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webrtc / src / / d941c09bc032fc0d7a4f3ca44bcd6f73ae4d120e / . / rtc_base / bitrateallocationstrategy.cc
blob: d2a06cd9efec81cc7a4eeab1036315d66dde7cd1 [file] [log] [blame]
/*
* Copyright 2017 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 "rtc_base/bitrateallocationstrategy.h"
#include <algorithm>
#include <utility>
namespace rtc {
// The purpose of this is to allow video streams to use extra bandwidth for FEC.
// TODO(bugs.webrtc.org/8541): May be worth to refactor to keep this logic in
// video send stream. Similar logic is implemented in BitrateAllocator.
const int kTransmissionMaxBitrateMultiplier = 2;
std::vector<uint32_t> BitrateAllocationStrategy::SetAllBitratesToMinimum(
const ArrayView<const TrackConfig*> track_configs) {
std::vector<uint32_t> track_allocations;
for (const auto* track_config : track_configs) {
track_allocations.push_back(track_config->min_bitrate_bps);
}
return track_allocations;
}
std::vector<uint32_t> BitrateAllocationStrategy::DistributeBitratesEvenly(
const ArrayView<const TrackConfig*> track_configs,
uint32_t available_bitrate) {
std::vector<uint32_t> track_allocations =
SetAllBitratesToMinimum(track_configs);
uint32_t sum_min_bitrates = 0;
uint32_t sum_max_bitrates = 0;
for (const auto* track_config : track_configs) {
sum_min_bitrates += track_config->min_bitrate_bps;
sum_max_bitrates += track_config->max_bitrate_bps;
}
if (sum_min_bitrates >= available_bitrate) {
return track_allocations;
} else if (available_bitrate >= sum_max_bitrates) {
auto track_allocations_it = track_allocations.begin();
for (const auto* track_config : track_configs) {
*track_allocations_it++ = track_config->max_bitrate_bps;
}
return track_allocations;
} else {
// If sum_min_bitrates < available_bitrate < sum_max_bitrates allocate
// bitrates evenly up to max_bitrate_bps starting from the track with the
// lowest max_bitrate_bps. Remainder of available bitrate split evenly among
// remaining tracks.
std::multimap<uint32_t, size_t> max_bitrate_sorted_configs;
for (const TrackConfig** track_configs_it = track_configs.begin();
track_configs_it != track_configs.end(); ++track_configs_it) {
max_bitrate_sorted_configs.insert(
std::make_pair((*track_configs_it)->max_bitrate_bps,
track_configs_it - track_configs.begin()));
}
uint32_t total_available_increase = available_bitrate - sum_min_bitrates;
int processed_configs = 0;
for (const auto& track_config_pair : max_bitrate_sorted_configs) {
uint32_t available_increase =
total_available_increase /
(static_cast<uint32_t>(track_configs.size() - processed_configs));
uint32_t consumed_increase =
std::min(track_configs[track_config_pair.second]->max_bitrate_bps -
track_configs[track_config_pair.second]->min_bitrate_bps,
available_increase);
track_allocations[track_config_pair.second] += consumed_increase;
total_available_increase -= consumed_increase;
++processed_configs;
}
return track_allocations;
}
}
AudioPriorityBitrateAllocationStrategy::AudioPriorityBitrateAllocationStrategy(
std::string audio_track_id,
uint32_t sufficient_audio_bitrate)
: audio_track_id_(audio_track_id),
sufficient_audio_bitrate_(sufficient_audio_bitrate) {}
std::vector<uint32_t> AudioPriorityBitrateAllocationStrategy::AllocateBitrates(
uint32_t available_bitrate,
const ArrayView<const TrackConfig*> track_configs) {
const TrackConfig* audio_track_config = NULL;
size_t audio_config_index = 0;
uint32_t sum_min_bitrates = 0;
uint32_t sum_max_bitrates = 0;
for (const auto*& track_config : track_configs) {
sum_min_bitrates += track_config->min_bitrate_bps;
sum_max_bitrates += track_config->max_bitrate_bps;
if (track_config->track_id == audio_track_id_) {
audio_track_config = track_config;
audio_config_index = &track_config - &track_configs[0];
}
}
if (sum_max_bitrates < available_bitrate) {
// Allow non audio streams to go above max upto
// kTransmissionMaxBitrateMultiplier * max_bitrate_bps
size_t track_configs_size = track_configs.size();
std::vector<TrackConfig> increased_track_configs(track_configs_size);
std::vector<const TrackConfig*> increased_track_configs_ptr(
track_configs_size);
for (unsigned long i = 0; i < track_configs_size; i++) {
increased_track_configs[i] = (*track_configs[i]);
increased_track_configs_ptr[i] = &increased_track_configs[i];
if (track_configs[i]->track_id != audio_track_id_) {
increased_track_configs[i].max_bitrate_bps =
track_configs[i]->max_bitrate_bps *
kTransmissionMaxBitrateMultiplier;
}
}
return DistributeBitratesEvenly(increased_track_configs_ptr,
available_bitrate);
}
if (audio_track_config == nullptr) {
return DistributeBitratesEvenly(track_configs, available_bitrate);
}
auto safe_sufficient_audio_bitrate = std::min(
std::max(audio_track_config->min_bitrate_bps, sufficient_audio_bitrate_),
audio_track_config->max_bitrate_bps);
if (available_bitrate <= sum_min_bitrates) {
return SetAllBitratesToMinimum(track_configs);
} else {
if (available_bitrate <= sum_min_bitrates + safe_sufficient_audio_bitrate -
audio_track_config->min_bitrate_bps) {
std::vector<uint32_t> track_allocations =
SetAllBitratesToMinimum(track_configs);
track_allocations[audio_config_index] +=
available_bitrate - sum_min_bitrates;
return track_allocations;
} else {
// Setting audio track minimum to safe_sufficient_audio_bitrate will
// allow using DistributeBitratesEvenly to allocate at least sufficient
// bitrate for audio and the rest evenly.
TrackConfig sufficient_track_config(*track_configs[audio_config_index]);
sufficient_track_config.min_bitrate_bps = safe_sufficient_audio_bitrate;
track_configs[audio_config_index] = &sufficient_track_config;
std::vector<uint32_t> track_allocations =
DistributeBitratesEvenly(track_configs, available_bitrate);
return track_allocations;
}
}
}
} // namespace rtc