/* * Copyright (c) 2015 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 #include #include #include #include "modules/congestion_controller/rtp/send_time_history.h" #include "modules/rtp_rtcp/include/rtp_rtcp_defines.h" #include "system_wrappers/include/clock.h" #include "test/gtest.h" namespace webrtc { namespace test { static const int kDefaultHistoryLengthMs = 1000; class SendTimeHistoryTest : public ::testing::Test { protected: SendTimeHistoryTest() : clock_(0), history_(&clock_, kDefaultHistoryLengthMs) {} ~SendTimeHistoryTest() {} virtual void SetUp() {} virtual void TearDown() {} void AddPacketWithSendTime(uint16_t sequence_number, size_t length, int64_t send_time_ms, const PacedPacketInfo& pacing_info) { PacketFeedback packet(clock_.TimeInMilliseconds(), sequence_number, length, 0, 0, pacing_info); history_.AddAndRemoveOld(packet); history_.OnSentPacket(sequence_number, send_time_ms); } webrtc::SimulatedClock clock_; SendTimeHistory history_; }; TEST_F(SendTimeHistoryTest, SaveAndRestoreNetworkId) { const PacedPacketInfo kPacingInfo(0, 5, 1200); uint16_t sequence_number = 0; int64_t now_ms = clock_.TimeInMilliseconds(); for (int i = 1; i < 5; ++i) { PacketFeedback packet(now_ms, sequence_number, 1000, i, i - 1, kPacingInfo); history_.AddAndRemoveOld(packet); history_.OnSentPacket(sequence_number, now_ms); PacketFeedback restored(now_ms, sequence_number); EXPECT_TRUE(history_.GetFeedback(&restored, sequence_number++)); EXPECT_EQ(packet.local_net_id, restored.local_net_id); EXPECT_EQ(packet.remote_net_id, restored.remote_net_id); } } TEST_F(SendTimeHistoryTest, AddRemoveOne) { const uint16_t kSeqNo = 10; // TODO(philipel): Fix PacedPacketInfo constructor? const PacedPacketInfo kPacingInfo(0, 5, 1200); const PacketFeedback kSentPacket(0, 1, kSeqNo, 1, kPacingInfo); AddPacketWithSendTime(kSeqNo, 1, 1, kPacingInfo); PacketFeedback received_packet(0, 0, kSeqNo, 0, kPacingInfo); EXPECT_TRUE(history_.GetFeedback(&received_packet, false)); EXPECT_EQ(kSentPacket, received_packet); PacketFeedback received_packet2(0, 0, kSeqNo, 0, kPacingInfo); EXPECT_TRUE(history_.GetFeedback(&received_packet2, true)); EXPECT_EQ(kSentPacket, received_packet2); PacketFeedback received_packet3(0, 0, kSeqNo, 0, kPacingInfo); EXPECT_FALSE(history_.GetFeedback(&received_packet3, true)); } TEST_F(SendTimeHistoryTest, GetPacketReturnsSentPacket) { const uint16_t kSeqNo = 10; const PacedPacketInfo kPacingInfo(0, 5, 1200); const PacketFeedback kSentPacket(0, -1, 1, kSeqNo, 123, 0, 0, kPacingInfo); AddPacketWithSendTime(kSeqNo, 123, 1, kPacingInfo); auto sent_packet = history_.GetPacket(kSeqNo); EXPECT_EQ(kSentPacket, *sent_packet); } TEST_F(SendTimeHistoryTest, GetPacketEmptyForRemovedPacket) { const uint16_t kSeqNo = 10; const PacedPacketInfo kPacingInfo(0, 5, 1200); AddPacketWithSendTime(kSeqNo, 123, 1, kPacingInfo); auto sent_packet = history_.GetPacket(kSeqNo); PacketFeedback received_packet(0, 0, kSeqNo, 0, kPacingInfo); EXPECT_TRUE(history_.GetFeedback(&received_packet, true)); sent_packet = history_.GetPacket(kSeqNo); EXPECT_FALSE(sent_packet.has_value()); } TEST_F(SendTimeHistoryTest, PopulatesExpectedFields) { const uint16_t kSeqNo = 10; const int64_t kSendTime = 1000; const int64_t kReceiveTime = 2000; const size_t kPayloadSize = 42; const PacedPacketInfo kPacingInfo(3, 10, 1212); AddPacketWithSendTime(kSeqNo, kPayloadSize, kSendTime, kPacingInfo); PacketFeedback packet_feedback(kReceiveTime, kSeqNo); EXPECT_TRUE(history_.GetFeedback(&packet_feedback, true)); EXPECT_EQ(kReceiveTime, packet_feedback.arrival_time_ms); EXPECT_EQ(kSendTime, packet_feedback.send_time_ms); EXPECT_EQ(kSeqNo, packet_feedback.sequence_number); EXPECT_EQ(kPayloadSize, packet_feedback.payload_size); EXPECT_EQ(kPacingInfo, packet_feedback.pacing_info); } TEST_F(SendTimeHistoryTest, AddThenRemoveOutOfOrder) { std::vector sent_packets; std::vector received_packets; const size_t num_items = 100; const size_t kPacketSize = 400; const size_t kTransmissionTime = 1234; const PacedPacketInfo kPacingInfo(1, 2, 200); for (size_t i = 0; i < num_items; ++i) { sent_packets.push_back(PacketFeedback(0, static_cast(i), static_cast(i), kPacketSize, kPacingInfo)); received_packets.push_back(PacketFeedback( static_cast(i) + kTransmissionTime, 0, static_cast(i), kPacketSize, PacedPacketInfo())); } for (size_t i = 0; i < num_items; ++i) { PacketFeedback packet = sent_packets[i]; packet.arrival_time_ms = PacketFeedback::kNotReceived; packet.send_time_ms = PacketFeedback::kNoSendTime; history_.AddAndRemoveOld(packet); } for (size_t i = 0; i < num_items; ++i) history_.OnSentPacket(sent_packets[i].sequence_number, sent_packets[i].send_time_ms); std::shuffle(received_packets.begin(), received_packets.end(), std::mt19937(std::random_device()())); for (size_t i = 0; i < num_items; ++i) { PacketFeedback packet = received_packets[i]; EXPECT_TRUE(history_.GetFeedback(&packet, false)); PacketFeedback sent_packet = sent_packets[packet.sequence_number]; sent_packet.arrival_time_ms = packet.arrival_time_ms; EXPECT_EQ(sent_packet, packet); EXPECT_TRUE(history_.GetFeedback(&packet, true)); } for (PacketFeedback packet : sent_packets) EXPECT_FALSE(history_.GetFeedback(&packet, false)); } TEST_F(SendTimeHistoryTest, HistorySize) { const int kItems = kDefaultHistoryLengthMs / 100; for (int i = 0; i < kItems; ++i) { clock_.AdvanceTimeMilliseconds(100); AddPacketWithSendTime(i, 0, i * 100, PacedPacketInfo()); } for (int i = 0; i < kItems; ++i) { PacketFeedback packet(0, 0, static_cast(i), 0, PacedPacketInfo()); EXPECT_TRUE(history_.GetFeedback(&packet, false)); EXPECT_EQ(i * 100, packet.send_time_ms); } clock_.AdvanceTimeMilliseconds(101); AddPacketWithSendTime(kItems, 0, kItems * 101, PacedPacketInfo()); PacketFeedback packet(0, 0, 0, 0, PacedPacketInfo()); EXPECT_FALSE(history_.GetFeedback(&packet, false)); for (int i = 1; i < (kItems + 1); ++i) { PacketFeedback packet2(0, 0, static_cast(i), 0, PacedPacketInfo()); EXPECT_TRUE(history_.GetFeedback(&packet2, false)); int64_t expected_time_ms = (i == kItems) ? i * 101 : i * 100; EXPECT_EQ(expected_time_ms, packet2.send_time_ms); } } TEST_F(SendTimeHistoryTest, HistorySizeWithWraparound) { const uint16_t kMaxSeqNo = std::numeric_limits::max(); AddPacketWithSendTime(kMaxSeqNo - 2, 0, 0, PacedPacketInfo()); clock_.AdvanceTimeMilliseconds(100); AddPacketWithSendTime(kMaxSeqNo - 1, 1, 100, PacedPacketInfo()); clock_.AdvanceTimeMilliseconds(100); AddPacketWithSendTime(kMaxSeqNo, 0, 200, PacedPacketInfo()); clock_.AdvanceTimeMilliseconds(kDefaultHistoryLengthMs - 200 + 1); AddPacketWithSendTime(0, 0, kDefaultHistoryLengthMs, PacedPacketInfo()); PacketFeedback packet(0, static_cast(kMaxSeqNo - 2)); EXPECT_FALSE(history_.GetFeedback(&packet, false)); PacketFeedback packet2(0, static_cast(kMaxSeqNo - 1)); EXPECT_TRUE(history_.GetFeedback(&packet2, false)); PacketFeedback packet3(0, static_cast(kMaxSeqNo)); EXPECT_TRUE(history_.GetFeedback(&packet3, false)); PacketFeedback packet4(0, 0); EXPECT_TRUE(history_.GetFeedback(&packet4, false)); // Create a gap (kMaxSeqNo - 1) -> 0. PacketFeedback packet5(0, kMaxSeqNo); EXPECT_TRUE(history_.GetFeedback(&packet5, true)); clock_.AdvanceTimeMilliseconds(100); AddPacketWithSendTime(1, 0, 1100, PacedPacketInfo()); PacketFeedback packet6(0, static_cast(kMaxSeqNo - 2)); EXPECT_FALSE(history_.GetFeedback(&packet6, false)); PacketFeedback packet7(0, static_cast(kMaxSeqNo - 1)); EXPECT_FALSE(history_.GetFeedback(&packet7, false)); PacketFeedback packet8(0, kMaxSeqNo); EXPECT_FALSE(history_.GetFeedback(&packet8, false)); PacketFeedback packet9(0, 0); EXPECT_TRUE(history_.GetFeedback(&packet9, false)); PacketFeedback packet10(0, 1); EXPECT_TRUE(history_.GetFeedback(&packet10, false)); } TEST_F(SendTimeHistoryTest, InterlievedGetAndRemove) { const uint16_t kSeqNo = 1; const int64_t kTimestamp = 2; const PacedPacketInfo kPacingInfo1(1, 1, 100); const PacedPacketInfo kPacingInfo2(2, 2, 200); const PacedPacketInfo kPacingInfo3(3, 3, 300); PacketFeedback packets[3] = { {0, kTimestamp, kSeqNo, 0, kPacingInfo1}, {0, kTimestamp + 1, kSeqNo + 1, 0, kPacingInfo2}, {0, kTimestamp + 2, kSeqNo + 2, 0, kPacingInfo3}}; AddPacketWithSendTime(packets[0].sequence_number, packets[0].payload_size, packets[0].send_time_ms, packets[0].pacing_info); AddPacketWithSendTime(packets[1].sequence_number, packets[1].payload_size, packets[1].send_time_ms, packets[1].pacing_info); PacketFeedback packet(0, 0, packets[0].sequence_number, 0, PacedPacketInfo()); EXPECT_TRUE(history_.GetFeedback(&packet, true)); EXPECT_EQ(packets[0], packet); AddPacketWithSendTime(packets[2].sequence_number, packets[2].payload_size, packets[2].send_time_ms, packets[2].pacing_info); PacketFeedback packet2(0, 0, packets[1].sequence_number, 0, kPacingInfo1); EXPECT_TRUE(history_.GetFeedback(&packet2, true)); EXPECT_EQ(packets[1], packet2); PacketFeedback packet3(0, 0, packets[2].sequence_number, 0, kPacingInfo2); EXPECT_TRUE(history_.GetFeedback(&packet3, true)); EXPECT_EQ(packets[2], packet3); } } // namespace test } // namespace webrtc