test/pc/e2e/peer_connection_e2e_smoke_test.cc - src - Git at Google

 /*
  *  Copyright (c) 2019 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 <cstdint>
 #include <memory>

 #include "absl/memory/memory.h"
 #include "api/test/create_network_emulation_manager.h"
 #include "api/test/create_peerconnection_quality_test_fixture.h"
 #include "api/test/network_emulation_manager.h"
 #include "api/test/peerconnection_quality_test_fixture.h"
 #include "call/simulated_network.h"
 #include "test/gtest.h"
 #include "test/pc/e2e/analyzer/audio/default_audio_quality_analyzer.h"
 #include "test/pc/e2e/analyzer/video/default_video_quality_analyzer.h"
 #include "test/testsupport/file_utils.h"

 namespace webrtc {
 namespace webrtc_pc_e2e {
 namespace {

 void PrintFrameCounters(const std::string& name,
                         const FrameCounters& counters) {
   RTC_LOG(INFO) << "[" << name << "] Captured    : " << counters.captured;
   RTC_LOG(INFO) << "[" << name << "] Pre encoded : " << counters.pre_encoded;
   RTC_LOG(INFO) << "[" << name << "] Encoded     : " << counters.encoded;
   RTC_LOG(INFO) << "[" << name << "] Received    : " << counters.received;
   RTC_LOG(INFO) << "[" << name << "] Rendered    : " << counters.rendered;
   RTC_LOG(INFO) << "[" << name << "] Dropped     : " << counters.dropped;
 }

 }  // namespace

 TEST(PeerConnectionE2EQualityTestSmokeTest, RunWithEmulatedNetwork) {
   using PeerConfigurer = PeerConnectionE2EQualityTestFixture::PeerConfigurer;
   using RunParams = PeerConnectionE2EQualityTestFixture::RunParams;
   using VideoConfig = PeerConnectionE2EQualityTestFixture::VideoConfig;
   using AudioConfig = PeerConnectionE2EQualityTestFixture::AudioConfig;

   // Setup emulated network
   std::unique_ptr<NetworkEmulationManager> network_emulation_manager =
       CreateNetworkEmulationManager();

   auto alice_network_behavior =
       absl::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig());
   SimulatedNetwork* alice_network_behavior_ptr = alice_network_behavior.get();
   EmulatedNetworkNode* alice_node =
       network_emulation_manager->CreateEmulatedNode(
           std::move(alice_network_behavior));
   EmulatedNetworkNode* bob_node = network_emulation_manager->CreateEmulatedNode(
       absl::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig()));
   EmulatedEndpoint* alice_endpoint =
       network_emulation_manager->CreateEndpoint(EmulatedEndpointConfig());
   EmulatedEndpoint* bob_endpoint =
       network_emulation_manager->CreateEndpoint(EmulatedEndpointConfig());
   network_emulation_manager->CreateRoute(alice_endpoint, {alice_node},
                                          bob_endpoint);
   network_emulation_manager->CreateRoute(bob_endpoint, {bob_node},
                                          alice_endpoint);

   // Create analyzers.
   std::unique_ptr<VideoQualityAnalyzerInterface> video_quality_analyzer =
       absl::make_unique<DefaultVideoQualityAnalyzer>();
   // This is only done for the sake of smoke testing. In general there should
   // be no need to explicitly pull data from analyzers after the run.
   auto* video_analyzer_ptr =
       static_cast<DefaultVideoQualityAnalyzer*>(video_quality_analyzer.get());

   std::unique_ptr<AudioQualityAnalyzerInterface> audio_quality_analyzer =
       absl::make_unique<DefaultAudioQualityAnalyzer>();

   auto fixture = CreatePeerConnectionE2EQualityTestFixture(
       "smoke_test", std::move(audio_quality_analyzer),
       std::move(video_quality_analyzer));
   fixture->ExecuteAt(TimeDelta::seconds(2),
                      [alice_network_behavior_ptr](TimeDelta) {
                        BuiltInNetworkBehaviorConfig config;
                        config.loss_percent = 5;
                        alice_network_behavior_ptr->SetConfig(config);
                      });

   // Setup components. We need to provide rtc::NetworkManager compatible with
   // emulated network layer.
   fixture->AddPeer(
       network_emulation_manager->CreateNetworkThread({alice_endpoint}),
       network_emulation_manager->CreateNetworkManager({alice_endpoint}),
       [](PeerConfigurer* alice) {
         VideoConfig alice_video_config(640, 360, 30);
         alice_video_config.stream_label = "alice-video";
         alice->AddVideoConfig(std::move(alice_video_config));
         alice->SetAudioConfig(AudioConfig());
       });

   fixture->AddPeer(
       network_emulation_manager->CreateNetworkThread({bob_endpoint}),
       network_emulation_manager->CreateNetworkManager({bob_endpoint}),
       [](PeerConfigurer* bob) {
         VideoConfig bob_video_config(640, 360, 30);
         bob_video_config.stream_label = "bob-video";
         bob->AddVideoConfig(std::move(bob_video_config));
         bob->SetAudioConfig(AudioConfig());
       });

   fixture->Run(RunParams{TimeDelta::seconds(5)});

   PrintFrameCounters("Global", video_analyzer_ptr->GetGlobalCounters());
   for (auto stream_label : video_analyzer_ptr->GetKnownVideoStreams()) {
     FrameCounters stream_conters =
         video_analyzer_ptr->GetPerStreamCounters().at(stream_label);
     PrintFrameCounters(stream_label, stream_conters);
     // 150 = 30fps * 5s. On some devices pipeline can be too slow, so it can
     // happen, that frames will stuck in the middle, so we actually can't force
     // real constraints here, so lets just check, that at least 1 frame passed
     // whole pipeline.
     EXPECT_GE(stream_conters.captured, 150);
     EXPECT_GE(stream_conters.pre_encoded, 1);
     EXPECT_GE(stream_conters.encoded, 1);
     EXPECT_GE(stream_conters.received, 1);
     EXPECT_GE(stream_conters.decoded, 1);
     EXPECT_GE(stream_conters.rendered, 1);
   }
 }

 }  // namespace webrtc_pc_e2e
 }  // namespace webrtc
	/*
	* Copyright (c) 2019 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 <cstdint>
	#include <memory>

	#include "absl/memory/memory.h"
	#include "api/test/create_network_emulation_manager.h"
	#include "api/test/create_peerconnection_quality_test_fixture.h"
	#include "api/test/network_emulation_manager.h"
	#include "api/test/peerconnection_quality_test_fixture.h"
	#include "call/simulated_network.h"
	#include "test/gtest.h"
	#include "test/pc/e2e/analyzer/audio/default_audio_quality_analyzer.h"
	#include "test/pc/e2e/analyzer/video/default_video_quality_analyzer.h"
	#include "test/testsupport/file_utils.h"

	namespace webrtc {
	namespace webrtc_pc_e2e {
	namespace {

	void PrintFrameCounters(const std::string& name,
	const FrameCounters& counters) {
	RTC_LOG(INFO) << "[" << name << "] Captured : " << counters.captured;
	RTC_LOG(INFO) << "[" << name << "] Pre encoded : " << counters.pre_encoded;
	RTC_LOG(INFO) << "[" << name << "] Encoded : " << counters.encoded;
	RTC_LOG(INFO) << "[" << name << "] Received : " << counters.received;
	RTC_LOG(INFO) << "[" << name << "] Rendered : " << counters.rendered;
	RTC_LOG(INFO) << "[" << name << "] Dropped : " << counters.dropped;
	}

	} // namespace

	TEST(PeerConnectionE2EQualityTestSmokeTest, RunWithEmulatedNetwork) {
	using PeerConfigurer = PeerConnectionE2EQualityTestFixture::PeerConfigurer;
	using RunParams = PeerConnectionE2EQualityTestFixture::RunParams;
	using VideoConfig = PeerConnectionE2EQualityTestFixture::VideoConfig;
	using AudioConfig = PeerConnectionE2EQualityTestFixture::AudioConfig;

	// Setup emulated network
	std::unique_ptr<NetworkEmulationManager> network_emulation_manager =
	CreateNetworkEmulationManager();

	auto alice_network_behavior =
	absl::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig());
	SimulatedNetwork* alice_network_behavior_ptr = alice_network_behavior.get();
	EmulatedNetworkNode* alice_node =
	network_emulation_manager->CreateEmulatedNode(
	std::move(alice_network_behavior));
	EmulatedNetworkNode* bob_node = network_emulation_manager->CreateEmulatedNode(
	absl::make_unique<SimulatedNetwork>(BuiltInNetworkBehaviorConfig()));
	EmulatedEndpoint* alice_endpoint =
	network_emulation_manager->CreateEndpoint(EmulatedEndpointConfig());
	EmulatedEndpoint* bob_endpoint =
	network_emulation_manager->CreateEndpoint(EmulatedEndpointConfig());
	network_emulation_manager->CreateRoute(alice_endpoint, {alice_node},
	bob_endpoint);
	network_emulation_manager->CreateRoute(bob_endpoint, {bob_node},
	alice_endpoint);

	// Create analyzers.
	std::unique_ptr<VideoQualityAnalyzerInterface> video_quality_analyzer =
	absl::make_unique<DefaultVideoQualityAnalyzer>();
	// This is only done for the sake of smoke testing. In general there should
	// be no need to explicitly pull data from analyzers after the run.
	auto* video_analyzer_ptr =
	static_cast<DefaultVideoQualityAnalyzer*>(video_quality_analyzer.get());

	std::unique_ptr<AudioQualityAnalyzerInterface> audio_quality_analyzer =
	absl::make_unique<DefaultAudioQualityAnalyzer>();

	auto fixture = CreatePeerConnectionE2EQualityTestFixture(
	"smoke_test", std::move(audio_quality_analyzer),
	std::move(video_quality_analyzer));
	fixture->ExecuteAt(TimeDelta::seconds(2),
	[alice_network_behavior_ptr](TimeDelta) {
	BuiltInNetworkBehaviorConfig config;
	config.loss_percent = 5;
	alice_network_behavior_ptr->SetConfig(config);
	});

	// Setup components. We need to provide rtc::NetworkManager compatible with
	// emulated network layer.
	fixture->AddPeer(
	network_emulation_manager->CreateNetworkThread({alice_endpoint}),
	network_emulation_manager->CreateNetworkManager({alice_endpoint}),
	[](PeerConfigurer* alice) {
	VideoConfig alice_video_config(640, 360, 30);
	alice_video_config.stream_label = "alice-video";
	alice->AddVideoConfig(std::move(alice_video_config));
	alice->SetAudioConfig(AudioConfig());
	});

	fixture->AddPeer(
	network_emulation_manager->CreateNetworkThread({bob_endpoint}),
	network_emulation_manager->CreateNetworkManager({bob_endpoint}),
	[](PeerConfigurer* bob) {
	VideoConfig bob_video_config(640, 360, 30);
	bob_video_config.stream_label = "bob-video";
	bob->AddVideoConfig(std::move(bob_video_config));
	bob->SetAudioConfig(AudioConfig());
	});

	fixture->Run(RunParams{TimeDelta::seconds(5)});

	PrintFrameCounters("Global", video_analyzer_ptr->GetGlobalCounters());
	for (auto stream_label : video_analyzer_ptr->GetKnownVideoStreams()) {
	FrameCounters stream_conters =
	video_analyzer_ptr->GetPerStreamCounters().at(stream_label);
	PrintFrameCounters(stream_label, stream_conters);
	// 150 = 30fps * 5s. On some devices pipeline can be too slow, so it can
	// happen, that frames will stuck in the middle, so we actually can't force
	// real constraints here, so lets just check, that at least 1 frame passed
	// whole pipeline.
	EXPECT_GE(stream_conters.captured, 150);
	EXPECT_GE(stream_conters.pre_encoded, 1);
	EXPECT_GE(stream_conters.encoded, 1);
	EXPECT_GE(stream_conters.received, 1);
	EXPECT_GE(stream_conters.decoded, 1);
	EXPECT_GE(stream_conters.rendered, 1);
	}
	}

	} // namespace webrtc_pc_e2e
	} // namespace webrtc