/* * Copyright (c) 2020 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 "video/call_stats2.h" #include #include "modules/rtp_rtcp/include/rtp_rtcp_defines.h" #include "modules/utility/include/process_thread.h" #include "rtc_base/task_utils/to_queued_task.h" #include "rtc_base/thread.h" #include "system_wrappers/include/metrics.h" #include "test/gmock.h" #include "test/gtest.h" #include "test/run_loop.h" using ::testing::AnyNumber; using ::testing::InvokeWithoutArgs; using ::testing::Return; namespace webrtc { namespace internal { class MockStatsObserver : public CallStatsObserver { public: MockStatsObserver() {} virtual ~MockStatsObserver() {} MOCK_METHOD(void, OnRttUpdate, (int64_t, int64_t), (override)); }; class CallStats2Test : public ::testing::Test { public: CallStats2Test() { process_thread_->Start(); } ~CallStats2Test() override { process_thread_->Stop(); } // Queues an rtt update call on the process thread. void AsyncSimulateRttUpdate(int64_t rtt) { RtcpRttStats* rtcp_rtt_stats = call_stats_.AsRtcpRttStats(); process_thread_->PostTask(ToQueuedTask( [rtcp_rtt_stats, rtt] { rtcp_rtt_stats->OnRttUpdate(rtt); })); } protected: void FlushProcessAndWorker() { process_thread_->PostTask( ToQueuedTask([this] { loop_.PostTask([this]() { loop_.Quit(); }); })); loop_.Run(); } test::RunLoop loop_; std::unique_ptr process_thread_{ ProcessThread::Create("CallStats")}; // Note: Since rtc::Thread doesn't support injecting a Clock, we're going // to be using a mix of the fake clock (used by CallStats) as well as the // system clock (used by rtc::Thread). This isn't ideal and will result in // the tests taking longer to execute in some cases than they need to. SimulatedClock fake_clock_{12345}; CallStats call_stats_{&fake_clock_, loop_.task_queue()}; }; TEST_F(CallStats2Test, AddAndTriggerCallback) { static constexpr const int64_t kRtt = 25; MockStatsObserver stats_observer; EXPECT_CALL(stats_observer, OnRttUpdate(kRtt, kRtt)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { loop_.Quit(); })); call_stats_.RegisterStatsObserver(&stats_observer); EXPECT_EQ(-1, call_stats_.LastProcessedRtt()); AsyncSimulateRttUpdate(kRtt); loop_.Run(); EXPECT_EQ(kRtt, call_stats_.LastProcessedRtt()); call_stats_.DeregisterStatsObserver(&stats_observer); } TEST_F(CallStats2Test, ProcessTime) { static constexpr const int64_t kRtt = 100; static constexpr const int64_t kRtt2 = 80; MockStatsObserver stats_observer; EXPECT_CALL(stats_observer, OnRttUpdate(kRtt, kRtt)) .Times(2) .WillOnce(InvokeWithoutArgs([this] { // Advance clock and verify we get an update. fake_clock_.AdvanceTimeMilliseconds(CallStats::kUpdateInterval.ms()); })) .WillRepeatedly(InvokeWithoutArgs([this] { AsyncSimulateRttUpdate(kRtt2); // Advance clock just too little to get an update. fake_clock_.AdvanceTimeMilliseconds(CallStats::kUpdateInterval.ms() - 1); })); // In case you're reading this and wondering how this number is arrived at, // please see comments in the ChangeRtt test that go into some detail. static constexpr const int64_t kLastAvg = 94; EXPECT_CALL(stats_observer, OnRttUpdate(kLastAvg, kRtt2)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { loop_.Quit(); })); call_stats_.RegisterStatsObserver(&stats_observer); AsyncSimulateRttUpdate(kRtt); loop_.Run(); call_stats_.DeregisterStatsObserver(&stats_observer); } // Verify all observers get correct estimates and observers can be added and // removed. TEST_F(CallStats2Test, MultipleObservers) { MockStatsObserver stats_observer_1; call_stats_.RegisterStatsObserver(&stats_observer_1); // Add the second observer twice, there should still be only one report to the // observer. MockStatsObserver stats_observer_2; call_stats_.RegisterStatsObserver(&stats_observer_2); call_stats_.RegisterStatsObserver(&stats_observer_2); static constexpr const int64_t kRtt = 100; // Verify both observers are updated. EXPECT_CALL(stats_observer_1, OnRttUpdate(kRtt, kRtt)) .Times(AnyNumber()) .WillRepeatedly(Return()); EXPECT_CALL(stats_observer_2, OnRttUpdate(kRtt, kRtt)) .Times(AnyNumber()) .WillOnce(InvokeWithoutArgs([this] { loop_.Quit(); })) .WillRepeatedly(Return()); AsyncSimulateRttUpdate(kRtt); loop_.Run(); // Deregister the second observer and verify update is only sent to the first // observer. call_stats_.DeregisterStatsObserver(&stats_observer_2); EXPECT_CALL(stats_observer_1, OnRttUpdate(kRtt, kRtt)) .Times(AnyNumber()) .WillOnce(InvokeWithoutArgs([this] { loop_.Quit(); })) .WillRepeatedly(Return()); EXPECT_CALL(stats_observer_2, OnRttUpdate(kRtt, kRtt)).Times(0); AsyncSimulateRttUpdate(kRtt); loop_.Run(); // Deregister the first observer. call_stats_.DeregisterStatsObserver(&stats_observer_1); // Now make sure we don't get any callbacks. EXPECT_CALL(stats_observer_1, OnRttUpdate(kRtt, kRtt)).Times(0); EXPECT_CALL(stats_observer_2, OnRttUpdate(kRtt, kRtt)).Times(0); AsyncSimulateRttUpdate(kRtt); // Flush the queue on the process thread to make sure we return after // Process() has been called. FlushProcessAndWorker(); } // Verify increasing and decreasing rtt triggers callbacks with correct values. TEST_F(CallStats2Test, ChangeRtt) { // NOTE: This test assumes things about how old reports are removed // inside of call_stats.cc. The threshold ms value is 1500ms, but it's not // clear here that how the clock is advanced, affects that algorithm and // subsequently the average reported rtt. MockStatsObserver stats_observer; call_stats_.RegisterStatsObserver(&stats_observer); static constexpr const int64_t kFirstRtt = 100; static constexpr const int64_t kLowRtt = kFirstRtt - 20; static constexpr const int64_t kHighRtt = kFirstRtt + 20; EXPECT_CALL(stats_observer, OnRttUpdate(kFirstRtt, kFirstRtt)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { fake_clock_.AdvanceTimeMilliseconds(1000); AsyncSimulateRttUpdate(kHighRtt); // Reported at T1 (1000ms). })); // NOTE: This relies on the internal algorithms of call_stats.cc. // There's a weight factor there (0.3), that weighs the previous average to // the new one by 70%, so the number 103 in this case is arrived at like so: // (100) / 1 * 0.7 + (100+120)/2 * 0.3 = 103 static constexpr const int64_t kAvgRtt1 = 103; EXPECT_CALL(stats_observer, OnRttUpdate(kAvgRtt1, kHighRtt)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { // This interacts with an internal implementation detail in call_stats // that decays the oldest rtt value. See more below. fake_clock_.AdvanceTimeMilliseconds(1000); AsyncSimulateRttUpdate(kLowRtt); // Reported at T2 (2000ms). })); // Increase time enough for a new update, but not too much to make the // rtt invalid. Report a lower rtt and verify the old/high value still is sent // in the callback. // Here, enough time must have passed in order to remove exactly the first // report and nothing else (>1500ms has passed since the first rtt). // So, this value is arrived by doing: // (kAvgRtt1)/1 * 0.7 + (kHighRtt+kLowRtt)/2 * 0.3 = 102.1 static constexpr const int64_t kAvgRtt2 = 102; EXPECT_CALL(stats_observer, OnRttUpdate(kAvgRtt2, kHighRtt)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { // Advance time to make the high report invalid, the lower rtt should // now be in the callback. fake_clock_.AdvanceTimeMilliseconds(1000); })); static constexpr const int64_t kAvgRtt3 = 95; EXPECT_CALL(stats_observer, OnRttUpdate(kAvgRtt3, kLowRtt)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { loop_.Quit(); })); // Trigger the first rtt value and set off the chain of callbacks. AsyncSimulateRttUpdate(kFirstRtt); // Reported at T0 (0ms). loop_.Run(); call_stats_.DeregisterStatsObserver(&stats_observer); } TEST_F(CallStats2Test, LastProcessedRtt) { MockStatsObserver stats_observer; call_stats_.RegisterStatsObserver(&stats_observer); static constexpr const int64_t kRttLow = 10; static constexpr const int64_t kRttHigh = 30; // The following two average numbers dependend on average + weight // calculations in call_stats.cc. static constexpr const int64_t kAvgRtt1 = 13; static constexpr const int64_t kAvgRtt2 = 15; EXPECT_CALL(stats_observer, OnRttUpdate(kRttLow, kRttLow)) .Times(1) .WillOnce(InvokeWithoutArgs([this] { EXPECT_EQ(kRttLow, call_stats_.LastProcessedRtt()); // Don't advance the clock to make sure that low and high rtt values // are associated with the same time stamp. AsyncSimulateRttUpdate(kRttHigh); })); EXPECT_CALL(stats_observer, OnRttUpdate(kAvgRtt1, kRttHigh)) .Times(AnyNumber()) .WillOnce(InvokeWithoutArgs([this] { EXPECT_EQ(kAvgRtt1, call_stats_.LastProcessedRtt()); fake_clock_.AdvanceTimeMilliseconds(CallStats::kUpdateInterval.ms()); AsyncSimulateRttUpdate(kRttLow); AsyncSimulateRttUpdate(kRttHigh); })) .WillRepeatedly(Return()); EXPECT_CALL(stats_observer, OnRttUpdate(kAvgRtt2, kRttHigh)) .Times(AnyNumber()) .WillOnce(InvokeWithoutArgs([this] { EXPECT_EQ(kAvgRtt2, call_stats_.LastProcessedRtt()); loop_.Quit(); })) .WillRepeatedly(Return()); // Set a first values and verify that LastProcessedRtt initially returns the // average rtt. fake_clock_.AdvanceTimeMilliseconds(CallStats::kUpdateInterval.ms()); AsyncSimulateRttUpdate(kRttLow); loop_.Run(); EXPECT_EQ(kAvgRtt2, call_stats_.LastProcessedRtt()); call_stats_.DeregisterStatsObserver(&stats_observer); } TEST_F(CallStats2Test, ProducesHistogramMetrics) { metrics::Reset(); static constexpr const int64_t kRtt = 123; MockStatsObserver stats_observer; call_stats_.RegisterStatsObserver(&stats_observer); EXPECT_CALL(stats_observer, OnRttUpdate(kRtt, kRtt)) .Times(AnyNumber()) .WillRepeatedly(InvokeWithoutArgs([this] { loop_.Quit(); })); AsyncSimulateRttUpdate(kRtt); loop_.Run(); fake_clock_.AdvanceTimeMilliseconds(metrics::kMinRunTimeInSeconds * CallStats::kUpdateInterval.ms()); AsyncSimulateRttUpdate(kRtt); loop_.Run(); call_stats_.DeregisterStatsObserver(&stats_observer); call_stats_.UpdateHistogramsForTest(); EXPECT_METRIC_EQ(1, metrics::NumSamples( "WebRTC.Video.AverageRoundTripTimeInMilliseconds")); EXPECT_METRIC_EQ( 1, metrics::NumEvents("WebRTC.Video.AverageRoundTripTimeInMilliseconds", kRtt)); } } // namespace internal } // namespace webrtc