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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
commit | 36d22d82aa202bb199967e9512281e9a53db42c9 (patch) | |
tree | 105e8c98ddea1c1e4784a60a5a6410fa416be2de /third_party/libwebrtc/call/bitrate_allocator.cc | |
parent | Initial commit. (diff) | |
download | firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.tar.xz firefox-esr-36d22d82aa202bb199967e9512281e9a53db42c9.zip |
Adding upstream version 115.7.0esr.upstream/115.7.0esr
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/libwebrtc/call/bitrate_allocator.cc')
-rw-r--r-- | third_party/libwebrtc/call/bitrate_allocator.cc | 593 |
1 files changed, 593 insertions, 0 deletions
diff --git a/third_party/libwebrtc/call/bitrate_allocator.cc b/third_party/libwebrtc/call/bitrate_allocator.cc new file mode 100644 index 0000000000..2684a1650e --- /dev/null +++ b/third_party/libwebrtc/call/bitrate_allocator.cc @@ -0,0 +1,593 @@ +/* + * Copyright (c) 2015 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 "call/bitrate_allocator.h" + +#include <algorithm> +#include <cmath> +#include <memory> +#include <utility> + +#include "absl/algorithm/container.h" +#include "api/units/data_rate.h" +#include "api/units/time_delta.h" +#include "rtc_base/checks.h" +#include "rtc_base/logging.h" +#include "rtc_base/numerics/safe_minmax.h" +#include "system_wrappers/include/clock.h" +#include "system_wrappers/include/metrics.h" + +namespace webrtc { + +namespace { +using bitrate_allocator_impl::AllocatableTrack; + +// Allow packets to be transmitted in up to 2 times max video bitrate if the +// bandwidth estimate allows it. +const uint8_t kTransmissionMaxBitrateMultiplier = 2; +const int kDefaultBitrateBps = 300000; + +// Require a bitrate increase of max(10%, 20kbps) to resume paused streams. +const double kToggleFactor = 0.1; +const uint32_t kMinToggleBitrateBps = 20000; + +const int64_t kBweLogIntervalMs = 5000; + +double MediaRatio(uint32_t allocated_bitrate, uint32_t protection_bitrate) { + RTC_DCHECK_GT(allocated_bitrate, 0); + if (protection_bitrate == 0) + return 1.0; + + uint32_t media_bitrate = allocated_bitrate - protection_bitrate; + return media_bitrate / static_cast<double>(allocated_bitrate); +} + +bool EnoughBitrateForAllObservers( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t bitrate, + uint32_t sum_min_bitrates) { + if (bitrate < sum_min_bitrates) + return false; + + uint32_t extra_bitrate_per_observer = + (bitrate - sum_min_bitrates) / + static_cast<uint32_t>(allocatable_tracks.size()); + for (const auto& observer_config : allocatable_tracks) { + if (observer_config.config.min_bitrate_bps + extra_bitrate_per_observer < + observer_config.MinBitrateWithHysteresis()) { + return false; + } + } + return true; +} + +// Splits `bitrate` evenly to observers already in `allocation`. +// `include_zero_allocations` decides if zero allocations should be part of +// the distribution or not. The allowed max bitrate is `max_multiplier` x +// observer max bitrate. +void DistributeBitrateEvenly( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t bitrate, + bool include_zero_allocations, + int max_multiplier, + std::map<BitrateAllocatorObserver*, int>* allocation) { + RTC_DCHECK_EQ(allocation->size(), allocatable_tracks.size()); + + std::multimap<uint32_t, const AllocatableTrack*> list_max_bitrates; + for (const auto& observer_config : allocatable_tracks) { + if (include_zero_allocations || + allocation->at(observer_config.observer) != 0) { + list_max_bitrates.insert( + {observer_config.config.max_bitrate_bps, &observer_config}); + } + } + auto it = list_max_bitrates.begin(); + while (it != list_max_bitrates.end()) { + RTC_DCHECK_GT(bitrate, 0); + uint32_t extra_allocation = + bitrate / static_cast<uint32_t>(list_max_bitrates.size()); + uint32_t total_allocation = + extra_allocation + allocation->at(it->second->observer); + bitrate -= extra_allocation; + if (total_allocation > max_multiplier * it->first) { + // There is more than we can fit for this observer, carry over to the + // remaining observers. + bitrate += total_allocation - max_multiplier * it->first; + total_allocation = max_multiplier * it->first; + } + // Finally, update the allocation for this observer. + allocation->at(it->second->observer) = total_allocation; + it = list_max_bitrates.erase(it); + } +} + +// From the available `bitrate`, each observer will be allocated a +// proportional amount based upon its bitrate priority. If that amount is +// more than the observer's capacity, it will be allocated its capacity, and +// the excess bitrate is still allocated proportionally to other observers. +// Allocating the proportional amount means an observer with twice the +// bitrate_priority of another will be allocated twice the bitrate. +void DistributeBitrateRelatively( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t remaining_bitrate, + const std::map<BitrateAllocatorObserver*, int>& observers_capacities, + std::map<BitrateAllocatorObserver*, int>* allocation) { + RTC_DCHECK_EQ(allocation->size(), allocatable_tracks.size()); + RTC_DCHECK_EQ(observers_capacities.size(), allocatable_tracks.size()); + + struct PriorityRateObserverConfig { + BitrateAllocatorObserver* allocation_key; + // The amount of bitrate bps that can be allocated to this observer. + int capacity_bps; + double bitrate_priority; + }; + + double bitrate_priority_sum = 0; + std::vector<PriorityRateObserverConfig> priority_rate_observers; + for (const auto& observer_config : allocatable_tracks) { + priority_rate_observers.push_back(PriorityRateObserverConfig{ + observer_config.observer, + observers_capacities.at(observer_config.observer), + observer_config.config.bitrate_priority}); + bitrate_priority_sum += observer_config.config.bitrate_priority; + } + + // Iterate in the order observers can be allocated their full capacity. + + // We want to sort by which observers will be allocated their full capacity + // first. By dividing each observer's capacity by its bitrate priority we + // are "normalizing" the capacity of an observer by the rate it will be + // filled. This is because the amount allocated is based upon bitrate + // priority. We allocate twice as much bitrate to an observer with twice the + // bitrate priority of another. + absl::c_sort(priority_rate_observers, [](const auto& a, const auto& b) { + return a.capacity_bps / a.bitrate_priority < + b.capacity_bps / b.bitrate_priority; + }); + size_t i; + for (i = 0; i < priority_rate_observers.size(); ++i) { + const auto& priority_rate_observer = priority_rate_observers[i]; + // We allocate the full capacity to an observer only if its relative + // portion from the remaining bitrate is sufficient to allocate its full + // capacity. This means we aren't greedily allocating the full capacity, but + // that it is only done when there is also enough bitrate to allocate the + // proportional amounts to all other observers. + double observer_share = + priority_rate_observer.bitrate_priority / bitrate_priority_sum; + double allocation_bps = observer_share * remaining_bitrate; + bool enough_bitrate = allocation_bps >= priority_rate_observer.capacity_bps; + if (!enough_bitrate) + break; + allocation->at(priority_rate_observer.allocation_key) += + priority_rate_observer.capacity_bps; + remaining_bitrate -= priority_rate_observer.capacity_bps; + bitrate_priority_sum -= priority_rate_observer.bitrate_priority; + } + + // From the remaining bitrate, allocate the proportional amounts to the + // observers that aren't allocated their max capacity. + for (; i < priority_rate_observers.size(); ++i) { + const auto& priority_rate_observer = priority_rate_observers[i]; + double fraction_allocated = + priority_rate_observer.bitrate_priority / bitrate_priority_sum; + allocation->at(priority_rate_observer.allocation_key) += + fraction_allocated * remaining_bitrate; + } +} + +// Allocates bitrate to observers when there isn't enough to allocate the +// minimum to all observers. +std::map<BitrateAllocatorObserver*, int> LowRateAllocation( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t bitrate) { + std::map<BitrateAllocatorObserver*, int> allocation; + // Start by allocating bitrate to observers enforcing a min bitrate, hence + // remaining_bitrate might turn negative. + int64_t remaining_bitrate = bitrate; + for (const auto& observer_config : allocatable_tracks) { + int32_t allocated_bitrate = 0; + if (observer_config.config.enforce_min_bitrate) + allocated_bitrate = observer_config.config.min_bitrate_bps; + + allocation[observer_config.observer] = allocated_bitrate; + remaining_bitrate -= allocated_bitrate; + } + + // Allocate bitrate to all previously active streams. + if (remaining_bitrate > 0) { + for (const auto& observer_config : allocatable_tracks) { + if (observer_config.config.enforce_min_bitrate || + observer_config.LastAllocatedBitrate() == 0) + continue; + + uint32_t required_bitrate = observer_config.MinBitrateWithHysteresis(); + if (remaining_bitrate >= required_bitrate) { + allocation[observer_config.observer] = required_bitrate; + remaining_bitrate -= required_bitrate; + } + } + } + + // Allocate bitrate to previously paused streams. + if (remaining_bitrate > 0) { + for (const auto& observer_config : allocatable_tracks) { + if (observer_config.LastAllocatedBitrate() != 0) + continue; + + // Add a hysteresis to avoid toggling. + uint32_t required_bitrate = observer_config.MinBitrateWithHysteresis(); + if (remaining_bitrate >= required_bitrate) { + allocation[observer_config.observer] = required_bitrate; + remaining_bitrate -= required_bitrate; + } + } + } + + // Split a possible remainder evenly on all streams with an allocation. + if (remaining_bitrate > 0) + DistributeBitrateEvenly(allocatable_tracks, remaining_bitrate, false, 1, + &allocation); + + RTC_DCHECK_EQ(allocation.size(), allocatable_tracks.size()); + return allocation; +} + +// Allocates bitrate to all observers when the available bandwidth is enough +// to allocate the minimum to all observers but not enough to allocate the +// max bitrate of each observer. + +// Allocates the bitrate based on the bitrate priority of each observer. This +// bitrate priority defines the priority for bitrate to be allocated to that +// observer in relation to other observers. For example with two observers, if +// observer 1 had a bitrate_priority = 1.0, and observer 2 has a +// bitrate_priority = 2.0, the expected behavior is that observer 2 will be +// allocated twice the bitrate as observer 1 above the each observer's +// min_bitrate_bps values, until one of the observers hits its max_bitrate_bps. +std::map<BitrateAllocatorObserver*, int> NormalRateAllocation( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t bitrate, + uint32_t sum_min_bitrates) { + std::map<BitrateAllocatorObserver*, int> allocation; + std::map<BitrateAllocatorObserver*, int> observers_capacities; + for (const auto& observer_config : allocatable_tracks) { + allocation[observer_config.observer] = + observer_config.config.min_bitrate_bps; + observers_capacities[observer_config.observer] = + observer_config.config.max_bitrate_bps - + observer_config.config.min_bitrate_bps; + } + + bitrate -= sum_min_bitrates; + + // TODO(srte): Implement fair sharing between prioritized streams, currently + // they are treated on a first come first serve basis. + for (const auto& observer_config : allocatable_tracks) { + int64_t priority_margin = observer_config.config.priority_bitrate_bps - + allocation[observer_config.observer]; + if (priority_margin > 0 && bitrate > 0) { + int64_t extra_bitrate = std::min<int64_t>(priority_margin, bitrate); + allocation[observer_config.observer] += + rtc::dchecked_cast<int>(extra_bitrate); + observers_capacities[observer_config.observer] -= extra_bitrate; + bitrate -= extra_bitrate; + } + } + + // From the remaining bitrate, allocate a proportional amount to each observer + // above the min bitrate already allocated. + if (bitrate > 0) + DistributeBitrateRelatively(allocatable_tracks, bitrate, + observers_capacities, &allocation); + + return allocation; +} + +// Allocates bitrate to observers when there is enough available bandwidth +// for all observers to be allocated their max bitrate. +std::map<BitrateAllocatorObserver*, int> MaxRateAllocation( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t bitrate, + uint32_t sum_max_bitrates) { + std::map<BitrateAllocatorObserver*, int> allocation; + + for (const auto& observer_config : allocatable_tracks) { + allocation[observer_config.observer] = + observer_config.config.max_bitrate_bps; + bitrate -= observer_config.config.max_bitrate_bps; + } + DistributeBitrateEvenly(allocatable_tracks, bitrate, true, + kTransmissionMaxBitrateMultiplier, &allocation); + return allocation; +} + +// Allocates zero bitrate to all observers. +std::map<BitrateAllocatorObserver*, int> ZeroRateAllocation( + const std::vector<AllocatableTrack>& allocatable_tracks) { + std::map<BitrateAllocatorObserver*, int> allocation; + for (const auto& observer_config : allocatable_tracks) + allocation[observer_config.observer] = 0; + return allocation; +} + +std::map<BitrateAllocatorObserver*, int> AllocateBitrates( + const std::vector<AllocatableTrack>& allocatable_tracks, + uint32_t bitrate) { + if (allocatable_tracks.empty()) + return std::map<BitrateAllocatorObserver*, int>(); + + if (bitrate == 0) + return ZeroRateAllocation(allocatable_tracks); + + uint32_t sum_min_bitrates = 0; + uint32_t sum_max_bitrates = 0; + for (const auto& observer_config : allocatable_tracks) { + sum_min_bitrates += observer_config.config.min_bitrate_bps; + sum_max_bitrates += observer_config.config.max_bitrate_bps; + } + + // Not enough for all observers to get an allocation, allocate according to: + // enforced min bitrate -> allocated bitrate previous round -> restart paused + // streams. + if (!EnoughBitrateForAllObservers(allocatable_tracks, bitrate, + sum_min_bitrates)) + return LowRateAllocation(allocatable_tracks, bitrate); + + // All observers will get their min bitrate plus a share of the rest. This + // share is allocated to each observer based on its bitrate_priority. + if (bitrate <= sum_max_bitrates) + return NormalRateAllocation(allocatable_tracks, bitrate, sum_min_bitrates); + + // All observers will get up to transmission_max_bitrate_multiplier_ x max. + return MaxRateAllocation(allocatable_tracks, bitrate, sum_max_bitrates); +} + +} // namespace + +BitrateAllocator::BitrateAllocator(LimitObserver* limit_observer) + : limit_observer_(limit_observer), + last_target_bps_(0), + last_stable_target_bps_(0), + last_non_zero_bitrate_bps_(kDefaultBitrateBps), + last_fraction_loss_(0), + last_rtt_(0), + last_bwe_period_ms_(1000), + num_pause_events_(0), + last_bwe_log_time_(0) { + sequenced_checker_.Detach(); +} + +BitrateAllocator::~BitrateAllocator() { + RTC_HISTOGRAM_COUNTS_100("WebRTC.Call.NumberOfPauseEvents", + num_pause_events_); +} + +void BitrateAllocator::UpdateStartRate(uint32_t start_rate_bps) { + RTC_DCHECK_RUN_ON(&sequenced_checker_); + last_non_zero_bitrate_bps_ = start_rate_bps; +} + +void BitrateAllocator::OnNetworkEstimateChanged(TargetTransferRate msg) { + RTC_DCHECK_RUN_ON(&sequenced_checker_); + last_target_bps_ = msg.target_rate.bps(); + last_stable_target_bps_ = msg.stable_target_rate.bps(); + last_non_zero_bitrate_bps_ = + last_target_bps_ > 0 ? last_target_bps_ : last_non_zero_bitrate_bps_; + + int loss_ratio_255 = msg.network_estimate.loss_rate_ratio * 255; + last_fraction_loss_ = + rtc::dchecked_cast<uint8_t>(rtc::SafeClamp(loss_ratio_255, 0, 255)); + last_rtt_ = msg.network_estimate.round_trip_time.ms(); + last_bwe_period_ms_ = msg.network_estimate.bwe_period.ms(); + + // Periodically log the incoming BWE. + int64_t now = msg.at_time.ms(); + if (now > last_bwe_log_time_ + kBweLogIntervalMs) { + RTC_LOG(LS_INFO) << "Current BWE " << last_target_bps_; + last_bwe_log_time_ = now; + } + + auto allocation = AllocateBitrates(allocatable_tracks_, last_target_bps_); + auto stable_bitrate_allocation = + AllocateBitrates(allocatable_tracks_, last_stable_target_bps_); + + for (auto& config : allocatable_tracks_) { + uint32_t allocated_bitrate = allocation[config.observer]; + uint32_t allocated_stable_target_rate = + stable_bitrate_allocation[config.observer]; + BitrateAllocationUpdate update; + update.target_bitrate = DataRate::BitsPerSec(allocated_bitrate); + update.stable_target_bitrate = + DataRate::BitsPerSec(allocated_stable_target_rate); + update.packet_loss_ratio = last_fraction_loss_ / 256.0; + update.round_trip_time = TimeDelta::Millis(last_rtt_); + update.bwe_period = TimeDelta::Millis(last_bwe_period_ms_); + update.cwnd_reduce_ratio = msg.cwnd_reduce_ratio; + uint32_t protection_bitrate = config.observer->OnBitrateUpdated(update); + + if (allocated_bitrate == 0 && config.allocated_bitrate_bps > 0) { + if (last_target_bps_ > 0) + ++num_pause_events_; + // The protection bitrate is an estimate based on the ratio between media + // and protection used before this observer was muted. + uint32_t predicted_protection_bps = + (1.0 - config.media_ratio) * config.config.min_bitrate_bps; + RTC_LOG(LS_INFO) << "Pausing observer " << config.observer + << " with configured min bitrate " + << config.config.min_bitrate_bps + << " and current estimate of " << last_target_bps_ + << " and protection bitrate " + << predicted_protection_bps; + } else if (allocated_bitrate > 0 && config.allocated_bitrate_bps == 0) { + if (last_target_bps_ > 0) + ++num_pause_events_; + RTC_LOG(LS_INFO) << "Resuming observer " << config.observer + << ", configured min bitrate " + << config.config.min_bitrate_bps + << ", current allocation " << allocated_bitrate + << " and protection bitrate " << protection_bitrate; + } + + // Only update the media ratio if the observer got an allocation. + if (allocated_bitrate > 0) + config.media_ratio = MediaRatio(allocated_bitrate, protection_bitrate); + config.allocated_bitrate_bps = allocated_bitrate; + } + UpdateAllocationLimits(); +} + +void BitrateAllocator::AddObserver(BitrateAllocatorObserver* observer, + MediaStreamAllocationConfig config) { + RTC_DCHECK_RUN_ON(&sequenced_checker_); + RTC_DCHECK_GT(config.bitrate_priority, 0); + RTC_DCHECK(std::isnormal(config.bitrate_priority)); + auto it = absl::c_find_if( + allocatable_tracks_, + [observer](const auto& config) { return config.observer == observer; }); + // Update settings if the observer already exists, create a new one otherwise. + if (it != allocatable_tracks_.end()) { + it->config = config; + } else { + allocatable_tracks_.push_back(AllocatableTrack(observer, config)); + } + + if (last_target_bps_ > 0) { + // Calculate a new allocation and update all observers. + + auto allocation = AllocateBitrates(allocatable_tracks_, last_target_bps_); + auto stable_bitrate_allocation = + AllocateBitrates(allocatable_tracks_, last_stable_target_bps_); + for (auto& config : allocatable_tracks_) { + uint32_t allocated_bitrate = allocation[config.observer]; + uint32_t allocated_stable_bitrate = + stable_bitrate_allocation[config.observer]; + BitrateAllocationUpdate update; + update.target_bitrate = DataRate::BitsPerSec(allocated_bitrate); + update.stable_target_bitrate = + DataRate::BitsPerSec(allocated_stable_bitrate); + update.packet_loss_ratio = last_fraction_loss_ / 256.0; + update.round_trip_time = TimeDelta::Millis(last_rtt_); + update.bwe_period = TimeDelta::Millis(last_bwe_period_ms_); + uint32_t protection_bitrate = config.observer->OnBitrateUpdated(update); + config.allocated_bitrate_bps = allocated_bitrate; + if (allocated_bitrate > 0) + config.media_ratio = MediaRatio(allocated_bitrate, protection_bitrate); + } + } else { + // Currently, an encoder is not allowed to produce frames. + // But we still have to return the initial config bitrate + let the + // observer know that it can not produce frames. + + BitrateAllocationUpdate update; + update.target_bitrate = DataRate::Zero(); + update.stable_target_bitrate = DataRate::Zero(); + update.packet_loss_ratio = last_fraction_loss_ / 256.0; + update.round_trip_time = TimeDelta::Millis(last_rtt_); + update.bwe_period = TimeDelta::Millis(last_bwe_period_ms_); + observer->OnBitrateUpdated(update); + } + UpdateAllocationLimits(); +} + +void BitrateAllocator::UpdateAllocationLimits() { + BitrateAllocationLimits limits; + for (const auto& config : allocatable_tracks_) { + uint32_t stream_padding = config.config.pad_up_bitrate_bps; + if (config.config.enforce_min_bitrate) { + limits.min_allocatable_rate += + DataRate::BitsPerSec(config.config.min_bitrate_bps); + } else if (config.allocated_bitrate_bps == 0) { + stream_padding = + std::max(config.MinBitrateWithHysteresis(), stream_padding); + } + limits.max_padding_rate += DataRate::BitsPerSec(stream_padding); + limits.max_allocatable_rate += + DataRate::BitsPerSec(config.config.max_bitrate_bps); + } + + if (limits.min_allocatable_rate == current_limits_.min_allocatable_rate && + limits.max_allocatable_rate == current_limits_.max_allocatable_rate && + limits.max_padding_rate == current_limits_.max_padding_rate) { + return; + } + current_limits_ = limits; + + RTC_LOG(LS_INFO) << "UpdateAllocationLimits : total_requested_min_bitrate: " + << ToString(limits.min_allocatable_rate) + << ", total_requested_padding_bitrate: " + << ToString(limits.max_padding_rate) + << ", total_requested_max_bitrate: " + << ToString(limits.max_allocatable_rate); + + limit_observer_->OnAllocationLimitsChanged(limits); +} + +void BitrateAllocator::RemoveObserver(BitrateAllocatorObserver* observer) { + RTC_DCHECK_RUN_ON(&sequenced_checker_); + for (auto it = allocatable_tracks_.begin(); it != allocatable_tracks_.end(); + ++it) { + if (it->observer == observer) { + allocatable_tracks_.erase(it); + break; + } + } + + UpdateAllocationLimits(); +} + +int BitrateAllocator::GetStartBitrate( + BitrateAllocatorObserver* observer) const { + RTC_DCHECK_RUN_ON(&sequenced_checker_); + auto it = absl::c_find_if( + allocatable_tracks_, + [observer](const auto& config) { return config.observer == observer; }); + if (it == allocatable_tracks_.end()) { + // This observer hasn't been added yet, just give it its fair share. + return last_non_zero_bitrate_bps_ / + static_cast<int>((allocatable_tracks_.size() + 1)); + } else if (it->allocated_bitrate_bps == -1) { + // This observer hasn't received an allocation yet, so do the same. + return last_non_zero_bitrate_bps_ / + static_cast<int>(allocatable_tracks_.size()); + } else { + // This observer already has an allocation. + return it->allocated_bitrate_bps; + } +} + +uint32_t bitrate_allocator_impl::AllocatableTrack::LastAllocatedBitrate() + const { + // Return the configured minimum bitrate for newly added observers, to avoid + // requiring an extra high bitrate for the observer to get an allocated + // bitrate. + return allocated_bitrate_bps == -1 ? config.min_bitrate_bps + : allocated_bitrate_bps; +} + +uint32_t bitrate_allocator_impl::AllocatableTrack::MinBitrateWithHysteresis() + const { + uint32_t min_bitrate = config.min_bitrate_bps; + if (LastAllocatedBitrate() == 0) { + min_bitrate += std::max(static_cast<uint32_t>(kToggleFactor * min_bitrate), + kMinToggleBitrateBps); + } + // Account for protection bitrate used by this observer in the previous + // allocation. + // Note: the ratio will only be updated when the stream is active, meaning a + // paused stream won't get any ratio updates. This might lead to waiting a bit + // longer than necessary if the network condition improves, but this is to + // avoid too much toggling. + if (media_ratio > 0.0 && media_ratio < 1.0) + min_bitrate += min_bitrate * (1.0 - media_ratio); + + return min_bitrate; +} + +} // namespace webrtc |