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/*
* Copyright (c) 2023 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 <atomic>
#include <utility>
#include "api/stats/rtcstats_objects.h"
#include "api/units/data_rate.h"
#include "api/units/time_delta.h"
#include "modules/rtp_rtcp/include/rtp_header_extension_map.h"
#include "modules/rtp_rtcp/include/rtp_rtcp_defines.h"
#include "modules/rtp_rtcp/source/rtp_header_extensions.h"
#include "modules/rtp_rtcp/source/rtp_util.h"
#include "pc/media_session.h"
#include "pc/test/mock_peer_connection_observers.h"
#include "test/create_frame_generator_capturer.h"
#include "test/gmock.h"
#include "test/gtest.h"
#include "test/peer_scenario/peer_scenario.h"
#include "test/peer_scenario/peer_scenario_client.h"
#if WEBRTC_ENABLE_PROTOBUF
#include "api/test/network_emulation/schedulable_network_node_builder.h"
#endif
namespace webrtc {
namespace test {
using ::testing::SizeIs;
using ::testing::Test;
using ::testing::ValuesIn;
using ::testing::WithParamInterface;
rtc::scoped_refptr<const RTCStatsReport> GetStatsAndProcess(
PeerScenario& s,
PeerScenarioClient* client) {
auto stats_collector =
rtc::make_ref_counted<webrtc::MockRTCStatsCollectorCallback>();
client->pc()->GetStats(stats_collector.get());
s.ProcessMessages(TimeDelta::Millis(0));
RTC_CHECK(stats_collector->called());
return stats_collector->report();
}
DataRate GetAvailableSendBitrate(
const rtc::scoped_refptr<const RTCStatsReport>& report) {
auto stats = report->GetStatsOfType<RTCIceCandidatePairStats>();
if (stats.empty()) {
return DataRate::Zero();
}
return DataRate::BitsPerSec(*stats[0]->available_outgoing_bitrate);
}
#if WEBRTC_ENABLE_PROTOBUF
TEST(BweRampupTest, BweRampUpWhenCapacityIncrease) {
PeerScenario s(*test_info_);
PeerScenarioClient* caller = s.CreateClient({});
PeerScenarioClient* callee = s.CreateClient({});
network_behaviour::NetworkConfigSchedule schedule;
auto initial_config = schedule.add_item();
initial_config->set_link_capacity_kbps(500);
auto updated_capacity = schedule.add_item();
updated_capacity->set_time_since_first_sent_packet_ms(3000);
updated_capacity->set_link_capacity_kbps(3000);
SchedulableNetworkNodeBuilder schedulable_builder(*s.net(),
std::move(schedule));
auto caller_node = schedulable_builder.Build(/*random_seed=*/1);
auto callee_node = s.net()->NodeBuilder().capacity_kbps(5000).Build().node;
s.net()->CreateRoute(caller->endpoint(), {caller_node}, callee->endpoint());
s.net()->CreateRoute(callee->endpoint(), {callee_node}, caller->endpoint());
FrameGeneratorCapturerConfig::SquaresVideo video_resolution = {
.framerate = 30, .width = 1280, .height = 720};
PeerScenarioClient::VideoSendTrack track = caller->CreateVideo(
"VIDEO", {.generator = {.squares_video = video_resolution}});
auto signaling =
s.ConnectSignaling(caller, callee, {caller_node}, {callee_node});
signaling.StartIceSignaling();
std::atomic<bool> offer_exchange_done(false);
signaling.NegotiateSdp([&](const SessionDescriptionInterface& answer) {
offer_exchange_done = true;
});
// Wait for SDP negotiation.
s.WaitAndProcess(&offer_exchange_done);
s.ProcessMessages(TimeDelta::Seconds(5));
DataRate bwe_before_capacity_increase =
GetAvailableSendBitrate(GetStatsAndProcess(s, caller));
EXPECT_GT(bwe_before_capacity_increase.kbps(), 300);
EXPECT_LT(bwe_before_capacity_increase.kbps(), 650);
s.ProcessMessages(TimeDelta::Seconds(15));
EXPECT_GT(GetAvailableSendBitrate(GetStatsAndProcess(s, caller)).kbps(),
1000);
}
#endif // WEBRTC_ENABLE_PROTOBUF
// Test that caller BWE can rampup even if callee can not demux incoming RTP
// packets.
TEST(BweRampupTest, RampUpWithUndemuxableRtpPackets) {
PeerScenario s(*test_info_);
PeerScenarioClient::Config config = PeerScenarioClient::Config();
config.disable_encryption = true;
PeerScenarioClient* caller = s.CreateClient(config);
PeerScenarioClient* callee = s.CreateClient(config);
auto send_node = s.net()->NodeBuilder().Build().node;
auto ret_node = s.net()->NodeBuilder().Build().node;
s.net()->CreateRoute(caller->endpoint(), {send_node}, callee->endpoint());
s.net()->CreateRoute(callee->endpoint(), {ret_node}, caller->endpoint());
auto signaling = s.ConnectSignaling(caller, callee, {send_node}, {ret_node});
PeerScenarioClient::VideoSendTrackConfig video_conf;
video_conf.generator.squares_video->framerate = 15;
PeerScenarioClient::VideoSendTrack track =
caller->CreateVideo("VIDEO", video_conf);
signaling.StartIceSignaling();
std::atomic<bool> offer_exchange_done(false);
signaling.NegotiateSdp(
[&](SessionDescriptionInterface* offer) {
RtpHeaderExtensionMap extension_map(
cricket::GetFirstVideoContentDescription(offer->description())
->rtp_header_extensions());
ASSERT_TRUE(extension_map.IsRegistered(kRtpExtensionMid));
const std::string video_mid =
cricket::GetFirstVideoContent(offer->description())->mid();
send_node->router()->SetFilter([extension_map, video_mid, &send_node](
const EmulatedIpPacket& packet) {
if (IsRtpPacket(packet.data)) {
// Replace Mid with another. This should lead to that packets
// can not be demuxed by the callee, but BWE should still
// function.
RtpPacket parsed_packet;
parsed_packet.IdentifyExtensions(extension_map);
EXPECT_TRUE(parsed_packet.Parse(packet.data));
std::string mid;
if (parsed_packet.GetExtension<RtpMid>(&mid)) {
if (mid == video_mid) {
parsed_packet.SetExtension<RtpMid>("x");
EmulatedIpPacket updated_packet(packet.from, packet.to,
parsed_packet.Buffer(),
packet.arrival_time);
send_node->OnPacketReceived(std::move(updated_packet));
return false;
}
}
}
return true;
});
},
[&](const SessionDescriptionInterface& answer) {
offer_exchange_done = true;
});
// Wait for SDP negotiation and the packet filter to be setup.
s.WaitAndProcess(&offer_exchange_done);
DataRate initial_bwe = GetAvailableSendBitrate(GetStatsAndProcess(s, caller));
s.ProcessMessages(TimeDelta::Seconds(2));
auto callee_inbound_stats =
GetStatsAndProcess(s, callee)->GetStatsOfType<RTCInboundRtpStreamStats>();
ASSERT_THAT(callee_inbound_stats, SizeIs(1));
ASSERT_EQ(*callee_inbound_stats[0]->frames_received, 0u);
DataRate final_bwe = GetAvailableSendBitrate(GetStatsAndProcess(s, caller));
// Ensure BWE has increased from the initial BWE. BWE will not increase unless
// RTCP feedback is recevied. The increase is just an arbitrary value to
// ensure BWE has increased beyond noise levels.
EXPECT_GT(final_bwe, initial_bwe + DataRate::KilobitsPerSec(345));
}
struct InitialProbeTestParams {
DataRate network_capacity;
DataRate expected_bwe_min;
};
class BweRampupWithInitialProbeTest
: public Test,
public WithParamInterface<InitialProbeTestParams> {};
INSTANTIATE_TEST_SUITE_P(
BweRampupWithInitialProbeTest,
BweRampupWithInitialProbeTest,
ValuesIn<InitialProbeTestParams>(
{{
.network_capacity = DataRate::KilobitsPerSec(3000),
.expected_bwe_min = DataRate::KilobitsPerSec(2500),
},
{
.network_capacity = webrtc::DataRate::KilobitsPerSec(500),
.expected_bwe_min = webrtc::DataRate::KilobitsPerSec(400),
}}));
// Test that caller and callee BWE rampup even if no media packets are sent.
// - BandWidthEstimationSettings.allow_probe_without_media must be set.
// - A Video RtpTransceiver with RTX support needs to be negotiated.
TEST_P(BweRampupWithInitialProbeTest, BweRampUpBothDirectionsWithoutMedia) {
PeerScenario s(*::testing::UnitTest::GetInstance()->current_test_info());
InitialProbeTestParams test_params = GetParam();
PeerScenarioClient* caller = s.CreateClient({});
PeerScenarioClient* callee = s.CreateClient({});
auto video_result = caller->pc()->AddTransceiver(cricket::MEDIA_TYPE_VIDEO);
ASSERT_EQ(video_result.error().type(), RTCErrorType::NONE);
caller->pc()->ReconfigureBandwidthEstimation(
{.allow_probe_without_media = true});
callee->pc()->ReconfigureBandwidthEstimation(
{.allow_probe_without_media = true});
auto node_builder =
s.net()->NodeBuilder().capacity_kbps(test_params.network_capacity.kbps());
auto caller_node = node_builder.Build().node;
auto callee_node = node_builder.Build().node;
s.net()->CreateRoute(caller->endpoint(), {caller_node}, callee->endpoint());
s.net()->CreateRoute(callee->endpoint(), {callee_node}, caller->endpoint());
auto signaling =
s.ConnectSignaling(caller, callee, {caller_node}, {callee_node});
signaling.StartIceSignaling();
std::atomic<bool> offer_exchange_done(false);
signaling.NegotiateSdp(
[&]() {
// When remote description has been set, a transceiver is created.
// Set the diretion to sendrecv so that it can be used for BWE probing
// from callee -> caller.
ASSERT_THAT(callee->pc()->GetTransceivers(), SizeIs(1));
ASSERT_TRUE(
callee->pc()
->GetTransceivers()[0]
->SetDirectionWithError(RtpTransceiverDirection::kSendRecv)
.ok());
},
[&](const SessionDescriptionInterface& answer) {
offer_exchange_done = true;
});
// Wait for SDP negotiation.
s.WaitAndProcess(&offer_exchange_done);
// Test that 1s after offer/answer exchange finish, we have a BWE estimate,
// even though no video frames have been sent.
s.ProcessMessages(TimeDelta::Seconds(2));
auto callee_inbound_stats =
GetStatsAndProcess(s, callee)->GetStatsOfType<RTCInboundRtpStreamStats>();
ASSERT_THAT(callee_inbound_stats, SizeIs(1));
ASSERT_EQ(*callee_inbound_stats[0]->frames_received, 0u);
auto caller_inbound_stats =
GetStatsAndProcess(s, caller)->GetStatsOfType<RTCInboundRtpStreamStats>();
ASSERT_THAT(caller_inbound_stats, SizeIs(1));
ASSERT_EQ(*caller_inbound_stats[0]->frames_received, 0u);
DataRate caller_bwe = GetAvailableSendBitrate(GetStatsAndProcess(s, caller));
EXPECT_GT(caller_bwe.kbps(), test_params.expected_bwe_min.kbps());
EXPECT_LE(caller_bwe.kbps(), test_params.network_capacity.kbps());
DataRate callee_bwe = GetAvailableSendBitrate(GetStatsAndProcess(s, callee));
EXPECT_GT(callee_bwe.kbps(), test_params.expected_bwe_min.kbps());
EXPECT_LE(callee_bwe.kbps(), test_params.network_capacity.kbps());
}
// Test that we can reconfigure bandwidth estimation and send new BWE probes.
// In this test, camera is stopped, and some times later, the app want to get a
// new BWE estimate.
TEST(BweRampupTest, CanReconfigureBweAfterStopingVideo) {
PeerScenario s(*::testing::UnitTest::GetInstance()->current_test_info());
PeerScenarioClient* caller = s.CreateClient({});
PeerScenarioClient* callee = s.CreateClient({});
auto node_builder = s.net()->NodeBuilder().capacity_kbps(1000);
auto caller_node = node_builder.Build().node;
auto callee_node = node_builder.Build().node;
s.net()->CreateRoute(caller->endpoint(), {caller_node}, callee->endpoint());
s.net()->CreateRoute(callee->endpoint(), {callee_node}, caller->endpoint());
PeerScenarioClient::VideoSendTrack track = caller->CreateVideo("VIDEO", {});
auto signaling =
s.ConnectSignaling(caller, callee, {caller_node}, {callee_node});
signaling.StartIceSignaling();
std::atomic<bool> offer_exchange_done(false);
signaling.NegotiateSdp([&](const SessionDescriptionInterface& answer) {
offer_exchange_done = true;
});
// Wait for SDP negotiation.
s.WaitAndProcess(&offer_exchange_done);
// Send a TCP messages to the receiver using the same downlink node.
// This is done just to force a lower BWE than the link capacity.
webrtc::TcpMessageRoute* tcp_route = s.net()->CreateTcpRoute(
s.net()->CreateRoute({caller_node}), s.net()->CreateRoute({callee_node}));
DataRate bwe_before_restart = DataRate::Zero();
std::atomic<bool> message_delivered(false);
tcp_route->SendMessage(
/*size=*/5'00'000,
/*on_received=*/[&]() { message_delivered = true; });
s.WaitAndProcess(&message_delivered);
bwe_before_restart = GetAvailableSendBitrate(GetStatsAndProcess(s, caller));
// Camera is stopped.
track.capturer->Stop();
s.ProcessMessages(TimeDelta::Seconds(2));
// Some time later, the app is interested in restarting BWE since we may want
// to resume video eventually.
caller->pc()->ReconfigureBandwidthEstimation(
{.allow_probe_without_media = true});
s.ProcessMessages(TimeDelta::Seconds(1));
DataRate bwe_after_restart =
GetAvailableSendBitrate(GetStatsAndProcess(s, caller));
EXPECT_GT(bwe_after_restart.kbps(), bwe_before_restart.kbps() + 300);
EXPECT_LT(bwe_after_restart.kbps(), 1000);
}
} // namespace test
} // namespace webrtc