/* * Copyright (c) 2014 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/pacing/bitrate_prober.h" #include #include "api/units/data_rate.h" #include "test/explicit_key_value_config.h" #include "test/gtest.h" namespace webrtc { TEST(BitrateProberTest, VerifyStatesAndTimeBetweenProbes) { const FieldTrialBasedConfig config; BitrateProber prober(config); EXPECT_FALSE(prober.is_probing()); Timestamp now = Timestamp::Zero(); const Timestamp start_time = now; EXPECT_EQ(prober.NextProbeTime(now), Timestamp::PlusInfinity()); const DataRate kTestBitrate1 = DataRate::KilobitsPerSec(900); const DataRate kTestBitrate2 = DataRate::KilobitsPerSec(1800); const int kClusterSize = 5; const DataSize kProbeSize = DataSize::Bytes(1000); const TimeDelta kMinProbeDuration = TimeDelta::Millis(15); prober.CreateProbeCluster({.at_time = now, .target_data_rate = kTestBitrate1, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); prober.CreateProbeCluster({.at_time = now, .target_data_rate = kTestBitrate2, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 1}); EXPECT_FALSE(prober.is_probing()); prober.OnIncomingPacket(kProbeSize); EXPECT_TRUE(prober.is_probing()); EXPECT_EQ(0, prober.CurrentCluster(now)->probe_cluster_id); // First packet should probe as soon as possible. EXPECT_EQ(Timestamp::MinusInfinity(), prober.NextProbeTime(now)); for (int i = 0; i < kClusterSize; ++i) { now = std::max(now, prober.NextProbeTime(now)); EXPECT_EQ(now, std::max(now, prober.NextProbeTime(now))); EXPECT_EQ(0, prober.CurrentCluster(now)->probe_cluster_id); prober.ProbeSent(now, kProbeSize); } EXPECT_GE(now - start_time, kMinProbeDuration); // Verify that the actual bitrate is withing 10% of the target. DataRate bitrate = kProbeSize * (kClusterSize - 1) / (now - start_time); EXPECT_GT(bitrate, kTestBitrate1 * 0.9); EXPECT_LT(bitrate, kTestBitrate1 * 1.1); now = std::max(now, prober.NextProbeTime(now)); Timestamp probe2_started = now; for (int i = 0; i < kClusterSize; ++i) { now = std::max(now, prober.NextProbeTime(now)); EXPECT_EQ(now, std::max(now, prober.NextProbeTime(now))); EXPECT_EQ(1, prober.CurrentCluster(now)->probe_cluster_id); prober.ProbeSent(now, kProbeSize); } // Verify that the actual bitrate is withing 10% of the target. TimeDelta duration = now - probe2_started; EXPECT_GE(duration, kMinProbeDuration); bitrate = (kProbeSize * (kClusterSize - 1)) / duration; EXPECT_GT(bitrate, kTestBitrate2 * 0.9); EXPECT_LT(bitrate, kTestBitrate2 * 1.1); EXPECT_EQ(prober.NextProbeTime(now), Timestamp::PlusInfinity()); EXPECT_FALSE(prober.is_probing()); } TEST(BitrateProberTest, DoesntProbeWithoutRecentPackets) { const FieldTrialBasedConfig config; BitrateProber prober(config); const DataSize kProbeSize = DataSize::Bytes(1000); Timestamp now = Timestamp::Zero(); EXPECT_EQ(prober.NextProbeTime(now), Timestamp::PlusInfinity()); prober.CreateProbeCluster({.at_time = now, .target_data_rate = DataRate::KilobitsPerSec(900), .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); EXPECT_FALSE(prober.is_probing()); prober.OnIncomingPacket(kProbeSize); EXPECT_TRUE(prober.is_probing()); EXPECT_EQ(now, std::max(now, prober.NextProbeTime(now))); prober.ProbeSent(now, kProbeSize); } TEST(BitrateProberTest, DiscardsDelayedProbes) { const TimeDelta kMaxProbeDelay = TimeDelta::Millis(3); const test::ExplicitKeyValueConfig trials( "WebRTC-Bwe-ProbingBehavior/" "abort_delayed_probes:1," "max_probe_delay:3ms/"); BitrateProber prober(trials); const DataSize kProbeSize = DataSize::Bytes(1000); Timestamp now = Timestamp::Zero(); // Add two probe clusters. prober.CreateProbeCluster({.at_time = now, .target_data_rate = DataRate::KilobitsPerSec(900), .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); prober.OnIncomingPacket(kProbeSize); EXPECT_TRUE(prober.is_probing()); EXPECT_EQ(prober.CurrentCluster(now)->probe_cluster_id, 0); // Advance to first probe time and indicate sent probe. now = std::max(now, prober.NextProbeTime(now)); prober.ProbeSent(now, kProbeSize); // Advance time 1ms past timeout for the next probe. Timestamp next_probe_time = prober.NextProbeTime(now); EXPECT_GT(next_probe_time, now); now += next_probe_time - now + kMaxProbeDelay + TimeDelta::Millis(1); // Still indicates the time we wanted to probe at. EXPECT_EQ(prober.NextProbeTime(now), next_probe_time); // First and only cluster removed due to timeout. EXPECT_FALSE(prober.CurrentCluster(now).has_value()); } TEST(BitrateProberTest, DoesntInitializeProbingForSmallPackets) { const FieldTrialBasedConfig config; BitrateProber prober(config); prober.SetEnabled(true); EXPECT_FALSE(prober.is_probing()); prober.OnIncomingPacket(DataSize::Bytes(100)); EXPECT_FALSE(prober.is_probing()); } TEST(BitrateProberTest, VerifyProbeSizeOnHighBitrate) { const FieldTrialBasedConfig config; BitrateProber prober(config); const DataRate kHighBitrate = DataRate::KilobitsPerSec(10000); // 10 Mbps prober.CreateProbeCluster({.at_time = Timestamp::Zero(), .target_data_rate = kHighBitrate, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); // Probe size should ensure a minimum of 1 ms interval. EXPECT_GT(prober.RecommendedMinProbeSize(), kHighBitrate * TimeDelta::Millis(1)); } TEST(BitrateProberTest, MinumumNumberOfProbingPackets) { const FieldTrialBasedConfig config; BitrateProber prober(config); // Even when probing at a low bitrate we expect a minimum number // of packets to be sent. const DataRate kBitrate = DataRate::KilobitsPerSec(100); const DataSize kPacketSize = DataSize::Bytes(1000); Timestamp now = Timestamp::Zero(); prober.CreateProbeCluster({.at_time = Timestamp::Zero(), .target_data_rate = kBitrate, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); prober.OnIncomingPacket(kPacketSize); for (int i = 0; i < 5; ++i) { EXPECT_TRUE(prober.is_probing()); prober.ProbeSent(now, kPacketSize); } EXPECT_FALSE(prober.is_probing()); } TEST(BitrateProberTest, ScaleBytesUsedForProbing) { const FieldTrialBasedConfig config; BitrateProber prober(config); const DataRate kBitrate = DataRate::KilobitsPerSec(10000); // 10 Mbps. const DataSize kPacketSize = DataSize::Bytes(1000); const DataSize kExpectedDataSent = kBitrate * TimeDelta::Millis(15); Timestamp now = Timestamp::Zero(); prober.CreateProbeCluster({.at_time = Timestamp::Zero(), .target_data_rate = kBitrate, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); prober.OnIncomingPacket(kPacketSize); DataSize data_sent = DataSize::Zero(); while (data_sent < kExpectedDataSent) { ASSERT_TRUE(prober.is_probing()); prober.ProbeSent(now, kPacketSize); data_sent += kPacketSize; } EXPECT_FALSE(prober.is_probing()); } TEST(BitrateProberTest, HighBitrateProbing) { const FieldTrialBasedConfig config; BitrateProber prober(config); const DataRate kBitrate = DataRate::KilobitsPerSec(1000000); // 1 Gbps. const DataSize kPacketSize = DataSize::Bytes(1000); const DataSize kExpectedDataSent = kBitrate * TimeDelta::Millis(15); Timestamp now = Timestamp::Zero(); prober.CreateProbeCluster({.at_time = Timestamp::Zero(), .target_data_rate = kBitrate, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); prober.OnIncomingPacket(kPacketSize); DataSize data_sent = DataSize::Zero(); while (data_sent < kExpectedDataSent) { ASSERT_TRUE(prober.is_probing()); prober.ProbeSent(now, kPacketSize); data_sent += kPacketSize; } EXPECT_FALSE(prober.is_probing()); } TEST(BitrateProberTest, ProbeClusterTimeout) { const FieldTrialBasedConfig config; BitrateProber prober(config); const DataRate kBitrate = DataRate::KilobitsPerSec(300); const DataSize kSmallPacketSize = DataSize::Bytes(20); // Expecting two probe clusters of 5 packets each. const DataSize kExpectedDataSent = kSmallPacketSize * 2 * 5; const TimeDelta kTimeout = TimeDelta::Millis(5000); Timestamp now = Timestamp::Zero(); prober.CreateProbeCluster({.at_time = now, .target_data_rate = kBitrate, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 0}); prober.OnIncomingPacket(kSmallPacketSize); EXPECT_FALSE(prober.is_probing()); now += kTimeout; prober.CreateProbeCluster({.at_time = now, .target_data_rate = kBitrate / 10, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 1}); prober.OnIncomingPacket(kSmallPacketSize); EXPECT_FALSE(prober.is_probing()); now += TimeDelta::Millis(1); prober.CreateProbeCluster({.at_time = now, .target_data_rate = kBitrate / 10, .target_duration = TimeDelta::Millis(15), .target_probe_count = 5, .id = 2}); prober.OnIncomingPacket(kSmallPacketSize); EXPECT_TRUE(prober.is_probing()); DataSize data_sent = DataSize::Zero(); while (data_sent < kExpectedDataSent) { ASSERT_TRUE(prober.is_probing()); prober.ProbeSent(now, kSmallPacketSize); data_sent += kSmallPacketSize; } EXPECT_FALSE(prober.is_probing()); } } // namespace webrtc