rtc_base/experiments/encoder_info_settings.cc - src/ - Git at Google

 /*
  *  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.
  */

 #include "rtc_base/experiments/encoder_info_settings.h"

 #include <stdio.h>

 #include "absl/strings/string_view.h"
 #include "api/field_trials_view.h"
 #include "rtc_base/experiments/field_trial_list.h"
 #include "rtc_base/logging.h"

 namespace webrtc {
 namespace {

 std::vector<VideoEncoder::ResolutionBitrateLimits> ToResolutionBitrateLimits(
     const std::vector<EncoderInfoSettings::BitrateLimit>& limits) {
   std::vector<VideoEncoder::ResolutionBitrateLimits> result;
   for (const auto& limit : limits) {
     result.push_back(VideoEncoder::ResolutionBitrateLimits(
         limit.frame_size_pixels, limit.min_start_bitrate_bps,
         limit.min_bitrate_bps, limit.max_bitrate_bps));
   }
   return result;
 }
 constexpr float kDefaultMinBitratebps = 30000;
 }  // namespace

 // Default bitrate limits for simulcast with one active stream:
 // {frame_size_pixels, min_start_bitrate_bps, min_bitrate_bps, max_bitrate_bps}.
 std::vector<VideoEncoder::ResolutionBitrateLimits>
 EncoderInfoSettings::GetDefaultSinglecastBitrateLimits(
     VideoCodecType codec_type) {
   if (codec_type == kVideoCodecAV1) {
     // AV1 singlecast max bitrate limits are higher than AV1 SVC max limits.
     // This is because in singlecast we normally have just one receiver, BWE is
     // known end-to-end and the encode target bitrate guarantees delivery of
     // video.
     // The min bitrate limits are not used in singlecast (used in SVC/simulcast
     // to de-/activate spatial layers) and are set to zero. Send resolution in
     // singlecast is assumed to be regulated by QP-based quality scaler.
     return {{320 * 180, 0, 0, 256000},
             {480 * 270, 176000, 0, 384000},
             {640 * 360, 256000, 0, 512000},
             {960 * 540, 384000, 0, 1024000},
             {1280 * 720, 576000, 0, 1536000}};
   }

   if (codec_type == kVideoCodecVP9) {
     // VP9 singlecast bitrate limits are derived ~directly from VP9 SVC bitrate
     // limits. The current max limits are unnecessarily too strict for
     // singlecast, where BWE is known end-to-end, especially for low
     // resolutions.
     return {{320 * 180, 0, 30000, 150000},
             {480 * 270, 120000, 30000, 300000},
             {640 * 360, 190000, 30000, 420000},
             {960 * 540, 350000, 30000, 1000000},
             {1280 * 720, 480000, 30000, 1500000}};
   }

   // VP8 and other codecs.
   return {{320 * 180, 0, 30000, 300000},
           {480 * 270, 200000, 30000, 500000},
           {640 * 360, 300000, 30000, 800000},
           {960 * 540, 500000, 30000, 1500000},
           {1280 * 720, 900000, 30000, 2500000}};
 }

 absl::optional<VideoEncoder::ResolutionBitrateLimits>
 EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution(
     VideoCodecType codec_type,
     int frame_size_pixels) {
   VideoEncoder::EncoderInfo info;
   info.resolution_bitrate_limits =
       GetDefaultSinglecastBitrateLimits(codec_type);
   return info.GetEncoderBitrateLimitsForResolution(frame_size_pixels);
 }

 // Return the suitable bitrate limits for specified resolution when qp is
 // untrusted, they are experimental values.
 // TODO(bugs.webrtc.org/12942): Maybe we need to add other codecs(VP8/VP9)
 // experimental values.
 std::vector<VideoEncoder::ResolutionBitrateLimits>
 EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsWhenQpIsUntrusted() {
   // Specific limits for H264/AVC
   return {{0 * 0, 0, 0, 0},
           {320 * 180, 0, 30000, 300000},
           {480 * 270, 300000, 30000, 500000},
           {640 * 360, 500000, 30000, 800000},
           {960 * 540, 800000, 30000, 1500000},
           {1280 * 720, 1500000, 30000, 2500000},
           {1920 * 1080, 2500000, 30000, 4000000}};
 }

 // Through linear interpolation, return the bitrate limit corresponding to the
 // specified |frame_size_pixels|.
 absl::optional<VideoEncoder::ResolutionBitrateLimits>
 EncoderInfoSettings::GetSinglecastBitrateLimitForResolutionWhenQpIsUntrusted(
     absl::optional<int> frame_size_pixels,
     const std::vector<VideoEncoder::ResolutionBitrateLimits>&
         resolution_bitrate_limits) {
   if (!frame_size_pixels.has_value() || frame_size_pixels.value() <= 0) {
     return absl::nullopt;
   }

   std::vector<VideoEncoder::ResolutionBitrateLimits> bitrate_limits =
       resolution_bitrate_limits;

   // Sort the list of bitrate limits by resolution.
   sort(bitrate_limits.begin(), bitrate_limits.end(),
        [](const VideoEncoder::ResolutionBitrateLimits& lhs,
           const VideoEncoder::ResolutionBitrateLimits& rhs) {
          return lhs.frame_size_pixels < rhs.frame_size_pixels;
        });

   if (bitrate_limits.empty()) {
     return absl::nullopt;
   }

   int interpolation_index = -1;
   for (size_t i = 0; i < bitrate_limits.size(); ++i) {
     if (bitrate_limits[i].frame_size_pixels >= frame_size_pixels.value()) {
       interpolation_index = i;
       break;
     }
   }

   // -1 means that the maximum resolution is exceeded, we will select the
   // largest data as the return result.
   if (interpolation_index == -1) {
     return *bitrate_limits.rbegin();
   }

   // If we have a matching resolution, return directly without interpolation.
   if (bitrate_limits[interpolation_index].frame_size_pixels ==
       frame_size_pixels.value()) {
     return bitrate_limits[interpolation_index];
   }

   // No matching resolution, do a linear interpolate.
   int lower_pixel_count =
       bitrate_limits[interpolation_index - 1].frame_size_pixels;
   int upper_pixel_count = bitrate_limits[interpolation_index].frame_size_pixels;
   float alpha = (frame_size_pixels.value() - lower_pixel_count) * 1.0 /
                 (upper_pixel_count - lower_pixel_count);
   int min_start_bitrate_bps = static_cast<int>(
       bitrate_limits[interpolation_index].min_start_bitrate_bps * alpha +
       bitrate_limits[interpolation_index - 1].min_start_bitrate_bps *
           (1.0 - alpha));
   int max_bitrate_bps = static_cast<int>(
       bitrate_limits[interpolation_index].max_bitrate_bps * alpha +
       bitrate_limits[interpolation_index - 1].max_bitrate_bps * (1.0 - alpha));

   if (max_bitrate_bps >= min_start_bitrate_bps) {
     return VideoEncoder::ResolutionBitrateLimits(
         frame_size_pixels.value(), min_start_bitrate_bps, kDefaultMinBitratebps,
         max_bitrate_bps);
   } else {
     RTC_LOG(LS_WARNING)
         << "BitRate interpolation calculating result is abnormal. "
         << " lower_pixel_count = " << lower_pixel_count
         << " upper_pixel_count = " << upper_pixel_count
         << " frame_size_pixels = " << frame_size_pixels.value()
         << " min_start_bitrate_bps = " << min_start_bitrate_bps
         << " min_bitrate_bps = " << kDefaultMinBitratebps
         << " max_bitrate_bps = " << max_bitrate_bps;
     return absl::nullopt;
   }
 }

 EncoderInfoSettings::EncoderInfoSettings(const FieldTrialsView& field_trials,
                                          absl::string_view name)
     : requested_resolution_alignment_("requested_resolution_alignment"),
       apply_alignment_to_all_simulcast_layers_(
           "apply_alignment_to_all_simulcast_layers") {
   FieldTrialStructList<BitrateLimit> bitrate_limits(
       {FieldTrialStructMember(
            "frame_size_pixels",
            [](BitrateLimit* b) { return &b->frame_size_pixels; }),
        FieldTrialStructMember(
            "min_start_bitrate_bps",
            [](BitrateLimit* b) { return &b->min_start_bitrate_bps; }),
        FieldTrialStructMember(
            "min_bitrate_bps",
            [](BitrateLimit* b) { return &b->min_bitrate_bps; }),
        FieldTrialStructMember(
            "max_bitrate_bps",
            [](BitrateLimit* b) { return &b->max_bitrate_bps; })},
       {});

   std::string experiment_string = field_trials.Lookup(name);
   if (experiment_string.empty()) {
     // Encoder name not found, use common string applying to all encoders.
     experiment_string = field_trials.Lookup("WebRTC-GetEncoderInfoOverride");
   }

   ParseFieldTrial({&bitrate_limits, &requested_resolution_alignment_,
                    &apply_alignment_to_all_simulcast_layers_},
                   experiment_string);

   resolution_bitrate_limits_ = ToResolutionBitrateLimits(bitrate_limits.Get());
 }

 absl::optional<uint32_t> EncoderInfoSettings::requested_resolution_alignment()
     const {
   if (requested_resolution_alignment_ &&
       requested_resolution_alignment_.Value() < 1) {
     RTC_LOG(LS_WARNING) << "Unsupported alignment value, ignored.";
     return absl::nullopt;
   }
   return requested_resolution_alignment_.GetOptional();
 }

 EncoderInfoSettings::~EncoderInfoSettings() {}

 SimulcastEncoderAdapterEncoderInfoSettings::
     SimulcastEncoderAdapterEncoderInfoSettings(
         const FieldTrialsView& field_trials)
     : EncoderInfoSettings(
           field_trials,
           "WebRTC-SimulcastEncoderAdapter-GetEncoderInfoOverride") {}

 LibvpxVp8EncoderInfoSettings::LibvpxVp8EncoderInfoSettings(
     const FieldTrialsView& field_trials)
     : EncoderInfoSettings(field_trials, "WebRTC-VP8-GetEncoderInfoOverride") {}

 LibvpxVp9EncoderInfoSettings::LibvpxVp9EncoderInfoSettings(
     const FieldTrialsView& field_trials)
     : EncoderInfoSettings(field_trials, "WebRTC-VP9-GetEncoderInfoOverride") {}

 LibaomAv1EncoderInfoSettings::LibaomAv1EncoderInfoSettings(
     const FieldTrialsView& field_trials)
     : EncoderInfoSettings(field_trials, "WebRTC-Av1-GetEncoderInfoOverride") {}

 }  // namespace webrtc
	/*
	* 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.
	*/

	#include "rtc_base/experiments/encoder_info_settings.h"

	#include <stdio.h>

	#include "absl/strings/string_view.h"
	#include "api/field_trials_view.h"
	#include "rtc_base/experiments/field_trial_list.h"
	#include "rtc_base/logging.h"

	namespace webrtc {
	namespace {

	std::vector<VideoEncoder::ResolutionBitrateLimits> ToResolutionBitrateLimits(
	const std::vector<EncoderInfoSettings::BitrateLimit>& limits) {
	std::vector<VideoEncoder::ResolutionBitrateLimits> result;
	for (const auto& limit : limits) {
	result.push_back(VideoEncoder::ResolutionBitrateLimits(
	limit.frame_size_pixels, limit.min_start_bitrate_bps,
	limit.min_bitrate_bps, limit.max_bitrate_bps));
	}
	return result;
	}
	constexpr float kDefaultMinBitratebps = 30000;
	} // namespace

	// Default bitrate limits for simulcast with one active stream:
	// {frame_size_pixels, min_start_bitrate_bps, min_bitrate_bps, max_bitrate_bps}.
	std::vector<VideoEncoder::ResolutionBitrateLimits>
	EncoderInfoSettings::GetDefaultSinglecastBitrateLimits(
	VideoCodecType codec_type) {
	if (codec_type == kVideoCodecAV1) {
	// AV1 singlecast max bitrate limits are higher than AV1 SVC max limits.
	// This is because in singlecast we normally have just one receiver, BWE is
	// known end-to-end and the encode target bitrate guarantees delivery of
	// video.
	// The min bitrate limits are not used in singlecast (used in SVC/simulcast
	// to de-/activate spatial layers) and are set to zero. Send resolution in
	// singlecast is assumed to be regulated by QP-based quality scaler.
	return {{320 * 180, 0, 0, 256000},
	{480 * 270, 176000, 0, 384000},
	{640 * 360, 256000, 0, 512000},
	{960 * 540, 384000, 0, 1024000},
	{1280 * 720, 576000, 0, 1536000}};
	}

	if (codec_type == kVideoCodecVP9) {
	// VP9 singlecast bitrate limits are derived ~directly from VP9 SVC bitrate
	// limits. The current max limits are unnecessarily too strict for
	// singlecast, where BWE is known end-to-end, especially for low
	// resolutions.
	return {{320 * 180, 0, 30000, 150000},
	{480 * 270, 120000, 30000, 300000},
	{640 * 360, 190000, 30000, 420000},
	{960 * 540, 350000, 30000, 1000000},
	{1280 * 720, 480000, 30000, 1500000}};
	}

	// VP8 and other codecs.
	return {{320 * 180, 0, 30000, 300000},
	{480 * 270, 200000, 30000, 500000},
	{640 * 360, 300000, 30000, 800000},
	{960 * 540, 500000, 30000, 1500000},
	{1280 * 720, 900000, 30000, 2500000}};
	}

	absl::optional<VideoEncoder::ResolutionBitrateLimits>
	EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution(
	VideoCodecType codec_type,
	int frame_size_pixels) {
	VideoEncoder::EncoderInfo info;
	info.resolution_bitrate_limits =
	GetDefaultSinglecastBitrateLimits(codec_type);
	return info.GetEncoderBitrateLimitsForResolution(frame_size_pixels);
	}

	// Return the suitable bitrate limits for specified resolution when qp is
	// untrusted, they are experimental values.
	// TODO(bugs.webrtc.org/12942): Maybe we need to add other codecs(VP8/VP9)
	// experimental values.
	std::vector<VideoEncoder::ResolutionBitrateLimits>
	EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsWhenQpIsUntrusted() {
	// Specific limits for H264/AVC
	return {{0 * 0, 0, 0, 0},
	{320 * 180, 0, 30000, 300000},
	{480 * 270, 300000, 30000, 500000},
	{640 * 360, 500000, 30000, 800000},
	{960 * 540, 800000, 30000, 1500000},
	{1280 * 720, 1500000, 30000, 2500000},
	{1920 * 1080, 2500000, 30000, 4000000}};
	}

	// Through linear interpolation, return the bitrate limit corresponding to the
	// specified \|frame_size_pixels\|.
	absl::optional<VideoEncoder::ResolutionBitrateLimits>
	EncoderInfoSettings::GetSinglecastBitrateLimitForResolutionWhenQpIsUntrusted(
	absl::optional<int> frame_size_pixels,
	const std::vector<VideoEncoder::ResolutionBitrateLimits>&
	resolution_bitrate_limits) {
	if (!frame_size_pixels.has_value() \|\| frame_size_pixels.value() <= 0) {
	return absl::nullopt;
	}

	std::vector<VideoEncoder::ResolutionBitrateLimits> bitrate_limits =
	resolution_bitrate_limits;

	// Sort the list of bitrate limits by resolution.
	sort(bitrate_limits.begin(), bitrate_limits.end(),
	[](const VideoEncoder::ResolutionBitrateLimits& lhs,
	const VideoEncoder::ResolutionBitrateLimits& rhs) {
	return lhs.frame_size_pixels < rhs.frame_size_pixels;
	});

	if (bitrate_limits.empty()) {
	return absl::nullopt;
	}

	int interpolation_index = -1;
	for (size_t i = 0; i < bitrate_limits.size(); ++i) {
	if (bitrate_limits[i].frame_size_pixels >= frame_size_pixels.value()) {
	interpolation_index = i;
	break;
	}
	}

	// -1 means that the maximum resolution is exceeded, we will select the
	// largest data as the return result.
	if (interpolation_index == -1) {
	return *bitrate_limits.rbegin();
	}

	// If we have a matching resolution, return directly without interpolation.
	if (bitrate_limits[interpolation_index].frame_size_pixels ==
	frame_size_pixels.value()) {
	return bitrate_limits[interpolation_index];
	}

	// No matching resolution, do a linear interpolate.
	int lower_pixel_count =
	bitrate_limits[interpolation_index - 1].frame_size_pixels;
	int upper_pixel_count = bitrate_limits[interpolation_index].frame_size_pixels;
	float alpha = (frame_size_pixels.value() - lower_pixel_count) * 1.0 /
	(upper_pixel_count - lower_pixel_count);
	int min_start_bitrate_bps = static_cast<int>(
	bitrate_limits[interpolation_index].min_start_bitrate_bps * alpha +
	bitrate_limits[interpolation_index - 1].min_start_bitrate_bps *
	(1.0 - alpha));
	int max_bitrate_bps = static_cast<int>(
	bitrate_limits[interpolation_index].max_bitrate_bps * alpha +
	bitrate_limits[interpolation_index - 1].max_bitrate_bps * (1.0 - alpha));

	if (max_bitrate_bps >= min_start_bitrate_bps) {
	return VideoEncoder::ResolutionBitrateLimits(
	frame_size_pixels.value(), min_start_bitrate_bps, kDefaultMinBitratebps,
	max_bitrate_bps);
	} else {
	RTC_LOG(LS_WARNING)
	<< "BitRate interpolation calculating result is abnormal. "
	<< " lower_pixel_count = " << lower_pixel_count
	<< " upper_pixel_count = " << upper_pixel_count
	<< " frame_size_pixels = " << frame_size_pixels.value()
	<< " min_start_bitrate_bps = " << min_start_bitrate_bps
	<< " min_bitrate_bps = " << kDefaultMinBitratebps
	<< " max_bitrate_bps = " << max_bitrate_bps;
	return absl::nullopt;
	}
	}

	EncoderInfoSettings::EncoderInfoSettings(const FieldTrialsView& field_trials,
	absl::string_view name)
	: requested_resolution_alignment_("requested_resolution_alignment"),
	apply_alignment_to_all_simulcast_layers_(
	"apply_alignment_to_all_simulcast_layers") {
	FieldTrialStructList<BitrateLimit> bitrate_limits(
	{FieldTrialStructMember(
	"frame_size_pixels",
	[](BitrateLimit* b) { return &b->frame_size_pixels; }),
	FieldTrialStructMember(
	"min_start_bitrate_bps",
	[](BitrateLimit* b) { return &b->min_start_bitrate_bps; }),
	FieldTrialStructMember(
	"min_bitrate_bps",
	[](BitrateLimit* b) { return &b->min_bitrate_bps; }),
	FieldTrialStructMember(
	"max_bitrate_bps",
	[](BitrateLimit* b) { return &b->max_bitrate_bps; })},
	{});

	std::string experiment_string = field_trials.Lookup(name);
	if (experiment_string.empty()) {
	// Encoder name not found, use common string applying to all encoders.
	experiment_string = field_trials.Lookup("WebRTC-GetEncoderInfoOverride");
	}

	ParseFieldTrial({&bitrate_limits, &requested_resolution_alignment_,
	&apply_alignment_to_all_simulcast_layers_},
	experiment_string);

	resolution_bitrate_limits_ = ToResolutionBitrateLimits(bitrate_limits.Get());
	}

	absl::optional<uint32_t> EncoderInfoSettings::requested_resolution_alignment()
	const {
	if (requested_resolution_alignment_ &&
	requested_resolution_alignment_.Value() < 1) {
	RTC_LOG(LS_WARNING) << "Unsupported alignment value, ignored.";
	return absl::nullopt;
	}
	return requested_resolution_alignment_.GetOptional();
	}

	EncoderInfoSettings::~EncoderInfoSettings() {}

	SimulcastEncoderAdapterEncoderInfoSettings::
	SimulcastEncoderAdapterEncoderInfoSettings(
	const FieldTrialsView& field_trials)
	: EncoderInfoSettings(
	field_trials,
	"WebRTC-SimulcastEncoderAdapter-GetEncoderInfoOverride") {}

	LibvpxVp8EncoderInfoSettings::LibvpxVp8EncoderInfoSettings(
	const FieldTrialsView& field_trials)
	: EncoderInfoSettings(field_trials, "WebRTC-VP8-GetEncoderInfoOverride") {}

	LibvpxVp9EncoderInfoSettings::LibvpxVp9EncoderInfoSettings(
	const FieldTrialsView& field_trials)
	: EncoderInfoSettings(field_trials, "WebRTC-VP9-GetEncoderInfoOverride") {}

	LibaomAv1EncoderInfoSettings::LibaomAv1EncoderInfoSettings(
	const FieldTrialsView& field_trials)
	: EncoderInfoSettings(field_trials, "WebRTC-Av1-GetEncoderInfoOverride") {}

	} // namespace webrtc