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/*
* Copyright 2021 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.
*/
#ifndef MODULES_CONGESTION_CONTROLLER_GOOG_CC_LOSS_BASED_BWE_V2_H_
#define MODULES_CONGESTION_CONTROLLER_GOOG_CC_LOSS_BASED_BWE_V2_H_
#include <vector>
#include "absl/types/optional.h"
#include "api/array_view.h"
#include "api/field_trials_view.h"
#include "api/transport/network_types.h"
#include "api/units/data_rate.h"
#include "api/units/data_size.h"
#include "api/units/time_delta.h"
#include "api/units/timestamp.h"
namespace webrtc {
// State of the loss based estimate, which can be either increasing/decreasing
// when network is loss limited, or equal to the delay based estimate.
enum class LossBasedState {
kIncreasing = 0,
// TODO(bugs.webrtc.org/12707): Remove one of the increasing states once we
// have decided if padding is usefull for ramping up when BWE is loss
// limited.
kIncreaseUsingPadding = 1,
kDecreasing = 2,
kDelayBasedEstimate = 3
};
class LossBasedBweV2 {
public:
struct Result {
~Result() = default;
DataRate bandwidth_estimate = DataRate::Zero();
// State is used by goog_cc, which later sends probe requests to probe
// controller if state is kIncreasing.
LossBasedState state = LossBasedState::kDelayBasedEstimate;
};
// Creates a disabled `LossBasedBweV2` if the
// `key_value_config` is not valid.
explicit LossBasedBweV2(const FieldTrialsView* key_value_config);
LossBasedBweV2(const LossBasedBweV2&) = delete;
LossBasedBweV2& operator=(const LossBasedBweV2&) = delete;
~LossBasedBweV2() = default;
bool IsEnabled() const;
// Returns true iff a BWE can be calculated, i.e., the estimator has been
// initialized with a BWE and then has received enough `PacketResult`s.
bool IsReady() const;
// Returns true if loss based BWE is ready to be used in the start phase.
bool ReadyToUseInStartPhase() const;
// Returns true if loss based BWE can be used in the start phase.
bool UseInStartPhase() const;
// Returns `DataRate::PlusInfinity` if no BWE can be calculated.
Result GetLossBasedResult() const;
void SetAcknowledgedBitrate(DataRate acknowledged_bitrate);
void SetMinMaxBitrate(DataRate min_bitrate, DataRate max_bitrate);
void UpdateBandwidthEstimate(
rtc::ArrayView<const PacketResult> packet_results,
DataRate delay_based_estimate,
bool in_alr);
// For unit testing only.
void SetBandwidthEstimate(DataRate bandwidth_estimate);
private:
struct ChannelParameters {
double inherent_loss = 0.0;
DataRate loss_limited_bandwidth = DataRate::MinusInfinity();
};
struct Config {
double bandwidth_rampup_upper_bound_factor = 0.0;
double rampup_acceleration_max_factor = 0.0;
TimeDelta rampup_acceleration_maxout_time = TimeDelta::Zero();
std::vector<double> candidate_factors;
double higher_bandwidth_bias_factor = 0.0;
double higher_log_bandwidth_bias_factor = 0.0;
double inherent_loss_lower_bound = 0.0;
double loss_threshold_of_high_bandwidth_preference = 0.0;
double bandwidth_preference_smoothing_factor = 0.0;
DataRate inherent_loss_upper_bound_bandwidth_balance =
DataRate::MinusInfinity();
double inherent_loss_upper_bound_offset = 0.0;
double initial_inherent_loss_estimate = 0.0;
int newton_iterations = 0;
double newton_step_size = 0.0;
bool append_acknowledged_rate_candidate = true;
bool append_delay_based_estimate_candidate = false;
bool append_upper_bound_candidate_in_alr = false;
TimeDelta observation_duration_lower_bound = TimeDelta::Zero();
int observation_window_size = 0;
double sending_rate_smoothing_factor = 0.0;
double instant_upper_bound_temporal_weight_factor = 0.0;
DataRate instant_upper_bound_bandwidth_balance = DataRate::MinusInfinity();
double instant_upper_bound_loss_offset = 0.0;
double temporal_weight_factor = 0.0;
double bandwidth_backoff_lower_bound_factor = 0.0;
double max_increase_factor = 0.0;
TimeDelta delayed_increase_window = TimeDelta::Zero();
bool not_increase_if_inherent_loss_less_than_average_loss = false;
double high_loss_rate_threshold = 1.0;
DataRate bandwidth_cap_at_high_loss_rate = DataRate::MinusInfinity();
double slope_of_bwe_high_loss_func = 1000.0;
bool not_use_acked_rate_in_alr = false;
bool use_in_start_phase = false;
int min_num_observations = 0;
double lower_bound_by_acked_rate_factor = 0.0;
double hold_duration_factor = 0.0;
bool use_byte_loss_rate = false;
TimeDelta padding_duration = TimeDelta::Zero();
};
struct Derivatives {
double first = 0.0;
double second = 0.0;
};
struct Observation {
bool IsInitialized() const { return id != -1; }
int num_packets = 0;
int num_lost_packets = 0;
int num_received_packets = 0;
DataRate sending_rate = DataRate::MinusInfinity();
DataSize size = DataSize::Zero();
DataSize lost_size = DataSize::Zero();
int id = -1;
};
struct PartialObservation {
int num_packets = 0;
int num_lost_packets = 0;
DataSize size = DataSize::Zero();
DataSize lost_size = DataSize::Zero();
};
struct PaddingInfo {
DataRate padding_rate = DataRate::MinusInfinity();
Timestamp padding_timestamp = Timestamp::MinusInfinity();
};
static absl::optional<Config> CreateConfig(
const FieldTrialsView* key_value_config);
bool IsConfigValid() const;
// Returns `0.0` if not enough loss statistics have been received.
double GetAverageReportedLossRatio() const;
double GetAverageReportedPacketLossRatio() const;
double GetAverageReportedByteLossRatio() const;
std::vector<ChannelParameters> GetCandidates(bool in_alr) const;
DataRate GetCandidateBandwidthUpperBound() const;
Derivatives GetDerivatives(const ChannelParameters& channel_parameters) const;
double GetFeasibleInherentLoss(
const ChannelParameters& channel_parameters) const;
double GetInherentLossUpperBound(DataRate bandwidth) const;
double AdjustBiasFactor(double loss_rate, double bias_factor) const;
double GetHighBandwidthBias(DataRate bandwidth) const;
double GetObjective(const ChannelParameters& channel_parameters) const;
DataRate GetSendingRate(DataRate instantaneous_sending_rate) const;
DataRate GetInstantUpperBound() const;
void CalculateInstantUpperBound();
DataRate GetInstantLowerBound() const;
void CalculateInstantLowerBound();
void CalculateTemporalWeights();
void NewtonsMethodUpdate(ChannelParameters& channel_parameters) const;
// Returns false if no observation was created.
bool PushBackObservation(rtc::ArrayView<const PacketResult> packet_results);
void UpdateResult();
bool IsEstimateIncreasingWhenLossLimited(DataRate old_estimate,
DataRate new_estimate);
bool IsInLossLimitedState() const;
bool CanKeepIncreasingState(DataRate estimate) const;
absl::optional<DataRate> acknowledged_bitrate_;
absl::optional<Config> config_;
ChannelParameters current_best_estimate_;
int num_observations_ = 0;
std::vector<Observation> observations_;
PartialObservation partial_observation_;
Timestamp last_send_time_most_recent_observation_ = Timestamp::PlusInfinity();
Timestamp last_time_estimate_reduced_ = Timestamp::MinusInfinity();
absl::optional<DataRate> cached_instant_upper_bound_;
absl::optional<DataRate> cached_instant_lower_bound_;
std::vector<double> instant_upper_bound_temporal_weights_;
std::vector<double> temporal_weights_;
Timestamp recovering_after_loss_timestamp_ = Timestamp::MinusInfinity();
DataRate bandwidth_limit_in_current_window_ = DataRate::PlusInfinity();
DataRate min_bitrate_ = DataRate::KilobitsPerSec(1);
DataRate max_bitrate_ = DataRate::PlusInfinity();
DataRate delay_based_estimate_ = DataRate::PlusInfinity();
LossBasedBweV2::Result loss_based_result_ = LossBasedBweV2::Result();
Timestamp last_hold_timestamp_ = Timestamp::MinusInfinity();
TimeDelta hold_duration_ = TimeDelta::Zero();
PaddingInfo last_padding_info_ = PaddingInfo();
};
} // namespace webrtc
#endif // MODULES_CONGESTION_CONTROLLER_GOOG_CC_LOSS_BASED_BWE_V2_H_