modules/rtp_rtcp/source/rtcp_transceiver_unittest.cc - src - Git at Google

 /*
  *  Copyright (c) 2017 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 "modules/rtp_rtcp/source/rtcp_transceiver.h"

 #include <memory>
 #include <utility>

 #include "modules/rtp_rtcp/source/rtcp_packet/remote_estimate.h"
 #include "modules/rtp_rtcp/source/rtcp_packet/sender_report.h"
 #include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h"
 #include "rtc_base/event.h"
 #include "rtc_base/task_queue_for_test.h"
 #include "test/gmock.h"
 #include "test/gtest.h"
 #include "test/mock_transport.h"
 #include "test/rtcp_packet_parser.h"

 namespace {

 using ::testing::_;
 using ::testing::AtLeast;
 using ::testing::Invoke;
 using ::testing::InvokeWithoutArgs;
 using ::testing::IsNull;
 using ::testing::NiceMock;
 using ::webrtc::MockTransport;
 using ::webrtc::RtcpTransceiver;
 using ::webrtc::RtcpTransceiverConfig;
 using ::webrtc::TaskQueueForTest;
 using ::webrtc::rtcp::RemoteEstimate;
 using ::webrtc::rtcp::RtcpPacket;
 using ::webrtc::rtcp::TransportFeedback;
 using ::webrtc::test::RtcpPacketParser;

 class MockMediaReceiverRtcpObserver : public webrtc::MediaReceiverRtcpObserver {
  public:
   MOCK_METHOD(void,
               OnSenderReport,
               (uint32_t, webrtc::NtpTime, uint32_t),
               (override));
 };

 constexpr int kTimeoutMs = 1000;

 void WaitPostedTasks(TaskQueueForTest* queue) {
   rtc::Event done;
   queue->PostTask([&done] { done.Set(); });
   ASSERT_TRUE(done.Wait(kTimeoutMs));
 }

 TEST(RtcpTransceiverTest, SendsRtcpOnTaskQueueWhenCreatedOffTaskQueue) {
   MockTransport outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   EXPECT_CALL(outgoing_transport, SendRtcp(_, _))
       .WillRepeatedly(InvokeWithoutArgs([&] {
         EXPECT_TRUE(queue.IsCurrent());
         return true;
       }));

   RtcpTransceiver rtcp_transceiver(config);
   rtcp_transceiver.SendCompoundPacket();
   WaitPostedTasks(&queue);
 }

 TEST(RtcpTransceiverTest, SendsRtcpOnTaskQueueWhenCreatedOnTaskQueue) {
   MockTransport outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   EXPECT_CALL(outgoing_transport, SendRtcp(_, _))
       .WillRepeatedly(InvokeWithoutArgs([&] {
         EXPECT_TRUE(queue.IsCurrent());
         return true;
       }));

   std::unique_ptr<RtcpTransceiver> rtcp_transceiver;
   queue.PostTask([&] {
     rtcp_transceiver = std::make_unique<RtcpTransceiver>(config);
     rtcp_transceiver->SendCompoundPacket();
   });
   WaitPostedTasks(&queue);
 }

 TEST(RtcpTransceiverTest, CanBeDestroyedOnTaskQueue) {
   NiceMock<MockTransport> outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   auto rtcp_transceiver = std::make_unique<RtcpTransceiver>(config);

   queue.PostTask([&] {
     // Insert a packet just before destruction to test for races.
     rtcp_transceiver->SendCompoundPacket();
     rtcp_transceiver.reset();
   });
   WaitPostedTasks(&queue);
 }

 TEST(RtcpTransceiverTest, CanBeDestroyedWithoutBlocking) {
   TaskQueueForTest queue("rtcp");
   NiceMock<MockTransport> outgoing_transport;
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   auto* rtcp_transceiver = new RtcpTransceiver(config);
   rtcp_transceiver->SendCompoundPacket();

   rtc::Event done;
   rtc::Event heavy_task;
   queue.PostTask([&] {
     EXPECT_TRUE(heavy_task.Wait(kTimeoutMs));
     done.Set();
   });
   delete rtcp_transceiver;

   heavy_task.Set();
   EXPECT_TRUE(done.Wait(kTimeoutMs));
 }

 TEST(RtcpTransceiverTest, MaySendPacketsAfterDestructor) {  // i.e. Be careful!
   NiceMock<MockTransport> outgoing_transport;  // Must outlive queue below.
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   auto* rtcp_transceiver = new RtcpTransceiver(config);

   rtc::Event heavy_task;
   queue.PostTask([&] { EXPECT_TRUE(heavy_task.Wait(kTimeoutMs)); });
   rtcp_transceiver->SendCompoundPacket();
   delete rtcp_transceiver;

   EXPECT_CALL(outgoing_transport, SendRtcp);
   heavy_task.Set();

   WaitPostedTasks(&queue);
 }

 // Use rtp timestamp to distinguish different incoming sender reports.
 rtc::CopyOnWriteBuffer CreateSenderReport(uint32_t ssrc, uint32_t rtp_time) {
   webrtc::rtcp::SenderReport sr;
   sr.SetSenderSsrc(ssrc);
   sr.SetRtpTimestamp(rtp_time);
   rtc::Buffer buffer = sr.Build();
   // Switch to an efficient way creating CopyOnWriteBuffer from RtcpPacket when
   // there is one. Until then do not worry about extra memcpy in test.
   return rtc::CopyOnWriteBuffer(buffer.data(), buffer.size());
 }

 TEST(RtcpTransceiverTest, DoesntPostToRtcpObserverAfterCallToRemove) {
   const uint32_t kRemoteSsrc = 1234;
   MockTransport null_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &null_transport;
   config.task_queue = queue.Get();
   RtcpTransceiver rtcp_transceiver(config);
   rtc::Event observer_deleted;

   auto observer = std::make_unique<MockMediaReceiverRtcpObserver>();
   EXPECT_CALL(*observer, OnSenderReport(kRemoteSsrc, _, 1));
   EXPECT_CALL(*observer, OnSenderReport(kRemoteSsrc, _, 2)).Times(0);

   rtcp_transceiver.AddMediaReceiverRtcpObserver(kRemoteSsrc, observer.get());
   rtcp_transceiver.ReceivePacket(CreateSenderReport(kRemoteSsrc, 1));
   rtcp_transceiver.RemoveMediaReceiverRtcpObserver(kRemoteSsrc, observer.get(),
                                                    /*on_removed=*/[&] {
                                                      observer.reset();
                                                      observer_deleted.Set();
                                                    });
   rtcp_transceiver.ReceivePacket(CreateSenderReport(kRemoteSsrc, 2));

   EXPECT_TRUE(observer_deleted.Wait(kTimeoutMs));
   WaitPostedTasks(&queue);
 }

 TEST(RtcpTransceiverTest, RemoveMediaReceiverRtcpObserverIsNonBlocking) {
   const uint32_t kRemoteSsrc = 1234;
   MockTransport null_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &null_transport;
   config.task_queue = queue.Get();
   RtcpTransceiver rtcp_transceiver(config);
   auto observer = std::make_unique<MockMediaReceiverRtcpObserver>();
   rtcp_transceiver.AddMediaReceiverRtcpObserver(kRemoteSsrc, observer.get());

   rtc::Event queue_blocker;
   rtc::Event observer_deleted;
   queue.PostTask([&] { EXPECT_TRUE(queue_blocker.Wait(kTimeoutMs)); });
   rtcp_transceiver.RemoveMediaReceiverRtcpObserver(kRemoteSsrc, observer.get(),
                                                    /*on_removed=*/[&] {
                                                      observer.reset();
                                                      observer_deleted.Set();
                                                    });

   EXPECT_THAT(observer, Not(IsNull()));
   queue_blocker.Set();
   EXPECT_TRUE(observer_deleted.Wait(kTimeoutMs));
 }

 TEST(RtcpTransceiverTest, CanCallSendCompoundPacketFromAnyThread) {
   MockTransport outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();

   EXPECT_CALL(outgoing_transport, SendRtcp(_, _))
       // If test is slow, a periodic task may send an extra packet.
       .Times(AtLeast(3))
       .WillRepeatedly(InvokeWithoutArgs([&] {
         EXPECT_TRUE(queue.IsCurrent());
         return true;
       }));

   RtcpTransceiver rtcp_transceiver(config);

   // Call from the construction thread.
   rtcp_transceiver.SendCompoundPacket();
   // Call from the same queue transceiver use for processing.
   queue.PostTask([&] { rtcp_transceiver.SendCompoundPacket(); });
   // Call from unrelated task queue.
   TaskQueueForTest queue_send("send_packet");
   queue_send.PostTask([&] { rtcp_transceiver.SendCompoundPacket(); });

   WaitPostedTasks(&queue_send);
   WaitPostedTasks(&queue);
 }

 TEST(RtcpTransceiverTest, DoesntSendPacketsAfterStopCallback) {
   NiceMock<MockTransport> outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   config.schedule_periodic_compound_packets = true;

   auto rtcp_transceiver = std::make_unique<RtcpTransceiver>(config);
   rtc::Event done;
   rtcp_transceiver->SendCompoundPacket();
   rtcp_transceiver->Stop([&] {
     EXPECT_CALL(outgoing_transport, SendRtcp).Times(0);
     done.Set();
   });
   rtcp_transceiver = nullptr;
   EXPECT_TRUE(done.Wait(kTimeoutMs));
 }

 TEST(RtcpTransceiverTest, SendsCombinedRtcpPacketOnTaskQueue) {
   static constexpr uint32_t kSenderSsrc = 12345;

   MockTransport outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.feedback_ssrc = kSenderSsrc;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   config.schedule_periodic_compound_packets = false;
   RtcpTransceiver rtcp_transceiver(config);

   EXPECT_CALL(outgoing_transport, SendRtcp)
       .WillOnce([&](const uint8_t* buffer, size_t size) {
         EXPECT_TRUE(queue.IsCurrent());
         RtcpPacketParser rtcp_parser;
         rtcp_parser.Parse(buffer, size);
         EXPECT_EQ(rtcp_parser.transport_feedback()->num_packets(), 1);
         EXPECT_EQ(rtcp_parser.transport_feedback()->sender_ssrc(), kSenderSsrc);
         EXPECT_EQ(rtcp_parser.app()->num_packets(), 1);
         EXPECT_EQ(rtcp_parser.app()->sender_ssrc(), kSenderSsrc);
         return true;
       });

   // Create minimalistic transport feedback packet.
   std::vector<std::unique_ptr<RtcpPacket>> packets;
   auto transport_feedback = std::make_unique<TransportFeedback>();
   transport_feedback->AddReceivedPacket(321, 10000);
   packets.push_back(std::move(transport_feedback));

   auto remote_estimate = std::make_unique<RemoteEstimate>();
   packets.push_back(std::move(remote_estimate));

   rtcp_transceiver.SendCombinedRtcpPacket(std::move(packets));
   WaitPostedTasks(&queue);
 }

 TEST(RtcpTransceiverTest, SendFrameIntraRequestDefaultsToNewRequest) {
   static constexpr uint32_t kSenderSsrc = 12345;

   MockTransport outgoing_transport;
   TaskQueueForTest queue("rtcp");
   RtcpTransceiverConfig config;
   config.feedback_ssrc = kSenderSsrc;
   config.outgoing_transport = &outgoing_transport;
   config.task_queue = queue.Get();
   config.schedule_periodic_compound_packets = false;
   RtcpTransceiver rtcp_transceiver(config);

   uint8_t first_seq_nr;
   EXPECT_CALL(outgoing_transport, SendRtcp)
       .WillOnce([&](const uint8_t* buffer, size_t size) {
         EXPECT_TRUE(queue.IsCurrent());
         RtcpPacketParser rtcp_parser;
         rtcp_parser.Parse(buffer, size);
         EXPECT_EQ(rtcp_parser.fir()->requests()[0].ssrc, kSenderSsrc);
         first_seq_nr = rtcp_parser.fir()->requests()[0].seq_nr;
         return true;
       })
       .WillOnce([&](const uint8_t* buffer, size_t size) {
         EXPECT_TRUE(queue.IsCurrent());
         RtcpPacketParser rtcp_parser;
         rtcp_parser.Parse(buffer, size);
         EXPECT_EQ(rtcp_parser.fir()->requests()[0].ssrc, kSenderSsrc);
         EXPECT_EQ(rtcp_parser.fir()->requests()[0].seq_nr, first_seq_nr + 1);
         return true;
       });

   // Send 2 FIR packets because the sequence numbers are incremented after,
   // sending. One wouldn't be able to differentiate the new_request.
   rtcp_transceiver.SendFullIntraRequest({kSenderSsrc});
   rtcp_transceiver.SendFullIntraRequest({kSenderSsrc});

   WaitPostedTasks(&queue);
 }

 }  // namespace
	/*
	* Copyright (c) 2017 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 "modules/rtp_rtcp/source/rtcp_transceiver.h"

	#include <memory>
	#include <utility>

	#include "modules/rtp_rtcp/source/rtcp_packet/remote_estimate.h"
	#include "modules/rtp_rtcp/source/rtcp_packet/sender_report.h"
	#include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h"
	#include "rtc_base/event.h"
	#include "rtc_base/task_queue_for_test.h"
	#include "test/gmock.h"
	#include "test/gtest.h"
	#include "test/mock_transport.h"
	#include "test/rtcp_packet_parser.h"

	namespace {

	using ::testing::_;
	using ::testing::AtLeast;
	using ::testing::Invoke;
	using ::testing::InvokeWithoutArgs;
	using ::testing::IsNull;
	using ::testing::NiceMock;
	using ::webrtc::MockTransport;
	using ::webrtc::RtcpTransceiver;
	using ::webrtc::RtcpTransceiverConfig;
	using ::webrtc::TaskQueueForTest;
	using ::webrtc::rtcp::RemoteEstimate;
	using ::webrtc::rtcp::RtcpPacket;
	using ::webrtc::rtcp::TransportFeedback;
	using ::webrtc::test::RtcpPacketParser;

	class MockMediaReceiverRtcpObserver : public webrtc::MediaReceiverRtcpObserver {
	public:
	MOCK_METHOD(void,
	OnSenderReport,
	(uint32_t, webrtc::NtpTime, uint32_t),
	(override));
	};

	constexpr int kTimeoutMs = 1000;

	void WaitPostedTasks(TaskQueueForTest* queue) {
	rtc::Event done;
	queue->PostTask([&done] { done.Set(); });
	ASSERT_TRUE(done.Wait(kTimeoutMs));
	}

	TEST(RtcpTransceiverTest, SendsRtcpOnTaskQueueWhenCreatedOffTaskQueue) {
	MockTransport outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	EXPECT_CALL(outgoing_transport, SendRtcp(_, _))
	.WillRepeatedly(InvokeWithoutArgs([&] {
	EXPECT_TRUE(queue.IsCurrent());
	return true;
	}));

	RtcpTransceiver rtcp_transceiver(config);
	rtcp_transceiver.SendCompoundPacket();
	WaitPostedTasks(&queue);
	}

	TEST(RtcpTransceiverTest, SendsRtcpOnTaskQueueWhenCreatedOnTaskQueue) {
	MockTransport outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	EXPECT_CALL(outgoing_transport, SendRtcp(_, _))
	.WillRepeatedly(InvokeWithoutArgs([&] {
	EXPECT_TRUE(queue.IsCurrent());
	return true;
	}));

	std::unique_ptr<RtcpTransceiver> rtcp_transceiver;
	queue.PostTask([&] {
	rtcp_transceiver = std::make_unique<RtcpTransceiver>(config);
	rtcp_transceiver->SendCompoundPacket();
	});
	WaitPostedTasks(&queue);
	}

	TEST(RtcpTransceiverTest, CanBeDestroyedOnTaskQueue) {
	NiceMock<MockTransport> outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	auto rtcp_transceiver = std::make_unique<RtcpTransceiver>(config);

	queue.PostTask([&] {
	// Insert a packet just before destruction to test for races.
	rtcp_transceiver->SendCompoundPacket();
	rtcp_transceiver.reset();
	});
	WaitPostedTasks(&queue);
	}

	TEST(RtcpTransceiverTest, CanBeDestroyedWithoutBlocking) {
	TaskQueueForTest queue("rtcp");
	NiceMock<MockTransport> outgoing_transport;
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	auto* rtcp_transceiver = new RtcpTransceiver(config);
	rtcp_transceiver->SendCompoundPacket();

	rtc::Event done;
	rtc::Event heavy_task;
	queue.PostTask([&] {
	EXPECT_TRUE(heavy_task.Wait(kTimeoutMs));
	done.Set();
	});
	delete rtcp_transceiver;

	heavy_task.Set();
	EXPECT_TRUE(done.Wait(kTimeoutMs));
	}

	TEST(RtcpTransceiverTest, MaySendPacketsAfterDestructor) { // i.e. Be careful!
	NiceMock<MockTransport> outgoing_transport; // Must outlive queue below.
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	auto* rtcp_transceiver = new RtcpTransceiver(config);

	rtc::Event heavy_task;
	queue.PostTask([&] { EXPECT_TRUE(heavy_task.Wait(kTimeoutMs)); });
	rtcp_transceiver->SendCompoundPacket();
	delete rtcp_transceiver;

	EXPECT_CALL(outgoing_transport, SendRtcp);
	heavy_task.Set();

	WaitPostedTasks(&queue);
	}

	// Use rtp timestamp to distinguish different incoming sender reports.
	rtc::CopyOnWriteBuffer CreateSenderReport(uint32_t ssrc, uint32_t rtp_time) {
	webrtc::rtcp::SenderReport sr;
	sr.SetSenderSsrc(ssrc);
	sr.SetRtpTimestamp(rtp_time);
	rtc::Buffer buffer = sr.Build();
	// Switch to an efficient way creating CopyOnWriteBuffer from RtcpPacket when
	// there is one. Until then do not worry about extra memcpy in test.
	return rtc::CopyOnWriteBuffer(buffer.data(), buffer.size());
	}

	TEST(RtcpTransceiverTest, DoesntPostToRtcpObserverAfterCallToRemove) {
	const uint32_t kRemoteSsrc = 1234;
	MockTransport null_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &null_transport;
	config.task_queue = queue.Get();
	RtcpTransceiver rtcp_transceiver(config);
	rtc::Event observer_deleted;

	auto observer = std::make_unique<MockMediaReceiverRtcpObserver>();
	EXPECT_CALL(*observer, OnSenderReport(kRemoteSsrc, _, 1));
	EXPECT_CALL(*observer, OnSenderReport(kRemoteSsrc, _, 2)).Times(0);

	rtcp_transceiver.AddMediaReceiverRtcpObserver(kRemoteSsrc, observer.get());
	rtcp_transceiver.ReceivePacket(CreateSenderReport(kRemoteSsrc, 1));
	rtcp_transceiver.RemoveMediaReceiverRtcpObserver(kRemoteSsrc, observer.get(),
	/on_removed=/[&] {
	observer.reset();
	observer_deleted.Set();
	});
	rtcp_transceiver.ReceivePacket(CreateSenderReport(kRemoteSsrc, 2));

	EXPECT_TRUE(observer_deleted.Wait(kTimeoutMs));
	WaitPostedTasks(&queue);
	}

	TEST(RtcpTransceiverTest, RemoveMediaReceiverRtcpObserverIsNonBlocking) {
	const uint32_t kRemoteSsrc = 1234;
	MockTransport null_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &null_transport;
	config.task_queue = queue.Get();
	RtcpTransceiver rtcp_transceiver(config);
	auto observer = std::make_unique<MockMediaReceiverRtcpObserver>();
	rtcp_transceiver.AddMediaReceiverRtcpObserver(kRemoteSsrc, observer.get());

	rtc::Event queue_blocker;
	rtc::Event observer_deleted;
	queue.PostTask([&] { EXPECT_TRUE(queue_blocker.Wait(kTimeoutMs)); });
	rtcp_transceiver.RemoveMediaReceiverRtcpObserver(kRemoteSsrc, observer.get(),
	/on_removed=/[&] {
	observer.reset();
	observer_deleted.Set();
	});

	EXPECT_THAT(observer, Not(IsNull()));
	queue_blocker.Set();
	EXPECT_TRUE(observer_deleted.Wait(kTimeoutMs));
	}

	TEST(RtcpTransceiverTest, CanCallSendCompoundPacketFromAnyThread) {
	MockTransport outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();

	EXPECT_CALL(outgoing_transport, SendRtcp(_, _))
	// If test is slow, a periodic task may send an extra packet.
	.Times(AtLeast(3))
	.WillRepeatedly(InvokeWithoutArgs([&] {
	EXPECT_TRUE(queue.IsCurrent());
	return true;
	}));

	RtcpTransceiver rtcp_transceiver(config);

	// Call from the construction thread.
	rtcp_transceiver.SendCompoundPacket();
	// Call from the same queue transceiver use for processing.
	queue.PostTask([&] { rtcp_transceiver.SendCompoundPacket(); });
	// Call from unrelated task queue.
	TaskQueueForTest queue_send("send_packet");
	queue_send.PostTask([&] { rtcp_transceiver.SendCompoundPacket(); });

	WaitPostedTasks(&queue_send);
	WaitPostedTasks(&queue);
	}

	TEST(RtcpTransceiverTest, DoesntSendPacketsAfterStopCallback) {
	NiceMock<MockTransport> outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	config.schedule_periodic_compound_packets = true;

	auto rtcp_transceiver = std::make_unique<RtcpTransceiver>(config);
	rtc::Event done;
	rtcp_transceiver->SendCompoundPacket();
	rtcp_transceiver->Stop([&] {
	EXPECT_CALL(outgoing_transport, SendRtcp).Times(0);
	done.Set();
	});
	rtcp_transceiver = nullptr;
	EXPECT_TRUE(done.Wait(kTimeoutMs));
	}

	TEST(RtcpTransceiverTest, SendsCombinedRtcpPacketOnTaskQueue) {
	static constexpr uint32_t kSenderSsrc = 12345;

	MockTransport outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.feedback_ssrc = kSenderSsrc;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	config.schedule_periodic_compound_packets = false;
	RtcpTransceiver rtcp_transceiver(config);

	EXPECT_CALL(outgoing_transport, SendRtcp)
	.WillOnce([&](const uint8_t* buffer, size_t size) {
	EXPECT_TRUE(queue.IsCurrent());
	RtcpPacketParser rtcp_parser;
	rtcp_parser.Parse(buffer, size);
	EXPECT_EQ(rtcp_parser.transport_feedback()->num_packets(), 1);
	EXPECT_EQ(rtcp_parser.transport_feedback()->sender_ssrc(), kSenderSsrc);
	EXPECT_EQ(rtcp_parser.app()->num_packets(), 1);
	EXPECT_EQ(rtcp_parser.app()->sender_ssrc(), kSenderSsrc);
	return true;
	});

	// Create minimalistic transport feedback packet.
	std::vector<std::unique_ptr<RtcpPacket>> packets;
	auto transport_feedback = std::make_unique<TransportFeedback>();
	transport_feedback->AddReceivedPacket(321, 10000);
	packets.push_back(std::move(transport_feedback));

	auto remote_estimate = std::make_unique<RemoteEstimate>();
	packets.push_back(std::move(remote_estimate));

	rtcp_transceiver.SendCombinedRtcpPacket(std::move(packets));
	WaitPostedTasks(&queue);
	}

	TEST(RtcpTransceiverTest, SendFrameIntraRequestDefaultsToNewRequest) {
	static constexpr uint32_t kSenderSsrc = 12345;

	MockTransport outgoing_transport;
	TaskQueueForTest queue("rtcp");
	RtcpTransceiverConfig config;
	config.feedback_ssrc = kSenderSsrc;
	config.outgoing_transport = &outgoing_transport;
	config.task_queue = queue.Get();
	config.schedule_periodic_compound_packets = false;
	RtcpTransceiver rtcp_transceiver(config);

	uint8_t first_seq_nr;
	EXPECT_CALL(outgoing_transport, SendRtcp)
	.WillOnce([&](const uint8_t* buffer, size_t size) {
	EXPECT_TRUE(queue.IsCurrent());
	RtcpPacketParser rtcp_parser;
	rtcp_parser.Parse(buffer, size);
	EXPECT_EQ(rtcp_parser.fir()->requests()[0].ssrc, kSenderSsrc);
	first_seq_nr = rtcp_parser.fir()->requests()[0].seq_nr;
	return true;
	})
	.WillOnce([&](const uint8_t* buffer, size_t size) {
	EXPECT_TRUE(queue.IsCurrent());
	RtcpPacketParser rtcp_parser;
	rtcp_parser.Parse(buffer, size);
	EXPECT_EQ(rtcp_parser.fir()->requests()[0].ssrc, kSenderSsrc);
	EXPECT_EQ(rtcp_parser.fir()->requests()[0].seq_nr, first_seq_nr + 1);
	return true;
	});

	// Send 2 FIR packets because the sequence numbers are incremented after,
	// sending. One wouldn't be able to differentiate the new_request.
	rtcp_transceiver.SendFullIntraRequest({kSenderSsrc});
	rtcp_transceiver.SendFullIntraRequest({kSenderSsrc});

	WaitPostedTasks(&queue);
	}

	} // namespace