| /* |
| * 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/congestion_controller/goog_cc/probe_controller.h" |
| |
| #include <algorithm> |
| #include <initializer_list> |
| #include <memory> |
| #include <string> |
| |
| #include "absl/strings/match.h" |
| #include "absl/types/optional.h" |
| #include "api/units/data_rate.h" |
| #include "api/units/data_size.h" |
| #include "api/units/time_delta.h" |
| #include "api/units/timestamp.h" |
| #include "logging/rtc_event_log/events/rtc_event_probe_cluster_created.h" |
| #include "rtc_base/checks.h" |
| #include "rtc_base/logging.h" |
| #include "system_wrappers/include/metrics.h" |
| |
| namespace webrtc { |
| |
| namespace { |
| // Maximum waiting time from the time of initiating probing to getting |
| // the measured results back. |
| constexpr TimeDelta kMaxWaitingTimeForProbingResult = TimeDelta::Seconds(1); |
| |
| // Default probing bitrate limit. Applied only when the application didn't |
| // specify max bitrate. |
| constexpr DataRate kDefaultMaxProbingBitrate = DataRate::KilobitsPerSec(5000); |
| |
| // If the bitrate drops to a factor `kBitrateDropThreshold` or lower |
| // and we recover within `kBitrateDropTimeoutMs`, then we'll send |
| // a probe at a fraction `kProbeFractionAfterDrop` of the original bitrate. |
| constexpr double kBitrateDropThreshold = 0.66; |
| constexpr TimeDelta kBitrateDropTimeout = TimeDelta::Seconds(5); |
| constexpr double kProbeFractionAfterDrop = 0.85; |
| |
| // Timeout for probing after leaving ALR. If the bitrate drops significantly, |
| // (as determined by the delay based estimator) and we leave ALR, then we will |
| // send a probe if we recover within `kLeftAlrTimeoutMs` ms. |
| constexpr TimeDelta kAlrEndedTimeout = TimeDelta::Seconds(3); |
| |
| // The expected uncertainty of probe result (as a fraction of the target probe |
| // This is a limit on how often probing can be done when there is a BW |
| // drop detected in ALR. |
| constexpr TimeDelta kMinTimeBetweenAlrProbes = TimeDelta::Seconds(5); |
| |
| // bitrate). Used to avoid probing if the probe bitrate is close to our current |
| // estimate. |
| constexpr double kProbeUncertainty = 0.05; |
| |
| // Use probing to recover faster after large bitrate estimate drops. |
| constexpr char kBweRapidRecoveryExperiment[] = |
| "WebRTC-BweRapidRecoveryExperiment"; |
| |
| void MaybeLogProbeClusterCreated(RtcEventLog* event_log, |
| const ProbeClusterConfig& probe) { |
| RTC_DCHECK(event_log); |
| if (!event_log) { |
| return; |
| } |
| |
| DataSize min_data_size = probe.target_data_rate * probe.target_duration; |
| event_log->Log(std::make_unique<RtcEventProbeClusterCreated>( |
| probe.id, probe.target_data_rate.bps(), probe.target_probe_count, |
| min_data_size.bytes())); |
| } |
| |
| } // namespace |
| |
| ProbeControllerConfig::ProbeControllerConfig( |
| const FieldTrialsView* key_value_config) |
| : first_exponential_probe_scale("p1", 3.0), |
| second_exponential_probe_scale("p2", 6.0), |
| further_exponential_probe_scale("step_size", 2), |
| further_probe_threshold("further_probe_threshold", 0.7), |
| alr_probing_interval("alr_interval", TimeDelta::Seconds(5)), |
| alr_probe_scale("alr_scale", 2), |
| network_state_estimate_probing_interval("network_state_interval", |
| TimeDelta::PlusInfinity()), |
| probe_if_estimate_lower_than_network_state_estimate_ratio( |
| "est_lower_than_network_ratio", |
| 0), |
| estimate_lower_than_network_state_estimate_probing_interval( |
| "est_lower_than_network_interval", |
| TimeDelta::Seconds(3)), |
| network_state_probe_scale("network_state_scale", 1.0), |
| network_state_probe_duration("network_state_probe_duration", |
| TimeDelta::Millis(15)), |
| |
| probe_on_max_allocated_bitrate_change("probe_max_allocation", true), |
| first_allocation_probe_scale("alloc_p1", 1), |
| second_allocation_probe_scale("alloc_p2", 2), |
| allocation_allow_further_probing("alloc_probe_further", false), |
| allocation_probe_max("alloc_probe_max", DataRate::PlusInfinity()), |
| min_probe_packets_sent("min_probe_packets_sent", 5), |
| min_probe_duration("min_probe_duration", TimeDelta::Millis(15)), |
| limit_probe_target_rate_to_loss_bwe("limit_probe_target_rate_to_loss_bwe", |
| false), |
| loss_limited_probe_scale("loss_limited_scale", 1.5), |
| skip_if_estimate_larger_than_fraction_of_max( |
| "skip_if_est_larger_than_fraction_of_max", |
| 0.0), |
| not_probe_if_delay_increased("not_probe_if_delay_increased", false) { |
| ParseFieldTrial({&first_exponential_probe_scale, |
| &second_exponential_probe_scale, |
| &further_exponential_probe_scale, |
| &further_probe_threshold, |
| &alr_probing_interval, |
| &alr_probe_scale, |
| &probe_on_max_allocated_bitrate_change, |
| &first_allocation_probe_scale, |
| &second_allocation_probe_scale, |
| &allocation_allow_further_probing, |
| &min_probe_duration, |
| &network_state_estimate_probing_interval, |
| &probe_if_estimate_lower_than_network_state_estimate_ratio, |
| &estimate_lower_than_network_state_estimate_probing_interval, |
| &network_state_probe_scale, |
| &network_state_probe_duration, |
| &min_probe_packets_sent, |
| &limit_probe_target_rate_to_loss_bwe, |
| &loss_limited_probe_scale, |
| &skip_if_estimate_larger_than_fraction_of_max, |
| ¬_probe_if_delay_increased}, |
| key_value_config->Lookup("WebRTC-Bwe-ProbingConfiguration")); |
| |
| // Specialized keys overriding subsets of WebRTC-Bwe-ProbingConfiguration |
| ParseFieldTrial( |
| {&first_exponential_probe_scale, &second_exponential_probe_scale}, |
| key_value_config->Lookup("WebRTC-Bwe-InitialProbing")); |
| ParseFieldTrial({&further_exponential_probe_scale, &further_probe_threshold}, |
| key_value_config->Lookup("WebRTC-Bwe-ExponentialProbing")); |
| ParseFieldTrial( |
| {&alr_probing_interval, &alr_probe_scale, &loss_limited_probe_scale}, |
| key_value_config->Lookup("WebRTC-Bwe-AlrProbing")); |
| ParseFieldTrial( |
| {&first_allocation_probe_scale, &second_allocation_probe_scale, |
| &allocation_allow_further_probing, &allocation_probe_max}, |
| key_value_config->Lookup("WebRTC-Bwe-AllocationProbing")); |
| ParseFieldTrial({&min_probe_packets_sent, &min_probe_duration}, |
| key_value_config->Lookup("WebRTC-Bwe-ProbingBehavior")); |
| } |
| |
| ProbeControllerConfig::ProbeControllerConfig(const ProbeControllerConfig&) = |
| default; |
| ProbeControllerConfig::~ProbeControllerConfig() = default; |
| |
| ProbeController::ProbeController(const FieldTrialsView* key_value_config, |
| RtcEventLog* event_log) |
| : network_available_(true), |
| enable_periodic_alr_probing_(false), |
| in_rapid_recovery_experiment_(absl::StartsWith( |
| key_value_config->Lookup(kBweRapidRecoveryExperiment), |
| "Enabled")), |
| event_log_(event_log), |
| config_(ProbeControllerConfig(key_value_config)) { |
| Reset(Timestamp::Zero()); |
| } |
| |
| ProbeController::~ProbeController() {} |
| |
| std::vector<ProbeClusterConfig> ProbeController::SetBitrates( |
| DataRate min_bitrate, |
| DataRate start_bitrate, |
| DataRate max_bitrate, |
| Timestamp at_time) { |
| if (start_bitrate > DataRate::Zero()) { |
| start_bitrate_ = start_bitrate; |
| estimated_bitrate_ = start_bitrate; |
| } else if (start_bitrate_.IsZero()) { |
| start_bitrate_ = min_bitrate; |
| } |
| |
| // The reason we use the variable `old_max_bitrate_pbs` is because we |
| // need to set `max_bitrate_` before we call InitiateProbing. |
| DataRate old_max_bitrate = max_bitrate_; |
| max_bitrate_ = |
| max_bitrate.IsFinite() ? max_bitrate : kDefaultMaxProbingBitrate; |
| |
| switch (state_) { |
| case State::kInit: |
| if (network_available_) |
| return InitiateExponentialProbing(at_time); |
| break; |
| |
| case State::kWaitingForProbingResult: |
| break; |
| |
| case State::kProbingComplete: |
| // If the new max bitrate is higher than both the old max bitrate and the |
| // estimate then initiate probing. |
| if (!estimated_bitrate_.IsZero() && old_max_bitrate < max_bitrate_ && |
| estimated_bitrate_ < max_bitrate_) { |
| return InitiateProbing(at_time, {max_bitrate_}, false); |
| } |
| break; |
| } |
| return std::vector<ProbeClusterConfig>(); |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::OnMaxTotalAllocatedBitrate( |
| DataRate max_total_allocated_bitrate, |
| Timestamp at_time) { |
| const bool in_alr = alr_start_time_.has_value(); |
| const bool allow_allocation_probe = in_alr; |
| |
| if (config_.probe_on_max_allocated_bitrate_change && |
| state_ == State::kProbingComplete && |
| max_total_allocated_bitrate != max_total_allocated_bitrate_ && |
| estimated_bitrate_ < max_bitrate_ && |
| estimated_bitrate_ < max_total_allocated_bitrate && |
| allow_allocation_probe) { |
| max_total_allocated_bitrate_ = max_total_allocated_bitrate; |
| |
| if (!config_.first_allocation_probe_scale) |
| return std::vector<ProbeClusterConfig>(); |
| |
| DataRate first_probe_rate = max_total_allocated_bitrate * |
| config_.first_allocation_probe_scale.Value(); |
| DataRate probe_cap = config_.allocation_probe_max.Get(); |
| first_probe_rate = std::min(first_probe_rate, probe_cap); |
| std::vector<DataRate> probes = {first_probe_rate}; |
| if (config_.second_allocation_probe_scale) { |
| DataRate second_probe_rate = |
| max_total_allocated_bitrate * |
| config_.second_allocation_probe_scale.Value(); |
| second_probe_rate = std::min(second_probe_rate, probe_cap); |
| if (second_probe_rate > first_probe_rate) |
| probes.push_back(second_probe_rate); |
| } |
| return InitiateProbing(at_time, probes, |
| config_.allocation_allow_further_probing.Get()); |
| } |
| max_total_allocated_bitrate_ = max_total_allocated_bitrate; |
| return std::vector<ProbeClusterConfig>(); |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::OnNetworkAvailability( |
| NetworkAvailability msg) { |
| network_available_ = msg.network_available; |
| |
| if (!network_available_ && state_ == State::kWaitingForProbingResult) { |
| state_ = State::kProbingComplete; |
| min_bitrate_to_probe_further_ = DataRate::PlusInfinity(); |
| } |
| |
| if (network_available_ && state_ == State::kInit && !start_bitrate_.IsZero()) |
| return InitiateExponentialProbing(msg.at_time); |
| return std::vector<ProbeClusterConfig>(); |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::InitiateExponentialProbing( |
| Timestamp at_time) { |
| RTC_DCHECK(network_available_); |
| RTC_DCHECK(state_ == State::kInit); |
| RTC_DCHECK_GT(start_bitrate_, DataRate::Zero()); |
| |
| // When probing at 1.8 Mbps ( 6x 300), this represents a threshold of |
| // 1.2 Mbps to continue probing. |
| std::vector<DataRate> probes = {config_.first_exponential_probe_scale * |
| start_bitrate_}; |
| if (config_.second_exponential_probe_scale && |
| config_.second_exponential_probe_scale.GetOptional().value() > 0) { |
| probes.push_back(config_.second_exponential_probe_scale.Value() * |
| start_bitrate_); |
| } |
| return InitiateProbing(at_time, probes, true); |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::SetEstimatedBitrate( |
| DataRate bitrate, |
| BandwidthLimitedCause bandwidth_limited_cause, |
| Timestamp at_time) { |
| bandwidth_limited_cause_ = bandwidth_limited_cause; |
| if (bitrate < kBitrateDropThreshold * estimated_bitrate_) { |
| time_of_last_large_drop_ = at_time; |
| bitrate_before_last_large_drop_ = estimated_bitrate_; |
| } |
| estimated_bitrate_ = bitrate; |
| |
| if (state_ == State::kWaitingForProbingResult) { |
| // Continue probing if probing results indicate channel has greater |
| // capacity. |
| DataRate network_state_estimate_probe_further_limit = |
| config_.network_state_estimate_probing_interval->IsFinite() && |
| network_estimate_ |
| ? network_estimate_->link_capacity_upper * |
| config_.further_probe_threshold |
| : DataRate::PlusInfinity(); |
| RTC_LOG(LS_INFO) << "Measured bitrate: " << bitrate |
| << " Minimum to probe further: " |
| << min_bitrate_to_probe_further_ << " upper limit: " |
| << network_state_estimate_probe_further_limit; |
| |
| if (bitrate > min_bitrate_to_probe_further_ && |
| bitrate <= network_state_estimate_probe_further_limit) { |
| return InitiateProbing( |
| at_time, {config_.further_exponential_probe_scale * bitrate}, true); |
| } |
| } |
| return {}; |
| } |
| |
| void ProbeController::EnablePeriodicAlrProbing(bool enable) { |
| enable_periodic_alr_probing_ = enable; |
| } |
| |
| void ProbeController::SetAlrStartTimeMs( |
| absl::optional<int64_t> alr_start_time_ms) { |
| if (alr_start_time_ms) { |
| alr_start_time_ = Timestamp::Millis(*alr_start_time_ms); |
| } else { |
| alr_start_time_ = absl::nullopt; |
| } |
| } |
| void ProbeController::SetAlrEndedTimeMs(int64_t alr_end_time_ms) { |
| alr_end_time_.emplace(Timestamp::Millis(alr_end_time_ms)); |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::RequestProbe( |
| Timestamp at_time) { |
| // Called once we have returned to normal state after a large drop in |
| // estimated bandwidth. The current response is to initiate a single probe |
| // session (if not already probing) at the previous bitrate. |
| // |
| // If the probe session fails, the assumption is that this drop was a |
| // real one from a competing flow or a network change. |
| bool in_alr = alr_start_time_.has_value(); |
| bool alr_ended_recently = |
| (alr_end_time_.has_value() && |
| at_time - alr_end_time_.value() < kAlrEndedTimeout); |
| if (in_alr || alr_ended_recently || in_rapid_recovery_experiment_) { |
| if (state_ == State::kProbingComplete) { |
| DataRate suggested_probe = |
| kProbeFractionAfterDrop * bitrate_before_last_large_drop_; |
| DataRate min_expected_probe_result = |
| (1 - kProbeUncertainty) * suggested_probe; |
| TimeDelta time_since_drop = at_time - time_of_last_large_drop_; |
| TimeDelta time_since_probe = at_time - last_bwe_drop_probing_time_; |
| if (min_expected_probe_result > estimated_bitrate_ && |
| time_since_drop < kBitrateDropTimeout && |
| time_since_probe > kMinTimeBetweenAlrProbes) { |
| RTC_LOG(LS_INFO) << "Detected big bandwidth drop, start probing."; |
| // Track how often we probe in response to bandwidth drop in ALR. |
| RTC_HISTOGRAM_COUNTS_10000( |
| "WebRTC.BWE.BweDropProbingIntervalInS", |
| (at_time - last_bwe_drop_probing_time_).seconds()); |
| last_bwe_drop_probing_time_ = at_time; |
| return InitiateProbing(at_time, {suggested_probe}, false); |
| } |
| } |
| } |
| return std::vector<ProbeClusterConfig>(); |
| } |
| |
| void ProbeController::SetNetworkStateEstimate( |
| webrtc::NetworkStateEstimate estimate) { |
| network_estimate_ = estimate; |
| } |
| |
| void ProbeController::Reset(Timestamp at_time) { |
| bandwidth_limited_cause_ = BandwidthLimitedCause::kDelayBasedLimited; |
| state_ = State::kInit; |
| min_bitrate_to_probe_further_ = DataRate::PlusInfinity(); |
| time_last_probing_initiated_ = Timestamp::Zero(); |
| estimated_bitrate_ = DataRate::Zero(); |
| network_estimate_ = absl::nullopt; |
| start_bitrate_ = DataRate::Zero(); |
| max_bitrate_ = kDefaultMaxProbingBitrate; |
| Timestamp now = at_time; |
| last_bwe_drop_probing_time_ = now; |
| alr_end_time_.reset(); |
| time_of_last_large_drop_ = now; |
| bitrate_before_last_large_drop_ = DataRate::Zero(); |
| max_total_allocated_bitrate_ = DataRate::Zero(); |
| } |
| |
| bool ProbeController::TimeForAlrProbe(Timestamp at_time) const { |
| if (enable_periodic_alr_probing_ && alr_start_time_) { |
| Timestamp next_probe_time = |
| std::max(*alr_start_time_, time_last_probing_initiated_) + |
| config_.alr_probing_interval; |
| return at_time >= next_probe_time; |
| } |
| return false; |
| } |
| |
| bool ProbeController::TimeForNetworkStateProbe(Timestamp at_time) const { |
| if (!network_estimate_ || |
| network_estimate_->link_capacity_upper.IsInfinite()) { |
| return false; |
| } |
| |
| bool probe_due_to_low_estimate = |
| bandwidth_limited_cause_ == BandwidthLimitedCause::kDelayBasedLimited && |
| estimated_bitrate_ < |
| config_.probe_if_estimate_lower_than_network_state_estimate_ratio * |
| network_estimate_->link_capacity_upper; |
| if (probe_due_to_low_estimate && |
| config_.estimate_lower_than_network_state_estimate_probing_interval |
| ->IsFinite()) { |
| Timestamp next_probe_time = |
| time_last_probing_initiated_ + |
| config_.estimate_lower_than_network_state_estimate_probing_interval; |
| return at_time >= next_probe_time; |
| } |
| |
| bool periodic_probe = |
| estimated_bitrate_ < network_estimate_->link_capacity_upper; |
| if (periodic_probe && |
| config_.network_state_estimate_probing_interval->IsFinite()) { |
| Timestamp next_probe_time = time_last_probing_initiated_ + |
| config_.network_state_estimate_probing_interval; |
| return at_time >= next_probe_time; |
| } |
| |
| return false; |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::Process(Timestamp at_time) { |
| if (at_time - time_last_probing_initiated_ > |
| kMaxWaitingTimeForProbingResult) { |
| if (state_ == State::kWaitingForProbingResult) { |
| RTC_LOG(LS_INFO) << "kWaitingForProbingResult: timeout"; |
| state_ = State::kProbingComplete; |
| min_bitrate_to_probe_further_ = DataRate::PlusInfinity(); |
| } |
| } |
| if (estimated_bitrate_.IsZero() || state_ != State::kProbingComplete) { |
| return {}; |
| } |
| if (TimeForAlrProbe(at_time) || TimeForNetworkStateProbe(at_time)) { |
| return InitiateProbing( |
| at_time, {estimated_bitrate_ * config_.alr_probe_scale}, true); |
| } |
| return std::vector<ProbeClusterConfig>(); |
| } |
| |
| std::vector<ProbeClusterConfig> ProbeController::InitiateProbing( |
| Timestamp now, |
| std::vector<DataRate> bitrates_to_probe, |
| bool probe_further) { |
| if (config_.skip_if_estimate_larger_than_fraction_of_max > 0) { |
| DataRate network_estimate = network_estimate_ |
| ? network_estimate_->link_capacity_upper |
| : DataRate::PlusInfinity(); |
| DataRate max_probe_rate = |
| max_total_allocated_bitrate_.IsZero() |
| ? max_bitrate_ |
| : std::min(max_total_allocated_bitrate_, max_bitrate_); |
| if (std::min(network_estimate, estimated_bitrate_) > |
| config_.skip_if_estimate_larger_than_fraction_of_max * max_probe_rate) { |
| state_ = State::kProbingComplete; |
| min_bitrate_to_probe_further_ = DataRate::PlusInfinity(); |
| return {}; |
| } |
| } |
| |
| DataRate max_probe_bitrate = max_bitrate_; |
| if (max_total_allocated_bitrate_ > DataRate::Zero()) { |
| // If a max allocated bitrate has been configured, allow probing up to 2x |
| // that rate. This allows some overhead to account for bursty streams, |
| // which otherwise would have to ramp up when the overshoot is already in |
| // progress. |
| // It also avoids minor quality reduction caused by probes often being |
| // received at slightly less than the target probe bitrate. |
| max_probe_bitrate = |
| std::min(max_probe_bitrate, max_total_allocated_bitrate_ * 2); |
| } |
| |
| DataRate estimate_capped_bitrate = DataRate::PlusInfinity(); |
| if (config_.limit_probe_target_rate_to_loss_bwe) { |
| switch (bandwidth_limited_cause_) { |
| case BandwidthLimitedCause::kLossLimitedBweDecreasing: |
| // If bandwidth estimate is decreasing because of packet loss, do not |
| // send probes. |
| return {}; |
| case BandwidthLimitedCause::kLossLimitedBweIncreasing: |
| estimate_capped_bitrate = |
| std::min(max_probe_bitrate, |
| estimated_bitrate_ * config_.loss_limited_probe_scale); |
| break; |
| case BandwidthLimitedCause::kDelayBasedLimited: |
| break; |
| default: |
| break; |
| } |
| } |
| if (config_.not_probe_if_delay_increased && |
| (bandwidth_limited_cause_ == |
| BandwidthLimitedCause::kDelayBasedLimitedDelayIncreased || |
| bandwidth_limited_cause_ == |
| BandwidthLimitedCause::kRttBasedBackOffHighRtt)) { |
| return {}; |
| } |
| |
| if (config_.network_state_estimate_probing_interval->IsFinite() && |
| network_estimate_ && network_estimate_->link_capacity_upper.IsFinite()) { |
| if (network_estimate_->link_capacity_upper.IsZero()) { |
| RTC_LOG(LS_INFO) << "Not sending probe, Network state estimate is zero"; |
| return {}; |
| } |
| estimate_capped_bitrate = |
| std::min({estimate_capped_bitrate, max_probe_bitrate, |
| network_estimate_->link_capacity_upper * |
| config_.network_state_probe_scale}); |
| } |
| |
| std::vector<ProbeClusterConfig> pending_probes; |
| for (DataRate bitrate : bitrates_to_probe) { |
| RTC_DCHECK(!bitrate.IsZero()); |
| |
| bitrate = std::min(bitrate, estimate_capped_bitrate); |
| if (bitrate > max_probe_bitrate) { |
| bitrate = max_probe_bitrate; |
| probe_further = false; |
| } |
| |
| ProbeClusterConfig config; |
| config.at_time = now; |
| config.target_data_rate = bitrate; |
| if (network_estimate_ && |
| config_.network_state_estimate_probing_interval->IsFinite()) { |
| config.target_duration = config_.network_state_probe_duration; |
| } else { |
| config.target_duration = config_.min_probe_duration; |
| } |
| |
| config.target_probe_count = config_.min_probe_packets_sent; |
| config.id = next_probe_cluster_id_; |
| next_probe_cluster_id_++; |
| MaybeLogProbeClusterCreated(event_log_, config); |
| pending_probes.push_back(config); |
| } |
| time_last_probing_initiated_ = now; |
| if (probe_further) { |
| state_ = State::kWaitingForProbingResult; |
| // Dont expect probe results to be larger than a fraction of the actual |
| // probe rate. |
| min_bitrate_to_probe_further_ = |
| std::min(estimate_capped_bitrate, (*(bitrates_to_probe.end() - 1))) * |
| config_.further_probe_threshold; |
| } else { |
| state_ = State::kProbingComplete; |
| min_bitrate_to_probe_further_ = DataRate::PlusInfinity(); |
| } |
| return pending_probes; |
| } |
| |
| } // namespace webrtc |