blob: 5c3494fa7c73133a153bd3ef470fdfde9e61137f [file] [log] [blame]
/*
* Copyright (c) 2017 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 "audio/transport_feedback_packet_loss_tracker.h"
#include <limits>
#include <memory>
#include <numeric>
#include <vector>
#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 "test/gmock.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
constexpr int64_t kDefaultSendIntervalMs = 10;
constexpr int64_t kDefaultMaxWindowSizeMs = 500 * kDefaultSendIntervalMs;
class TransportFeedbackPacketLossTrackerTest
: public ::testing::TestWithParam<uint16_t> {
public:
TransportFeedbackPacketLossTrackerTest() = default;
virtual ~TransportFeedbackPacketLossTrackerTest() = default;
protected:
void SendPackets(TransportFeedbackPacketLossTracker* tracker,
const std::vector<uint16_t>& sequence_numbers,
int64_t send_time_interval_ms,
bool validate_all = true) {
RTC_CHECK_GE(send_time_interval_ms, 0);
for (uint16_t sequence_number : sequence_numbers) {
tracker->OnPacketAdded(sequence_number, time_ms_);
if (validate_all) {
tracker->Validate();
}
time_ms_ += send_time_interval_ms;
}
// We've either validated after each packet, or, for making sure the UT
// doesn't run too long, we might validate only at the end of the range.
if (!validate_all) {
tracker->Validate();
}
}
void SendPackets(TransportFeedbackPacketLossTracker* tracker,
uint16_t first_seq_num,
size_t num_of_packets,
int64_t send_time_interval_ms,
bool validate_all = true) {
RTC_CHECK_GE(send_time_interval_ms, 0);
std::vector<uint16_t> sequence_numbers(num_of_packets);
std::iota(sequence_numbers.begin(), sequence_numbers.end(), first_seq_num);
SendPackets(tracker, sequence_numbers, send_time_interval_ms, validate_all);
}
void AdvanceClock(int64_t time_delta_ms) {
RTC_CHECK_GT(time_delta_ms, 0);
time_ms_ += time_delta_ms;
}
void AddTransportFeedbackAndValidate(
TransportFeedbackPacketLossTracker* tracker,
uint16_t base_sequence_num,
const std::vector<bool>& reception_status_vec) {
// Any positive integer signals reception. kNotReceived signals loss.
// Other values are just illegal.
constexpr int64_t kArrivalTimeMs = 1234;
std::vector<PacketFeedback> packet_feedback_vector;
uint16_t seq_num = base_sequence_num;
for (bool received : reception_status_vec) {
packet_feedback_vector.emplace_back(PacketFeedback(
received ? kArrivalTimeMs : PacketFeedback::kNotReceived, seq_num));
++seq_num;
}
tracker->OnPacketFeedbackVector(packet_feedback_vector);
tracker->Validate();
}
// Checks that validty is as expected. If valid, checks also that
// value is as expected.
void ValidatePacketLossStatistics(
const TransportFeedbackPacketLossTracker& tracker,
absl::optional<float> expected_plr,
absl::optional<float> expected_rplr) {
// TODO(eladalon): Comparing the absl::optional<float> directly would have
// given concise code, but less readable error messages. If we modify
// the way absl::optional is printed, we can get rid of this.
absl::optional<float> plr = tracker.GetPacketLossRate();
EXPECT_EQ(static_cast<bool>(expected_plr), static_cast<bool>(plr));
if (expected_plr && plr) {
EXPECT_EQ(*expected_plr, *plr);
}
absl::optional<float> rplr = tracker.GetRecoverablePacketLossRate();
EXPECT_EQ(static_cast<bool>(expected_rplr), static_cast<bool>(rplr));
if (expected_rplr && rplr) {
EXPECT_EQ(*expected_rplr, *rplr);
}
}
uint16_t base_{GetParam()};
private:
int64_t time_ms_{0};
};
} // namespace
// Sanity check on an empty window.
TEST_P(TransportFeedbackPacketLossTrackerTest, EmptyWindow) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 5);
// PLR and RPLR reported as unknown before reception of first feedback.
ValidatePacketLossStatistics(tracker, absl::nullopt, absl::nullopt);
}
// A feedback received for an empty window has no effect.
TEST_P(TransportFeedbackPacketLossTrackerTest, EmptyWindowFeedback) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 3, 2);
// Feedback doesn't correspond to any packets - ignored.
AddTransportFeedbackAndValidate(&tracker, base_, {true, false, true});
ValidatePacketLossStatistics(tracker, absl::nullopt, absl::nullopt);
// After the packets are transmitted, acking them would have an effect.
SendPackets(&tracker, base_, 3, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_, {true, false, true});
ValidatePacketLossStatistics(tracker, 1.0f / 3.0f, 0.5f);
}
// Sanity check on partially filled window.
TEST_P(TransportFeedbackPacketLossTrackerTest, PartiallyFilledWindow) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 4);
// PLR unknown before minimum window size reached.
// RPLR unknown before minimum pairs reached.
// Expected window contents: [] -> [1001].
SendPackets(&tracker, base_, 3, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_, {true, false, false, true});
ValidatePacketLossStatistics(tracker, absl::nullopt, absl::nullopt);
}
// Sanity check on minimum filled window - PLR known, RPLR unknown.
TEST_P(TransportFeedbackPacketLossTrackerTest, PlrMinimumFilledWindow) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 5);
// PLR correctly calculated after minimum window size reached.
// RPLR not necessarily known at that time (not if min-pairs not reached).
// Expected window contents: [] -> [10011].
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, absl::nullopt);
}
// Sanity check on minimum filled window - PLR unknown, RPLR known.
TEST_P(TransportFeedbackPacketLossTrackerTest, RplrMinimumFilledWindow) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 6, 4);
// RPLR correctly calculated after minimum pairs reached.
// PLR not necessarily known at that time (not if min window not reached).
// Expected window contents: [] -> [10011].
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, absl::nullopt, 1.0f / 4.0f);
}
// If packets are sent close enough together that the clock reading for both
// is the same, that's handled properly.
TEST_P(TransportFeedbackPacketLossTrackerTest, SameSentTime) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 3, 2);
// Expected window contents: [] -> [101].
SendPackets(&tracker, base_, 3, 0); // Note: time interval = 0ms.
AddTransportFeedbackAndValidate(&tracker, base_, {true, false, true});
ValidatePacketLossStatistics(tracker, 1.0f / 3.0f, 0.5f);
}
// Additional reports update PLR and RPLR.
TEST_P(TransportFeedbackPacketLossTrackerTest, ExtendWindow) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 5);
SendPackets(&tracker, base_, 25, kDefaultSendIntervalMs);
// Expected window contents: [] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, absl::nullopt);
// Expected window contents: [10011] -> [1001110101].
AddTransportFeedbackAndValidate(&tracker, base_ + 5,
{true, false, true, false, true});
ValidatePacketLossStatistics(tracker, 4.0f / 10.0f, 3.0f / 9.0f);
// Expected window contents: [1001110101] -> [1001110101-GAP-10001].
AddTransportFeedbackAndValidate(&tracker, base_ + 20,
{true, false, false, false, true});
ValidatePacketLossStatistics(tracker, 7.0f / 15.0f, 4.0f / 13.0f);
}
// Correct calculation with different packet lengths.
TEST_P(TransportFeedbackPacketLossTrackerTest, DifferentSentIntervals) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 4);
int64_t frames[] = {20, 60, 120, 20, 60};
for (size_t i = 0; i < sizeof(frames) / sizeof(frames[0]); i++) {
SendPackets(&tracker, {static_cast<uint16_t>(base_ + i)}, frames[i]);
}
// Expected window contents: [] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
}
// The window retains information up to sent times that exceed the the max
// window size. The oldest packets get shifted out of window to make room
// for the newer ones.
TEST_P(TransportFeedbackPacketLossTrackerTest, MaxWindowSize) {
TransportFeedbackPacketLossTracker tracker(4 * kDefaultSendIntervalMs, 5, 1);
SendPackets(&tracker, base_, 6, kDefaultSendIntervalMs, true);
// Up to the maximum time-span retained (first + 4 * kDefaultSendIntervalMs).
// Expected window contents: [] -> [01001].
AddTransportFeedbackAndValidate(&tracker, base_,
{false, true, false, false, true});
ValidatePacketLossStatistics(tracker, 3.0f / 5.0f, 2.0f / 4.0f);
// After the maximum time-span, older entries are discarded to accommodate
// newer ones.
// Expected window contents: [01001] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_ + 5, {true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
}
// All packets received.
TEST_P(TransportFeedbackPacketLossTrackerTest, AllReceived) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 4);
// Expected window contents: [] -> [11111].
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_,
{true, true, true, true, true});
ValidatePacketLossStatistics(tracker, 0.0f, 0.0f);
}
// All packets lost.
TEST_P(TransportFeedbackPacketLossTrackerTest, AllLost) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 4);
// Note: The last packet in the feedback does not belong to the stream.
// It's only there because we're not allowed to end a feedback with a loss.
// Expected window contents: [] -> [00000].
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_,
{false, false, false, false, false, true});
ValidatePacketLossStatistics(tracker, 1.0f, 0.0f);
}
// Repeated reports are ignored.
TEST_P(TransportFeedbackPacketLossTrackerTest, ReportRepetition) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 4);
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
// Expected window contents: [] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
// Repeat entire previous feedback
// Expected window contents: [10011] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
}
// Report overlap.
TEST_P(TransportFeedbackPacketLossTrackerTest, ReportOverlap) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 1);
SendPackets(&tracker, base_, 15, kDefaultSendIntervalMs);
// Expected window contents: [] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
// Expected window contents: [10011] -> [1001101].
AddTransportFeedbackAndValidate(&tracker, base_ + 3,
{true, true, false, true});
ValidatePacketLossStatistics(tracker, 3.0f / 7.0f, 2.0f / 6.0f);
}
// Report conflict.
TEST_P(TransportFeedbackPacketLossTrackerTest, ReportConflict) {
TransportFeedbackPacketLossTracker tracker(kDefaultMaxWindowSizeMs, 5, 4);
SendPackets(&tracker, base_, 15, 10);
// Expected window contents: [] -> [01001].
AddTransportFeedbackAndValidate(&tracker, base_,
{false, true, false, false, true});
ValidatePacketLossStatistics(tracker, 3.0f / 5.0f, 2.0f / 4.0f);
// Expected window contents: [01001] -> [11101].
// While false->true will be applied, true -> false will be ignored.
AddTransportFeedbackAndValidate(&tracker, base_, {true, false, true});
ValidatePacketLossStatistics(tracker, 1.0f / 5.0f, 1.0f / 4.0f);
}
// Skipped packets treated as unknown (not lost).
TEST_P(TransportFeedbackPacketLossTrackerTest, SkippedPackets) {
TransportFeedbackPacketLossTracker tracker(200 * kDefaultSendIntervalMs, 5,
1);
SendPackets(&tracker, base_, 200, kDefaultSendIntervalMs);
// Expected window contents: [] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
// Expected window contents: [10011] -> [10011-GAP-101].
AddTransportFeedbackAndValidate(&tracker, base_ + 100, {true, false, true});
ValidatePacketLossStatistics(tracker, 3.0f / 8.0f, 2.0f / 6.0f);
}
// Moving a window, if it excludes some old acked messages, can leave
// in-window unacked messages intact, and ready to be used later.
TEST_P(TransportFeedbackPacketLossTrackerTest, MovedWindowRetainsRelevantInfo) {
constexpr int64_t max_window_size_ms = 100;
TransportFeedbackPacketLossTracker tracker(max_window_size_ms, 5, 1);
// Note: All messages in this test are sent 1ms apart from each other.
// Therefore, the delta in sequence numbers equals the timestamps delta.
SendPackets(&tracker, base_, 4 * max_window_size_ms, 1);
// Expected window contents: [] -> [10101].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, true, false, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 2.0f / 4.0f);
// Expected window contents: [10101] -> [100011].
const int64_t moved_oldest_acked = base_ + 2 * max_window_size_ms;
const std::vector<bool> feedback = {true, false, false, false, true, true};
AddTransportFeedbackAndValidate(&tracker, moved_oldest_acked, feedback);
ValidatePacketLossStatistics(tracker, 3.0f / 6.0f, 1.0f / 5.0f);
// Having acked |feedback.size()| starting with |moved_oldest_acked|, the
// newest of the acked ones is now:
const int64_t moved_newest_acked = moved_oldest_acked + feedback.size() - 1;
// Messages that *are* more than the span-limit away from the newest
// acked message *are* too old. Acking them would have no effect.
AddTransportFeedbackAndValidate(
&tracker, moved_newest_acked - max_window_size_ms - 1, {true});
ValidatePacketLossStatistics(tracker, 3.0f / 6.0f, 1.0f / 5.0f);
// Messages that are *not* more than the span-limit away from the newest
// acked message are *not* too old. Acking them would have an effect.
AddTransportFeedbackAndValidate(
&tracker, moved_newest_acked - max_window_size_ms, {true});
ValidatePacketLossStatistics(tracker, 3.0f / 7.0f, 1.0f / 5.0f);
}
// Inserting feedback into the middle of a window works correctly - can
// complete two pairs.
TEST_P(TransportFeedbackPacketLossTrackerTest, InsertionCompletesTwoPairs) {
TransportFeedbackPacketLossTracker tracker(150 * kDefaultSendIntervalMs, 5,
1);
SendPackets(&tracker, base_, 15, kDefaultSendIntervalMs);
// Expected window contents: [] -> [10111].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, true, true, true});
ValidatePacketLossStatistics(tracker, 1.0f / 5.0f, 1.0f / 4.0f);
// Expected window contents: [10111] -> [10111-GAP-10101].
AddTransportFeedbackAndValidate(&tracker, base_ + 7,
{true, false, true, false, true});
ValidatePacketLossStatistics(tracker, 3.0f / 10.0f, 3.0f / 8.0f);
// Insert in between, closing the gap completely.
// Expected window contents: [10111-GAP-10101] -> [101110110101].
AddTransportFeedbackAndValidate(&tracker, base_ + 5, {false, true});
ValidatePacketLossStatistics(tracker, 4.0f / 12.0f, 4.0f / 11.0f);
}
// Sequence number gaps are not gaps in reception. However, gaps in reception
// are still possible, if a packet which WAS sent on the stream is not acked.
TEST_P(TransportFeedbackPacketLossTrackerTest, SanityGapsInSequenceNumbers) {
TransportFeedbackPacketLossTracker tracker(50 * kDefaultSendIntervalMs, 5, 1);
SendPackets(
&tracker,
{static_cast<uint16_t>(base_), static_cast<uint16_t>(base_ + 2),
static_cast<uint16_t>(base_ + 4), static_cast<uint16_t>(base_ + 6),
static_cast<uint16_t>(base_ + 8)},
kDefaultSendIntervalMs);
// Gaps in sequence numbers not considered as gaps in window, because only
// those sequence numbers which were associated with the stream count.
// Expected window contents: [] -> [11011].
AddTransportFeedbackAndValidate(
// Note: Left packets belong to this stream, right ones ignored.
&tracker, base_,
{true, false, true, false, false, false, true, false, true, true});
ValidatePacketLossStatistics(tracker, 1.0f / 5.0f, 1.0f / 4.0f);
// Create gap by sending [base + 10] but not acking it.
// Note: Acks for [base + 11] and [base + 13] ignored (other stream).
// Expected window contents: [11011] -> [11011-GAP-01].
SendPackets(
&tracker,
{static_cast<uint16_t>(base_ + 10), static_cast<uint16_t>(base_ + 12),
static_cast<uint16_t>(base_ + 14)},
kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_ + 11,
{false, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 7.0f, 2.0f / 5.0f);
}
// The window cannot span more than 0x8000 in sequence numbers, regardless
// of time stamps and ack/unacked status.
TEST_P(TransportFeedbackPacketLossTrackerTest, MaxUnackedPackets) {
TransportFeedbackPacketLossTracker tracker(0x10000, 4, 1);
SendPackets(&tracker, base_, 0x2000, 1, false);
// Expected window contents: [] -> [10011].
AddTransportFeedbackAndValidate(&tracker, base_,
{true, false, false, true, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
// Sending more unacked packets, up to 0x7fff from the base, does not
// move the window or discard any information.
SendPackets(&tracker, static_cast<uint16_t>(base_ + 0x8000 - 0x2000), 0x2000,
1, false);
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 1.0f / 4.0f);
// Sending more unacked packets, up to 0x7fff from the base, does not
// move the window or discard any information.
// Expected window contents: [10011] -> [0011].
SendPackets(&tracker, static_cast<uint16_t>(base_ + 0x8000), 1, 1);
ValidatePacketLossStatistics(tracker, 2.0f / 4.0f, 1.0f / 3.0f);
}
// The window holds acked packets up until the difference in timestamps between
// the oldest and newest reaches the configured maximum. Once this maximum
// is exceeded, old packets are shifted out of window until the maximum is
// once again observed.
TEST_P(TransportFeedbackPacketLossTrackerTest, TimeDifferenceMaximumObserved) {
constexpr int64_t max_window_size_ms = 500;
TransportFeedbackPacketLossTracker tracker(max_window_size_ms, 3, 1);
// Note: All messages in this test are sent 1ms apart from each other.
// Therefore, the delta in sequence numbers equals the timestamps delta.
// Baseline - window has acked messages.
// Expected window contents: [] -> [01101].
const std::vector<bool> feedback = {false, true, true, false, true};
SendPackets(&tracker, base_, feedback.size(), 1);
AddTransportFeedbackAndValidate(&tracker, base_, feedback);
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 2.0f / 4.0f);
// Test - window base not moved.
// Expected window contents: [01101] -> [011011].
AdvanceClock(max_window_size_ms - feedback.size());
SendPackets(&tracker, static_cast<uint16_t>(base_ + feedback.size()), 1, 1);
AddTransportFeedbackAndValidate(
&tracker, static_cast<uint16_t>(base_ + feedback.size()), {true});
ValidatePacketLossStatistics(tracker, 2.0f / 6.0f, 2.0f / 5.0f);
// Another packet, sent 1ms later, would already be too late. The window will
// be moved, but only after the ACK is received.
const uint16_t new_packet_seq_num =
static_cast<uint16_t>(base_ + feedback.size() + 1);
SendPackets(&tracker, {new_packet_seq_num}, 1);
ValidatePacketLossStatistics(tracker, 2.0f / 6.0f, 2.0f / 5.0f);
// Expected window contents: [011011] -> [110111].
AddTransportFeedbackAndValidate(&tracker, new_packet_seq_num, {true});
ValidatePacketLossStatistics(tracker, 1.0f / 6.0f, 1.0f / 5.0f);
}
TEST_P(TransportFeedbackPacketLossTrackerTest, RepeatedSeqNumResetsWindow) {
TransportFeedbackPacketLossTracker tracker(50 * kDefaultSendIntervalMs, 2, 1);
// Baseline - window has acked messages.
// Expected window contents: [] -> [01101].
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_,
{false, true, true, false, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 2.0f / 4.0f);
// A reset occurs.
SendPackets(&tracker, {static_cast<uint16_t>(base_ + 2)},
kDefaultSendIntervalMs);
ValidatePacketLossStatistics(tracker, absl::nullopt, absl::nullopt);
}
// The window is reset by the sending of a packet which is 0x8000 or more
// away from the newest packet acked/unacked packet.
TEST_P(TransportFeedbackPacketLossTrackerTest,
SendAfterLongSuspensionResetsWindow) {
TransportFeedbackPacketLossTracker tracker(50 * kDefaultSendIntervalMs, 2, 1);
// Baseline - window has acked messages.
// Expected window contents: [] -> [01101].
SendPackets(&tracker, base_, 5, kDefaultSendIntervalMs);
AddTransportFeedbackAndValidate(&tracker, base_,
{false, true, true, false, true});
ValidatePacketLossStatistics(tracker, 2.0f / 5.0f, 2.0f / 4.0f);
// A reset occurs.
SendPackets(&tracker, {static_cast<uint16_t>(base_ + 5 + 0x8000)},
kDefaultSendIntervalMs);
ValidatePacketLossStatistics(tracker, absl::nullopt, absl::nullopt);
}
#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
TEST(TransportFeedbackPacketLossTrackerTest, InvalidConfigMaxWindowSize) {
EXPECT_DEATH(TransportFeedbackPacketLossTracker tracker(0, 20, 10), "");
}
TEST(TransportFeedbackPacketLossTrackerTest, InvalidConfigPlrMinAcked) {
EXPECT_DEATH(TransportFeedbackPacketLossTracker tracker(5000, 0, 10), "");
}
TEST(TransportFeedbackPacketLossTrackerTest, InvalidConfigRplrMinPairs) {
EXPECT_DEATH(TransportFeedbackPacketLossTracker tracker(5000, 20, 0), "");
}
TEST(TransportFeedbackPacketLossTrackerTest, TimeCantFlowBackwards) {
TransportFeedbackPacketLossTracker tracker(5000, 2, 1);
tracker.OnPacketAdded(100, 0);
tracker.OnPacketAdded(101, 2);
EXPECT_DEATH(tracker.OnPacketAdded(102, 1), "");
}
#endif
// All tests are run multiple times with various baseline sequence number,
// to weed out potential bugs with wrap-around handling.
constexpr uint16_t kBases[] = {0x0000, 0x3456, 0xc032, 0xfffe};
INSTANTIATE_TEST_SUITE_P(_,
TransportFeedbackPacketLossTrackerTest,
::testing::ValuesIn(kBases));
} // namespace webrtc