/* * Copyright (c) 2015 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 #include "rtc_base/flags.h" #include "rtc_base/stringencode.h" #include "system_wrappers/include/field_trial_default.h" #include "test/field_trial.h" #include "test/gtest.h" #include "test/run_test.h" #include "video/video_quality_test.h" namespace webrtc { namespace flags { // Flags common with video loopback, with different default values. DEFINE_int(width, 1850, "Video width (crops source)."); size_t Width() { return static_cast(FLAG_width); } DEFINE_int(height, 1110, "Video height (crops source)."); size_t Height() { return static_cast(FLAG_height); } DEFINE_int(fps, 5, "Frames per second."); int Fps() { return static_cast(FLAG_fps); } DEFINE_int(min_bitrate, 50, "Call and stream min bitrate in kbps."); int MinBitrateKbps() { return static_cast(FLAG_min_bitrate); } DEFINE_int(start_bitrate, 300, "Call start bitrate in kbps."); int StartBitrateKbps() { return static_cast(FLAG_start_bitrate); } DEFINE_int(target_bitrate, 200, "Stream target bitrate in kbps."); int TargetBitrateKbps() { return static_cast(FLAG_target_bitrate); } DEFINE_int(max_bitrate, 1000, "Call and stream max bitrate in kbps."); int MaxBitrateKbps() { return static_cast(FLAG_max_bitrate); } DEFINE_int(num_temporal_layers, 2, "Number of temporal layers to use."); int NumTemporalLayers() { return static_cast(FLAG_num_temporal_layers); } // Flags common with video loopback, with equal default values. DEFINE_string(codec, "VP8", "Video codec to use."); std::string Codec() { return static_cast(FLAG_codec); } 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(FLAG_rtc_event_log_name); } DEFINE_string(rtp_dump_name, "", "Filename for dumped received RTP stream."); std::string RtpDumpName() { return static_cast(FLAG_rtp_dump_name); } DEFINE_int(selected_tl, -1, "Temporal layer to show or analyze. -1 to disable filtering."); int SelectedTL() { return static_cast(FLAG_selected_tl); } DEFINE_int( duration, 0, "Duration of the test in seconds. If 0, rendered will be shown instead."); int DurationSecs() { return static_cast(FLAG_duration); } DEFINE_string(output_filename, "", "Target graph data filename."); std::string OutputFilename() { return static_cast(FLAG_output_filename); } DEFINE_string(graph_title, "", "If empty, title will be generated automatically."); std::string GraphTitle() { return static_cast(FLAG_graph_title); } DEFINE_int(loss_percent, 0, "Percentage of packets randomly lost."); int LossPercent() { return static_cast(FLAG_loss_percent); } DEFINE_int(link_capacity, 0, "Capacity (kbps) of the fake link. 0 means infinite."); int LinkCapacityKbps() { return static_cast(FLAG_link_capacity); } DEFINE_int(queue_size, 0, "Size of the bottleneck link queue in packets."); int QueueSize() { return static_cast(FLAG_queue_size); } DEFINE_int(avg_propagation_delay_ms, 0, "Average link propagation delay in ms."); int AvgPropagationDelayMs() { return static_cast(FLAG_avg_propagation_delay_ms); } DEFINE_int(std_propagation_delay_ms, 0, "Link propagation delay standard deviation in ms."); int StdPropagationDelayMs() { return static_cast(FLAG_std_propagation_delay_ms); } DEFINE_int(num_streams, 0, "Number of streams to show or analyze."); int NumStreams() { return static_cast(FLAG_num_streams); } DEFINE_int(selected_stream, 0, "ID of the stream to show or analyze. " "Set to the number of streams to show them all."); int SelectedStream() { return static_cast(FLAG_selected_stream); } DEFINE_int(num_spatial_layers, 1, "Number of spatial layers to use."); int NumSpatialLayers() { return static_cast(FLAG_num_spatial_layers); } DEFINE_int(inter_layer_pred, 0, "Inter-layer prediction mode. " "0 - enabled, 1 - disabled, 2 - enabled only for key pictures."); InterLayerPredMode InterLayerPred() { if (FLAG_inter_layer_pred == 0) { return InterLayerPredMode::kOn; } else if (FLAG_inter_layer_pred == 1) { return InterLayerPredMode::kOff; } else { RTC_DCHECK_EQ(FLAG_inter_layer_pred, 2); return InterLayerPredMode::kOnKeyPic; } } DEFINE_int(selected_sl, -1, "Spatial layer to show or analyze. -1 to disable filtering."); int SelectedSL() { return static_cast(FLAG_selected_sl); } DEFINE_string(stream0, "", "Comma separated values describing VideoStream for stream #0."); std::string Stream0() { return static_cast(FLAG_stream0); } DEFINE_string(stream1, "", "Comma separated values describing VideoStream for stream #1."); std::string Stream1() { return static_cast(FLAG_stream1); } DEFINE_string(sl0, "", "Comma separated values describing SpatialLayer for layer #0."); std::string SL0() { return static_cast(FLAG_sl0); } DEFINE_string(sl1, "", "Comma separated values describing SpatialLayer for layer #1."); std::string SL1() { return static_cast(FLAG_sl1); } DEFINE_string(encoded_frame_path, "", "The base path for encoded frame logs. Created files will have " "the form ..(recv|send.).ivf"); std::string EncodedFramePath() { return static_cast(FLAG_encoded_frame_path); } DEFINE_bool(logs, false, "print logs to stderr"); DEFINE_bool(send_side_bwe, true, "Use send-side bandwidth estimation"); DEFINE_bool(allow_reordering, false, "Allow packet reordering to occur"); DEFINE_string( force_fieldtrials, "", "Field trials control experimental feature code which can be forced. " "E.g. running with --force_fieldtrials=WebRTC-FooFeature/Enable/" " will assign the group Enable to field trial WebRTC-FooFeature. Multiple " "trials are separated by \"/\""); // Screenshare-specific flags. DEFINE_int(min_transmit_bitrate, 400, "Min transmit bitrate incl. padding."); int MinTransmitBitrateKbps() { return FLAG_min_transmit_bitrate; } DEFINE_bool( generate_slides, false, "Whether to use randomly generated slides or read them from files."); bool GenerateSlides() { return static_cast(FLAG_generate_slides); } DEFINE_int(slide_change_interval, 10, "Interval (in seconds) between simulated slide changes."); int SlideChangeInterval() { return static_cast(FLAG_slide_change_interval); } DEFINE_int( scroll_duration, 0, "Duration (in seconds) during which a slide will be scrolled into place."); int ScrollDuration() { return static_cast(FLAG_scroll_duration); } DEFINE_string(slides, "", "Comma-separated list of *.yuv files to display as slides."); std::vector Slides() { std::vector slides; std::string slides_list = FLAG_slides; rtc::tokenize(slides_list, ',', &slides); return slides; } DEFINE_bool(help, false, "prints this message"); } // namespace flags void Loopback() { FakeNetworkPipe::Config pipe_config; pipe_config.loss_percent = flags::LossPercent(); pipe_config.link_capacity_kbps = flags::LinkCapacityKbps(); pipe_config.queue_length_packets = flags::QueueSize(); pipe_config.queue_delay_ms = flags::AvgPropagationDelayMs(); pipe_config.delay_standard_deviation_ms = flags::StdPropagationDelayMs(); pipe_config.allow_reordering = flags::FLAG_allow_reordering; BitrateConstraints call_bitrate_config; call_bitrate_config.min_bitrate_bps = flags::MinBitrateKbps() * 1000; call_bitrate_config.start_bitrate_bps = flags::StartBitrateKbps() * 1000; call_bitrate_config.max_bitrate_bps = -1; // Don't cap bandwidth estimate. VideoQualityTest::Params params; params.call = {flags::FLAG_send_side_bwe, call_bitrate_config}; params.video[0] = {true, flags::Width(), flags::Height(), flags::Fps(), flags::MinBitrateKbps() * 1000, flags::TargetBitrateKbps() * 1000, flags::MaxBitrateKbps() * 1000, false, flags::Codec(), flags::NumTemporalLayers(), flags::SelectedTL(), flags::MinTransmitBitrateKbps() * 1000, false, // ULPFEC disabled. false, // FlexFEC disabled. false, // Automatic scaling disabled. ""}; params.screenshare[0] = {true, flags::GenerateSlides(), flags::SlideChangeInterval(), flags::ScrollDuration(), flags::Slides()}; params.analyzer = {"screenshare", 0.0, 0.0, flags::DurationSecs(), flags::OutputFilename(), flags::GraphTitle()}; params.pipe = pipe_config; params.logging = {flags::FLAG_logs, flags::RtcEventLogName(), flags::RtpDumpName(), flags::EncodedFramePath()}; if (flags::NumStreams() > 1 && flags::Stream0().empty() && flags::Stream1().empty()) { params.ss[0].infer_streams = true; } std::vector stream_descriptors; stream_descriptors.push_back(flags::Stream0()); stream_descriptors.push_back(flags::Stream1()); std::vector SL_descriptors; SL_descriptors.push_back(flags::SL0()); SL_descriptors.push_back(flags::SL1()); VideoQualityTest::FillScalabilitySettings( ¶ms, 0, stream_descriptors, flags::NumStreams(), flags::SelectedStream(), flags::NumSpatialLayers(), flags::SelectedSL(), flags::InterLayerPred(), SL_descriptors); auto fixture = absl::make_unique(nullptr); if (flags::DurationSecs()) { fixture->RunWithAnalyzer(params); } else { fixture->RunWithRenderers(params); } } } // namespace webrtc int main(int argc, char* argv[]) { ::testing::InitGoogleTest(&argc, argv); rtc::FlagList::SetFlagsFromCommandLine(&argc, argv, true); if (webrtc::flags::FLAG_help) { rtc::FlagList::Print(nullptr, false); return 0; } webrtc::test::ValidateFieldTrialsStringOrDie( webrtc::flags::FLAG_force_fieldtrials); // InitFieldTrialsFromString stores the char*, so the char array must outlive // the application. webrtc::field_trial::InitFieldTrialsFromString( webrtc::flags::FLAG_force_fieldtrials); webrtc::test::RunTest(webrtc::Loopback); return 0; }