// Copyright 2017 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/nqe/observation_buffer.h" #include #include #include #include "base/containers/cxx20_erase.h" #include "base/cxx17_backports.h" #include "base/macros.h" #include "base/time/default_tick_clock.h" #include "base/time/time.h" #include "net/nqe/network_quality_estimator_params.h" #include "net/nqe/weighted_observation.h" namespace net { namespace nqe { namespace internal { ObservationBuffer::ObservationBuffer( const NetworkQualityEstimatorParams* params, const base::TickClock* tick_clock, double weight_multiplier_per_second, double weight_multiplier_per_signal_level) : params_(params), weight_multiplier_per_second_(weight_multiplier_per_second), weight_multiplier_per_signal_level_(weight_multiplier_per_signal_level), tick_clock_(tick_clock) { DCHECK_LT(0u, params_->observation_buffer_size()); DCHECK_LE(0.0, weight_multiplier_per_second_); DCHECK_GE(1.0, weight_multiplier_per_second_); DCHECK_LE(0.0, weight_multiplier_per_signal_level_); DCHECK_GE(1.0, weight_multiplier_per_signal_level_); DCHECK(params_); DCHECK(tick_clock_); } ObservationBuffer::ObservationBuffer(const ObservationBuffer& other) : params_(other.params_), weight_multiplier_per_second_(other.weight_multiplier_per_second_), weight_multiplier_per_signal_level_( other.weight_multiplier_per_signal_level_), tick_clock_(other.tick_clock_) { DCHECK(other.observations_.empty()); } ObservationBuffer::~ObservationBuffer() = default; void ObservationBuffer::AddObservation(const Observation& observation) { DCHECK_LE(observations_.size(), params_->observation_buffer_size()); // Observations must be in the non-decreasing order of the timestamps. DCHECK(observations_.empty() || observation.timestamp() >= observations_.back().timestamp()); DCHECK(observation.signal_strength() == INT32_MIN || (observation.signal_strength() >= 0 && observation.signal_strength() <= 4)); // Evict the oldest element if the buffer is already full. if (observations_.size() == params_->observation_buffer_size()) observations_.pop_front(); observations_.push_back(observation); DCHECK_LE(observations_.size(), params_->observation_buffer_size()); } absl::optional ObservationBuffer::GetPercentile( base::TimeTicks begin_timestamp, int32_t current_signal_strength, int percentile, size_t* observations_count) const { DCHECK(current_signal_strength == INT32_MIN || (current_signal_strength >= 0 && current_signal_strength <= 4)); // Stores weighted observations in increasing order by value. std::vector weighted_observations; // Total weight of all observations in |weighted_observations|. double total_weight = 0.0; ComputeWeightedObservations(begin_timestamp, current_signal_strength, &weighted_observations, &total_weight); if (observations_count) { // |observations_count| may be null. *observations_count = weighted_observations.size(); } if (weighted_observations.empty()) return absl::nullopt; double desired_weight = percentile / 100.0 * total_weight; double cumulative_weight_seen_so_far = 0.0; for (const auto& weighted_observation : weighted_observations) { cumulative_weight_seen_so_far += weighted_observation.weight; if (cumulative_weight_seen_so_far >= desired_weight) return weighted_observation.value; } // Computation may reach here due to floating point errors. This may happen // if |percentile| was 100 (or close to 100), and |desired_weight| was // slightly larger than |total_weight| (due to floating point errors). // In this case, we return the highest |value| among all observations. // This is same as value of the last observation in the sorted vector. return weighted_observations.at(weighted_observations.size() - 1).value; } void ObservationBuffer::RemoveObservationsWithSource( bool deleted_observation_sources[NETWORK_QUALITY_OBSERVATION_SOURCE_MAX]) { base::EraseIf(observations_, [deleted_observation_sources](const Observation& observation) { return deleted_observation_sources[static_cast( observation.source())]; }); } void ObservationBuffer::ComputeWeightedObservations( const base::TimeTicks& begin_timestamp, int32_t current_signal_strength, std::vector* weighted_observations, double* total_weight) const { DCHECK_GE(Capacity(), Size()); weighted_observations->clear(); double total_weight_observations = 0.0; base::TimeTicks now = tick_clock_->NowTicks(); for (const auto& observation : observations_) { if (observation.timestamp() < begin_timestamp) continue; base::TimeDelta time_since_sample_taken = now - observation.timestamp(); double time_weight = pow(weight_multiplier_per_second_, time_since_sample_taken.InSeconds()); double signal_strength_weight = 1.0; if (current_signal_strength >= 0 && observation.signal_strength() >= 0) { int32_t signal_strength_weight_diff = std::abs(current_signal_strength - observation.signal_strength()); signal_strength_weight = pow(weight_multiplier_per_signal_level_, signal_strength_weight_diff); } double weight = time_weight * signal_strength_weight; weight = base::clamp(weight, DBL_MIN, 1.0); weighted_observations->push_back( WeightedObservation(observation.value(), weight)); total_weight_observations += weight; } // Sort the samples by value in ascending order. std::sort(weighted_observations->begin(), weighted_observations->end()); *total_weight = total_weight_observations; DCHECK_LE(0.0, *total_weight); DCHECK(weighted_observations->empty() || 0.0 < *total_weight); // |weighted_observations| may have a smaller size than |observations_| // since the former contains only the observations later than // |begin_timestamp|. DCHECK_GE(observations_.size(), weighted_observations->size()); } size_t ObservationBuffer::Capacity() const { return params_->observation_buffer_size(); } } // namespace internal } // namespace nqe } // namespace net