/* * Copyright (c) 2018 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/congestion_controller/bbr/rtt_stats.h" #include #include #include #include "test/gtest.h" namespace webrtc { namespace bbr { namespace test { class RttStatsTest : public ::testing::Test { protected: RttStats rtt_stats_; }; TEST_F(RttStatsTest, DefaultsBeforeUpdate) { EXPECT_LT(0u, rtt_stats_.initial_rtt_us()); EXPECT_EQ(TimeDelta::Zero(), rtt_stats_.min_rtt()); EXPECT_EQ(TimeDelta::Zero(), rtt_stats_.smoothed_rtt()); } TEST_F(RttStatsTest, SmoothedRtt) { // Verify that ack_delay is corrected for in Smoothed RTT. rtt_stats_.UpdateRtt(TimeDelta::ms(300), TimeDelta::ms(100), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.smoothed_rtt()); // Verify that effective RTT of zero does not change Smoothed RTT. rtt_stats_.UpdateRtt(TimeDelta::ms(200), TimeDelta::ms(200), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.smoothed_rtt()); // Verify that large erroneous ack_delay does not change Smoothed RTT. rtt_stats_.UpdateRtt(TimeDelta::ms(200), TimeDelta::ms(300), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.smoothed_rtt()); } // Ensure that the potential rounding artifacts in EWMA calculation do not cause // the SRTT to drift too far from the exact value. TEST_F(RttStatsTest, SmoothedRttStability) { for (int64_t time = 3; time < 20000; time++) { RttStats stats; for (int64_t i = 0; i < 100; i++) { stats.UpdateRtt(TimeDelta::us(time), TimeDelta::ms(0), Timestamp::ms(0)); int64_t time_delta_us = stats.smoothed_rtt().us() - time; ASSERT_LE(std::abs(time_delta_us), 1); } } } TEST_F(RttStatsTest, PreviousSmoothedRtt) { // Verify that ack_delay is corrected for in Smoothed RTT. rtt_stats_.UpdateRtt(TimeDelta::ms(300), TimeDelta::ms(100), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.smoothed_rtt()); EXPECT_EQ(TimeDelta::Zero(), rtt_stats_.previous_srtt()); // Ensure the previous SRTT is 200ms after a 100ms sample. rtt_stats_.UpdateRtt(TimeDelta::ms(100), TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(100), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::us(187500).us(), rtt_stats_.smoothed_rtt().us()); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.previous_srtt()); } TEST_F(RttStatsTest, MinRtt) { rtt_stats_.UpdateRtt(TimeDelta::ms(200), TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.min_rtt()); rtt_stats_.UpdateRtt(TimeDelta::ms(10), TimeDelta::Zero(), Timestamp::ms(0) + TimeDelta::ms(10)); EXPECT_EQ(TimeDelta::ms(10), rtt_stats_.min_rtt()); rtt_stats_.UpdateRtt(TimeDelta::ms(50), TimeDelta::Zero(), Timestamp::ms(0) + TimeDelta::ms(20)); EXPECT_EQ(TimeDelta::ms(10), rtt_stats_.min_rtt()); rtt_stats_.UpdateRtt(TimeDelta::ms(50), TimeDelta::Zero(), Timestamp::ms(0) + TimeDelta::ms(30)); EXPECT_EQ(TimeDelta::ms(10), rtt_stats_.min_rtt()); rtt_stats_.UpdateRtt(TimeDelta::ms(50), TimeDelta::Zero(), Timestamp::ms(0) + TimeDelta::ms(40)); EXPECT_EQ(TimeDelta::ms(10), rtt_stats_.min_rtt()); // Verify that ack_delay does not go into recording of min_rtt_. rtt_stats_.UpdateRtt(TimeDelta::ms(7), TimeDelta::ms(2), Timestamp::ms(0) + TimeDelta::ms(50)); EXPECT_EQ(TimeDelta::ms(7), rtt_stats_.min_rtt()); } TEST_F(RttStatsTest, ExpireSmoothedMetrics) { TimeDelta initial_rtt = TimeDelta::ms(10); rtt_stats_.UpdateRtt(initial_rtt, TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_EQ(initial_rtt, rtt_stats_.min_rtt()); EXPECT_EQ(initial_rtt, rtt_stats_.smoothed_rtt()); EXPECT_EQ(0.5 * initial_rtt, rtt_stats_.mean_deviation()); // Update once with a 20ms RTT. TimeDelta doubled_rtt = 2 * initial_rtt; rtt_stats_.UpdateRtt(doubled_rtt, TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_EQ(1.125 * initial_rtt, rtt_stats_.smoothed_rtt()); // Expire the smoothed metrics, increasing smoothed rtt and mean deviation. rtt_stats_.ExpireSmoothedMetrics(); EXPECT_EQ(doubled_rtt, rtt_stats_.smoothed_rtt()); EXPECT_EQ(0.875 * initial_rtt, rtt_stats_.mean_deviation()); // Now go back down to 5ms and expire the smoothed metrics, and ensure the // mean deviation increases to 15ms. TimeDelta half_rtt = 0.5 * initial_rtt; rtt_stats_.UpdateRtt(half_rtt, TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_GT(doubled_rtt, rtt_stats_.smoothed_rtt()); EXPECT_LT(initial_rtt, rtt_stats_.mean_deviation()); } TEST_F(RttStatsTest, UpdateRttWithBadSendDeltas) { // Make sure we ignore bad RTTs. TimeDelta initial_rtt = TimeDelta::ms(10); rtt_stats_.UpdateRtt(initial_rtt, TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_EQ(initial_rtt, rtt_stats_.min_rtt()); EXPECT_EQ(initial_rtt, rtt_stats_.smoothed_rtt()); std::vector bad_send_deltas; bad_send_deltas.push_back(TimeDelta::Zero()); bad_send_deltas.push_back(TimeDelta::PlusInfinity()); bad_send_deltas.push_back(TimeDelta::us(-1000)); for (TimeDelta bad_send_delta : bad_send_deltas) { rtt_stats_.UpdateRtt(bad_send_delta, TimeDelta::Zero(), Timestamp::ms(0)); EXPECT_EQ(initial_rtt, rtt_stats_.min_rtt()); EXPECT_EQ(initial_rtt, rtt_stats_.smoothed_rtt()); } } TEST_F(RttStatsTest, ResetAfterConnectionMigrations) { rtt_stats_.UpdateRtt(TimeDelta::ms(300), TimeDelta::ms(100), Timestamp::ms(0)); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::ms(200), rtt_stats_.smoothed_rtt()); EXPECT_EQ(TimeDelta::ms(300), rtt_stats_.min_rtt()); // Reset rtt stats on connection migrations. rtt_stats_.OnConnectionMigration(); EXPECT_EQ(TimeDelta::Zero(), rtt_stats_.latest_rtt()); EXPECT_EQ(TimeDelta::Zero(), rtt_stats_.smoothed_rtt()); EXPECT_EQ(TimeDelta::Zero(), rtt_stats_.min_rtt()); } } // namespace test } // namespace bbr } // namespace webrtc