blob: df7619afad324c0b847e69d231fe9dff45a124fa [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 <cstddef>
#include <cstdint>
#include "api/units/time_delta.h"
#include "modules/pacing/packet_router.h"
#include "modules/rtp_rtcp/mocks/mock_rtp_rtcp.h"
#include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h"
#include "rtc_base/checks.h"
#include "rtc_base/fake_clock.h"
#include "test/gmock.h"
#include "test/gtest.h"
namespace webrtc {
// TODO(eladalon): Restructure and/or replace the existing monolithic tests
// (only some of the test are monolithic) according to the new
// guidelines - small tests for one thing at a time.
// (I'm not removing any tests during CL, so as to demonstrate no regressions.)
namespace {
using ::testing::_;
using ::testing::AnyNumber;
using ::testing::AtLeast;
using ::testing::Field;
using ::testing::Gt;
using ::testing::Le;
using ::testing::NiceMock;
using ::testing::Return;
using ::testing::ReturnPointee;
using ::testing::SaveArg;
constexpr int kProbeMinProbes = 5;
constexpr int kProbeMinBytes = 1000;
} // namespace
TEST(PacketRouterTest, Sanity_NoModuleRegistered_TimeToSendPacket) {
PacketRouter packet_router;
constexpr uint16_t ssrc = 1234;
constexpr uint16_t sequence_number = 17;
constexpr uint64_t timestamp = 7890;
constexpr bool retransmission = false;
const PacedPacketInfo paced_info(1, kProbeMinProbes, kProbeMinBytes);
EXPECT_EQ(RtpPacketSendResult::kPacketNotFound,
packet_router.TimeToSendPacket(ssrc, sequence_number, timestamp,
retransmission, paced_info));
}
TEST(PacketRouterTest, Sanity_NoModuleRegistered_TimeToSendPadding) {
PacketRouter packet_router;
constexpr size_t bytes = 300;
const PacedPacketInfo paced_info(1, kProbeMinProbes, kProbeMinBytes);
EXPECT_EQ(packet_router.TimeToSendPadding(bytes, paced_info), 0u);
}
TEST(PacketRouterTest, Sanity_NoModuleRegistered_OnReceiveBitrateChanged) {
PacketRouter packet_router;
const std::vector<uint32_t> ssrcs = {1, 2, 3};
constexpr uint32_t bitrate_bps = 10000;
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_bps);
}
TEST(PacketRouterTest, Sanity_NoModuleRegistered_SendRemb) {
PacketRouter packet_router;
const std::vector<uint32_t> ssrcs = {1, 2, 3};
constexpr uint32_t bitrate_bps = 10000;
EXPECT_FALSE(packet_router.SendRemb(bitrate_bps, ssrcs));
}
TEST(PacketRouterTest, Sanity_NoModuleRegistered_SendTransportFeedback) {
PacketRouter packet_router;
rtcp::TransportFeedback feedback;
EXPECT_FALSE(packet_router.SendTransportFeedback(&feedback));
}
TEST(PacketRouterTest, TimeToSendPacket) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> rtp_1;
NiceMock<MockRtpRtcp> rtp_2;
packet_router.AddSendRtpModule(&rtp_1, false);
packet_router.AddSendRtpModule(&rtp_2, false);
const uint16_t kSsrc1 = 1234;
uint16_t sequence_number = 17;
uint64_t timestamp = 7890;
bool retransmission = false;
// Send on the first module by letting rtp_1 be sending with correct ssrc.
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1, SSRC()).Times(1).WillOnce(Return(kSsrc1));
EXPECT_CALL(rtp_1, TimeToSendPacket(
kSsrc1, sequence_number, timestamp, retransmission,
Field(&PacedPacketInfo::probe_cluster_id, 1)))
.Times(1)
.WillOnce(Return(RtpPacketSendResult::kSuccess));
EXPECT_CALL(rtp_2, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_EQ(RtpPacketSendResult::kSuccess,
packet_router.TimeToSendPacket(
kSsrc1, sequence_number, timestamp, retransmission,
PacedPacketInfo(1, kProbeMinProbes, kProbeMinBytes)));
// Send on the second module by letting rtp_2 be sending, but not rtp_1.
++sequence_number;
timestamp += 30;
retransmission = true;
const uint16_t kSsrc2 = 4567;
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, SSRC()).Times(1).WillOnce(Return(kSsrc2));
EXPECT_CALL(rtp_1, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_CALL(rtp_2, TimeToSendPacket(
kSsrc2, sequence_number, timestamp, retransmission,
Field(&PacedPacketInfo::probe_cluster_id, 2)))
.Times(1)
.WillOnce(Return(RtpPacketSendResult::kSuccess));
EXPECT_EQ(RtpPacketSendResult::kSuccess,
packet_router.TimeToSendPacket(
kSsrc2, sequence_number, timestamp, retransmission,
PacedPacketInfo(2, kProbeMinProbes, kProbeMinBytes)));
// No module is sending, hence no packet should be sent.
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_1, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_2, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_EQ(RtpPacketSendResult::kPacketNotFound,
packet_router.TimeToSendPacket(
kSsrc1, sequence_number, timestamp, retransmission,
PacedPacketInfo(1, kProbeMinProbes, kProbeMinBytes)));
// Add a packet with incorrect ssrc and test it's dropped in the router.
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1, SSRC()).Times(1).WillOnce(Return(kSsrc1));
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, SSRC()).Times(1).WillOnce(Return(kSsrc2));
EXPECT_CALL(rtp_1, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_CALL(rtp_2, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_EQ(RtpPacketSendResult::kPacketNotFound,
packet_router.TimeToSendPacket(
kSsrc1 + kSsrc2, sequence_number, timestamp, retransmission,
PacedPacketInfo(1, kProbeMinProbes, kProbeMinBytes)));
packet_router.RemoveSendRtpModule(&rtp_1);
// rtp_1 has been removed, try sending a packet on that ssrc and make sure
// it is dropped as expected by not expecting any calls to rtp_1.
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, SSRC()).Times(1).WillOnce(Return(kSsrc2));
EXPECT_CALL(rtp_2, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_EQ(RtpPacketSendResult::kPacketNotFound,
packet_router.TimeToSendPacket(
kSsrc1, sequence_number, timestamp, retransmission,
PacedPacketInfo(PacedPacketInfo::kNotAProbe, kProbeMinBytes,
kProbeMinBytes)));
packet_router.RemoveSendRtpModule(&rtp_2);
}
TEST(PacketRouterTest, TimeToSendPadding) {
PacketRouter packet_router;
const uint16_t kSsrc1 = 1234;
const uint16_t kSsrc2 = 4567;
NiceMock<MockRtpRtcp> rtp_1;
EXPECT_CALL(rtp_1, RtxSendStatus()).WillOnce(Return(kRtxOff));
EXPECT_CALL(rtp_1, SSRC()).WillRepeatedly(Return(kSsrc1));
NiceMock<MockRtpRtcp> rtp_2;
// rtp_2 will be prioritized for padding.
EXPECT_CALL(rtp_2, RtxSendStatus()).WillOnce(Return(kRtxRedundantPayloads));
EXPECT_CALL(rtp_2, SSRC()).WillRepeatedly(Return(kSsrc2));
packet_router.AddSendRtpModule(&rtp_1, false);
packet_router.AddSendRtpModule(&rtp_2, false);
// Default configuration, sending padding on all modules sending media,
// ordered by priority (based on rtx mode).
const size_t requested_padding_bytes = 1000;
const size_t sent_padding_bytes = 890;
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, HasBweExtensions()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2,
TimeToSendPadding(requested_padding_bytes,
Field(&PacedPacketInfo::probe_cluster_id, 111)))
.Times(1)
.WillOnce(Return(sent_padding_bytes));
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1, HasBweExtensions()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1,
TimeToSendPadding(requested_padding_bytes - sent_padding_bytes,
Field(&PacedPacketInfo::probe_cluster_id, 111)))
.Times(1)
.WillOnce(Return(requested_padding_bytes - sent_padding_bytes));
EXPECT_EQ(requested_padding_bytes,
packet_router.TimeToSendPadding(
requested_padding_bytes,
PacedPacketInfo(111, kProbeMinBytes, kProbeMinBytes)));
// Let only the lower priority module be sending and verify the padding
// request is routed there.
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_2, TimeToSendPadding(requested_padding_bytes, _)).Times(0);
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1, HasBweExtensions()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1, TimeToSendPadding(_, _))
.Times(1)
.WillOnce(Return(sent_padding_bytes));
EXPECT_EQ(sent_padding_bytes,
packet_router.TimeToSendPadding(
requested_padding_bytes,
PacedPacketInfo(PacedPacketInfo::kNotAProbe, kProbeMinBytes,
kProbeMinBytes)));
// No sending module at all.
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_1, TimeToSendPadding(requested_padding_bytes, _)).Times(0);
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_2, TimeToSendPadding(_, _)).Times(0);
EXPECT_EQ(0u, packet_router.TimeToSendPadding(
requested_padding_bytes,
PacedPacketInfo(PacedPacketInfo::kNotAProbe, kProbeMinBytes,
kProbeMinBytes)));
// Only one module has BWE extensions.
EXPECT_CALL(rtp_1, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_1, HasBweExtensions()).Times(1).WillOnce(Return(false));
EXPECT_CALL(rtp_1, TimeToSendPadding(requested_padding_bytes, _)).Times(0);
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, HasBweExtensions()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, TimeToSendPadding(requested_padding_bytes, _))
.Times(1)
.WillOnce(Return(sent_padding_bytes));
EXPECT_EQ(sent_padding_bytes,
packet_router.TimeToSendPadding(
requested_padding_bytes,
PacedPacketInfo(PacedPacketInfo::kNotAProbe, kProbeMinBytes,
kProbeMinBytes)));
packet_router.RemoveSendRtpModule(&rtp_1);
// rtp_1 has been removed, try sending padding and make sure rtp_1 isn't asked
// to send by not expecting any calls. Instead verify rtp_2 is called.
EXPECT_CALL(rtp_2, SendingMedia()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, HasBweExtensions()).Times(1).WillOnce(Return(true));
EXPECT_CALL(rtp_2, TimeToSendPadding(requested_padding_bytes, _)).Times(1);
EXPECT_EQ(0u, packet_router.TimeToSendPadding(
requested_padding_bytes,
PacedPacketInfo(PacedPacketInfo::kNotAProbe, kProbeMinBytes,
kProbeMinBytes)));
packet_router.RemoveSendRtpModule(&rtp_2);
}
TEST(PacketRouterTest, PadsOnLastActiveMediaStream) {
PacketRouter packet_router;
const uint16_t kSsrc1 = 1234;
const uint16_t kSsrc2 = 4567;
const uint16_t kSsrc3 = 8901;
// First two rtp modules send media and have rtx.
NiceMock<MockRtpRtcp> rtp_1;
EXPECT_CALL(rtp_1, RtxSendStatus())
.WillRepeatedly(Return(kRtxRedundantPayloads));
EXPECT_CALL(rtp_1, SSRC()).WillRepeatedly(Return(kSsrc1));
EXPECT_CALL(rtp_1, SendingMedia()).WillRepeatedly(Return(true));
EXPECT_CALL(rtp_1, HasBweExtensions()).WillRepeatedly(Return(true));
NiceMock<MockRtpRtcp> rtp_2;
EXPECT_CALL(rtp_2, RtxSendStatus())
.WillRepeatedly(Return(kRtxRedundantPayloads));
EXPECT_CALL(rtp_2, SSRC()).WillRepeatedly(Return(kSsrc2));
EXPECT_CALL(rtp_2, SendingMedia()).WillRepeatedly(Return(true));
EXPECT_CALL(rtp_2, HasBweExtensions()).WillRepeatedly(Return(true));
// Third module is sending media, but does not support rtx.
NiceMock<MockRtpRtcp> rtp_3;
EXPECT_CALL(rtp_3, RtxSendStatus()).WillRepeatedly(Return(kRtxOff));
EXPECT_CALL(rtp_3, SSRC()).WillRepeatedly(Return(kSsrc3));
EXPECT_CALL(rtp_3, SendingMedia()).WillRepeatedly(Return(true));
EXPECT_CALL(rtp_3, HasBweExtensions()).WillRepeatedly(Return(true));
packet_router.AddSendRtpModule(&rtp_1, false);
packet_router.AddSendRtpModule(&rtp_2, false);
packet_router.AddSendRtpModule(&rtp_3, false);
const size_t kPaddingBytes = 100;
// Initially, padding will be sent on last added rtp module that sends media
// and supports rtx.
EXPECT_CALL(rtp_2, TimeToSendPadding(kPaddingBytes, _))
.Times(1)
.WillOnce(Return(kPaddingBytes));
packet_router.TimeToSendPadding(kPaddingBytes, PacedPacketInfo());
// Send media on first module. Padding should be sent on that module.
EXPECT_CALL(rtp_1, TimeToSendPacket(kSsrc1, _, _, _, _));
packet_router.TimeToSendPacket(kSsrc1, 0, 0, false, PacedPacketInfo());
EXPECT_CALL(rtp_1, TimeToSendPadding(kPaddingBytes, _))
.Times(1)
.WillOnce(Return(kPaddingBytes));
packet_router.TimeToSendPadding(kPaddingBytes, PacedPacketInfo());
// Send media on second module. Padding should be sent there.
EXPECT_CALL(rtp_2, TimeToSendPacket(kSsrc2, _, _, _, _));
packet_router.TimeToSendPacket(kSsrc2, 0, 0, false, PacedPacketInfo());
EXPECT_CALL(rtp_2, TimeToSendPadding(kPaddingBytes, _))
.Times(1)
.WillOnce(Return(kPaddingBytes));
packet_router.TimeToSendPadding(kPaddingBytes, PacedPacketInfo());
// Remove second module, padding should now fall back to first module.
packet_router.RemoveSendRtpModule(&rtp_2);
EXPECT_CALL(rtp_1, TimeToSendPadding(kPaddingBytes, _))
.Times(1)
.WillOnce(Return(kPaddingBytes));
packet_router.TimeToSendPadding(kPaddingBytes, PacedPacketInfo());
// Remove first module too, leaving only the one without rtx.
packet_router.RemoveSendRtpModule(&rtp_1);
EXPECT_CALL(rtp_3, TimeToSendPadding(kPaddingBytes, _))
.Times(1)
.WillOnce(Return(kPaddingBytes));
packet_router.TimeToSendPadding(kPaddingBytes, PacedPacketInfo());
packet_router.RemoveSendRtpModule(&rtp_3);
}
TEST(PacketRouterTest, SenderOnlyFunctionsRespectSendingMedia) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> rtp;
packet_router.AddSendRtpModule(&rtp, false);
static const uint16_t kSsrc = 1234;
EXPECT_CALL(rtp, SSRC()).WillRepeatedly(Return(kSsrc));
EXPECT_CALL(rtp, SendingMedia()).WillRepeatedly(Return(false));
// Verify that TimeToSendPacket does not end up in a receiver.
EXPECT_CALL(rtp, TimeToSendPacket(_, _, _, _, _)).Times(0);
EXPECT_EQ(RtpPacketSendResult::kPacketNotFound,
packet_router.TimeToSendPacket(
kSsrc, 1, 1, false,
PacedPacketInfo(PacedPacketInfo::kNotAProbe, kProbeMinBytes,
kProbeMinBytes)));
// Verify that TimeToSendPadding does not end up in a receiver.
EXPECT_CALL(rtp, TimeToSendPadding(_, _)).Times(0);
EXPECT_EQ(0u, packet_router.TimeToSendPadding(
200, PacedPacketInfo(PacedPacketInfo::kNotAProbe,
kProbeMinBytes, kProbeMinBytes)));
packet_router.RemoveSendRtpModule(&rtp);
}
TEST(PacketRouterTest, AllocateSequenceNumbers) {
PacketRouter packet_router;
const uint16_t kStartSeq = 0xFFF0;
const size_t kNumPackets = 32;
packet_router.SetTransportWideSequenceNumber(kStartSeq - 1);
for (size_t i = 0; i < kNumPackets; ++i) {
uint16_t seq = packet_router.AllocateSequenceNumber();
uint32_t expected_unwrapped_seq = static_cast<uint32_t>(kStartSeq) + i;
EXPECT_EQ(static_cast<uint16_t>(expected_unwrapped_seq & 0xFFFF), seq);
}
}
TEST(PacketRouterTest, SendTransportFeedback) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> rtp_1;
NiceMock<MockRtpRtcp> rtp_2;
packet_router.AddSendRtpModule(&rtp_1, false);
packet_router.AddReceiveRtpModule(&rtp_2, false);
rtcp::TransportFeedback feedback;
EXPECT_CALL(rtp_1, SendFeedbackPacket(_)).Times(1).WillOnce(Return(true));
packet_router.SendTransportFeedback(&feedback);
packet_router.RemoveSendRtpModule(&rtp_1);
EXPECT_CALL(rtp_2, SendFeedbackPacket(_)).Times(1).WillOnce(Return(true));
packet_router.SendTransportFeedback(&feedback);
packet_router.RemoveReceiveRtpModule(&rtp_2);
}
#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
TEST(PacketRouterTest, DoubleRegistrationOfSendModuleDisallowed) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
constexpr bool remb_candidate = false; // Value irrelevant.
packet_router.AddSendRtpModule(&module, remb_candidate);
EXPECT_DEATH(packet_router.AddSendRtpModule(&module, remb_candidate), "");
// Test tear-down
packet_router.RemoveSendRtpModule(&module);
}
TEST(PacketRouterTest, DoubleRegistrationOfReceiveModuleDisallowed) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
constexpr bool remb_candidate = false; // Value irrelevant.
packet_router.AddReceiveRtpModule(&module, remb_candidate);
EXPECT_DEATH(packet_router.AddReceiveRtpModule(&module, remb_candidate), "");
// Test tear-down
packet_router.RemoveReceiveRtpModule(&module);
}
TEST(PacketRouterTest, RemovalOfNeverAddedSendModuleDisallowed) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
EXPECT_DEATH(packet_router.RemoveSendRtpModule(&module), "");
}
TEST(PacketRouterTest, RemovalOfNeverAddedReceiveModuleDisallowed) {
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
EXPECT_DEATH(packet_router.RemoveReceiveRtpModule(&module), "");
}
#endif // RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)
TEST(PacketRouterRembTest, LowerEstimateToSendRemb) {
rtc::ScopedFakeClock clock;
NiceMock<MockRtpRtcp> rtp;
PacketRouter packet_router;
packet_router.AddSendRtpModule(&rtp, true);
uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Call OnReceiveBitrateChanged twice to get a first estimate.
clock.AdvanceTime(TimeDelta::ms(1000));
EXPECT_CALL(rtp, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Lower the estimate with more than 3% to trigger a call to SetRemb right
// away.
bitrate_estimate = bitrate_estimate - 100;
EXPECT_CALL(rtp, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
packet_router.RemoveSendRtpModule(&rtp);
}
TEST(PacketRouterRembTest, VerifyIncreasingAndDecreasing) {
rtc::ScopedFakeClock clock;
NiceMock<MockRtpRtcp> rtp;
PacketRouter packet_router;
packet_router.AddSendRtpModule(&rtp, true);
uint32_t bitrate_estimate[] = {456, 789};
std::vector<uint32_t> ssrcs = {1234, 5678};
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate[0]);
// Call OnReceiveBitrateChanged twice to get a first estimate.
EXPECT_CALL(rtp, SetRemb(bitrate_estimate[0], ssrcs)).Times(1);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate[0]);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate[1] + 100);
// Lower the estimate to trigger a callback.
EXPECT_CALL(rtp, SetRemb(bitrate_estimate[1], ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate[1]);
packet_router.RemoveSendRtpModule(&rtp);
}
TEST(PacketRouterRembTest, NoRembForIncreasedBitrate) {
rtc::ScopedFakeClock clock;
NiceMock<MockRtpRtcp> rtp;
PacketRouter packet_router;
packet_router.AddSendRtpModule(&rtp, true);
uint32_t bitrate_estimate = 456;
std::vector<uint32_t> ssrcs = {1234, 5678};
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Call OnReceiveBitrateChanged twice to get a first estimate.
EXPECT_CALL(rtp, SetRemb(bitrate_estimate, ssrcs)).Times(1);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Increased estimate shouldn't trigger a callback right away.
EXPECT_CALL(rtp, SetRemb(_, _)).Times(0);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate + 1);
// Decreasing the estimate less than 3% shouldn't trigger a new callback.
EXPECT_CALL(rtp, SetRemb(_, _)).Times(0);
int lower_estimate = bitrate_estimate * 98 / 100;
packet_router.OnReceiveBitrateChanged(ssrcs, lower_estimate);
packet_router.RemoveSendRtpModule(&rtp);
}
TEST(PacketRouterRembTest, ChangeSendRtpModule) {
rtc::ScopedFakeClock clock;
NiceMock<MockRtpRtcp> rtp_send;
NiceMock<MockRtpRtcp> rtp_recv;
PacketRouter packet_router;
packet_router.AddSendRtpModule(&rtp_send, true);
packet_router.AddReceiveRtpModule(&rtp_recv, true);
uint32_t bitrate_estimate = 456;
std::vector<uint32_t> ssrcs = {1234, 5678};
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Call OnReceiveBitrateChanged twice to get a first estimate.
clock.AdvanceTime(TimeDelta::ms(1000));
EXPECT_CALL(rtp_send, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Decrease estimate to trigger a REMB.
bitrate_estimate = bitrate_estimate - 100;
EXPECT_CALL(rtp_send, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Remove the sending module -> should get remb on the second module.
packet_router.RemoveSendRtpModule(&rtp_send);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
bitrate_estimate = bitrate_estimate - 100;
EXPECT_CALL(rtp_recv, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
packet_router.RemoveReceiveRtpModule(&rtp_recv);
}
TEST(PacketRouterRembTest, OnlyOneRembForRepeatedOnReceiveBitrateChanged) {
rtc::ScopedFakeClock clock;
NiceMock<MockRtpRtcp> rtp;
PacketRouter packet_router;
packet_router.AddSendRtpModule(&rtp, true);
uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Call OnReceiveBitrateChanged twice to get a first estimate.
clock.AdvanceTime(TimeDelta::ms(1000));
EXPECT_CALL(rtp, SetRemb(_, _)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Lower the estimate, should trigger a call to SetRemb right away.
bitrate_estimate = bitrate_estimate - 100;
EXPECT_CALL(rtp, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Call OnReceiveBitrateChanged again, this should not trigger a new callback.
EXPECT_CALL(rtp, SetRemb(_, _)).Times(0);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
packet_router.RemoveSendRtpModule(&rtp);
}
TEST(PacketRouterRembTest, SetMaxDesiredReceiveBitrateLimitsSetRemb) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
clock.AdvanceTime(TimeDelta::ms(1000));
NiceMock<MockRtpRtcp> remb_sender;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&remb_sender, remb_candidate);
const int64_t cap_bitrate = 100000;
EXPECT_CALL(remb_sender, SetRemb(Le(cap_bitrate), _)).Times(AtLeast(1));
EXPECT_CALL(remb_sender, SetRemb(Gt(cap_bitrate), _)).Times(0);
const std::vector<uint32_t> ssrcs = {1234};
packet_router.SetMaxDesiredReceiveBitrate(cap_bitrate);
packet_router.OnReceiveBitrateChanged(ssrcs, cap_bitrate + 5000);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, cap_bitrate - 5000);
// Test tear-down.
packet_router.RemoveSendRtpModule(&remb_sender);
}
TEST(PacketRouterRembTest,
SetMaxDesiredReceiveBitrateTriggersRembWhenMoreRestrictive) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
clock.AdvanceTime(TimeDelta::ms(1000));
NiceMock<MockRtpRtcp> remb_sender;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&remb_sender, remb_candidate);
const int64_t measured_bitrate_bps = 150000;
const int64_t cap_bitrate_bps = measured_bitrate_bps - 5000;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(remb_sender, SetRemb(measured_bitrate_bps, _));
packet_router.OnReceiveBitrateChanged(ssrcs, measured_bitrate_bps);
EXPECT_CALL(remb_sender, SetRemb(cap_bitrate_bps, _));
packet_router.SetMaxDesiredReceiveBitrate(cap_bitrate_bps);
// Test tear-down.
packet_router.RemoveSendRtpModule(&remb_sender);
}
TEST(PacketRouterRembTest,
SetMaxDesiredReceiveBitrateDoesNotTriggerRembWhenAsRestrictive) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
clock.AdvanceTime(TimeDelta::ms(1000));
NiceMock<MockRtpRtcp> remb_sender;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&remb_sender, remb_candidate);
const uint32_t measured_bitrate_bps = 150000;
const uint32_t cap_bitrate_bps = measured_bitrate_bps;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(remb_sender, SetRemb(measured_bitrate_bps, _));
packet_router.OnReceiveBitrateChanged(ssrcs, measured_bitrate_bps);
EXPECT_CALL(remb_sender, SetRemb(_, _)).Times(0);
packet_router.SetMaxDesiredReceiveBitrate(cap_bitrate_bps);
// Test tear-down.
packet_router.RemoveSendRtpModule(&remb_sender);
}
TEST(PacketRouterRembTest,
SetMaxDesiredReceiveBitrateDoesNotTriggerRembWhenLessRestrictive) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
clock.AdvanceTime(TimeDelta::ms(1000));
NiceMock<MockRtpRtcp> remb_sender;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&remb_sender, remb_candidate);
const uint32_t measured_bitrate_bps = 150000;
const uint32_t cap_bitrate_bps = measured_bitrate_bps + 500;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(remb_sender, SetRemb(measured_bitrate_bps, _));
packet_router.OnReceiveBitrateChanged(ssrcs, measured_bitrate_bps);
EXPECT_CALL(remb_sender, SetRemb(_, _)).Times(0);
packet_router.SetMaxDesiredReceiveBitrate(cap_bitrate_bps);
// Test tear-down.
packet_router.RemoveSendRtpModule(&remb_sender);
}
TEST(PacketRouterRembTest,
SetMaxDesiredReceiveBitrateTriggersRembWhenNoRecentMeasure) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
clock.AdvanceTime(TimeDelta::ms(1000));
NiceMock<MockRtpRtcp> remb_sender;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&remb_sender, remb_candidate);
const uint32_t measured_bitrate_bps = 150000;
const uint32_t cap_bitrate_bps = measured_bitrate_bps + 5000;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(remb_sender, SetRemb(measured_bitrate_bps, _));
packet_router.OnReceiveBitrateChanged(ssrcs, measured_bitrate_bps);
clock.AdvanceTime(TimeDelta::ms(1000));
EXPECT_CALL(remb_sender, SetRemb(cap_bitrate_bps, _));
packet_router.SetMaxDesiredReceiveBitrate(cap_bitrate_bps);
// Test tear-down.
packet_router.RemoveSendRtpModule(&remb_sender);
}
TEST(PacketRouterRembTest,
SetMaxDesiredReceiveBitrateTriggersRembWhenNoMeasures) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
clock.AdvanceTime(TimeDelta::ms(1000));
NiceMock<MockRtpRtcp> remb_sender;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&remb_sender, remb_candidate);
// Set cap.
EXPECT_CALL(remb_sender, SetRemb(100000, _)).Times(1);
packet_router.SetMaxDesiredReceiveBitrate(100000);
// Increase cap.
EXPECT_CALL(remb_sender, SetRemb(200000, _)).Times(1);
packet_router.SetMaxDesiredReceiveBitrate(200000);
// Decrease cap.
EXPECT_CALL(remb_sender, SetRemb(150000, _)).Times(1);
packet_router.SetMaxDesiredReceiveBitrate(150000);
// Test tear-down.
packet_router.RemoveSendRtpModule(&remb_sender);
}
// Only register receiving modules and make sure we fallback to trigger a REMB
// packet on this one.
TEST(PacketRouterRembTest, NoSendingRtpModule) {
rtc::ScopedFakeClock clock;
NiceMock<MockRtpRtcp> rtp;
PacketRouter packet_router;
packet_router.AddReceiveRtpModule(&rtp, true);
uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Call OnReceiveBitrateChanged twice to get a first estimate.
clock.AdvanceTime(TimeDelta::ms(1000));
EXPECT_CALL(rtp, SetRemb(bitrate_estimate, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Lower the estimate to trigger a new packet REMB packet.
EXPECT_CALL(rtp, SetRemb(bitrate_estimate - 100, ssrcs)).Times(1);
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate - 100);
EXPECT_CALL(rtp, UnsetRemb()).Times(1);
packet_router.RemoveReceiveRtpModule(&rtp);
}
TEST(PacketRouterRembTest, NonCandidateSendRtpModuleNotUsedForRemb) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
constexpr bool remb_candidate = false;
packet_router.AddSendRtpModule(&module, remb_candidate);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(module, SetRemb(_, _)).Times(0);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveSendRtpModule(&module);
}
TEST(PacketRouterRembTest, CandidateSendRtpModuleUsedForRemb) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
constexpr bool remb_candidate = true;
packet_router.AddSendRtpModule(&module, remb_candidate);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(module, SetRemb(bitrate_estimate, ssrcs)).Times(1);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveSendRtpModule(&module);
}
TEST(PacketRouterRembTest, NonCandidateReceiveRtpModuleNotUsedForRemb) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
constexpr bool remb_candidate = false;
packet_router.AddReceiveRtpModule(&module, remb_candidate);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(module, SetRemb(_, _)).Times(0);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveReceiveRtpModule(&module);
}
TEST(PacketRouterRembTest, CandidateReceiveRtpModuleUsedForRemb) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> module;
constexpr bool remb_candidate = true;
packet_router.AddReceiveRtpModule(&module, remb_candidate);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(module, SetRemb(bitrate_estimate, ssrcs)).Times(1);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveReceiveRtpModule(&module);
}
TEST(PacketRouterRembTest,
SendCandidatePreferredOverReceiveCandidate_SendModuleAddedFirst) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> send_module;
NiceMock<MockRtpRtcp> receive_module;
constexpr bool remb_candidate = true;
// Send module added - activated.
packet_router.AddSendRtpModule(&send_module, remb_candidate);
// Receive module added - the send module remains the active one.
packet_router.AddReceiveRtpModule(&receive_module, remb_candidate);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(send_module, SetRemb(bitrate_estimate, ssrcs)).Times(1);
EXPECT_CALL(receive_module, SetRemb(_, _)).Times(0);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveReceiveRtpModule(&receive_module);
packet_router.RemoveSendRtpModule(&send_module);
}
TEST(PacketRouterRembTest,
SendCandidatePreferredOverReceiveCandidate_ReceiveModuleAddedFirst) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> send_module;
NiceMock<MockRtpRtcp> receive_module;
constexpr bool remb_candidate = true;
// Receive module added - activated.
packet_router.AddReceiveRtpModule(&receive_module, remb_candidate);
// Send module added - replaces receive module as active.
packet_router.AddSendRtpModule(&send_module, remb_candidate);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(send_module, SetRemb(bitrate_estimate, ssrcs)).Times(1);
EXPECT_CALL(receive_module, SetRemb(_, _)).Times(0);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveReceiveRtpModule(&receive_module);
packet_router.RemoveSendRtpModule(&send_module);
}
TEST(PacketRouterRembTest, ReceiveModuleTakesOverWhenLastSendModuleRemoved) {
rtc::ScopedFakeClock clock;
PacketRouter packet_router;
NiceMock<MockRtpRtcp> send_module;
NiceMock<MockRtpRtcp> receive_module;
constexpr bool remb_candidate = true;
// Send module active, receive module inactive.
packet_router.AddSendRtpModule(&send_module, remb_candidate);
packet_router.AddReceiveRtpModule(&receive_module, remb_candidate);
// Send module removed - receive module becomes active.
packet_router.RemoveSendRtpModule(&send_module);
constexpr uint32_t bitrate_estimate = 456;
const std::vector<uint32_t> ssrcs = {1234};
EXPECT_CALL(send_module, SetRemb(_, _)).Times(0);
EXPECT_CALL(receive_module, SetRemb(bitrate_estimate, ssrcs)).Times(1);
clock.AdvanceTime(TimeDelta::ms(1000));
packet_router.OnReceiveBitrateChanged(ssrcs, bitrate_estimate);
// Test tear-down
packet_router.RemoveReceiveRtpModule(&receive_module);
}
} // namespace webrtc