webrtc/api/peerconnectionendtoend_unittest.cc - src - Git at Google

 /*
  *  Copyright 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 <memory>

 #include "webrtc/api/test/peerconnectiontestwrapper.h"
 // Notice that mockpeerconnectionobservers.h must be included after the above!
 #include "webrtc/api/test/mockpeerconnectionobservers.h"
 #ifdef WEBRTC_ANDROID
 #include "webrtc/api/test/androidtestinitializer.h"
 #endif
 #include "webrtc/base/gunit.h"
 #include "webrtc/base/logging.h"
 #include "webrtc/base/ssladapter.h"
 #include "webrtc/base/thread.h"
 #include "webrtc/base/sslstreamadapter.h"
 #include "webrtc/base/stringencode.h"
 #include "webrtc/base/stringutils.h"

 #define MAYBE_SKIP_TEST(feature)                    \
   if (!(feature())) {                               \
     LOG(LS_INFO) << "Feature disabled... skipping"; \
     return;                                         \
   }

 using webrtc::DataChannelInterface;
 using webrtc::FakeConstraints;
 using webrtc::MediaConstraintsInterface;
 using webrtc::MediaStreamInterface;
 using webrtc::PeerConnectionInterface;

 namespace {

 const int kMaxWait = 10000;

 }  // namespace

 class PeerConnectionEndToEndTest
     : public sigslot::has_slots<>,
       public testing::Test {
  public:
   typedef std::vector<rtc::scoped_refptr<DataChannelInterface> >
       DataChannelList;

   PeerConnectionEndToEndTest() {
     RTC_CHECK(network_thread_.Start());
     RTC_CHECK(worker_thread_.Start());
     caller_ = new rtc::RefCountedObject<PeerConnectionTestWrapper>(
         "caller", &network_thread_, &worker_thread_);
     callee_ = new rtc::RefCountedObject<PeerConnectionTestWrapper>(
         "callee", &network_thread_, &worker_thread_);
     webrtc::PeerConnectionInterface::IceServer ice_server;
     ice_server.uri = "stun:stun.l.google.com:19302";
     config_.servers.push_back(ice_server);

 #ifdef WEBRTC_ANDROID
     webrtc::InitializeAndroidObjects();
 #endif
   }

   void CreatePcs() {
     CreatePcs(NULL);
   }

   void CreatePcs(const MediaConstraintsInterface* pc_constraints) {
     EXPECT_TRUE(caller_->CreatePc(pc_constraints, config_));
     EXPECT_TRUE(callee_->CreatePc(pc_constraints, config_));
     PeerConnectionTestWrapper::Connect(caller_.get(), callee_.get());

     caller_->SignalOnDataChannel.connect(
         this, &PeerConnectionEndToEndTest::OnCallerAddedDataChanel);
     callee_->SignalOnDataChannel.connect(
         this, &PeerConnectionEndToEndTest::OnCalleeAddedDataChannel);
   }

   void GetAndAddUserMedia() {
     FakeConstraints audio_constraints;
     FakeConstraints video_constraints;
     GetAndAddUserMedia(true, audio_constraints, true, video_constraints);
   }

   void GetAndAddUserMedia(bool audio, FakeConstraints audio_constraints,
                           bool video, FakeConstraints video_constraints) {
     caller_->GetAndAddUserMedia(audio, audio_constraints,
                                 video, video_constraints);
     callee_->GetAndAddUserMedia(audio, audio_constraints,
                                 video, video_constraints);
   }

   void Negotiate() {
     caller_->CreateOffer(NULL);
   }

   void WaitForCallEstablished() {
     caller_->WaitForCallEstablished();
     callee_->WaitForCallEstablished();
   }

   void WaitForConnection() {
     caller_->WaitForConnection();
     callee_->WaitForConnection();
   }

   void OnCallerAddedDataChanel(DataChannelInterface* dc) {
     caller_signaled_data_channels_.push_back(dc);
   }

   void OnCalleeAddedDataChannel(DataChannelInterface* dc) {
     callee_signaled_data_channels_.push_back(dc);
   }

   // Tests that |dc1| and |dc2| can send to and receive from each other.
   void TestDataChannelSendAndReceive(
       DataChannelInterface* dc1, DataChannelInterface* dc2) {
     std::unique_ptr<webrtc::MockDataChannelObserver> dc1_observer(
         new webrtc::MockDataChannelObserver(dc1));

     std::unique_ptr<webrtc::MockDataChannelObserver> dc2_observer(
         new webrtc::MockDataChannelObserver(dc2));

     static const std::string kDummyData = "abcdefg";
     webrtc::DataBuffer buffer(kDummyData);
     EXPECT_TRUE(dc1->Send(buffer));
     EXPECT_EQ_WAIT(kDummyData, dc2_observer->last_message(), kMaxWait);

     EXPECT_TRUE(dc2->Send(buffer));
     EXPECT_EQ_WAIT(kDummyData, dc1_observer->last_message(), kMaxWait);

     EXPECT_EQ(1U, dc1_observer->received_message_count());
     EXPECT_EQ(1U, dc2_observer->received_message_count());
   }

   void WaitForDataChannelsToOpen(DataChannelInterface* local_dc,
                                  const DataChannelList& remote_dc_list,
                                  size_t remote_dc_index) {
     EXPECT_EQ_WAIT(DataChannelInterface::kOpen, local_dc->state(), kMaxWait);

     EXPECT_TRUE_WAIT(remote_dc_list.size() > remote_dc_index, kMaxWait);
     EXPECT_EQ_WAIT(DataChannelInterface::kOpen,
                    remote_dc_list[remote_dc_index]->state(),
                    kMaxWait);
     EXPECT_EQ(local_dc->id(), remote_dc_list[remote_dc_index]->id());
   }

   void CloseDataChannels(DataChannelInterface* local_dc,
                          const DataChannelList& remote_dc_list,
                          size_t remote_dc_index) {
     local_dc->Close();
     EXPECT_EQ_WAIT(DataChannelInterface::kClosed, local_dc->state(), kMaxWait);
     EXPECT_EQ_WAIT(DataChannelInterface::kClosed,
                    remote_dc_list[remote_dc_index]->state(),
                    kMaxWait);
   }

  protected:
   rtc::Thread network_thread_;
   rtc::Thread worker_thread_;
   rtc::scoped_refptr<PeerConnectionTestWrapper> caller_;
   rtc::scoped_refptr<PeerConnectionTestWrapper> callee_;
   DataChannelList caller_signaled_data_channels_;
   DataChannelList callee_signaled_data_channels_;
   webrtc::PeerConnectionInterface::RTCConfiguration config_;
 };

 // Disabled for TSan v2, see
 // https://bugs.chromium.org/p/webrtc/issues/detail?id=4719 for details.
 // Disabled for Mac, see
 // https://bugs.chromium.org/p/webrtc/issues/detail?id=5231 for details.
 #if !defined(THREAD_SANITIZER) && !defined(WEBRTC_MAC)
 TEST_F(PeerConnectionEndToEndTest, Call) {
   CreatePcs();
   GetAndAddUserMedia();
   Negotiate();
   WaitForCallEstablished();
 }
 #endif // if !defined(THREAD_SANITIZER) && !defined(WEBRTC_MAC)

 TEST_F(PeerConnectionEndToEndTest, CallWithLegacySdp) {
   FakeConstraints pc_constraints;
   pc_constraints.AddMandatory(MediaConstraintsInterface::kEnableDtlsSrtp,
                               false);
   CreatePcs(&pc_constraints);
   GetAndAddUserMedia();
   Negotiate();
   WaitForCallEstablished();
 }

 // Verifies that a DataChannel created before the negotiation can transition to
 // "OPEN" and transfer data.
 TEST_F(PeerConnectionEndToEndTest, CreateDataChannelBeforeNegotiate) {
   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

   CreatePcs();

   webrtc::DataChannelInit init;
   rtc::scoped_refptr<DataChannelInterface> caller_dc(
       caller_->CreateDataChannel("data", init));
   rtc::scoped_refptr<DataChannelInterface> callee_dc(
       callee_->CreateDataChannel("data", init));

   Negotiate();
   WaitForConnection();

   WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 0);
   WaitForDataChannelsToOpen(callee_dc, caller_signaled_data_channels_, 0);

   TestDataChannelSendAndReceive(caller_dc, callee_signaled_data_channels_[0]);
   TestDataChannelSendAndReceive(callee_dc, caller_signaled_data_channels_[0]);

   CloseDataChannels(caller_dc, callee_signaled_data_channels_, 0);
   CloseDataChannels(callee_dc, caller_signaled_data_channels_, 0);
 }

 // Verifies that a DataChannel created after the negotiation can transition to
 // "OPEN" and transfer data.
 TEST_F(PeerConnectionEndToEndTest, CreateDataChannelAfterNegotiate) {
   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

   CreatePcs();

   webrtc::DataChannelInit init;

   // This DataChannel is for creating the data content in the negotiation.
   rtc::scoped_refptr<DataChannelInterface> dummy(
       caller_->CreateDataChannel("data", init));
   Negotiate();
   WaitForConnection();

   // Wait for the data channel created pre-negotiation to be opened.
   WaitForDataChannelsToOpen(dummy, callee_signaled_data_channels_, 0);

   // Create new DataChannels after the negotiation and verify their states.
   rtc::scoped_refptr<DataChannelInterface> caller_dc(
       caller_->CreateDataChannel("hello", init));
   rtc::scoped_refptr<DataChannelInterface> callee_dc(
       callee_->CreateDataChannel("hello", init));

   WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 1);
   WaitForDataChannelsToOpen(callee_dc, caller_signaled_data_channels_, 0);

   TestDataChannelSendAndReceive(caller_dc, callee_signaled_data_channels_[1]);
   TestDataChannelSendAndReceive(callee_dc, caller_signaled_data_channels_[0]);

   CloseDataChannels(caller_dc, callee_signaled_data_channels_, 1);
   CloseDataChannels(callee_dc, caller_signaled_data_channels_, 0);
 }

 // Verifies that DataChannel IDs are even/odd based on the DTLS roles.
 TEST_F(PeerConnectionEndToEndTest, DataChannelIdAssignment) {
   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

   CreatePcs();

   webrtc::DataChannelInit init;
   rtc::scoped_refptr<DataChannelInterface> caller_dc_1(
       caller_->CreateDataChannel("data", init));
   rtc::scoped_refptr<DataChannelInterface> callee_dc_1(
       callee_->CreateDataChannel("data", init));

   Negotiate();
   WaitForConnection();

   EXPECT_EQ(1U, caller_dc_1->id() % 2);
   EXPECT_EQ(0U, callee_dc_1->id() % 2);

   rtc::scoped_refptr<DataChannelInterface> caller_dc_2(
       caller_->CreateDataChannel("data", init));
   rtc::scoped_refptr<DataChannelInterface> callee_dc_2(
       callee_->CreateDataChannel("data", init));

   EXPECT_EQ(1U, caller_dc_2->id() % 2);
   EXPECT_EQ(0U, callee_dc_2->id() % 2);
 }

 // Verifies that the message is received by the right remote DataChannel when
 // there are multiple DataChannels.
 TEST_F(PeerConnectionEndToEndTest,
        MessageTransferBetweenTwoPairsOfDataChannels) {
   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

   CreatePcs();

   webrtc::DataChannelInit init;

   rtc::scoped_refptr<DataChannelInterface> caller_dc_1(
       caller_->CreateDataChannel("data", init));
   rtc::scoped_refptr<DataChannelInterface> caller_dc_2(
       caller_->CreateDataChannel("data", init));

   Negotiate();
   WaitForConnection();
   WaitForDataChannelsToOpen(caller_dc_1, callee_signaled_data_channels_, 0);
   WaitForDataChannelsToOpen(caller_dc_2, callee_signaled_data_channels_, 1);

   std::unique_ptr<webrtc::MockDataChannelObserver> dc_1_observer(
       new webrtc::MockDataChannelObserver(callee_signaled_data_channels_[0]));

   std::unique_ptr<webrtc::MockDataChannelObserver> dc_2_observer(
       new webrtc::MockDataChannelObserver(callee_signaled_data_channels_[1]));

   const std::string message_1 = "hello 1";
   const std::string message_2 = "hello 2";

   caller_dc_1->Send(webrtc::DataBuffer(message_1));
   EXPECT_EQ_WAIT(message_1, dc_1_observer->last_message(), kMaxWait);

   caller_dc_2->Send(webrtc::DataBuffer(message_2));
   EXPECT_EQ_WAIT(message_2, dc_2_observer->last_message(), kMaxWait);

   EXPECT_EQ(1U, dc_1_observer->received_message_count());
   EXPECT_EQ(1U, dc_2_observer->received_message_count());
 }

 #ifdef HAVE_QUIC
 // Test that QUIC data channels can be used and that messages go to the correct
 // remote data channel when both peers want to use QUIC. It is assumed that the
 // application has externally negotiated the data channel parameters.
 TEST_F(PeerConnectionEndToEndTest, MessageTransferBetweenQuicDataChannels) {
   config_.enable_quic = true;
   CreatePcs();

   webrtc::DataChannelInit init_1;
   init_1.id = 0;
   init_1.ordered = false;
   init_1.reliable = true;

   webrtc::DataChannelInit init_2;
   init_2.id = 1;
   init_2.ordered = false;
   init_2.reliable = true;

   rtc::scoped_refptr<DataChannelInterface> caller_dc_1(
       caller_->CreateDataChannel("data", init_1));
   ASSERT_NE(nullptr, caller_dc_1);
   rtc::scoped_refptr<DataChannelInterface> caller_dc_2(
       caller_->CreateDataChannel("data", init_2));
   ASSERT_NE(nullptr, caller_dc_2);
   rtc::scoped_refptr<DataChannelInterface> callee_dc_1(
       callee_->CreateDataChannel("data", init_1));
   ASSERT_NE(nullptr, callee_dc_1);
   rtc::scoped_refptr<DataChannelInterface> callee_dc_2(
       callee_->CreateDataChannel("data", init_2));
   ASSERT_NE(nullptr, callee_dc_2);

   Negotiate();
   WaitForConnection();
   EXPECT_TRUE_WAIT(caller_dc_1->state() == webrtc::DataChannelInterface::kOpen,
                    kMaxWait);
   EXPECT_TRUE_WAIT(callee_dc_1->state() == webrtc::DataChannelInterface::kOpen,
                    kMaxWait);
   EXPECT_TRUE_WAIT(caller_dc_2->state() == webrtc::DataChannelInterface::kOpen,
                    kMaxWait);
   EXPECT_TRUE_WAIT(callee_dc_2->state() == webrtc::DataChannelInterface::kOpen,
                    kMaxWait);

   std::unique_ptr<webrtc::MockDataChannelObserver> dc_1_observer(
       new webrtc::MockDataChannelObserver(callee_dc_1.get()));

   std::unique_ptr<webrtc::MockDataChannelObserver> dc_2_observer(
       new webrtc::MockDataChannelObserver(callee_dc_2.get()));

   const std::string message_1 = "hello 1";
   const std::string message_2 = "hello 2";

   // Send data from caller to callee.
   caller_dc_1->Send(webrtc::DataBuffer(message_1));
   EXPECT_EQ_WAIT(message_1, dc_1_observer->last_message(), kMaxWait);

   caller_dc_2->Send(webrtc::DataBuffer(message_2));
   EXPECT_EQ_WAIT(message_2, dc_2_observer->last_message(), kMaxWait);

   EXPECT_EQ(1U, dc_1_observer->received_message_count());
   EXPECT_EQ(1U, dc_2_observer->received_message_count());

   // Send data from callee to caller.
   dc_1_observer.reset(new webrtc::MockDataChannelObserver(caller_dc_1.get()));
   dc_2_observer.reset(new webrtc::MockDataChannelObserver(caller_dc_2.get()));

   callee_dc_1->Send(webrtc::DataBuffer(message_1));
   EXPECT_EQ_WAIT(message_1, dc_1_observer->last_message(), kMaxWait);

   callee_dc_2->Send(webrtc::DataBuffer(message_2));
   EXPECT_EQ_WAIT(message_2, dc_2_observer->last_message(), kMaxWait);

   EXPECT_EQ(1U, dc_1_observer->received_message_count());
   EXPECT_EQ(1U, dc_2_observer->received_message_count());
 }
 #endif  // HAVE_QUIC

 // Verifies that a DataChannel added from an OPEN message functions after
 // a channel has been previously closed (webrtc issue 3778).
 // This previously failed because the new channel re-uses the ID of the closed
 // channel, and the closed channel was incorrectly still assigned to the id.
 // TODO(deadbeef): This is disabled because there's currently a race condition
 // caused by the fact that a data channel signals that it's closed before it
 // really is. Re-enable this test once that's fixed.
 TEST_F(PeerConnectionEndToEndTest,
        DISABLED_DataChannelFromOpenWorksAfterClose) {
   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

   CreatePcs();

   webrtc::DataChannelInit init;
   rtc::scoped_refptr<DataChannelInterface> caller_dc(
       caller_->CreateDataChannel("data", init));

   Negotiate();
   WaitForConnection();

   WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 0);
   CloseDataChannels(caller_dc, callee_signaled_data_channels_, 0);

   // Create a new channel and ensure it works after closing the previous one.
   caller_dc = caller_->CreateDataChannel("data2", init);

   WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 1);
   TestDataChannelSendAndReceive(caller_dc, callee_signaled_data_channels_[1]);

   CloseDataChannels(caller_dc, callee_signaled_data_channels_, 1);
 }

 // This tests that if a data channel is closed remotely while not referenced
 // by the application (meaning only the PeerConnection contributes to its
 // reference count), no memory access violation will occur.
 // See: https://code.google.com/p/chromium/issues/detail?id=565048
 TEST_F(PeerConnectionEndToEndTest, CloseDataChannelRemotelyWhileNotReferenced) {
   MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

   CreatePcs();

   webrtc::DataChannelInit init;
   rtc::scoped_refptr<DataChannelInterface> caller_dc(
       caller_->CreateDataChannel("data", init));

   Negotiate();
   WaitForConnection();

   WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 0);
   // This removes the reference to the remote data channel that we hold.
   callee_signaled_data_channels_.clear();
   caller_dc->Close();
   EXPECT_EQ_WAIT(DataChannelInterface::kClosed, caller_dc->state(), kMaxWait);

   // Wait for a bit longer so the remote data channel will receive the
   // close message and be destroyed.
   rtc::Thread::Current()->ProcessMessages(100);
 }
	/*
	* Copyright 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 <memory>

	#include "webrtc/api/test/peerconnectiontestwrapper.h"
	// Notice that mockpeerconnectionobservers.h must be included after the above!
	#include "webrtc/api/test/mockpeerconnectionobservers.h"
	#ifdef WEBRTC_ANDROID
	#include "webrtc/api/test/androidtestinitializer.h"
	#endif
	#include "webrtc/base/gunit.h"
	#include "webrtc/base/logging.h"
	#include "webrtc/base/ssladapter.h"
	#include "webrtc/base/thread.h"
	#include "webrtc/base/sslstreamadapter.h"
	#include "webrtc/base/stringencode.h"
	#include "webrtc/base/stringutils.h"

	#define MAYBE_SKIP_TEST(feature) \
	if (!(feature())) { \
	LOG(LS_INFO) << "Feature disabled... skipping"; \
	return; \
	}

	using webrtc::DataChannelInterface;
	using webrtc::FakeConstraints;
	using webrtc::MediaConstraintsInterface;
	using webrtc::MediaStreamInterface;
	using webrtc::PeerConnectionInterface;

	namespace {

	const int kMaxWait = 10000;

	} // namespace

	class PeerConnectionEndToEndTest
	: public sigslot::has_slots<>,
	public testing::Test {
	public:
	typedef std::vector<rtc::scoped_refptr<DataChannelInterface> >
	DataChannelList;

	PeerConnectionEndToEndTest() {
	RTC_CHECK(network_thread_.Start());
	RTC_CHECK(worker_thread_.Start());
	caller_ = new rtc::RefCountedObject<PeerConnectionTestWrapper>(
	"caller", &network_thread_, &worker_thread_);
	callee_ = new rtc::RefCountedObject<PeerConnectionTestWrapper>(
	"callee", &network_thread_, &worker_thread_);
	webrtc::PeerConnectionInterface::IceServer ice_server;
	ice_server.uri = "stun:stun.l.google.com:19302";
	config_.servers.push_back(ice_server);

	#ifdef WEBRTC_ANDROID
	webrtc::InitializeAndroidObjects();
	#endif
	}

	void CreatePcs() {
	CreatePcs(NULL);
	}

	void CreatePcs(const MediaConstraintsInterface* pc_constraints) {
	EXPECT_TRUE(caller_->CreatePc(pc_constraints, config_));
	EXPECT_TRUE(callee_->CreatePc(pc_constraints, config_));
	PeerConnectionTestWrapper::Connect(caller_.get(), callee_.get());

	caller_->SignalOnDataChannel.connect(
	this, &PeerConnectionEndToEndTest::OnCallerAddedDataChanel);
	callee_->SignalOnDataChannel.connect(
	this, &PeerConnectionEndToEndTest::OnCalleeAddedDataChannel);
	}

	void GetAndAddUserMedia() {
	FakeConstraints audio_constraints;
	FakeConstraints video_constraints;
	GetAndAddUserMedia(true, audio_constraints, true, video_constraints);
	}

	void GetAndAddUserMedia(bool audio, FakeConstraints audio_constraints,
	bool video, FakeConstraints video_constraints) {
	caller_->GetAndAddUserMedia(audio, audio_constraints,
	video, video_constraints);
	callee_->GetAndAddUserMedia(audio, audio_constraints,
	video, video_constraints);
	}

	void Negotiate() {
	caller_->CreateOffer(NULL);
	}

	void WaitForCallEstablished() {
	caller_->WaitForCallEstablished();
	callee_->WaitForCallEstablished();
	}

	void WaitForConnection() {
	caller_->WaitForConnection();
	callee_->WaitForConnection();
	}

	void OnCallerAddedDataChanel(DataChannelInterface* dc) {
	caller_signaled_data_channels_.push_back(dc);
	}

	void OnCalleeAddedDataChannel(DataChannelInterface* dc) {
	callee_signaled_data_channels_.push_back(dc);
	}

	// Tests that \|dc1\| and \|dc2\| can send to and receive from each other.
	void TestDataChannelSendAndReceive(
	DataChannelInterface* dc1, DataChannelInterface* dc2) {
	std::unique_ptr<webrtc::MockDataChannelObserver> dc1_observer(
	new webrtc::MockDataChannelObserver(dc1));

	std::unique_ptr<webrtc::MockDataChannelObserver> dc2_observer(
	new webrtc::MockDataChannelObserver(dc2));

	static const std::string kDummyData = "abcdefg";
	webrtc::DataBuffer buffer(kDummyData);
	EXPECT_TRUE(dc1->Send(buffer));
	EXPECT_EQ_WAIT(kDummyData, dc2_observer->last_message(), kMaxWait);

	EXPECT_TRUE(dc2->Send(buffer));
	EXPECT_EQ_WAIT(kDummyData, dc1_observer->last_message(), kMaxWait);

	EXPECT_EQ(1U, dc1_observer->received_message_count());
	EXPECT_EQ(1U, dc2_observer->received_message_count());
	}

	void WaitForDataChannelsToOpen(DataChannelInterface* local_dc,
	const DataChannelList& remote_dc_list,
	size_t remote_dc_index) {
	EXPECT_EQ_WAIT(DataChannelInterface::kOpen, local_dc->state(), kMaxWait);

	EXPECT_TRUE_WAIT(remote_dc_list.size() > remote_dc_index, kMaxWait);
	EXPECT_EQ_WAIT(DataChannelInterface::kOpen,
	remote_dc_list[remote_dc_index]->state(),
	kMaxWait);
	EXPECT_EQ(local_dc->id(), remote_dc_list[remote_dc_index]->id());
	}

	void CloseDataChannels(DataChannelInterface* local_dc,
	const DataChannelList& remote_dc_list,
	size_t remote_dc_index) {
	local_dc->Close();
	EXPECT_EQ_WAIT(DataChannelInterface::kClosed, local_dc->state(), kMaxWait);
	EXPECT_EQ_WAIT(DataChannelInterface::kClosed,
	remote_dc_list[remote_dc_index]->state(),
	kMaxWait);
	}

	protected:
	rtc::Thread network_thread_;
	rtc::Thread worker_thread_;
	rtc::scoped_refptr<PeerConnectionTestWrapper> caller_;
	rtc::scoped_refptr<PeerConnectionTestWrapper> callee_;
	DataChannelList caller_signaled_data_channels_;
	DataChannelList callee_signaled_data_channels_;
	webrtc::PeerConnectionInterface::RTCConfiguration config_;
	};

	// Disabled for TSan v2, see
	// https://bugs.chromium.org/p/webrtc/issues/detail?id=4719 for details.
	// Disabled for Mac, see
	// https://bugs.chromium.org/p/webrtc/issues/detail?id=5231 for details.
	#if !defined(THREAD_SANITIZER) && !defined(WEBRTC_MAC)
	TEST_F(PeerConnectionEndToEndTest, Call) {
	CreatePcs();
	GetAndAddUserMedia();
	Negotiate();
	WaitForCallEstablished();
	}
	#endif // if !defined(THREAD_SANITIZER) && !defined(WEBRTC_MAC)

	TEST_F(PeerConnectionEndToEndTest, CallWithLegacySdp) {
	FakeConstraints pc_constraints;
	pc_constraints.AddMandatory(MediaConstraintsInterface::kEnableDtlsSrtp,
	false);
	CreatePcs(&pc_constraints);
	GetAndAddUserMedia();
	Negotiate();
	WaitForCallEstablished();
	}

	// Verifies that a DataChannel created before the negotiation can transition to
	// "OPEN" and transfer data.
	TEST_F(PeerConnectionEndToEndTest, CreateDataChannelBeforeNegotiate) {
	MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

	CreatePcs();

	webrtc::DataChannelInit init;
	rtc::scoped_refptr<DataChannelInterface> caller_dc(
	caller_->CreateDataChannel("data", init));
	rtc::scoped_refptr<DataChannelInterface> callee_dc(
	callee_->CreateDataChannel("data", init));

	Negotiate();
	WaitForConnection();

	WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 0);
	WaitForDataChannelsToOpen(callee_dc, caller_signaled_data_channels_, 0);

	TestDataChannelSendAndReceive(caller_dc, callee_signaled_data_channels_[0]);
	TestDataChannelSendAndReceive(callee_dc, caller_signaled_data_channels_[0]);

	CloseDataChannels(caller_dc, callee_signaled_data_channels_, 0);
	CloseDataChannels(callee_dc, caller_signaled_data_channels_, 0);
	}

	// Verifies that a DataChannel created after the negotiation can transition to
	// "OPEN" and transfer data.
	TEST_F(PeerConnectionEndToEndTest, CreateDataChannelAfterNegotiate) {
	MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

	CreatePcs();

	webrtc::DataChannelInit init;

	// This DataChannel is for creating the data content in the negotiation.
	rtc::scoped_refptr<DataChannelInterface> dummy(
	caller_->CreateDataChannel("data", init));
	Negotiate();
	WaitForConnection();

	// Wait for the data channel created pre-negotiation to be opened.
	WaitForDataChannelsToOpen(dummy, callee_signaled_data_channels_, 0);

	// Create new DataChannels after the negotiation and verify their states.
	rtc::scoped_refptr<DataChannelInterface> caller_dc(
	caller_->CreateDataChannel("hello", init));
	rtc::scoped_refptr<DataChannelInterface> callee_dc(
	callee_->CreateDataChannel("hello", init));

	WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 1);
	WaitForDataChannelsToOpen(callee_dc, caller_signaled_data_channels_, 0);

	TestDataChannelSendAndReceive(caller_dc, callee_signaled_data_channels_[1]);
	TestDataChannelSendAndReceive(callee_dc, caller_signaled_data_channels_[0]);

	CloseDataChannels(caller_dc, callee_signaled_data_channels_, 1);
	CloseDataChannels(callee_dc, caller_signaled_data_channels_, 0);
	}

	// Verifies that DataChannel IDs are even/odd based on the DTLS roles.
	TEST_F(PeerConnectionEndToEndTest, DataChannelIdAssignment) {
	MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

	CreatePcs();

	webrtc::DataChannelInit init;
	rtc::scoped_refptr<DataChannelInterface> caller_dc_1(
	caller_->CreateDataChannel("data", init));
	rtc::scoped_refptr<DataChannelInterface> callee_dc_1(
	callee_->CreateDataChannel("data", init));

	Negotiate();
	WaitForConnection();

	EXPECT_EQ(1U, caller_dc_1->id() % 2);
	EXPECT_EQ(0U, callee_dc_1->id() % 2);

	rtc::scoped_refptr<DataChannelInterface> caller_dc_2(
	caller_->CreateDataChannel("data", init));
	rtc::scoped_refptr<DataChannelInterface> callee_dc_2(
	callee_->CreateDataChannel("data", init));

	EXPECT_EQ(1U, caller_dc_2->id() % 2);
	EXPECT_EQ(0U, callee_dc_2->id() % 2);
	}

	// Verifies that the message is received by the right remote DataChannel when
	// there are multiple DataChannels.
	TEST_F(PeerConnectionEndToEndTest,
	MessageTransferBetweenTwoPairsOfDataChannels) {
	MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

	CreatePcs();

	webrtc::DataChannelInit init;

	rtc::scoped_refptr<DataChannelInterface> caller_dc_1(
	caller_->CreateDataChannel("data", init));
	rtc::scoped_refptr<DataChannelInterface> caller_dc_2(
	caller_->CreateDataChannel("data", init));

	Negotiate();
	WaitForConnection();
	WaitForDataChannelsToOpen(caller_dc_1, callee_signaled_data_channels_, 0);
	WaitForDataChannelsToOpen(caller_dc_2, callee_signaled_data_channels_, 1);

	std::unique_ptr<webrtc::MockDataChannelObserver> dc_1_observer(
	new webrtc::MockDataChannelObserver(callee_signaled_data_channels_[0]));

	std::unique_ptr<webrtc::MockDataChannelObserver> dc_2_observer(
	new webrtc::MockDataChannelObserver(callee_signaled_data_channels_[1]));

	const std::string message_1 = "hello 1";
	const std::string message_2 = "hello 2";

	caller_dc_1->Send(webrtc::DataBuffer(message_1));
	EXPECT_EQ_WAIT(message_1, dc_1_observer->last_message(), kMaxWait);

	caller_dc_2->Send(webrtc::DataBuffer(message_2));
	EXPECT_EQ_WAIT(message_2, dc_2_observer->last_message(), kMaxWait);

	EXPECT_EQ(1U, dc_1_observer->received_message_count());
	EXPECT_EQ(1U, dc_2_observer->received_message_count());
	}

	#ifdef HAVE_QUIC
	// Test that QUIC data channels can be used and that messages go to the correct
	// remote data channel when both peers want to use QUIC. It is assumed that the
	// application has externally negotiated the data channel parameters.
	TEST_F(PeerConnectionEndToEndTest, MessageTransferBetweenQuicDataChannels) {
	config_.enable_quic = true;
	CreatePcs();

	webrtc::DataChannelInit init_1;
	init_1.id = 0;
	init_1.ordered = false;
	init_1.reliable = true;

	webrtc::DataChannelInit init_2;
	init_2.id = 1;
	init_2.ordered = false;
	init_2.reliable = true;

	rtc::scoped_refptr<DataChannelInterface> caller_dc_1(
	caller_->CreateDataChannel("data", init_1));
	ASSERT_NE(nullptr, caller_dc_1);
	rtc::scoped_refptr<DataChannelInterface> caller_dc_2(
	caller_->CreateDataChannel("data", init_2));
	ASSERT_NE(nullptr, caller_dc_2);
	rtc::scoped_refptr<DataChannelInterface> callee_dc_1(
	callee_->CreateDataChannel("data", init_1));
	ASSERT_NE(nullptr, callee_dc_1);
	rtc::scoped_refptr<DataChannelInterface> callee_dc_2(
	callee_->CreateDataChannel("data", init_2));
	ASSERT_NE(nullptr, callee_dc_2);

	Negotiate();
	WaitForConnection();
	EXPECT_TRUE_WAIT(caller_dc_1->state() == webrtc::DataChannelInterface::kOpen,
	kMaxWait);
	EXPECT_TRUE_WAIT(callee_dc_1->state() == webrtc::DataChannelInterface::kOpen,
	kMaxWait);
	EXPECT_TRUE_WAIT(caller_dc_2->state() == webrtc::DataChannelInterface::kOpen,
	kMaxWait);
	EXPECT_TRUE_WAIT(callee_dc_2->state() == webrtc::DataChannelInterface::kOpen,
	kMaxWait);

	std::unique_ptr<webrtc::MockDataChannelObserver> dc_1_observer(
	new webrtc::MockDataChannelObserver(callee_dc_1.get()));

	std::unique_ptr<webrtc::MockDataChannelObserver> dc_2_observer(
	new webrtc::MockDataChannelObserver(callee_dc_2.get()));

	const std::string message_1 = "hello 1";
	const std::string message_2 = "hello 2";

	// Send data from caller to callee.
	caller_dc_1->Send(webrtc::DataBuffer(message_1));
	EXPECT_EQ_WAIT(message_1, dc_1_observer->last_message(), kMaxWait);

	caller_dc_2->Send(webrtc::DataBuffer(message_2));
	EXPECT_EQ_WAIT(message_2, dc_2_observer->last_message(), kMaxWait);

	EXPECT_EQ(1U, dc_1_observer->received_message_count());
	EXPECT_EQ(1U, dc_2_observer->received_message_count());

	// Send data from callee to caller.
	dc_1_observer.reset(new webrtc::MockDataChannelObserver(caller_dc_1.get()));
	dc_2_observer.reset(new webrtc::MockDataChannelObserver(caller_dc_2.get()));

	callee_dc_1->Send(webrtc::DataBuffer(message_1));
	EXPECT_EQ_WAIT(message_1, dc_1_observer->last_message(), kMaxWait);

	callee_dc_2->Send(webrtc::DataBuffer(message_2));
	EXPECT_EQ_WAIT(message_2, dc_2_observer->last_message(), kMaxWait);

	EXPECT_EQ(1U, dc_1_observer->received_message_count());
	EXPECT_EQ(1U, dc_2_observer->received_message_count());
	}
	#endif // HAVE_QUIC

	// Verifies that a DataChannel added from an OPEN message functions after
	// a channel has been previously closed (webrtc issue 3778).
	// This previously failed because the new channel re-uses the ID of the closed
	// channel, and the closed channel was incorrectly still assigned to the id.
	// TODO(deadbeef): This is disabled because there's currently a race condition
	// caused by the fact that a data channel signals that it's closed before it
	// really is. Re-enable this test once that's fixed.
	TEST_F(PeerConnectionEndToEndTest,
	DISABLED_DataChannelFromOpenWorksAfterClose) {
	MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

	CreatePcs();

	webrtc::DataChannelInit init;
	rtc::scoped_refptr<DataChannelInterface> caller_dc(
	caller_->CreateDataChannel("data", init));

	Negotiate();
	WaitForConnection();

	WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 0);
	CloseDataChannels(caller_dc, callee_signaled_data_channels_, 0);

	// Create a new channel and ensure it works after closing the previous one.
	caller_dc = caller_->CreateDataChannel("data2", init);

	WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 1);
	TestDataChannelSendAndReceive(caller_dc, callee_signaled_data_channels_[1]);

	CloseDataChannels(caller_dc, callee_signaled_data_channels_, 1);
	}

	// This tests that if a data channel is closed remotely while not referenced
	// by the application (meaning only the PeerConnection contributes to its
	// reference count), no memory access violation will occur.
	// See: https://code.google.com/p/chromium/issues/detail?id=565048
	TEST_F(PeerConnectionEndToEndTest, CloseDataChannelRemotelyWhileNotReferenced) {
	MAYBE_SKIP_TEST(rtc::SSLStreamAdapter::HaveDtlsSrtp);

	CreatePcs();

	webrtc::DataChannelInit init;
	rtc::scoped_refptr<DataChannelInterface> caller_dc(
	caller_->CreateDataChannel("data", init));

	Negotiate();
	WaitForConnection();

	WaitForDataChannelsToOpen(caller_dc, callee_signaled_data_channels_, 0);
	// This removes the reference to the remote data channel that we hold.
	callee_signaled_data_channels_.clear();
	caller_dc->Close();
	EXPECT_EQ_WAIT(DataChannelInterface::kClosed, caller_dc->state(), kMaxWait);

	// Wait for a bit longer so the remote data channel will receive the
	// close message and be destroyed.
	rtc::Thread::Current()->ProcessMessages(100);
	}