blob: 32f9fcb07bea0a77023563edc7ca53190ec127b0 [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 "modules/audio_coding/audio_network_adaptor/controller_manager.h"
#include <cmath>
#include <utility>
#include "modules/audio_coding/audio_network_adaptor/bitrate_controller.h"
#include "modules/audio_coding/audio_network_adaptor/channel_controller.h"
#include "modules/audio_coding/audio_network_adaptor/debug_dump_writer.h"
#include "modules/audio_coding/audio_network_adaptor/dtx_controller.h"
#include "modules/audio_coding/audio_network_adaptor/fec_controller_plr_based.h"
#include "modules/audio_coding/audio_network_adaptor/fec_controller_rplr_based.h"
#include "modules/audio_coding/audio_network_adaptor/frame_length_controller.h"
#include "modules/audio_coding/audio_network_adaptor/util/threshold_curve.h"
#include "rtc_base/ignore_wundef.h"
#include "rtc_base/timeutils.h"
#if WEBRTC_ENABLE_PROTOBUF
RTC_PUSH_IGNORING_WUNDEF()
#ifdef WEBRTC_ANDROID_PLATFORM_BUILD
#include "external/webrtc/webrtc/modules/audio_coding/audio_network_adaptor/config.pb.h"
#else
#include "modules/audio_coding/audio_network_adaptor/config.pb.h"
#endif
RTC_POP_IGNORING_WUNDEF()
#endif
namespace webrtc {
namespace {
#if WEBRTC_ENABLE_PROTOBUF
std::unique_ptr<FecControllerPlrBased> CreateFecControllerPlrBased(
const audio_network_adaptor::config::FecController& config,
bool initial_fec_enabled) {
RTC_CHECK(config.has_fec_enabling_threshold());
RTC_CHECK(config.has_fec_disabling_threshold());
RTC_CHECK(config.has_time_constant_ms());
auto& fec_enabling_threshold = config.fec_enabling_threshold();
RTC_CHECK(fec_enabling_threshold.has_low_bandwidth_bps());
RTC_CHECK(fec_enabling_threshold.has_low_bandwidth_packet_loss());
RTC_CHECK(fec_enabling_threshold.has_high_bandwidth_bps());
RTC_CHECK(fec_enabling_threshold.has_high_bandwidth_packet_loss());
auto& fec_disabling_threshold = config.fec_disabling_threshold();
RTC_CHECK(fec_disabling_threshold.has_low_bandwidth_bps());
RTC_CHECK(fec_disabling_threshold.has_low_bandwidth_packet_loss());
RTC_CHECK(fec_disabling_threshold.has_high_bandwidth_bps());
RTC_CHECK(fec_disabling_threshold.has_high_bandwidth_packet_loss());
return std::unique_ptr<FecControllerPlrBased>(
new FecControllerPlrBased(FecControllerPlrBased::Config(
initial_fec_enabled,
ThresholdCurve(fec_enabling_threshold.low_bandwidth_bps(),
fec_enabling_threshold.low_bandwidth_packet_loss(),
fec_enabling_threshold.high_bandwidth_bps(),
fec_enabling_threshold.high_bandwidth_packet_loss()),
ThresholdCurve(fec_disabling_threshold.low_bandwidth_bps(),
fec_disabling_threshold.low_bandwidth_packet_loss(),
fec_disabling_threshold.high_bandwidth_bps(),
fec_disabling_threshold.high_bandwidth_packet_loss()),
config.time_constant_ms())));
}
std::unique_ptr<FecControllerRplrBased> CreateFecControllerRplrBased(
const audio_network_adaptor::config::FecControllerRplrBased& config,
bool initial_fec_enabled) {
RTC_CHECK(config.has_fec_enabling_threshold());
RTC_CHECK(config.has_fec_disabling_threshold());
auto& fec_enabling_threshold = config.fec_enabling_threshold();
RTC_CHECK(fec_enabling_threshold.has_low_bandwidth_bps());
RTC_CHECK(fec_enabling_threshold.has_low_bandwidth_recoverable_packet_loss());
RTC_CHECK(fec_enabling_threshold.has_high_bandwidth_bps());
RTC_CHECK(
fec_enabling_threshold.has_high_bandwidth_recoverable_packet_loss());
auto& fec_disabling_threshold = config.fec_disabling_threshold();
RTC_CHECK(fec_disabling_threshold.has_low_bandwidth_bps());
RTC_CHECK(
fec_disabling_threshold.has_low_bandwidth_recoverable_packet_loss());
RTC_CHECK(fec_disabling_threshold.has_high_bandwidth_bps());
RTC_CHECK(
fec_disabling_threshold.has_high_bandwidth_recoverable_packet_loss());
return std::unique_ptr<FecControllerRplrBased>(
new FecControllerRplrBased(FecControllerRplrBased::Config(
initial_fec_enabled,
ThresholdCurve(
fec_enabling_threshold.low_bandwidth_bps(),
fec_enabling_threshold.low_bandwidth_recoverable_packet_loss(),
fec_enabling_threshold.high_bandwidth_bps(),
fec_enabling_threshold.high_bandwidth_recoverable_packet_loss()),
ThresholdCurve(
fec_disabling_threshold.low_bandwidth_bps(),
fec_disabling_threshold.low_bandwidth_recoverable_packet_loss(),
fec_disabling_threshold.high_bandwidth_bps(),
fec_disabling_threshold
.high_bandwidth_recoverable_packet_loss()))));
}
std::unique_ptr<FrameLengthController> CreateFrameLengthController(
const audio_network_adaptor::config::FrameLengthController& config,
rtc::ArrayView<const int> encoder_frame_lengths_ms,
int initial_frame_length_ms,
int min_encoder_bitrate_bps) {
RTC_CHECK(config.has_fl_increasing_packet_loss_fraction());
RTC_CHECK(config.has_fl_decreasing_packet_loss_fraction());
RTC_CHECK(config.has_fl_20ms_to_60ms_bandwidth_bps());
RTC_CHECK(config.has_fl_60ms_to_20ms_bandwidth_bps());
std::map<FrameLengthController::Config::FrameLengthChange, int>
fl_changing_bandwidths_bps = {
{FrameLengthController::Config::FrameLengthChange(20, 60),
config.fl_20ms_to_60ms_bandwidth_bps()},
{FrameLengthController::Config::FrameLengthChange(60, 20),
config.fl_60ms_to_20ms_bandwidth_bps()}};
if (config.has_fl_60ms_to_120ms_bandwidth_bps() &&
config.has_fl_120ms_to_60ms_bandwidth_bps()) {
fl_changing_bandwidths_bps.insert(std::make_pair(
FrameLengthController::Config::FrameLengthChange(60, 120),
config.fl_60ms_to_120ms_bandwidth_bps()));
fl_changing_bandwidths_bps.insert(std::make_pair(
FrameLengthController::Config::FrameLengthChange(120, 60),
config.fl_120ms_to_60ms_bandwidth_bps()));
}
int fl_increase_overhead_offset = 0;
if (config.has_fl_increase_overhead_offset()) {
fl_increase_overhead_offset = config.fl_increase_overhead_offset();
}
int fl_decrease_overhead_offset = 0;
if (config.has_fl_decrease_overhead_offset()) {
fl_decrease_overhead_offset = config.fl_decrease_overhead_offset();
}
FrameLengthController::Config ctor_config(
std::vector<int>(), initial_frame_length_ms, min_encoder_bitrate_bps,
config.fl_increasing_packet_loss_fraction(),
config.fl_decreasing_packet_loss_fraction(), fl_increase_overhead_offset,
fl_decrease_overhead_offset, std::move(fl_changing_bandwidths_bps));
for (auto frame_length : encoder_frame_lengths_ms)
ctor_config.encoder_frame_lengths_ms.push_back(frame_length);
return std::unique_ptr<FrameLengthController>(
new FrameLengthController(ctor_config));
}
std::unique_ptr<ChannelController> CreateChannelController(
const audio_network_adaptor::config::ChannelController& config,
size_t num_encoder_channels,
size_t intial_channels_to_encode) {
RTC_CHECK(config.has_channel_1_to_2_bandwidth_bps());
RTC_CHECK(config.has_channel_2_to_1_bandwidth_bps());
return std::unique_ptr<ChannelController>(new ChannelController(
ChannelController::Config(num_encoder_channels, intial_channels_to_encode,
config.channel_1_to_2_bandwidth_bps(),
config.channel_2_to_1_bandwidth_bps())));
}
std::unique_ptr<DtxController> CreateDtxController(
const audio_network_adaptor::config::DtxController& dtx_config,
bool initial_dtx_enabled) {
RTC_CHECK(dtx_config.has_dtx_enabling_bandwidth_bps());
RTC_CHECK(dtx_config.has_dtx_disabling_bandwidth_bps());
return std::unique_ptr<DtxController>(new DtxController(DtxController::Config(
initial_dtx_enabled, dtx_config.dtx_enabling_bandwidth_bps(),
dtx_config.dtx_disabling_bandwidth_bps())));
}
using audio_network_adaptor::BitrateController;
std::unique_ptr<BitrateController> CreateBitrateController(
const audio_network_adaptor::config::BitrateController& bitrate_config,
int initial_bitrate_bps,
int initial_frame_length_ms) {
int fl_increase_overhead_offset = 0;
if (bitrate_config.has_fl_increase_overhead_offset()) {
fl_increase_overhead_offset = bitrate_config.fl_increase_overhead_offset();
}
int fl_decrease_overhead_offset = 0;
if (bitrate_config.has_fl_decrease_overhead_offset()) {
fl_decrease_overhead_offset = bitrate_config.fl_decrease_overhead_offset();
}
return std::unique_ptr<BitrateController>(
new BitrateController(BitrateController::Config(
initial_bitrate_bps, initial_frame_length_ms,
fl_increase_overhead_offset, fl_decrease_overhead_offset)));
}
#endif // WEBRTC_ENABLE_PROTOBUF
} // namespace
ControllerManagerImpl::Config::Config(int min_reordering_time_ms,
float min_reordering_squared_distance)
: min_reordering_time_ms(min_reordering_time_ms),
min_reordering_squared_distance(min_reordering_squared_distance) {}
ControllerManagerImpl::Config::~Config() = default;
std::unique_ptr<ControllerManager> ControllerManagerImpl::Create(
const ProtoString& config_string,
size_t num_encoder_channels,
rtc::ArrayView<const int> encoder_frame_lengths_ms,
int min_encoder_bitrate_bps,
size_t intial_channels_to_encode,
int initial_frame_length_ms,
int initial_bitrate_bps,
bool initial_fec_enabled,
bool initial_dtx_enabled) {
return Create(config_string, num_encoder_channels, encoder_frame_lengths_ms,
min_encoder_bitrate_bps, intial_channels_to_encode,
initial_frame_length_ms, initial_bitrate_bps,
initial_fec_enabled, initial_dtx_enabled, nullptr);
}
std::unique_ptr<ControllerManager> ControllerManagerImpl::Create(
const ProtoString& config_string,
size_t num_encoder_channels,
rtc::ArrayView<const int> encoder_frame_lengths_ms,
int min_encoder_bitrate_bps,
size_t intial_channels_to_encode,
int initial_frame_length_ms,
int initial_bitrate_bps,
bool initial_fec_enabled,
bool initial_dtx_enabled,
DebugDumpWriter* debug_dump_writer) {
#if WEBRTC_ENABLE_PROTOBUF
audio_network_adaptor::config::ControllerManager controller_manager_config;
RTC_CHECK(controller_manager_config.ParseFromString(config_string));
if (debug_dump_writer)
debug_dump_writer->DumpControllerManagerConfig(controller_manager_config,
rtc::TimeMillis());
std::vector<std::unique_ptr<Controller>> controllers;
std::map<const Controller*, std::pair<int, float>> scoring_points;
for (int i = 0; i < controller_manager_config.controllers_size(); ++i) {
auto& controller_config = controller_manager_config.controllers(i);
std::unique_ptr<Controller> controller;
switch (controller_config.controller_case()) {
case audio_network_adaptor::config::Controller::kFecController:
controller = CreateFecControllerPlrBased(
controller_config.fec_controller(), initial_fec_enabled);
break;
case audio_network_adaptor::config::Controller::kFecControllerRplrBased:
controller = CreateFecControllerRplrBased(
controller_config.fec_controller_rplr_based(), initial_fec_enabled);
break;
case audio_network_adaptor::config::Controller::kFrameLengthController:
controller = CreateFrameLengthController(
controller_config.frame_length_controller(),
encoder_frame_lengths_ms, initial_frame_length_ms,
min_encoder_bitrate_bps);
break;
case audio_network_adaptor::config::Controller::kChannelController:
controller = CreateChannelController(
controller_config.channel_controller(), num_encoder_channels,
intial_channels_to_encode);
break;
case audio_network_adaptor::config::Controller::kDtxController:
controller = CreateDtxController(controller_config.dtx_controller(),
initial_dtx_enabled);
break;
case audio_network_adaptor::config::Controller::kBitrateController:
controller = CreateBitrateController(
controller_config.bitrate_controller(), initial_bitrate_bps,
initial_frame_length_ms);
break;
default:
RTC_NOTREACHED();
}
if (controller_config.has_scoring_point()) {
auto& scoring_point = controller_config.scoring_point();
RTC_CHECK(scoring_point.has_uplink_bandwidth_bps());
RTC_CHECK(scoring_point.has_uplink_packet_loss_fraction());
scoring_points[controller.get()] = std::make_pair<int, float>(
scoring_point.uplink_bandwidth_bps(),
scoring_point.uplink_packet_loss_fraction());
}
controllers.push_back(std::move(controller));
}
if (scoring_points.size() == 0) {
return std::unique_ptr<ControllerManagerImpl>(
new ControllerManagerImpl(ControllerManagerImpl::Config(0, 0),
std::move(controllers), scoring_points));
} else {
RTC_CHECK(controller_manager_config.has_min_reordering_time_ms());
RTC_CHECK(controller_manager_config.has_min_reordering_squared_distance());
return std::unique_ptr<ControllerManagerImpl>(new ControllerManagerImpl(
ControllerManagerImpl::Config(
controller_manager_config.min_reordering_time_ms(),
controller_manager_config.min_reordering_squared_distance()),
std::move(controllers), scoring_points));
}
#else
RTC_NOTREACHED();
return nullptr;
#endif // WEBRTC_ENABLE_PROTOBUF
}
ControllerManagerImpl::ControllerManagerImpl(const Config& config)
: ControllerManagerImpl(
config,
std::vector<std::unique_ptr<Controller>>(),
std::map<const Controller*, std::pair<int, float>>()) {}
ControllerManagerImpl::ControllerManagerImpl(
const Config& config,
std::vector<std::unique_ptr<Controller>> controllers,
const std::map<const Controller*, std::pair<int, float>>& scoring_points)
: config_(config),
controllers_(std::move(controllers)),
last_reordering_time_ms_(absl::nullopt),
last_scoring_point_(0, 0.0) {
for (auto& controller : controllers_)
default_sorted_controllers_.push_back(controller.get());
sorted_controllers_ = default_sorted_controllers_;
for (auto& controller_point : scoring_points) {
controller_scoring_points_.insert(std::make_pair(
controller_point.first, ScoringPoint(controller_point.second.first,
controller_point.second.second)));
}
}
ControllerManagerImpl::~ControllerManagerImpl() = default;
std::vector<Controller*> ControllerManagerImpl::GetSortedControllers(
const Controller::NetworkMetrics& metrics) {
if (controller_scoring_points_.size() == 0)
return default_sorted_controllers_;
if (!metrics.uplink_bandwidth_bps || !metrics.uplink_packet_loss_fraction)
return sorted_controllers_;
const int64_t now_ms = rtc::TimeMillis();
if (last_reordering_time_ms_ &&
now_ms - *last_reordering_time_ms_ < config_.min_reordering_time_ms)
return sorted_controllers_;
ScoringPoint scoring_point(*metrics.uplink_bandwidth_bps,
*metrics.uplink_packet_loss_fraction);
if (last_reordering_time_ms_ &&
last_scoring_point_.SquaredDistanceTo(scoring_point) <
config_.min_reordering_squared_distance)
return sorted_controllers_;
// Sort controllers according to the distances of |scoring_point| to the
// scoring points of controllers.
//
// A controller that does not associate with any scoring point
// are treated as if
// 1) they are less important than any controller that has a scoring point,
// 2) they are equally important to any controller that has no scoring point,
// and their relative order will follow |default_sorted_controllers_|.
std::vector<Controller*> sorted_controllers(default_sorted_controllers_);
std::stable_sort(
sorted_controllers.begin(), sorted_controllers.end(),
[this, &scoring_point](const Controller* lhs, const Controller* rhs) {
auto lhs_scoring_point = controller_scoring_points_.find(lhs);
auto rhs_scoring_point = controller_scoring_points_.find(rhs);
if (lhs_scoring_point == controller_scoring_points_.end())
return false;
if (rhs_scoring_point == controller_scoring_points_.end())
return true;
return lhs_scoring_point->second.SquaredDistanceTo(scoring_point) <
rhs_scoring_point->second.SquaredDistanceTo(scoring_point);
});
if (sorted_controllers_ != sorted_controllers) {
sorted_controllers_ = sorted_controllers;
last_reordering_time_ms_ = now_ms;
last_scoring_point_ = scoring_point;
}
return sorted_controllers_;
}
std::vector<Controller*> ControllerManagerImpl::GetControllers() const {
return default_sorted_controllers_;
}
ControllerManagerImpl::ScoringPoint::ScoringPoint(
int uplink_bandwidth_bps,
float uplink_packet_loss_fraction)
: uplink_bandwidth_bps(uplink_bandwidth_bps),
uplink_packet_loss_fraction(uplink_packet_loss_fraction) {}
namespace {
constexpr int kMinUplinkBandwidthBps = 0;
constexpr int kMaxUplinkBandwidthBps = 120000;
float NormalizeUplinkBandwidth(int uplink_bandwidth_bps) {
uplink_bandwidth_bps =
std::min(kMaxUplinkBandwidthBps,
std::max(kMinUplinkBandwidthBps, uplink_bandwidth_bps));
return static_cast<float>(uplink_bandwidth_bps - kMinUplinkBandwidthBps) /
(kMaxUplinkBandwidthBps - kMinUplinkBandwidthBps);
}
float NormalizePacketLossFraction(float uplink_packet_loss_fraction) {
// |uplink_packet_loss_fraction| is seldom larger than 0.3, so we scale it up
// by 3.3333f.
return std::min(uplink_packet_loss_fraction * 3.3333f, 1.0f);
}
} // namespace
float ControllerManagerImpl::ScoringPoint::SquaredDistanceTo(
const ScoringPoint& scoring_point) const {
float diff_normalized_bitrate_bps =
NormalizeUplinkBandwidth(scoring_point.uplink_bandwidth_bps) -
NormalizeUplinkBandwidth(uplink_bandwidth_bps);
float diff_normalized_packet_loss =
NormalizePacketLossFraction(scoring_point.uplink_packet_loss_fraction) -
NormalizePacketLossFraction(uplink_packet_loss_fraction);
return std::pow(diff_normalized_bitrate_bps, 2) +
std::pow(diff_normalized_packet_loss, 2);
}
} // namespace webrtc