const char kPacerPushBackExperiment[] =
"WebRTC-PacerPushbackExperiment/Enabled/";
struct ParamsWithLogging : public VideoQualityTest::Params {
public:
ParamsWithLogging() {
// Use these logging flags by default, for everything.
logging = {flags::RtcEventLogName(), flags::RtpDumpName(),
flags::EncodedFramePath()};
}
};
std::unique_ptr<VideoQualityTestFixtureInterface>
CreateVideoQualityTestFixture() {
return absl::make_unique<VideoQualityTest>(nullptr);
}
// Takes the current active field trials set, and appends some new trials.
std::string AppendFieldTrials(std::string new_trial_string) {
return std::string(field_trial::GetFieldTrialString()) + new_trial_string;
}
} // namespace
// VideoQualityTest::Params params = {
// { ... }, // Common.
// { ... }, // Video-specific settings.
// { ... }, // Screenshare-specific settings.
// { ... }, // Analyzer settings.
// pipe, // FakeNetworkPipe::Config
// { ... }, // Spatial scalability.
// logs // bool
// };
#if !defined(RTC_DISABLE_VP9)
TEST(FullStackTest, ForemanCifWithoutPacketLossVp9) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 700000,
700000, 700000, false, "VP9", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_net_delay_0_0_plr_0_VP9", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCifPlr5Vp9) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP9", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_VP9", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, GeneratorWithoutPacketLossVp9Profile2) {
// Profile 2 might not be available on some platforms until
// https://bugs.chromium.org/p/webm/issues/detail?id=1544 is solved.
bool profile_2_is_supported = false;
for (const auto& codec : SupportedVP9Codecs()) {
if (ParseSdpForVP9Profile(codec.parameters)
.value_or(VP9Profile::kProfile0) == VP9Profile::kProfile2) {
profile_2_is_supported = true;
}
}
if (!profile_2_is_supported)
return;
auto fixture = CreateVideoQualityTestFixture();
SdpVideoFormat::Parameters vp92 = {
{kVP9FmtpProfileId, VP9ProfileToString(VP9Profile::kProfile2)}};
ParamsWithLogging generator;
generator.call.send_side_bwe = true;
generator.video[0] = {
true, 352, 288, 30, 700000, 700000, 700000, false, "VP9",
1, 0, 0, false, false, false, "GeneratorI010", 0, vp92};
generator.analyzer = {"generator_net_delay_0_0_plr_0_VP9Profile2", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(generator);
}
TEST(FullStackTest, ForemanCifWithoutPacketLossMultiplexI420Frame) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 700000,
700000, 700000, false, "multiplex", 1,
0, 0, false, false, false,
"foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_net_delay_0_0_plr_0_Multiplex", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, GeneratorWithoutPacketLossMultiplexI420AFrame) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging generator;
generator.call.send_side_bwe = true;
generator.video[0] = {true, 352, 288, 30, 700000,
700000, 700000, false, "multiplex", 1,
0, 0, false, false, false,
"GeneratorI420A"};
generator.analyzer = {"generator_net_delay_0_0_plr_0_Multiplex", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(generator);
}
#endif // !defined(RTC_DISABLE_VP9)
#if defined(WEBRTC_LINUX)
// Crashes on the linux trusty perf bot: bugs.webrtc.org/9129.
#define MAYBE_ParisQcifWithoutPacketLoss DISABLED_ParisQcifWithoutPacketLoss
#else
#define MAYBE_ParisQcifWithoutPacketLoss ParisQcifWithoutPacketLoss
#endif
TEST(FullStackTest, MAYBE_ParisQcifWithoutPacketLoss) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging paris_qcif;
paris_qcif.call.send_side_bwe = true;
paris_qcif.video[0] = {true, 176, 144, 30, 300000,
300000, 300000, false, "VP8", 1,
0, 0, false, false, false, "paris_qcif"};
paris_qcif.analyzer = {"net_delay_0_0_plr_0", 36.0, 0.96,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(paris_qcif);
}
TEST(FullStackTest, ForemanCifWithoutPacketLoss) {
auto fixture = CreateVideoQualityTestFixture();
// TODO(pbos): Decide on psnr/ssim thresholds for foreman_cif.
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 700000,
700000, 700000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_net_delay_0_0_plr_0", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif30kbpsWithoutPacketLoss) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 10, 30000,
30000, 30000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_30kbps_net_delay_0_0_plr_0", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(foreman_cif);
}
// Link capacity below default start rate. Automatic down scaling enabled.
TEST(FullStackTest, ForemanCifLink150kbpsWithoutPacketLoss) {
auto fixture = CreateVideoQualityTestFixture();
VideoQualityTest::Params foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, true, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_link_150kbps_net_delay_0_0_plr_0",
0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.link_capacity_kbps = 150;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCifPlr5) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCifPlr5Ulpfec) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, true, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_ulpfec", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCifPlr5Flexfec) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, true, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_flexfec", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif500kbpsPlr3Flexfec) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, true, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps_delay_50_0_plr_3_flexfec", 0.0,
0.0, kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 3;
foreman_cif.pipe.link_capacity_kbps = 500;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif500kbpsPlr3Ulpfec) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, true, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps_delay_50_0_plr_3_ulpfec", 0.0,
0.0, kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 3;
foreman_cif.pipe.link_capacity_kbps = 500;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
#if defined(WEBRTC_USE_H264)
TEST(FullStackTest, ForemanCifWithoutPacketlossH264) {
auto fixture = CreateVideoQualityTestFixture();
// TODO(pbos): Decide on psnr/ssim thresholds for foreman_cif.
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 700000,
700000, 700000, false, "H264", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_net_delay_0_0_plr_0_H264", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif30kbpsWithoutPacketlossH264) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 10, 30000,
30000, 30000, false, "H264", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_30kbps_net_delay_0_0_plr_0_H264", 0.0,
0.0, kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCifPlr5H264) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "H264", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_H264", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCifPlr5H264SpsPpsIdrIsKeyframe) {
auto fixture = CreateVideoQualityTestFixture();
test::ScopedFieldTrials override_field_trials(
AppendFieldTrials("WebRTC-SpsPpsIdrIsH264Keyframe/Enabled/"));
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "H264", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_H264_sps_pps_idr", 0.0,
0.0, kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
// Verify that this is worth the bot time, before enabling.
TEST(FullStackTest, ForemanCifPlr5H264Flexfec) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "H264", 1,
0, 0, false, true, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_H264_flexfec", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
// Ulpfec with H264 is an unsupported combination, so this test is only useful
// for debugging. It is therefore disabled by default.
TEST(FullStackTest, DISABLED_ForemanCifPlr5H264Ulpfec) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "H264", 1,
0, 0, true, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_delay_50_0_plr_5_H264_ulpfec", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.loss_percent = 5;
foreman_cif.pipe.queue_delay_ms = 50;
fixture->RunWithAnalyzer(foreman_cif);
}
#endif // defined(WEBRTC_USE_H264)
TEST(FullStackTest, ForemanCif500kbps) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.queue_length_packets = 0;
foreman_cif.pipe.queue_delay_ms = 0;
foreman_cif.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif500kbpsLimitedQueue) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps_32pkts_queue", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.queue_length_packets = 32;
foreman_cif.pipe.queue_delay_ms = 0;
foreman_cif.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif500kbps100ms) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps_100ms", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.queue_length_packets = 0;
foreman_cif.pipe.queue_delay_ms = 100;
foreman_cif.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif500kbps100msLimitedQueue) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps_100ms_32pkts_queue", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.queue_length_packets = 32;
foreman_cif.pipe.queue_delay_ms = 100;
foreman_cif.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif500kbps100msLimitedQueueRecvBwe) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = false;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
500000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_500kbps_100ms_32pkts_queue_recv_bwe",
0.0, 0.0, kFullStackTestDurationSecs};
foreman_cif.pipe.queue_length_packets = 32;
foreman_cif.pipe.queue_delay_ms = 100;
foreman_cif.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(foreman_cif);
}
TEST(FullStackTest, ForemanCif1000kbps100msLimitedQueue) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging foreman_cif;
foreman_cif.call.send_side_bwe = true;
foreman_cif.video[0] = {true, 352, 288, 30, 30000,
2000000, 2000000, false, "VP8", 1,
0, 0, false, false, false, "foreman_cif"};
foreman_cif.analyzer = {"foreman_cif_1000kbps_100ms_32pkts_queue", 0.0, 0.0,
kFullStackTestDurationSecs};
foreman_cif.pipe.queue_length_packets = 32;
foreman_cif.pipe.queue_delay_ms = 100;
foreman_cif.pipe.link_capacity_kbps = 1000;
fixture->RunWithAnalyzer(foreman_cif);
}
// TODO(sprang): Remove this if we have the similar ModerateLimits below?
TEST(FullStackTest, ConferenceMotionHd2000kbps100msLimitedQueue) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP8", 1,
0, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {"conference_motion_hd_2000kbps_100ms_32pkts_queue",
0.0, 0.0, kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 32;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
TEST(FullStackTest, ConferenceMotionHd1TLModerateLimits) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP8", 1,
-1, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {"conference_motion_hd_1tl_moderate_limits", 0.0,
0.0, kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 50;
conf_motion_hd.pipe.loss_percent = 3;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
TEST(FullStackTest, ConferenceMotionHd2TLModerateLimits) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP8", 2,
-1, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {"conference_motion_hd_2tl_moderate_limits", 0.0,
0.0, kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 50;
conf_motion_hd.pipe.loss_percent = 3;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
TEST(FullStackTest, ConferenceMotionHd3TLModerateLimits) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP8", 3,
-1, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {"conference_motion_hd_3tl_moderate_limits", 0.0,
0.0, kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 50;
conf_motion_hd.pipe.loss_percent = 3;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
TEST(FullStackTest, ConferenceMotionHd4TLModerateLimits) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP8", 4,
-1, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {"conference_motion_hd_4tl_moderate_limits", 0.0,
0.0, kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 50;
conf_motion_hd.pipe.loss_percent = 3;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
TEST(FullStackTest, ConferenceMotionHd3TLModerateLimitsAltTLPattern) {
auto fixture = CreateVideoQualityTestFixture();
test::ScopedFieldTrials field_trial(
AppendFieldTrials("WebRTC-UseShortVP8TL3Pattern/Enabled/"));
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP8", 3,
-1, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {"conference_motion_hd_3tl_alt_moderate_limits",
0.0, 0.0, kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 50;
conf_motion_hd.pipe.loss_percent = 3;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
#if !defined(RTC_DISABLE_VP9)
TEST(FullStackTest, ConferenceMotionHd2000kbps100msLimitedQueueVP9) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging conf_motion_hd;
conf_motion_hd.call.send_side_bwe = true;
conf_motion_hd.video[0] = {
true, 1280, 720, 50, 30000,
3000000, 3000000, false, "VP9", 1,
0, 0, false, false, false, "ConferenceMotion_1280_720_50"};
conf_motion_hd.analyzer = {
"conference_motion_hd_2000kbps_100ms_32pkts_queue_vp9", 0.0, 0.0,
kFullStackTestDurationSecs};
conf_motion_hd.pipe.queue_length_packets = 32;
conf_motion_hd.pipe.queue_delay_ms = 100;
conf_motion_hd.pipe.link_capacity_kbps = 2000;
fixture->RunWithAnalyzer(conf_motion_hd);
}
#endif
TEST(FullStackTest, ScreenshareSlidesVP8_2TL) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 1, 400000,
false, false, false, ""};
screenshare.screenshare[0] = {true, false, 10};
screenshare.analyzer = {"screenshare_slides", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(screenshare);
}
TEST(FullStackTest, ScreenshareSlidesVP8_3TL_Simulcast) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.screenshare[0] = {true, false, 10};
screenshare.video[0] = {true, 1850, 1110, 5, 800000,
2500000, 2500000, false, "VP8", 3,
2, 400000, false, false, false, ""};
screenshare.analyzer = {"screenshare_slides_simulcast", 0.0, 0.0,
kFullStackTestDurationSecs};
ParamsWithLogging screenshare_params_high;
screenshare_params_high.video[0] = {true, 1850, 1110, 5, 400000, 1000000,
1000000, false, "VP8", 3, 0, 400000,
false, false, false, ""};
VideoQualityTest::Params screenshare_params_low;
screenshare_params_low.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 0, 400000,
false, false, false, ""};
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(screenshare_params_low, 0),
VideoQualityTest::DefaultVideoStream(screenshare_params_high, 0)};
screenshare.ss[0] = {
streams, 1, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(screenshare);
}
TEST(FullStackTest, ScreenshareSlidesVP8_2TL_Scroll) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging config;
config.call.send_side_bwe = true;
config.video[0] = {true, 1850, 1110 / 2, 5, 50000, 200000,
1000000, false, "VP8", 2, 1, 400000,
false, false, false, ""};
config.screenshare[0] = {true, false, 10, 2};
config.analyzer = {"screenshare_slides_scrolling", 0.0, 0.0,
kFullStackTestDurationSecs};
fixture->RunWithAnalyzer(config);
}
TEST(FullStackTest, ScreenshareSlidesVP8_2TL_LossyNet) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 1, 400000,
false, false, false, ""};
screenshare.screenshare[0] = {true, false, 10};
screenshare.analyzer = {"screenshare_slides_lossy_net", 0.0, 0.0,
kFullStackTestDurationSecs};
screenshare.pipe.loss_percent = 5;
screenshare.pipe.queue_delay_ms = 200;
screenshare.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(screenshare);
}
TEST(FullStackTest, ScreenshareSlidesVP8_2TL_VeryLossyNet) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 1, 400000,
false, false, false, ""};
screenshare.screenshare[0] = {true, false, 10};
screenshare.analyzer = {"screenshare_slides_very_lossy", 0.0, 0.0,
kFullStackTestDurationSecs};
screenshare.pipe.loss_percent = 10;
screenshare.pipe.queue_delay_ms = 200;
screenshare.pipe.link_capacity_kbps = 500;
fixture->RunWithAnalyzer(screenshare);
}
TEST(FullStackTest, ScreenshareSlidesVP8_2TL_LossyNetRestrictedQueue) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 1, 400000,
false, false, false, ""};
screenshare.screenshare[0] = {true, false, 10};
screenshare.analyzer = {"screenshare_slides_lossy_limited", 0.0, 0.0,
kFullStackTestDurationSecs};
screenshare.pipe.loss_percent = 5;
screenshare.pipe.link_capacity_kbps = 200;
screenshare.pipe.queue_length_packets = 30;
fixture->RunWithAnalyzer(screenshare);
}
TEST(FullStackTest, ScreenshareSlidesVP8_2TL_ModeratelyRestricted) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 1, 400000,
false, false, false, ""};
screenshare.screenshare[0] = {true, false, 10};
screenshare.analyzer = {"screenshare_slides_moderately_restricted", 0.0, 0.0,
kFullStackTestDurationSecs};
screenshare.pipe.loss_percent = 1;
screenshare.pipe.link_capacity_kbps = 1200;
screenshare.pipe.queue_length_packets = 30;
fixture->RunWithAnalyzer(screenshare);
}
const ParamsWithLogging::Video kSvcVp9Video = {
true, 1280, 720, 30, 800000,
2500000, 2500000, false, "VP9", 3,
2, 400000, false, false, false, "ConferenceMotion_1280_720_50"};
const ParamsWithLogging::Video kSimulcastVp8VideoHigh = {
true, 1280, 720, 30, 800000,
2500000, 2500000, false, "VP8", 3,
2, 400000, false, false, false, "ConferenceMotion_1280_720_50"};
const ParamsWithLogging::Video kSimulcastVp8VideoMedium = {
true, 640, 360, 30, 150000,
500000, 700000, false, "VP8", 3,
2, 400000, false, false, false, "ConferenceMotion_1280_720_50"};
const ParamsWithLogging::Video kSimulcastVp8VideoLow = {
true, 320, 180, 30, 30000,
150000, 200000, false, "VP8", 3,
2, 400000, false, false, false, "ConferenceMotion_1280_720_50"};
#if !defined(RTC_DISABLE_VP9)
TEST(FullStackTest, ScreenshareSlidesVP9_2SL) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging screenshare;
screenshare.call.send_side_bwe = true;
screenshare.video[0] = {true, 1850, 1110, 5, 50000,
200000, 2000000, false, "VP9", 1,
0, 400000, false, false, false, ""};
screenshare.screenshare[0] = {true, false, 10};
screenshare.analyzer = {"screenshare_slides_vp9_2sl", 0.0, 0.0,
kFullStackTestDurationSecs};
screenshare.ss[0] = {
std::vector<VideoStream>(), 0, 2, 1, InterLayerPredMode::kOn,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(screenshare);
}
TEST(FullStackTest, VP9SVC_3SL_High) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9svc_3sl_high", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 2, InterLayerPredMode::kOn,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, VP9SVC_3SL_Medium) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9svc_3sl_medium", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 1, InterLayerPredMode::kOn,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, VP9SVC_3SL_Low) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9svc_3sl_low", 0.0, 0.0, kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 0, InterLayerPredMode::kOn,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(simulcast);
}
// bugs.webrtc.org/9506
#if !defined(WEBRTC_MAC)
TEST(FullStackTest, VP9KSVC_3SL_High) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9ksvc_3sl_high", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 2, InterLayerPredMode::kOnKeyPic,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, VP9KSVC_3SL_Medium) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9ksvc_3sl_medium", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 1, InterLayerPredMode::kOnKeyPic,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, VP9KSVC_3SL_Low) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9ksvc_3sl_low", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 0, InterLayerPredMode::kOnKeyPic,
std::vector<SpatialLayer>(), false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, VP9KSVC_3SL_Medium_Network_Restricted) {
auto fixture = CreateVideoQualityTestFixture();
VideoQualityTest::Params simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSvcVp9Video;
simulcast.analyzer = {"vp9ksvc_3sl_medium_network_restricted", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.ss[0] = {
std::vector<VideoStream>(), 0, 3, 1, InterLayerPredMode::kOnKeyPic,
std::vector<SpatialLayer>(), false};
simulcast.pipe.link_capacity_kbps = 1000;
fixture->RunWithAnalyzer(simulcast);
}
#endif // !defined(WEBRTC_MAC)
#endif // !defined(RTC_DISABLE_VP9)
// Android bots can't handle FullHD, so disable the test.
// TODO(bugs.webrtc.org/9220): Investigate source of flakiness on Mac.
#if defined(WEBRTC_ANDROID) || defined(WEBRTC_MAC)
#define MAYBE_SimulcastFullHdOveruse DISABLED_SimulcastFullHdOveruse
#else
#define MAYBE_SimulcastFullHdOveruse SimulcastFullHdOveruse
#endif
TEST(FullStackTest, MAYBE_SimulcastFullHdOveruse) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = {true, 1920, 1080, 30, 800000,
2500000, 2500000, false, "VP8", 3,
2, 400000, false, false, false, "Generator"};
simulcast.analyzer = {"simulcast_HD_high", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.pipe.loss_percent = 0;
simulcast.pipe.queue_delay_ms = 100;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(simulcast, 0),
VideoQualityTest::DefaultVideoStream(simulcast, 0),
VideoQualityTest::DefaultVideoStream(simulcast, 0)
};
simulcast.ss[0] = {
streams, 2, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
true};
webrtc::test::ScopedFieldTrials override_trials(AppendFieldTrials(
"WebRTC-ForceSimulatedOveruseIntervalMs/1000-50000-300/"));
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, SimulcastVP8_3SL_High) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSimulcastVp8VideoHigh;
simulcast.analyzer = {"simulcast_vp8_3sl_high", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.pipe.loss_percent = 0;
simulcast.pipe.queue_delay_ms = 100;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
simulcast.ss[0] = {
streams, 2, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, SimulcastVP8_3SL_Medium) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSimulcastVp8VideoHigh;
simulcast.analyzer = {"simulcast_vp8_3sl_medium", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.pipe.loss_percent = 0;
simulcast.pipe.queue_delay_ms = 100;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
simulcast.ss[0] = {
streams, 1, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, SimulcastVP8_3SL_Low) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging simulcast;
simulcast.call.send_side_bwe = true;
simulcast.video[0] = kSimulcastVp8VideoHigh;
simulcast.analyzer = {"simulcast_vp8_3sl_low", 0.0, 0.0,
kFullStackTestDurationSecs};
simulcast.pipe.loss_percent = 0;
simulcast.pipe.queue_delay_ms = 100;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
simulcast.ss[0] = {
streams, 0, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(simulcast);
}
TEST(FullStackTest, LargeRoomVP8_5thumb) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging large_room;
large_room.call.send_side_bwe = true;
large_room.video[0] = kSimulcastVp8VideoHigh;
large_room.analyzer = {"largeroom_5thumb", 0.0, 0.0,
kFullStackTestDurationSecs};
large_room.pipe.loss_percent = 0;
large_room.pipe.queue_delay_ms = 100;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
large_room.call.num_thumbnails = 5;
large_room.ss[0] = {
streams, 2, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(large_room);
}
#if defined(WEBRTC_ANDROID) || defined(WEBRTC_IOS)
// Fails on mobile devices:
// https://bugs.chromium.org/p/webrtc/issues/detail?id=7301
#define MAYBE_LargeRoomVP8_50thumb DISABLED_LargeRoomVP8_50thumb
#define MAYBE_LargeRoomVP8_15thumb DISABLED_LargeRoomVP8_15thumb
#else
#define MAYBE_LargeRoomVP8_50thumb LargeRoomVP8_50thumb
#define MAYBE_LargeRoomVP8_15thumb LargeRoomVP8_15thumb
#endif
TEST(FullStackTest, MAYBE_LargeRoomVP8_15thumb) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging large_room;
large_room.call.send_side_bwe = true;
large_room.video[0] = kSimulcastVp8VideoHigh;
large_room.analyzer = {"largeroom_15thumb", 0.0, 0.0,
kFullStackTestDurationSecs};
large_room.pipe.loss_percent = 0;
large_room.pipe.queue_delay_ms = 100;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
large_room.call.num_thumbnails = 15;
large_room.ss[0] = {
streams, 2, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(large_room);
}
TEST(FullStackTest, MAYBE_LargeRoomVP8_50thumb) {
auto fixture = CreateVideoQualityTestFixture();
ParamsWithLogging large_room;
large_room.call.send_side_bwe = true;
large_room.video[0] = kSimulcastVp8VideoHigh;
large_room.analyzer = {"largeroom_50thumb", 0.0, 0.0,
kFullStackTestDurationSecs};
large_room.pipe.loss_percent = 0;
large_room.pipe.queue_delay_ms = 100;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
large_room.call.num_thumbnails = 50;
large_room.ss[0] = {
streams, 2, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
fixture->RunWithAnalyzer(large_room);
}
class DualStreamsTest : public ::testing::TestWithParam<int> {};
// Disable dual video test on mobile device becuase it's too heavy.
#if !defined(WEBRTC_ANDROID) && !defined(WEBRTC_IOS)
TEST_P(DualStreamsTest,
ModeratelyRestricted_SlidesVp8_3TL_Simulcast_Video_Simulcast_High) {
test::ScopedFieldTrials field_trial(
AppendFieldTrials(std::string(kRoundRobinPacingQueueExperiment) +
std::string(kPacerPushBackExperiment)));
const int first_stream = GetParam();
ParamsWithLogging dual_streams;
// Screenshare Settings.
dual_streams.screenshare[first_stream] = {true, false, 10};
dual_streams.video[first_stream] = {true, 1850, 1110, 5, 800000,
2500000, 2500000, false, "VP8", 3,
2, 400000, false, false, false,
""};
ParamsWithLogging screenshare_params_high;
screenshare_params_high.video[0] = {true, 1850, 1110, 5, 400000, 1000000,
1000000, false, "VP8", 3, 0, 400000,
false, false, false, ""};
VideoQualityTest::Params screenshare_params_low;
screenshare_params_low.video[0] = {true, 1850, 1110, 5, 50000, 200000,
1000000, false, "VP8", 2, 0, 400000,
false, false, false, ""};
std::vector<VideoStream> screenhsare_streams = {
VideoQualityTest::DefaultVideoStream(screenshare_params_low, 0),
VideoQualityTest::DefaultVideoStream(screenshare_params_high, 0)};
dual_streams.ss[first_stream] = {
screenhsare_streams, 1, 1, 0, InterLayerPredMode::kOn,
std::vector<SpatialLayer>(), false};
// Video settings.
dual_streams.video[1 - first_stream] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_high;
video_params_high.video[0] = kSimulcastVp8VideoHigh;
ParamsWithLogging video_params_medium;
video_params_medium.video[0] = kSimulcastVp8VideoMedium;
ParamsWithLogging video_params_low;
video_params_low.video[0] = kSimulcastVp8VideoLow;
std::vector<VideoStream> streams = {
VideoQualityTest::DefaultVideoStream(video_params_low, 0),
VideoQualityTest::DefaultVideoStream(video_params_medium, 0),
VideoQualityTest::DefaultVideoStream(video_params_high, 0)};
dual_streams.ss[1 - first_stream] = {
streams, 2, 1, 0, InterLayerPredMode::kOn, std::vector<SpatialLayer>(),
false};
// Call settings.
dual_streams.call.send_side_bwe = true;
dual_streams.call.dual_video = true;
std::string test_label = "dualstreams_moderately_restricted_screenshare_" +
std::to_string(first_stream);
dual_streams.analyzer = {test_label, 0.0, 0.0, kFullStackTestDurationSecs};
dual_streams.pipe.loss_percent = 1;
dual_streams.pipe.link_capacity_kbps = 7500;
dual_streams.pipe.queue_length_packets = 30;
dual_streams.pipe.queue_delay_ms = 100;
auto fixture = CreateVideoQualityTestFixture();
fixture->RunWithAnalyzer(dual_streams);
}
#endif // !defined(WEBRTC_ANDROID) && !defined(WEBRTC_IOS)
TEST_P(DualStreamsTest, Conference_Restricted) {
test::ScopedFieldTrials field_trial(
AppendFieldTrials(std::string(kRoundRobinPacingQueueExperiment) +
std::string(kPacerPushBackExperiment)));
const int first_stream = GetParam();
ParamsWithLogging dual_streams;
// Screenshare Settings.
dual_streams.screenshare[first_stream] = {true, false, 10};
dual_streams.video[first_stream] = {true, 1850, 1110, 5, 800000,
2500000, 2500000, false, "VP8", 3,
2, 400000, false, false, false,
""};
// Video settings.
dual_streams.video[1 - first_stream] = {
true, 1280, 720, 30, 150000,
500000, 700000, false, "VP8", 3,
2, 400000, false, false, false, "ConferenceMotion_1280_720_50"};
// Call settings.
dual_streams.call.send_side_bwe = true;
dual_streams.call.dual_video = true;
std::string test_label = "dualstreams_conference_restricted_screenshare_" +
std::to_string(first_stream);
dual_streams.analyzer = {test_label, 0.0, 0.0, kFullStackTestDurationSecs};
dual_streams.pipe.loss_percent = 1;
dual_streams.pipe.link_capacity_kbps = 5000;
dual_streams.pipe.queue_length_packets = 30;
dual_streams.pipe.queue_delay_ms = 100;
auto fixture = CreateVideoQualityTestFixture();
fixture->RunWithAnalyzer(dual_streams);
}
INSTANTIATE_TEST_CASE_P(FullStackTest,
DualStreamsTest,
::testing::Values(0, 1));
} // namespace webrtc