blob: 2c6dc3851aef0da8f5c0e569ddb9e540568309eb [file] [log] [blame]
/*
* Copyright (c) 2013 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 <memory>
#include <vector>
#include "modules/rtp_rtcp/include/receive_statistics.h"
#include "modules/rtp_rtcp/source/rtp_packet_received.h"
#include "rtc_base/random.h"
#include "system_wrappers/include/clock.h"
#include "test/gmock.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
using ::testing::SizeIs;
using ::testing::UnorderedElementsAre;
const size_t kPacketSize1 = 100;
const size_t kPacketSize2 = 300;
const uint32_t kSsrc1 = 101;
const uint32_t kSsrc2 = 202;
const uint32_t kSsrc3 = 203;
const uint32_t kSsrc4 = 304;
RtpPacketReceived CreateRtpPacket(uint32_t ssrc,
size_t header_size,
size_t payload_size,
size_t padding_size) {
RtpPacketReceived packet;
packet.SetSsrc(ssrc);
packet.SetSequenceNumber(100);
packet.set_payload_type_frequency(90000);
RTC_CHECK_GE(header_size, 12);
RTC_CHECK_EQ(header_size % 4, 0);
if (header_size > 12) {
// Insert csrcs to increase header size.
const int num_csrcs = (header_size - 12) / 4;
std::vector<uint32_t> csrcs(num_csrcs);
packet.SetCsrcs(csrcs);
}
packet.SetPayloadSize(payload_size);
packet.SetPadding(padding_size);
return packet;
}
RtpPacketReceived CreateRtpPacket(uint32_t ssrc, size_t packet_size) {
return CreateRtpPacket(ssrc, 12, packet_size - 12, 0);
}
void IncrementSequenceNumber(RtpPacketReceived* packet, uint16_t incr) {
packet->SetSequenceNumber(packet->SequenceNumber() + incr);
}
void IncrementSequenceNumber(RtpPacketReceived* packet) {
IncrementSequenceNumber(packet, 1);
}
void IncrementTimestamp(RtpPacketReceived* packet, uint32_t incr) {
packet->SetTimestamp(packet->Timestamp() + incr);
}
class ReceiveStatisticsTest : public ::testing::Test {
public:
ReceiveStatisticsTest()
: clock_(0),
receive_statistics_(
ReceiveStatistics::Create(&clock_, nullptr, nullptr)) {
packet1_ = CreateRtpPacket(kSsrc1, kPacketSize1);
packet2_ = CreateRtpPacket(kSsrc2, kPacketSize2);
}
protected:
SimulatedClock clock_;
std::unique_ptr<ReceiveStatistics> receive_statistics_;
RtpPacketReceived packet1_;
RtpPacketReceived packet2_;
};
TEST_F(ReceiveStatisticsTest, TwoIncomingSsrcs) {
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_);
receive_statistics_->OnRtpPacket(packet2_);
IncrementSequenceNumber(&packet2_);
clock_.AdvanceTimeMilliseconds(100);
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_);
receive_statistics_->OnRtpPacket(packet2_);
IncrementSequenceNumber(&packet2_);
StreamStatistician* statistician =
receive_statistics_->GetStatistician(kSsrc1);
ASSERT_TRUE(statistician != NULL);
EXPECT_GT(statistician->BitrateReceived(), 0u);
size_t bytes_received = 0;
uint32_t packets_received = 0;
statistician->GetDataCounters(&bytes_received, &packets_received);
EXPECT_EQ(200u, bytes_received);
EXPECT_EQ(2u, packets_received);
statistician = receive_statistics_->GetStatistician(kSsrc2);
ASSERT_TRUE(statistician != NULL);
EXPECT_GT(statistician->BitrateReceived(), 0u);
statistician->GetDataCounters(&bytes_received, &packets_received);
EXPECT_EQ(600u, bytes_received);
EXPECT_EQ(2u, packets_received);
EXPECT_EQ(2u, receive_statistics_->RtcpReportBlocks(3).size());
// Add more incoming packets and verify that they are registered in both
// access methods.
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_);
receive_statistics_->OnRtpPacket(packet2_);
IncrementSequenceNumber(&packet2_);
receive_statistics_->GetStatistician(kSsrc1)->GetDataCounters(
&bytes_received, &packets_received);
EXPECT_EQ(300u, bytes_received);
EXPECT_EQ(3u, packets_received);
receive_statistics_->GetStatistician(kSsrc2)->GetDataCounters(
&bytes_received, &packets_received);
EXPECT_EQ(900u, bytes_received);
EXPECT_EQ(3u, packets_received);
}
TEST_F(ReceiveStatisticsTest,
RtcpReportBlocksReturnsMaxBlocksWhenThereAreMoreStatisticians) {
RtpPacketReceived packet1 = CreateRtpPacket(kSsrc1, kPacketSize1);
RtpPacketReceived packet2 = CreateRtpPacket(kSsrc2, kPacketSize1);
RtpPacketReceived packet3 = CreateRtpPacket(kSsrc3, kPacketSize1);
receive_statistics_->OnRtpPacket(packet1);
receive_statistics_->OnRtpPacket(packet2);
receive_statistics_->OnRtpPacket(packet3);
EXPECT_THAT(receive_statistics_->RtcpReportBlocks(2), SizeIs(2));
EXPECT_THAT(receive_statistics_->RtcpReportBlocks(2), SizeIs(2));
EXPECT_THAT(receive_statistics_->RtcpReportBlocks(2), SizeIs(2));
}
TEST_F(ReceiveStatisticsTest,
RtcpReportBlocksReturnsAllObservedSsrcsWithMultipleCalls) {
RtpPacketReceived packet1 = CreateRtpPacket(kSsrc1, kPacketSize1);
RtpPacketReceived packet2 = CreateRtpPacket(kSsrc2, kPacketSize1);
RtpPacketReceived packet3 = CreateRtpPacket(kSsrc3, kPacketSize1);
RtpPacketReceived packet4 = CreateRtpPacket(kSsrc4, kPacketSize1);
receive_statistics_->OnRtpPacket(packet1);
receive_statistics_->OnRtpPacket(packet2);
receive_statistics_->OnRtpPacket(packet3);
receive_statistics_->OnRtpPacket(packet4);
std::vector<uint32_t> observed_ssrcs;
std::vector<rtcp::ReportBlock> report_blocks =
receive_statistics_->RtcpReportBlocks(2);
ASSERT_THAT(report_blocks, SizeIs(2));
observed_ssrcs.push_back(report_blocks[0].source_ssrc());
observed_ssrcs.push_back(report_blocks[1].source_ssrc());
report_blocks = receive_statistics_->RtcpReportBlocks(2);
ASSERT_THAT(report_blocks, SizeIs(2));
observed_ssrcs.push_back(report_blocks[0].source_ssrc());
observed_ssrcs.push_back(report_blocks[1].source_ssrc());
EXPECT_THAT(observed_ssrcs,
UnorderedElementsAre(kSsrc1, kSsrc2, kSsrc3, kSsrc4));
}
TEST_F(ReceiveStatisticsTest, ActiveStatisticians) {
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_);
clock_.AdvanceTimeMilliseconds(1000);
receive_statistics_->OnRtpPacket(packet2_);
IncrementSequenceNumber(&packet2_);
// Nothing should time out since only 1000 ms has passed since the first
// packet came in.
EXPECT_EQ(2u, receive_statistics_->RtcpReportBlocks(3).size());
clock_.AdvanceTimeMilliseconds(7000);
// kSsrc1 should have timed out.
EXPECT_EQ(1u, receive_statistics_->RtcpReportBlocks(3).size());
clock_.AdvanceTimeMilliseconds(1000);
// kSsrc2 should have timed out.
EXPECT_EQ(0u, receive_statistics_->RtcpReportBlocks(3).size());
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_);
// kSsrc1 should be active again and the data counters should have survived.
EXPECT_EQ(1u, receive_statistics_->RtcpReportBlocks(3).size());
StreamStatistician* statistician =
receive_statistics_->GetStatistician(kSsrc1);
ASSERT_TRUE(statistician != NULL);
size_t bytes_received = 0;
uint32_t packets_received = 0;
statistician->GetDataCounters(&bytes_received, &packets_received);
EXPECT_EQ(200u, bytes_received);
EXPECT_EQ(2u, packets_received);
}
TEST_F(ReceiveStatisticsTest,
DoesntCreateRtcpReportBlockUntilFirstReceivedPacketForSsrc) {
// Creates a statistician object for the ssrc.
receive_statistics_->EnableRetransmitDetection(kSsrc1, true);
EXPECT_TRUE(receive_statistics_->GetStatistician(kSsrc1) != nullptr);
EXPECT_EQ(0u, receive_statistics_->RtcpReportBlocks(3).size());
// Receive first packet
receive_statistics_->OnRtpPacket(packet1_);
EXPECT_EQ(1u, receive_statistics_->RtcpReportBlocks(3).size());
}
TEST_F(ReceiveStatisticsTest, GetReceiveStreamDataCounters) {
receive_statistics_->OnRtpPacket(packet1_);
StreamStatistician* statistician =
receive_statistics_->GetStatistician(kSsrc1);
ASSERT_TRUE(statistician != NULL);
StreamDataCounters counters;
statistician->GetReceiveStreamDataCounters(&counters);
EXPECT_GT(counters.first_packet_time_ms, -1);
EXPECT_EQ(1u, counters.transmitted.packets);
receive_statistics_->OnRtpPacket(packet1_);
statistician->GetReceiveStreamDataCounters(&counters);
EXPECT_GT(counters.first_packet_time_ms, -1);
EXPECT_EQ(2u, counters.transmitted.packets);
}
TEST_F(ReceiveStatisticsTest, RtcpCallbacks) {
class TestCallback : public RtcpStatisticsCallback {
public:
TestCallback()
: RtcpStatisticsCallback(), num_calls_(0), ssrc_(0), stats_() {}
~TestCallback() override {}
void StatisticsUpdated(const RtcpStatistics& statistics,
uint32_t ssrc) override {
ssrc_ = ssrc;
stats_ = statistics;
++num_calls_;
}
void CNameChanged(const char* cname, uint32_t ssrc) override {}
uint32_t num_calls_;
uint32_t ssrc_;
RtcpStatistics stats_;
} callback;
receive_statistics_ = ReceiveStatistics::Create(&clock_, &callback, nullptr);
receive_statistics_->EnableRetransmitDetection(kSsrc1, true);
// Add some arbitrary data, with loss and jitter.
packet1_.SetSequenceNumber(1);
clock_.AdvanceTimeMilliseconds(7);
IncrementTimestamp(&packet1_, 3);
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_, 2);
clock_.AdvanceTimeMilliseconds(9);
IncrementTimestamp(&packet1_, 9);
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_, -1);
clock_.AdvanceTimeMilliseconds(13);
IncrementTimestamp(&packet1_, 47);
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_, 3);
clock_.AdvanceTimeMilliseconds(11);
IncrementTimestamp(&packet1_, 17);
receive_statistics_->OnRtpPacket(packet1_);
IncrementSequenceNumber(&packet1_);
EXPECT_EQ(0u, callback.num_calls_);
// Call GetStatistics, simulating a timed rtcp sender thread.
RtcpStatistics statistics;
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(1u, callback.num_calls_);
EXPECT_EQ(callback.ssrc_, kSsrc1);
EXPECT_EQ(statistics.packets_lost, callback.stats_.packets_lost);
EXPECT_EQ(statistics.extended_highest_sequence_number,
callback.stats_.extended_highest_sequence_number);
EXPECT_EQ(statistics.fraction_lost, callback.stats_.fraction_lost);
EXPECT_EQ(statistics.jitter, callback.stats_.jitter);
EXPECT_EQ(51, statistics.fraction_lost);
EXPECT_EQ(1, statistics.packets_lost);
EXPECT_EQ(5u, statistics.extended_highest_sequence_number);
EXPECT_EQ(177u, statistics.jitter);
}
TEST_F(ReceiveStatisticsTest, SimpleLossComputation) {
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(3);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(4);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(5);
receive_statistics_->OnRtpPacket(packet1_);
RtcpStatistics statistics;
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
// 20% = 51/255.
EXPECT_EQ(51u, statistics.fraction_lost);
EXPECT_EQ(1, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, LossComputationWithReordering) {
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(3);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(2);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(5);
receive_statistics_->OnRtpPacket(packet1_);
RtcpStatistics statistics;
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
// 20% = 51/255.
EXPECT_EQ(51u, statistics.fraction_lost);
EXPECT_EQ(1, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, LossComputationWithDuplicates) {
// Lose 2 packets, but also receive 1 duplicate. Should actually count as
// only 1 packet being lost.
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(4);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(4);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(5);
receive_statistics_->OnRtpPacket(packet1_);
RtcpStatistics statistics;
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
// 20% = 51/255.
EXPECT_EQ(51u, statistics.fraction_lost);
EXPECT_EQ(1, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, LossComputationWithSequenceNumberWrapping) {
// First, test loss computation over a period that included a sequence number
// rollover.
packet1_.SetSequenceNumber(0xfffd);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(0);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(0xfffe);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
// Only one packet was actually lost, 0xffff.
RtcpStatistics statistics;
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
// 20% = 51/255.
EXPECT_EQ(51u, statistics.fraction_lost);
EXPECT_EQ(1, statistics.packets_lost);
// Now test losing one packet *after* the rollover.
packet1_.SetSequenceNumber(3);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
// 50% = 127/255.
EXPECT_EQ(127u, statistics.fraction_lost);
EXPECT_EQ(2, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, StreamRestartDoesntCountAsLoss) {
RtcpStatistics statistics;
receive_statistics_->SetMaxReorderingThreshold(200);
packet1_.SetSequenceNumber(0);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(400);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(0, statistics.fraction_lost);
EXPECT_EQ(0, statistics.packets_lost);
packet1_.SetSequenceNumber(401);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(0, statistics.fraction_lost);
EXPECT_EQ(0, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, CountsLossAfterStreamRestart) {
RtcpStatistics statistics;
receive_statistics_->SetMaxReorderingThreshold(200);
packet1_.SetSequenceNumber(0);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(400);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(401);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(403);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(1, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, StreamCanRestartAtSequenceNumberWrapAround) {
RtcpStatistics statistics;
receive_statistics_->SetMaxReorderingThreshold(200);
packet1_.SetSequenceNumber(0xffff - 401);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(0xffff - 400);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(0xffff);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(0);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(2);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(1, statistics.packets_lost);
}
TEST_F(ReceiveStatisticsTest, StreamRestartNeedsTwoConsecutivePackets) {
RtcpStatistics statistics;
receive_statistics_->SetMaxReorderingThreshold(200);
packet1_.SetSequenceNumber(400);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(401);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
packet1_.SetSequenceNumber(3);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(401u, statistics.extended_highest_sequence_number);
packet1_.SetSequenceNumber(4);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(4u, statistics.extended_highest_sequence_number);
}
TEST_F(ReceiveStatisticsTest, WrapsAroundExtendedHighestSequenceNumber) {
RtcpStatistics statistics;
packet1_.SetSequenceNumber(0xffff);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(0xffffu, statistics.extended_highest_sequence_number);
// Wrap around.
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(0x10001u, statistics.extended_highest_sequence_number);
// Should be treated as out of order; shouldn't increment highest extended
// sequence number.
packet1_.SetSequenceNumber(0x10000 - 6);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(0x10001u, statistics.extended_highest_sequence_number);
// Receive a couple packets then wrap around again.
receive_statistics_->SetMaxReorderingThreshold(200);
for (int i = 10; i < 0xffff; i += 150) {
packet1_.SetSequenceNumber(i);
receive_statistics_->OnRtpPacket(packet1_);
}
packet1_.SetSequenceNumber(1);
receive_statistics_->OnRtpPacket(packet1_);
receive_statistics_->GetStatistician(kSsrc1)->GetStatistics(&statistics,
true);
EXPECT_EQ(0x20001u, statistics.extended_highest_sequence_number);
}
class RtpTestCallback : public StreamDataCountersCallback {
public:
RtpTestCallback()
: StreamDataCountersCallback(), num_calls_(0), ssrc_(0), stats_() {}
~RtpTestCallback() override = default;
void DataCountersUpdated(const StreamDataCounters& counters,
uint32_t ssrc) override {
ssrc_ = ssrc;
stats_ = counters;
++num_calls_;
}
void MatchPacketCounter(const RtpPacketCounter& expected,
const RtpPacketCounter& actual) {
EXPECT_EQ(expected.payload_bytes, actual.payload_bytes);
EXPECT_EQ(expected.header_bytes, actual.header_bytes);
EXPECT_EQ(expected.padding_bytes, actual.padding_bytes);
EXPECT_EQ(expected.packets, actual.packets);
}
void Matches(uint32_t num_calls,
uint32_t ssrc,
const StreamDataCounters& expected) {
EXPECT_EQ(num_calls, num_calls_);
EXPECT_EQ(ssrc, ssrc_);
MatchPacketCounter(expected.transmitted, stats_.transmitted);
MatchPacketCounter(expected.retransmitted, stats_.retransmitted);
MatchPacketCounter(expected.fec, stats_.fec);
}
uint32_t num_calls_;
uint32_t ssrc_;
StreamDataCounters stats_;
};
TEST_F(ReceiveStatisticsTest, RtpCallbacks) {
RtpTestCallback callback;
receive_statistics_ = ReceiveStatistics::Create(&clock_, nullptr, &callback);
receive_statistics_->EnableRetransmitDetection(kSsrc1, true);
const size_t kHeaderLength = 20;
const size_t kPaddingLength = 9;
// One packet with payload size kPacketSize1.
RtpPacketReceived packet1 =
CreateRtpPacket(kSsrc1, kHeaderLength, kPacketSize1, 0);
receive_statistics_->OnRtpPacket(packet1);
StreamDataCounters expected;
expected.transmitted.payload_bytes = kPacketSize1;
expected.transmitted.header_bytes = kHeaderLength;
expected.transmitted.padding_bytes = 0;
expected.transmitted.packets = 1;
expected.retransmitted.payload_bytes = 0;
expected.retransmitted.header_bytes = 0;
expected.retransmitted.padding_bytes = 0;
expected.retransmitted.packets = 0;
expected.fec.packets = 0;
callback.Matches(1, kSsrc1, expected);
// Another packet of size kPacketSize1 with 9 bytes padding.
RtpPacketReceived packet2 =
CreateRtpPacket(kSsrc1, kHeaderLength, kPacketSize1, 9);
packet2.SetSequenceNumber(packet1.SequenceNumber() + 1);
clock_.AdvanceTimeMilliseconds(5);
receive_statistics_->OnRtpPacket(packet2);
expected.transmitted.payload_bytes = kPacketSize1 * 2;
expected.transmitted.header_bytes = kHeaderLength * 2;
expected.transmitted.padding_bytes = kPaddingLength;
expected.transmitted.packets = 2;
callback.Matches(2, kSsrc1, expected);
clock_.AdvanceTimeMilliseconds(5);
// Retransmit last packet.
receive_statistics_->OnRtpPacket(packet2);
expected.transmitted.payload_bytes = kPacketSize1 * 3;
expected.transmitted.header_bytes = kHeaderLength * 3;
expected.transmitted.padding_bytes = kPaddingLength * 2;
expected.transmitted.packets = 3;
expected.retransmitted.payload_bytes = kPacketSize1;
expected.retransmitted.header_bytes = kHeaderLength;
expected.retransmitted.padding_bytes = kPaddingLength;
expected.retransmitted.packets = 1;
callback.Matches(3, kSsrc1, expected);
// One FEC packet.
packet1.SetSequenceNumber(packet2.SequenceNumber() + 1);
clock_.AdvanceTimeMilliseconds(5);
receive_statistics_->OnRtpPacket(packet1);
receive_statistics_->FecPacketReceived(packet1);
expected.transmitted.payload_bytes = kPacketSize1 * 4;
expected.transmitted.header_bytes = kHeaderLength * 4;
expected.transmitted.packets = 4;
expected.fec.payload_bytes = kPacketSize1;
expected.fec.header_bytes = kHeaderLength;
expected.fec.packets = 1;
callback.Matches(5, kSsrc1, expected);
}
TEST_F(ReceiveStatisticsTest, LastPacketReceivedTimestamp) {
RtpTestCallback callback;
receive_statistics_ = ReceiveStatistics::Create(&clock_, nullptr, &callback);
clock_.AdvanceTimeMilliseconds(42);
receive_statistics_->OnRtpPacket(packet1_);
EXPECT_EQ(42, callback.stats_.last_packet_received_timestamp_ms);
clock_.AdvanceTimeMilliseconds(3);
receive_statistics_->OnRtpPacket(packet1_);
EXPECT_EQ(45, callback.stats_.last_packet_received_timestamp_ms);
}
TEST_F(ReceiveStatisticsTest, RtpCallbacksFecFirst) {
RtpTestCallback callback;
receive_statistics_ = ReceiveStatistics::Create(&clock_, nullptr, &callback);
const uint32_t kHeaderLength = 20;
RtpPacketReceived packet =
CreateRtpPacket(kSsrc1, kHeaderLength, kPacketSize1, 0);
// If first packet is FEC, ignore it.
receive_statistics_->FecPacketReceived(packet);
EXPECT_EQ(0u, callback.num_calls_);
receive_statistics_->OnRtpPacket(packet);
StreamDataCounters expected;
expected.transmitted.payload_bytes = kPacketSize1;
expected.transmitted.header_bytes = kHeaderLength;
expected.transmitted.padding_bytes = 0;
expected.transmitted.packets = 1;
expected.fec.packets = 0;
callback.Matches(1, kSsrc1, expected);
receive_statistics_->FecPacketReceived(packet);
expected.fec.payload_bytes = kPacketSize1;
expected.fec.header_bytes = kHeaderLength;
expected.fec.packets = 1;
callback.Matches(2, kSsrc1, expected);
}
} // namespace
} // namespace webrtc