blob: 989b70f84e7a6bdd045a78da6c7595f48a4c2611 [file] [log] [blame]
/*
* Copyright 2012 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 "pc/peer_connection_factory.h"
#include <algorithm>
#include <memory>
#include <utility>
#include <vector>
#include "api/audio/audio_mixer.h"
#include "api/audio_codecs/builtin_audio_decoder_factory.h"
#include "api/audio_codecs/builtin_audio_encoder_factory.h"
#include "api/create_peerconnection_factory.h"
#include "api/data_channel_interface.h"
#include "api/enable_media.h"
#include "api/jsep.h"
#include "api/media_stream_interface.h"
#include "api/task_queue/default_task_queue_factory.h"
#include "api/test/mock_packet_socket_factory.h"
#include "api/video_codecs/video_decoder_factory_template.h"
#include "api/video_codecs/video_decoder_factory_template_dav1d_adapter.h"
#include "api/video_codecs/video_decoder_factory_template_libvpx_vp8_adapter.h"
#include "api/video_codecs/video_decoder_factory_template_libvpx_vp9_adapter.h"
#include "api/video_codecs/video_decoder_factory_template_open_h264_adapter.h"
#include "api/video_codecs/video_encoder_factory_template.h"
#include "api/video_codecs/video_encoder_factory_template_libaom_av1_adapter.h"
#include "api/video_codecs/video_encoder_factory_template_libvpx_vp8_adapter.h"
#include "api/video_codecs/video_encoder_factory_template_libvpx_vp9_adapter.h"
#include "api/video_codecs/video_encoder_factory_template_open_h264_adapter.h"
#include "media/base/fake_frame_source.h"
#include "modules/audio_device/include/audio_device.h"
#include "modules/audio_processing/include/audio_processing.h"
#include "p2p/base/fake_port_allocator.h"
#include "p2p/base/port.h"
#include "p2p/base/port_allocator.h"
#include "p2p/base/port_interface.h"
#include "pc/test/fake_audio_capture_module.h"
#include "pc/test/fake_video_track_source.h"
#include "pc/test/mock_peer_connection_observers.h"
#include "rtc_base/gunit.h"
#include "rtc_base/internal/default_socket_server.h"
#include "rtc_base/rtc_certificate_generator.h"
#include "rtc_base/socket_address.h"
#include "rtc_base/time_utils.h"
#include "test/gmock.h"
#include "test/gtest.h"
#include "test/scoped_key_value_config.h"
#ifdef WEBRTC_ANDROID
#include "pc/test/android_test_initializer.h"
#endif
#include "pc/test/fake_rtc_certificate_generator.h"
#include "pc/test/fake_video_track_renderer.h"
namespace webrtc {
namespace {
using ::testing::_;
using ::testing::AtLeast;
using ::testing::InvokeWithoutArgs;
using ::testing::NiceMock;
using ::testing::Return;
using ::testing::UnorderedElementsAre;
static const char kStunIceServer[] = "stun:stun.l.google.com:19302";
static const char kTurnIceServer[] = "turn:test.com:1234";
static const char kTurnIceServerWithTransport[] =
"turn:hello.com?transport=tcp";
static const char kSecureTurnIceServer[] = "turns:hello.com?transport=tcp";
static const char kSecureTurnIceServerWithoutTransportParam[] =
"turns:hello.com:443";
static const char kSecureTurnIceServerWithoutTransportAndPortParam[] =
"turns:hello.com";
static const char kTurnIceServerWithNoUsernameInUri[] = "turn:test.com:1234";
static const char kTurnPassword[] = "turnpassword";
static const int kDefaultStunPort = 3478;
static const int kDefaultStunTlsPort = 5349;
static const char kTurnUsername[] = "test";
static const char kStunIceServerWithIPv4Address[] = "stun:1.2.3.4:1234";
static const char kStunIceServerWithIPv4AddressWithoutPort[] = "stun:1.2.3.4";
static const char kStunIceServerWithIPv6Address[] = "stun:[2401:fa00:4::]:1234";
static const char kStunIceServerWithIPv6AddressWithoutPort[] =
"stun:[2401:fa00:4::]";
static const char kTurnIceServerWithIPv6Address[] = "turn:[2401:fa00:4::]:1234";
class NullPeerConnectionObserver : public PeerConnectionObserver {
public:
virtual ~NullPeerConnectionObserver() = default;
void OnSignalingChange(
PeerConnectionInterface::SignalingState new_state) override {}
void OnAddStream(rtc::scoped_refptr<MediaStreamInterface> stream) override {}
void OnRemoveStream(
rtc::scoped_refptr<MediaStreamInterface> stream) override {}
void OnDataChannel(
rtc::scoped_refptr<DataChannelInterface> data_channel) override {}
void OnRenegotiationNeeded() override {}
void OnIceConnectionChange(
PeerConnectionInterface::IceConnectionState new_state) override {}
void OnIceGatheringChange(
PeerConnectionInterface::IceGatheringState new_state) override {}
void OnIceCandidate(const IceCandidateInterface* candidate) override {}
};
class MockNetworkManager : public rtc::NetworkManager {
public:
MOCK_METHOD(void, StartUpdating, (), (override));
MOCK_METHOD(void, StopUpdating, (), (override));
MOCK_METHOD(std::vector<const rtc::Network*>,
GetNetworks,
(),
(const override));
MOCK_METHOD(std::vector<const rtc::Network*>,
GetAnyAddressNetworks,
(),
(override));
};
class PeerConnectionFactoryTest : public ::testing::Test {
public:
PeerConnectionFactoryTest()
: socket_server_(rtc::CreateDefaultSocketServer()),
main_thread_(socket_server_.get()) {}
private:
void SetUp() {
#ifdef WEBRTC_ANDROID
InitializeAndroidObjects();
#endif
// Use fake audio device module since we're only testing the interface
// level, and using a real one could make tests flaky e.g. when run in
// parallel.
factory_ = CreatePeerConnectionFactory(
rtc::Thread::Current(), rtc::Thread::Current(), rtc::Thread::Current(),
rtc::scoped_refptr<AudioDeviceModule>(FakeAudioCaptureModule::Create()),
CreateBuiltinAudioEncoderFactory(), CreateBuiltinAudioDecoderFactory(),
std::make_unique<VideoEncoderFactoryTemplate<
LibvpxVp8EncoderTemplateAdapter, LibvpxVp9EncoderTemplateAdapter,
OpenH264EncoderTemplateAdapter, LibaomAv1EncoderTemplateAdapter>>(),
std::make_unique<VideoDecoderFactoryTemplate<
LibvpxVp8DecoderTemplateAdapter, LibvpxVp9DecoderTemplateAdapter,
OpenH264DecoderTemplateAdapter, Dav1dDecoderTemplateAdapter>>(),
nullptr /* audio_mixer */, nullptr /* audio_processing */);
ASSERT_TRUE(factory_.get() != NULL);
packet_socket_factory_.reset(
new rtc::BasicPacketSocketFactory(socket_server_.get()));
port_allocator_.reset(new cricket::FakePortAllocator(
rtc::Thread::Current(), packet_socket_factory_.get(), &field_trials_));
raw_port_allocator_ = port_allocator_.get();
}
protected:
void VerifyStunServers(cricket::ServerAddresses stun_servers) {
EXPECT_EQ(stun_servers, raw_port_allocator_->stun_servers());
}
void VerifyTurnServers(std::vector<cricket::RelayServerConfig> turn_servers) {
EXPECT_EQ(turn_servers.size(), raw_port_allocator_->turn_servers().size());
for (size_t i = 0; i < turn_servers.size(); ++i) {
ASSERT_EQ(1u, turn_servers[i].ports.size());
EXPECT_EQ(1u, raw_port_allocator_->turn_servers()[i].ports.size());
EXPECT_EQ(
turn_servers[i].ports[0].address.ToString(),
raw_port_allocator_->turn_servers()[i].ports[0].address.ToString());
EXPECT_EQ(turn_servers[i].ports[0].proto,
raw_port_allocator_->turn_servers()[i].ports[0].proto);
EXPECT_EQ(turn_servers[i].credentials.username,
raw_port_allocator_->turn_servers()[i].credentials.username);
EXPECT_EQ(turn_servers[i].credentials.password,
raw_port_allocator_->turn_servers()[i].credentials.password);
}
}
void VerifyAudioCodecCapability(const RtpCodecCapability& codec) {
EXPECT_EQ(codec.kind, cricket::MEDIA_TYPE_AUDIO);
EXPECT_FALSE(codec.name.empty());
EXPECT_GT(codec.clock_rate, 0);
EXPECT_GT(codec.num_channels, 0);
}
void VerifyVideoCodecCapability(const RtpCodecCapability& codec,
bool sender) {
EXPECT_EQ(codec.kind, cricket::MEDIA_TYPE_VIDEO);
EXPECT_FALSE(codec.name.empty());
EXPECT_GT(codec.clock_rate, 0);
if (sender) {
if (codec.name == "VP8" || codec.name == "H264") {
EXPECT_THAT(
codec.scalability_modes,
UnorderedElementsAre(ScalabilityMode::kL1T1, ScalabilityMode::kL1T2,
ScalabilityMode::kL1T3))
<< "Codec: " << codec.name;
} else if (codec.name == "VP9" || codec.name == "AV1") {
EXPECT_THAT(
codec.scalability_modes,
UnorderedElementsAre(
// clang-format off
ScalabilityMode::kL1T1,
ScalabilityMode::kL1T2,
ScalabilityMode::kL1T3,
ScalabilityMode::kL2T1,
ScalabilityMode::kL2T1h,
ScalabilityMode::kL2T1_KEY,
ScalabilityMode::kL2T2,
ScalabilityMode::kL2T2h,
ScalabilityMode::kL2T2_KEY,
ScalabilityMode::kL2T2_KEY_SHIFT,
ScalabilityMode::kL2T3,
ScalabilityMode::kL2T3h,
ScalabilityMode::kL2T3_KEY,
ScalabilityMode::kL3T1,
ScalabilityMode::kL3T1h,
ScalabilityMode::kL3T1_KEY,
ScalabilityMode::kL3T2,
ScalabilityMode::kL3T2h,
ScalabilityMode::kL3T2_KEY,
ScalabilityMode::kL3T3,
ScalabilityMode::kL3T3h,
ScalabilityMode::kL3T3_KEY,
ScalabilityMode::kS2T1,
ScalabilityMode::kS2T1h,
ScalabilityMode::kS2T2,
ScalabilityMode::kS2T2h,
ScalabilityMode::kS2T3,
ScalabilityMode::kS2T3h,
ScalabilityMode::kS3T1,
ScalabilityMode::kS3T1h,
ScalabilityMode::kS3T2,
ScalabilityMode::kS3T2h,
ScalabilityMode::kS3T3,
ScalabilityMode::kS3T3h)
// clang-format on
)
<< "Codec: " << codec.name;
} else {
EXPECT_TRUE(codec.scalability_modes.empty());
}
} else {
EXPECT_TRUE(codec.scalability_modes.empty());
}
}
test::ScopedKeyValueConfig field_trials_;
std::unique_ptr<rtc::SocketServer> socket_server_;
rtc::AutoSocketServerThread main_thread_;
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory_;
NullPeerConnectionObserver observer_;
std::unique_ptr<rtc::PacketSocketFactory> packet_socket_factory_;
std::unique_ptr<cricket::FakePortAllocator> port_allocator_;
// Since the PC owns the port allocator after it's been initialized,
// this should only be used when known to be safe.
cricket::FakePortAllocator* raw_port_allocator_;
};
// Since there is no public PeerConnectionFactory API to control RTX usage, need
// to reconstruct factory with our own ConnectionContext.
rtc::scoped_refptr<PeerConnectionFactoryInterface>
CreatePeerConnectionFactoryWithRtxDisabled() {
PeerConnectionFactoryDependencies pcf_dependencies;
pcf_dependencies.signaling_thread = rtc::Thread::Current();
pcf_dependencies.worker_thread = rtc::Thread::Current();
pcf_dependencies.network_thread = rtc::Thread::Current();
pcf_dependencies.task_queue_factory = CreateDefaultTaskQueueFactory();
pcf_dependencies.trials = std::make_unique<FieldTrialBasedConfig>();
pcf_dependencies.adm = FakeAudioCaptureModule::Create();
pcf_dependencies.audio_encoder_factory = CreateBuiltinAudioEncoderFactory();
pcf_dependencies.audio_decoder_factory = CreateBuiltinAudioDecoderFactory();
pcf_dependencies.video_encoder_factory =
std::make_unique<VideoEncoderFactoryTemplate<
LibvpxVp8EncoderTemplateAdapter, LibvpxVp9EncoderTemplateAdapter,
OpenH264EncoderTemplateAdapter, LibaomAv1EncoderTemplateAdapter>>();
pcf_dependencies.video_decoder_factory =
std::make_unique<VideoDecoderFactoryTemplate<
LibvpxVp8DecoderTemplateAdapter, LibvpxVp9DecoderTemplateAdapter,
OpenH264DecoderTemplateAdapter, Dav1dDecoderTemplateAdapter>>(),
EnableMedia(pcf_dependencies);
rtc::scoped_refptr<ConnectionContext> context =
ConnectionContext::Create(&pcf_dependencies);
context->set_use_rtx(false);
return rtc::make_ref_counted<PeerConnectionFactory>(context,
&pcf_dependencies);
}
// Verify creation of PeerConnection using internal ADM, video factory and
// internal libjingle threads.
// TODO(henrika): disabling this test since relying on real audio can result in
// flaky tests and focus on details that are out of scope for you might expect
// for a PeerConnectionFactory unit test.
// See https://bugs.chromium.org/p/webrtc/issues/detail?id=7806 for details.
TEST(PeerConnectionFactoryTestInternal, DISABLED_CreatePCUsingInternalModules) {
#ifdef WEBRTC_ANDROID
InitializeAndroidObjects();
#endif
rtc::scoped_refptr<PeerConnectionFactoryInterface> factory(
CreatePeerConnectionFactory(
nullptr /* network_thread */, nullptr /* worker_thread */,
nullptr /* signaling_thread */, nullptr /* default_adm */,
CreateBuiltinAudioEncoderFactory(),
CreateBuiltinAudioDecoderFactory(),
nullptr /* video_encoder_factory */,
nullptr /* video_decoder_factory */, nullptr /* audio_mixer */,
nullptr /* audio_processing */));
NullPeerConnectionObserver observer;
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
std::unique_ptr<FakeRTCCertificateGenerator> cert_generator(
new FakeRTCCertificateGenerator());
PeerConnectionDependencies pc_dependencies(&observer);
pc_dependencies.cert_generator = std::move(cert_generator);
auto result =
factory->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
EXPECT_TRUE(result.ok());
}
TEST_F(PeerConnectionFactoryTest, CheckRtpSenderAudioCapabilities) {
RtpCapabilities audio_capabilities =
factory_->GetRtpSenderCapabilities(cricket::MEDIA_TYPE_AUDIO);
EXPECT_FALSE(audio_capabilities.codecs.empty());
for (const auto& codec : audio_capabilities.codecs) {
VerifyAudioCodecCapability(codec);
}
EXPECT_FALSE(audio_capabilities.header_extensions.empty());
for (const auto& header_extension : audio_capabilities.header_extensions) {
EXPECT_FALSE(header_extension.uri.empty());
}
}
TEST_F(PeerConnectionFactoryTest, CheckRtpSenderVideoCapabilities) {
RtpCapabilities video_capabilities =
factory_->GetRtpSenderCapabilities(cricket::MEDIA_TYPE_VIDEO);
EXPECT_FALSE(video_capabilities.codecs.empty());
for (const auto& codec : video_capabilities.codecs) {
VerifyVideoCodecCapability(codec, true);
}
EXPECT_FALSE(video_capabilities.header_extensions.empty());
for (const auto& header_extension : video_capabilities.header_extensions) {
EXPECT_FALSE(header_extension.uri.empty());
}
}
TEST_F(PeerConnectionFactoryTest, CheckRtpSenderRtxEnabledCapabilities) {
RtpCapabilities video_capabilities =
factory_->GetRtpSenderCapabilities(cricket::MEDIA_TYPE_VIDEO);
const auto it = std::find_if(
video_capabilities.codecs.begin(), video_capabilities.codecs.end(),
[](const auto& c) { return c.name == cricket::kRtxCodecName; });
EXPECT_TRUE(it != video_capabilities.codecs.end());
}
TEST(PeerConnectionFactoryTestInternal, CheckRtpSenderRtxDisabledCapabilities) {
auto factory = CreatePeerConnectionFactoryWithRtxDisabled();
RtpCapabilities video_capabilities =
factory->GetRtpSenderCapabilities(cricket::MEDIA_TYPE_VIDEO);
const auto it = std::find_if(
video_capabilities.codecs.begin(), video_capabilities.codecs.end(),
[](const auto& c) { return c.name == cricket::kRtxCodecName; });
EXPECT_TRUE(it == video_capabilities.codecs.end());
}
TEST_F(PeerConnectionFactoryTest, CheckRtpSenderDataCapabilities) {
RtpCapabilities data_capabilities =
factory_->GetRtpSenderCapabilities(cricket::MEDIA_TYPE_DATA);
EXPECT_TRUE(data_capabilities.codecs.empty());
EXPECT_TRUE(data_capabilities.header_extensions.empty());
}
TEST_F(PeerConnectionFactoryTest, CheckRtpReceiverAudioCapabilities) {
RtpCapabilities audio_capabilities =
factory_->GetRtpReceiverCapabilities(cricket::MEDIA_TYPE_AUDIO);
EXPECT_FALSE(audio_capabilities.codecs.empty());
for (const auto& codec : audio_capabilities.codecs) {
VerifyAudioCodecCapability(codec);
}
EXPECT_FALSE(audio_capabilities.header_extensions.empty());
for (const auto& header_extension : audio_capabilities.header_extensions) {
EXPECT_FALSE(header_extension.uri.empty());
}
}
TEST_F(PeerConnectionFactoryTest, CheckRtpReceiverVideoCapabilities) {
RtpCapabilities video_capabilities =
factory_->GetRtpReceiverCapabilities(cricket::MEDIA_TYPE_VIDEO);
EXPECT_FALSE(video_capabilities.codecs.empty());
for (const auto& codec : video_capabilities.codecs) {
VerifyVideoCodecCapability(codec, false);
}
EXPECT_FALSE(video_capabilities.header_extensions.empty());
for (const auto& header_extension : video_capabilities.header_extensions) {
EXPECT_FALSE(header_extension.uri.empty());
}
}
TEST_F(PeerConnectionFactoryTest, CheckRtpReceiverRtxEnabledCapabilities) {
RtpCapabilities video_capabilities =
factory_->GetRtpReceiverCapabilities(cricket::MEDIA_TYPE_VIDEO);
const auto it = std::find_if(
video_capabilities.codecs.begin(), video_capabilities.codecs.end(),
[](const auto& c) { return c.name == cricket::kRtxCodecName; });
EXPECT_TRUE(it != video_capabilities.codecs.end());
}
TEST(PeerConnectionFactoryTestInternal,
CheckRtpReceiverRtxDisabledCapabilities) {
auto factory = CreatePeerConnectionFactoryWithRtxDisabled();
RtpCapabilities video_capabilities =
factory->GetRtpReceiverCapabilities(cricket::MEDIA_TYPE_VIDEO);
const auto it = std::find_if(
video_capabilities.codecs.begin(), video_capabilities.codecs.end(),
[](const auto& c) { return c.name == cricket::kRtxCodecName; });
EXPECT_TRUE(it == video_capabilities.codecs.end());
}
TEST_F(PeerConnectionFactoryTest, CheckRtpReceiverDataCapabilities) {
RtpCapabilities data_capabilities =
factory_->GetRtpReceiverCapabilities(cricket::MEDIA_TYPE_DATA);
EXPECT_TRUE(data_capabilities.codecs.empty());
EXPECT_TRUE(data_capabilities.header_extensions.empty());
}
// This test verifies creation of PeerConnection with valid STUN and TURN
// configuration. Also verifies the URL's parsed correctly as expected.
TEST_F(PeerConnectionFactoryTest, CreatePCUsingIceServers) {
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
PeerConnectionInterface::IceServer ice_server;
ice_server.uri = kStunIceServer;
config.servers.push_back(ice_server);
ice_server.uri = kTurnIceServer;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
ice_server.uri = kTurnIceServerWithTransport;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
PeerConnectionDependencies pc_dependencies(&observer_);
pc_dependencies.cert_generator =
std::make_unique<FakeRTCCertificateGenerator>();
pc_dependencies.allocator = std::move(port_allocator_);
auto result =
factory_->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
ASSERT_TRUE(result.ok());
cricket::ServerAddresses stun_servers;
rtc::SocketAddress stun1("stun.l.google.com", 19302);
stun_servers.insert(stun1);
VerifyStunServers(stun_servers);
std::vector<cricket::RelayServerConfig> turn_servers;
cricket::RelayServerConfig turn1("test.com", 1234, kTurnUsername,
kTurnPassword, cricket::PROTO_UDP);
turn_servers.push_back(turn1);
cricket::RelayServerConfig turn2("hello.com", kDefaultStunPort, kTurnUsername,
kTurnPassword, cricket::PROTO_TCP);
turn_servers.push_back(turn2);
VerifyTurnServers(turn_servers);
}
// This test verifies creation of PeerConnection with valid STUN and TURN
// configuration. Also verifies the list of URL's parsed correctly as expected.
TEST_F(PeerConnectionFactoryTest, CreatePCUsingIceServersUrls) {
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
PeerConnectionInterface::IceServer ice_server;
ice_server.urls.push_back(kStunIceServer);
ice_server.urls.push_back(kTurnIceServer);
ice_server.urls.push_back(kTurnIceServerWithTransport);
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
PeerConnectionDependencies pc_dependencies(&observer_);
pc_dependencies.cert_generator =
std::make_unique<FakeRTCCertificateGenerator>();
pc_dependencies.allocator = std::move(port_allocator_);
auto result =
factory_->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
ASSERT_TRUE(result.ok());
cricket::ServerAddresses stun_servers;
rtc::SocketAddress stun1("stun.l.google.com", 19302);
stun_servers.insert(stun1);
VerifyStunServers(stun_servers);
std::vector<cricket::RelayServerConfig> turn_servers;
cricket::RelayServerConfig turn1("test.com", 1234, kTurnUsername,
kTurnPassword, cricket::PROTO_UDP);
turn_servers.push_back(turn1);
cricket::RelayServerConfig turn2("hello.com", kDefaultStunPort, kTurnUsername,
kTurnPassword, cricket::PROTO_TCP);
turn_servers.push_back(turn2);
VerifyTurnServers(turn_servers);
}
TEST_F(PeerConnectionFactoryTest, CreatePCUsingNoUsernameInUri) {
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
PeerConnectionInterface::IceServer ice_server;
ice_server.uri = kStunIceServer;
config.servers.push_back(ice_server);
ice_server.uri = kTurnIceServerWithNoUsernameInUri;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
PeerConnectionDependencies pc_dependencies(&observer_);
pc_dependencies.cert_generator =
std::make_unique<FakeRTCCertificateGenerator>();
pc_dependencies.allocator = std::move(port_allocator_);
auto result =
factory_->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
ASSERT_TRUE(result.ok());
std::vector<cricket::RelayServerConfig> turn_servers;
cricket::RelayServerConfig turn("test.com", 1234, kTurnUsername,
kTurnPassword, cricket::PROTO_UDP);
turn_servers.push_back(turn);
VerifyTurnServers(turn_servers);
}
// This test verifies the PeerConnection created properly with TURN url which
// has transport parameter in it.
TEST_F(PeerConnectionFactoryTest, CreatePCUsingTurnUrlWithTransportParam) {
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
PeerConnectionInterface::IceServer ice_server;
ice_server.uri = kTurnIceServerWithTransport;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
PeerConnectionDependencies pc_dependencies(&observer_);
pc_dependencies.cert_generator =
std::make_unique<FakeRTCCertificateGenerator>();
pc_dependencies.allocator = std::move(port_allocator_);
auto result =
factory_->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
ASSERT_TRUE(result.ok());
std::vector<cricket::RelayServerConfig> turn_servers;
cricket::RelayServerConfig turn("hello.com", kDefaultStunPort, kTurnUsername,
kTurnPassword, cricket::PROTO_TCP);
turn_servers.push_back(turn);
VerifyTurnServers(turn_servers);
}
TEST_F(PeerConnectionFactoryTest, CreatePCUsingSecureTurnUrl) {
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
PeerConnectionInterface::IceServer ice_server;
ice_server.uri = kSecureTurnIceServer;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
ice_server.uri = kSecureTurnIceServerWithoutTransportParam;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
ice_server.uri = kSecureTurnIceServerWithoutTransportAndPortParam;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
PeerConnectionDependencies pc_dependencies(&observer_);
pc_dependencies.cert_generator =
std::make_unique<FakeRTCCertificateGenerator>();
pc_dependencies.allocator = std::move(port_allocator_);
auto result =
factory_->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
ASSERT_TRUE(result.ok());
std::vector<cricket::RelayServerConfig> turn_servers;
cricket::RelayServerConfig turn1("hello.com", kDefaultStunTlsPort,
kTurnUsername, kTurnPassword,
cricket::PROTO_TLS);
turn_servers.push_back(turn1);
// TURNS with transport param should be default to tcp.
cricket::RelayServerConfig turn2("hello.com", 443, kTurnUsername,
kTurnPassword, cricket::PROTO_TLS);
turn_servers.push_back(turn2);
cricket::RelayServerConfig turn3("hello.com", kDefaultStunTlsPort,
kTurnUsername, kTurnPassword,
cricket::PROTO_TLS);
turn_servers.push_back(turn3);
VerifyTurnServers(turn_servers);
}
TEST_F(PeerConnectionFactoryTest, CreatePCUsingIPLiteralAddress) {
PeerConnectionInterface::RTCConfiguration config;
config.sdp_semantics = SdpSemantics::kUnifiedPlan;
PeerConnectionInterface::IceServer ice_server;
ice_server.uri = kStunIceServerWithIPv4Address;
config.servers.push_back(ice_server);
ice_server.uri = kStunIceServerWithIPv4AddressWithoutPort;
config.servers.push_back(ice_server);
ice_server.uri = kStunIceServerWithIPv6Address;
config.servers.push_back(ice_server);
ice_server.uri = kStunIceServerWithIPv6AddressWithoutPort;
config.servers.push_back(ice_server);
ice_server.uri = kTurnIceServerWithIPv6Address;
ice_server.username = kTurnUsername;
ice_server.password = kTurnPassword;
config.servers.push_back(ice_server);
PeerConnectionDependencies pc_dependencies(&observer_);
pc_dependencies.cert_generator =
std::make_unique<FakeRTCCertificateGenerator>();
pc_dependencies.allocator = std::move(port_allocator_);
auto result =
factory_->CreatePeerConnectionOrError(config, std::move(pc_dependencies));
ASSERT_TRUE(result.ok());
cricket::ServerAddresses stun_servers;
rtc::SocketAddress stun1("1.2.3.4", 1234);
stun_servers.insert(stun1);
rtc::SocketAddress stun2("1.2.3.4", 3478);
stun_servers.insert(stun2); // Default port
rtc::SocketAddress stun3("2401:fa00:4::", 1234);
stun_servers.insert(stun3);
rtc::SocketAddress stun4("2401:fa00:4::", 3478);
stun_servers.insert(stun4); // Default port
VerifyStunServers(stun_servers);
std::vector<cricket::RelayServerConfig> turn_servers;
cricket::RelayServerConfig turn1("2401:fa00:4::", 1234, kTurnUsername,
kTurnPassword, cricket::PROTO_UDP);
turn_servers.push_back(turn1);
VerifyTurnServers(turn_servers);
}
// This test verifies the captured stream is rendered locally using a
// local video track.
TEST_F(PeerConnectionFactoryTest, LocalRendering) {
rtc::scoped_refptr<FakeVideoTrackSource> source =
FakeVideoTrackSource::Create(/*is_screencast=*/false);
cricket::FakeFrameSource frame_source(1280, 720,
rtc::kNumMicrosecsPerSec / 30);
ASSERT_TRUE(source.get() != NULL);
rtc::scoped_refptr<VideoTrackInterface> track(
factory_->CreateVideoTrack(source, "testlabel"));
ASSERT_TRUE(track.get() != NULL);
FakeVideoTrackRenderer local_renderer(track.get());
EXPECT_EQ(0, local_renderer.num_rendered_frames());
source->InjectFrame(frame_source.GetFrame());
EXPECT_EQ(1, local_renderer.num_rendered_frames());
EXPECT_FALSE(local_renderer.black_frame());
track->set_enabled(false);
source->InjectFrame(frame_source.GetFrame());
EXPECT_EQ(2, local_renderer.num_rendered_frames());
EXPECT_TRUE(local_renderer.black_frame());
track->set_enabled(true);
source->InjectFrame(frame_source.GetFrame());
EXPECT_EQ(3, local_renderer.num_rendered_frames());
EXPECT_FALSE(local_renderer.black_frame());
}
TEST(PeerConnectionFactoryDependenciesTest, UsesNetworkManager) {
constexpr TimeDelta kWaitTimeout = TimeDelta::Seconds(10);
auto mock_network_manager = std::make_unique<NiceMock<MockNetworkManager>>();
rtc::Event called;
EXPECT_CALL(*mock_network_manager, StartUpdating())
.Times(AtLeast(1))
.WillRepeatedly(InvokeWithoutArgs([&] { called.Set(); }));
PeerConnectionFactoryDependencies pcf_dependencies;
pcf_dependencies.network_manager = std::move(mock_network_manager);
rtc::scoped_refptr<PeerConnectionFactoryInterface> pcf =
CreateModularPeerConnectionFactory(std::move(pcf_dependencies));
PeerConnectionInterface::RTCConfiguration config;
config.ice_candidate_pool_size = 2;
NullPeerConnectionObserver observer;
auto pc = pcf->CreatePeerConnectionOrError(
config, PeerConnectionDependencies(&observer));
ASSERT_TRUE(pc.ok());
called.Wait(kWaitTimeout);
}
TEST(PeerConnectionFactoryDependenciesTest, UsesPacketSocketFactory) {
constexpr TimeDelta kWaitTimeout = TimeDelta::Seconds(10);
auto mock_socket_factory =
std::make_unique<NiceMock<rtc::MockPacketSocketFactory>>();
rtc::Event called;
EXPECT_CALL(*mock_socket_factory, CreateUdpSocket(_, _, _))
.WillOnce(InvokeWithoutArgs([&] {
called.Set();
return nullptr;
}))
.WillRepeatedly(Return(nullptr));
PeerConnectionFactoryDependencies pcf_dependencies;
pcf_dependencies.packet_socket_factory = std::move(mock_socket_factory);
rtc::scoped_refptr<PeerConnectionFactoryInterface> pcf =
CreateModularPeerConnectionFactory(std::move(pcf_dependencies));
// By default, localhost addresses are ignored, which makes tests fail if test
// machine is offline.
PeerConnectionFactoryInterface::Options options;
options.network_ignore_mask = 0;
pcf->SetOptions(options);
PeerConnectionInterface::RTCConfiguration config;
config.ice_candidate_pool_size = 2;
NullPeerConnectionObserver observer;
auto pc = pcf->CreatePeerConnectionOrError(
config, PeerConnectionDependencies(&observer));
ASSERT_TRUE(pc.ok());
called.Wait(kWaitTimeout);
}
} // namespace
} // namespace webrtc