blob: 39aa72e8167e7ab8c744c4752e2e47535fea6cb9 [file] [log] [blame]
/*
* 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 <limits>
#include <memory>
#include <vector>
#include "modules/bitrate_controller/include/mock/mock_bitrate_controller.h"
#include "modules/congestion_controller/rtp/congestion_controller_unittests_helper.h"
#include "modules/congestion_controller/transport_feedback_adapter.h"
#include "modules/rtp_rtcp/include/rtp_rtcp_defines.h"
#include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h"
#include "rtc_base/checks.h"
#include "rtc_base/numerics/safe_conversions.h"
#include "system_wrappers/include/clock.h"
#include "test/gmock.h"
#include "test/gtest.h"
using ::testing::_;
using ::testing::Invoke;
namespace webrtc {
namespace {
const PacedPacketInfo kPacingInfo0(0, 5, 2000);
const PacedPacketInfo kPacingInfo1(1, 8, 4000);
const PacedPacketInfo kPacingInfo2(2, 14, 7000);
const PacedPacketInfo kPacingInfo3(3, 20, 10000);
const PacedPacketInfo kPacingInfo4(4, 22, 10000);
} // namespace
namespace test {
class MockPacketFeedbackObserver : public webrtc::PacketFeedbackObserver {
public:
MOCK_METHOD2(OnPacketAdded, void(uint32_t ssrc, uint16_t seq_num));
MOCK_METHOD1(OnPacketFeedbackVector,
void(const std::vector<PacketFeedback>& packet_feedback_vector));
};
class LegacyTransportFeedbackAdapterTest : public ::testing::Test {
public:
LegacyTransportFeedbackAdapterTest() : clock_(0) {}
virtual ~LegacyTransportFeedbackAdapterTest() {}
virtual void SetUp() {
adapter_.reset(new TransportFeedbackAdapter(&clock_));
}
virtual void TearDown() { adapter_.reset(); }
protected:
void OnReceivedEstimatedBitrate(uint32_t bitrate) {}
void OnReceivedRtcpReceiverReport(const ReportBlockList& report_blocks,
int64_t rtt,
int64_t now_ms) {}
void OnSentPacket(const PacketFeedback& packet_feedback) {
adapter_->AddPacket(kSsrc, packet_feedback.sequence_number,
packet_feedback.payload_size,
packet_feedback.pacing_info);
adapter_->OnSentPacket(packet_feedback.sequence_number,
packet_feedback.send_time_ms);
}
static constexpr uint32_t kSsrc = 8492;
SimulatedClock clock_;
std::unique_ptr<TransportFeedbackAdapter> adapter_;
};
TEST_F(LegacyTransportFeedbackAdapterTest, ObserverSanity) {
MockPacketFeedbackObserver mock;
adapter_->RegisterPacketFeedbackObserver(&mock);
const std::vector<PacketFeedback> packets = {
PacketFeedback(100, 200, 0, 1000, kPacingInfo0),
PacketFeedback(110, 210, 1, 2000, kPacingInfo0),
PacketFeedback(120, 220, 2, 3000, kPacingInfo0)};
rtcp::TransportFeedback feedback;
feedback.SetBase(packets[0].sequence_number,
packets[0].arrival_time_ms * 1000);
for (const PacketFeedback& packet : packets) {
EXPECT_CALL(mock, OnPacketAdded(kSsrc, packet.sequence_number)).Times(1);
OnSentPacket(packet);
EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number,
packet.arrival_time_ms * 1000));
}
EXPECT_CALL(mock, OnPacketFeedbackVector(_)).Times(1);
adapter_->OnTransportFeedback(feedback);
adapter_->DeRegisterPacketFeedbackObserver(&mock);
// After deregistration, the observer no longers gets indications.
EXPECT_CALL(mock, OnPacketAdded(_, _)).Times(0);
const PacketFeedback new_packet(130, 230, 3, 4000, kPacingInfo0);
OnSentPacket(new_packet);
rtcp::TransportFeedback second_feedback;
second_feedback.SetBase(new_packet.sequence_number,
new_packet.arrival_time_ms * 1000);
EXPECT_TRUE(feedback.AddReceivedPacket(new_packet.sequence_number,
new_packet.arrival_time_ms * 1000));
EXPECT_CALL(mock, OnPacketFeedbackVector(_)).Times(0);
adapter_->OnTransportFeedback(second_feedback);
}
#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
TEST_F(LegacyTransportFeedbackAdapterTest,
ObserverDoubleRegistrationDeathTest) {
MockPacketFeedbackObserver mock;
adapter_->RegisterPacketFeedbackObserver(&mock);
EXPECT_DEATH(adapter_->RegisterPacketFeedbackObserver(&mock), "");
adapter_->DeRegisterPacketFeedbackObserver(&mock);
}
TEST_F(LegacyTransportFeedbackAdapterTest,
ObserverMissingDeRegistrationDeathTest) {
MockPacketFeedbackObserver mock;
adapter_->RegisterPacketFeedbackObserver(&mock);
EXPECT_DEATH(adapter_.reset(), "");
adapter_->DeRegisterPacketFeedbackObserver(&mock);
}
#endif
TEST_F(LegacyTransportFeedbackAdapterTest,
AdaptsFeedbackAndPopulatesSendTimes) {
std::vector<PacketFeedback> packets;
packets.push_back(PacketFeedback(100, 200, 0, 1500, kPacingInfo0));
packets.push_back(PacketFeedback(110, 210, 1, 1500, kPacingInfo0));
packets.push_back(PacketFeedback(120, 220, 2, 1500, kPacingInfo0));
packets.push_back(PacketFeedback(130, 230, 3, 1500, kPacingInfo1));
packets.push_back(PacketFeedback(140, 240, 4, 1500, kPacingInfo1));
for (const PacketFeedback& packet : packets)
OnSentPacket(packet);
rtcp::TransportFeedback feedback;
feedback.SetBase(packets[0].sequence_number,
packets[0].arrival_time_ms * 1000);
for (const PacketFeedback& packet : packets) {
EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number,
packet.arrival_time_ms * 1000));
}
feedback.Build();
adapter_->OnTransportFeedback(feedback);
ComparePacketFeedbackVectors(packets, adapter_->GetTransportFeedbackVector());
}
TEST_F(LegacyTransportFeedbackAdapterTest, FeedbackVectorReportsUnreceived) {
std::vector<PacketFeedback> sent_packets = {
PacketFeedback(100, 220, 0, 1500, kPacingInfo0),
PacketFeedback(110, 210, 1, 1500, kPacingInfo0),
PacketFeedback(120, 220, 2, 1500, kPacingInfo0),
PacketFeedback(130, 230, 3, 1500, kPacingInfo0),
PacketFeedback(140, 240, 4, 1500, kPacingInfo0),
PacketFeedback(150, 250, 5, 1500, kPacingInfo0),
PacketFeedback(160, 260, 6, 1500, kPacingInfo0)};
for (const PacketFeedback& packet : sent_packets)
OnSentPacket(packet);
// Note: Important to include the last packet, as only unreceived packets in
// between received packets can be inferred.
std::vector<PacketFeedback> received_packets = {
sent_packets[0], sent_packets[2], sent_packets[6]};
rtcp::TransportFeedback feedback;
feedback.SetBase(received_packets[0].sequence_number,
received_packets[0].arrival_time_ms * 1000);
for (const PacketFeedback& packet : received_packets) {
EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number,
packet.arrival_time_ms * 1000));
}
feedback.Build();
adapter_->OnTransportFeedback(feedback);
ComparePacketFeedbackVectors(sent_packets,
adapter_->GetTransportFeedbackVector());
}
TEST_F(LegacyTransportFeedbackAdapterTest, HandlesDroppedPackets) {
std::vector<PacketFeedback> packets;
packets.push_back(PacketFeedback(100, 200, 0, 1500, kPacingInfo0));
packets.push_back(PacketFeedback(110, 210, 1, 1500, kPacingInfo1));
packets.push_back(PacketFeedback(120, 220, 2, 1500, kPacingInfo2));
packets.push_back(PacketFeedback(130, 230, 3, 1500, kPacingInfo3));
packets.push_back(PacketFeedback(140, 240, 4, 1500, kPacingInfo4));
const uint16_t kSendSideDropBefore = 1;
const uint16_t kReceiveSideDropAfter = 3;
for (const PacketFeedback& packet : packets) {
if (packet.sequence_number >= kSendSideDropBefore)
OnSentPacket(packet);
}
rtcp::TransportFeedback feedback;
feedback.SetBase(packets[0].sequence_number,
packets[0].arrival_time_ms * 1000);
for (const PacketFeedback& packet : packets) {
if (packet.sequence_number <= kReceiveSideDropAfter) {
EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number,
packet.arrival_time_ms * 1000));
}
}
feedback.Build();
std::vector<PacketFeedback> expected_packets(
packets.begin(), packets.begin() + kReceiveSideDropAfter + 1);
// Packets that have timed out on the send-side have lost the
// information stored on the send-side.
for (size_t i = 0; i < kSendSideDropBefore; ++i) {
expected_packets[i].send_time_ms = -1;
expected_packets[i].payload_size = 0;
expected_packets[i].pacing_info = PacedPacketInfo();
}
adapter_->OnTransportFeedback(feedback);
ComparePacketFeedbackVectors(expected_packets,
adapter_->GetTransportFeedbackVector());
}
TEST_F(LegacyTransportFeedbackAdapterTest, SendTimeWrapsBothWays) {
int64_t kHighArrivalTimeMs = rtcp::TransportFeedback::kDeltaScaleFactor *
static_cast<int64_t>(1 << 8) *
static_cast<int64_t>((1 << 23) - 1) / 1000;
std::vector<PacketFeedback> packets;
packets.push_back(
PacketFeedback(kHighArrivalTimeMs - 64, 200, 0, 1500, PacedPacketInfo()));
packets.push_back(
PacketFeedback(kHighArrivalTimeMs + 64, 210, 1, 1500, PacedPacketInfo()));
packets.push_back(
PacketFeedback(kHighArrivalTimeMs, 220, 2, 1500, PacedPacketInfo()));
for (const PacketFeedback& packet : packets)
OnSentPacket(packet);
for (size_t i = 0; i < packets.size(); ++i) {
std::unique_ptr<rtcp::TransportFeedback> feedback(
new rtcp::TransportFeedback());
feedback->SetBase(packets[i].sequence_number,
packets[i].arrival_time_ms * 1000);
EXPECT_TRUE(feedback->AddReceivedPacket(packets[i].sequence_number,
packets[i].arrival_time_ms * 1000));
rtc::Buffer raw_packet = feedback->Build();
feedback = rtcp::TransportFeedback::ParseFrom(raw_packet.data(),
raw_packet.size());
std::vector<PacketFeedback> expected_packets;
expected_packets.push_back(packets[i]);
adapter_->OnTransportFeedback(*feedback.get());
ComparePacketFeedbackVectors(expected_packets,
adapter_->GetTransportFeedbackVector());
}
}
TEST_F(LegacyTransportFeedbackAdapterTest, HandlesArrivalReordering) {
std::vector<PacketFeedback> packets;
packets.push_back(PacketFeedback(120, 200, 0, 1500, kPacingInfo0));
packets.push_back(PacketFeedback(110, 210, 1, 1500, kPacingInfo0));
packets.push_back(PacketFeedback(100, 220, 2, 1500, kPacingInfo0));
for (const PacketFeedback& packet : packets)
OnSentPacket(packet);
rtcp::TransportFeedback feedback;
feedback.SetBase(packets[0].sequence_number,
packets[0].arrival_time_ms * 1000);
for (const PacketFeedback& packet : packets) {
EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number,
packet.arrival_time_ms * 1000));
}
feedback.Build();
// Adapter keeps the packets ordered by sequence number (which is itself
// assigned by the order of transmission). Reordering by some other criteria,
// eg. arrival time, is up to the observers.
adapter_->OnTransportFeedback(feedback);
ComparePacketFeedbackVectors(packets, adapter_->GetTransportFeedbackVector());
}
TEST_F(LegacyTransportFeedbackAdapterTest, TimestampDeltas) {
std::vector<PacketFeedback> sent_packets;
const int64_t kSmallDeltaUs =
rtcp::TransportFeedback::kDeltaScaleFactor * ((1 << 8) - 1);
const int64_t kLargePositiveDeltaUs =
rtcp::TransportFeedback::kDeltaScaleFactor *
std::numeric_limits<int16_t>::max();
const int64_t kLargeNegativeDeltaUs =
rtcp::TransportFeedback::kDeltaScaleFactor *
std::numeric_limits<int16_t>::min();
PacketFeedback packet_feedback(100, 200, 0, 1500, true, 0, 0,
PacedPacketInfo());
sent_packets.push_back(packet_feedback);
packet_feedback.send_time_ms += kSmallDeltaUs / 1000;
packet_feedback.arrival_time_ms += kSmallDeltaUs / 1000;
++packet_feedback.sequence_number;
sent_packets.push_back(packet_feedback);
packet_feedback.send_time_ms += kLargePositiveDeltaUs / 1000;
packet_feedback.arrival_time_ms += kLargePositiveDeltaUs / 1000;
++packet_feedback.sequence_number;
sent_packets.push_back(packet_feedback);
packet_feedback.send_time_ms += kLargeNegativeDeltaUs / 1000;
packet_feedback.arrival_time_ms += kLargeNegativeDeltaUs / 1000;
++packet_feedback.sequence_number;
sent_packets.push_back(packet_feedback);
// Too large, delta - will need two feedback messages.
packet_feedback.send_time_ms += (kLargePositiveDeltaUs + 1000) / 1000;
packet_feedback.arrival_time_ms += (kLargePositiveDeltaUs + 1000) / 1000;
++packet_feedback.sequence_number;
// Packets will be added to send history.
for (const PacketFeedback& packet : sent_packets)
OnSentPacket(packet);
OnSentPacket(packet_feedback);
// Create expected feedback and send into adapter.
std::unique_ptr<rtcp::TransportFeedback> feedback(
new rtcp::TransportFeedback());
feedback->SetBase(sent_packets[0].sequence_number,
sent_packets[0].arrival_time_ms * 1000);
for (const PacketFeedback& packet : sent_packets) {
EXPECT_TRUE(feedback->AddReceivedPacket(packet.sequence_number,
packet.arrival_time_ms * 1000));
}
EXPECT_FALSE(feedback->AddReceivedPacket(
packet_feedback.sequence_number, packet_feedback.arrival_time_ms * 1000));
rtc::Buffer raw_packet = feedback->Build();
feedback =
rtcp::TransportFeedback::ParseFrom(raw_packet.data(), raw_packet.size());
std::vector<PacketFeedback> received_feedback;
EXPECT_TRUE(feedback.get() != nullptr);
adapter_->OnTransportFeedback(*feedback.get());
ComparePacketFeedbackVectors(sent_packets,
adapter_->GetTransportFeedbackVector());
// Create a new feedback message and add the trailing item.
feedback.reset(new rtcp::TransportFeedback());
feedback->SetBase(packet_feedback.sequence_number,
packet_feedback.arrival_time_ms * 1000);
EXPECT_TRUE(feedback->AddReceivedPacket(
packet_feedback.sequence_number, packet_feedback.arrival_time_ms * 1000));
raw_packet = feedback->Build();
feedback =
rtcp::TransportFeedback::ParseFrom(raw_packet.data(), raw_packet.size());
EXPECT_TRUE(feedback.get() != nullptr);
adapter_->OnTransportFeedback(*feedback.get());
{
std::vector<PacketFeedback> expected_packets;
expected_packets.push_back(packet_feedback);
ComparePacketFeedbackVectors(expected_packets,
adapter_->GetTransportFeedbackVector());
}
}
} // namespace test
} // namespace webrtc