blob: bfa6f01b98ff37c51df4f46b7f4ff5beb791341a [file] [log] [blame]
/*
* Copyright (c) 2016 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 "modules/audio_coding/audio_network_adaptor/channel_controller.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
constexpr int kNumChannels = 2;
constexpr int kChannel1To2BandwidthBps = 31000;
constexpr int kChannel2To1BandwidthBps = 29000;
constexpr int kMediumBandwidthBps =
(kChannel1To2BandwidthBps + kChannel2To1BandwidthBps) / 2;
std::unique_ptr<ChannelController> CreateChannelController(int init_channels) {
std::unique_ptr<ChannelController> controller(
new ChannelController(ChannelController::Config(
kNumChannels, init_channels, kChannel1To2BandwidthBps,
kChannel2To1BandwidthBps)));
return controller;
}
void CheckDecision(ChannelController* controller,
const absl::optional<int>& uplink_bandwidth_bps,
size_t expected_num_channels) {
if (uplink_bandwidth_bps) {
Controller::NetworkMetrics network_metrics;
network_metrics.uplink_bandwidth_bps = uplink_bandwidth_bps;
controller->UpdateNetworkMetrics(network_metrics);
}
AudioEncoderRuntimeConfig config;
controller->MakeDecision(&config);
EXPECT_EQ(expected_num_channels, config.num_channels);
}
} // namespace
TEST(ChannelControllerTest, OutputInitValueWhenUplinkBandwidthUnknown) {
constexpr int kInitChannels = 2;
auto controller = CreateChannelController(kInitChannels);
CheckDecision(controller.get(), absl::nullopt, kInitChannels);
}
TEST(ChannelControllerTest, SwitchTo2ChannelsOnHighUplinkBandwidth) {
constexpr int kInitChannels = 1;
auto controller = CreateChannelController(kInitChannels);
// Use high bandwidth to check output switch to 2.
CheckDecision(controller.get(), kChannel1To2BandwidthBps, 2);
}
TEST(ChannelControllerTest, SwitchTo1ChannelOnLowUplinkBandwidth) {
constexpr int kInitChannels = 2;
auto controller = CreateChannelController(kInitChannels);
// Use low bandwidth to check output switch to 1.
CheckDecision(controller.get(), kChannel2To1BandwidthBps, 1);
}
TEST(ChannelControllerTest, Maintain1ChannelOnMediumUplinkBandwidth) {
constexpr int kInitChannels = 1;
auto controller = CreateChannelController(kInitChannels);
// Use between-thresholds bandwidth to check output remains at 1.
CheckDecision(controller.get(), kMediumBandwidthBps, 1);
}
TEST(ChannelControllerTest, Maintain2ChannelsOnMediumUplinkBandwidth) {
constexpr int kInitChannels = 2;
auto controller = CreateChannelController(kInitChannels);
// Use between-thresholds bandwidth to check output remains at 2.
CheckDecision(controller.get(), kMediumBandwidthBps, 2);
}
TEST(ChannelControllerTest, CheckBehaviorOnChangingUplinkBandwidth) {
constexpr int kInitChannels = 1;
auto controller = CreateChannelController(kInitChannels);
// Use between-thresholds bandwidth to check output remains at 1.
CheckDecision(controller.get(), kMediumBandwidthBps, 1);
// Use high bandwidth to check output switch to 2.
CheckDecision(controller.get(), kChannel1To2BandwidthBps, 2);
// Use between-thresholds bandwidth to check output remains at 2.
CheckDecision(controller.get(), kMediumBandwidthBps, 2);
// Use low bandwidth to check output switch to 1.
CheckDecision(controller.get(), kChannel2To1BandwidthBps, 1);
}
} // namespace webrtc