video/adaptation/bitrate_constraint_unittest.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 "video/adaptation/bitrate_constraint.h"

 #include <utility>
 #include <vector>

 #include "api/video_codecs/scalability_mode.h"
 #include "api/video_codecs/video_encoder.h"
 #include "call/adaptation/encoder_settings.h"
 #include "call/adaptation/test/fake_frame_rate_provider.h"
 #include "call/adaptation/video_source_restrictions.h"
 #include "call/adaptation/video_stream_input_state_provider.h"
 #include "test/gtest.h"

 namespace webrtc {

 namespace {
 const VideoSourceRestrictions k180p{/*max_pixels_per_frame=*/320 * 180,
                                     /*target_pixels_per_frame=*/320 * 180,
                                     /*max_frame_rate=*/30};
 const VideoSourceRestrictions k360p{/*max_pixels_per_frame=*/640 * 360,
                                     /*target_pixels_per_frame=*/640 * 360,
                                     /*max_frame_rate=*/30};
 const VideoSourceRestrictions k720p{/*max_pixels_per_frame=*/1280 * 720,
                                     /*target_pixels_per_frame=*/1280 * 720,
                                     /*max_frame_rate=*/30};

 struct TestParams {
   bool active;
   absl::optional<ScalabilityMode> scalability_mode;
 };

 void FillCodecConfig(VideoCodec* video_codec,
                      VideoEncoderConfig* encoder_config,
                      int width_px,
                      int height_px,
                      const std::vector<TestParams>& params,
                      bool svc) {
   size_t num_layers = params.size();
   video_codec->codecType = kVideoCodecVP8;
   video_codec->numberOfSimulcastStreams = svc ? 1 : num_layers;

   encoder_config->number_of_streams = svc ? 1 : num_layers;
   encoder_config->simulcast_layers.resize(num_layers);

   for (size_t layer_idx = 0; layer_idx < num_layers; ++layer_idx) {
     int layer_width_px = width_px >> (num_layers - 1 - layer_idx);
     int layer_height_px = height_px >> (num_layers - 1 - layer_idx);

     if (params[layer_idx].scalability_mode)
       video_codec->SetScalabilityMode(*params[layer_idx].scalability_mode);
     video_codec->simulcastStream[layer_idx].active = params[layer_idx].active;
     video_codec->simulcastStream[layer_idx].width = layer_width_px;
     video_codec->simulcastStream[layer_idx].height = layer_height_px;

     encoder_config->simulcast_layers[layer_idx].scalability_mode =
         params[layer_idx].scalability_mode;
     encoder_config->simulcast_layers[layer_idx].active =
         params[layer_idx].active;
     encoder_config->simulcast_layers[layer_idx].width = layer_width_px;
     encoder_config->simulcast_layers[layer_idx].height = layer_height_px;
   }
 }

 constexpr int kStartBitrateBps360p = 500000;
 constexpr int kStartBitrateBps720p = 1000000;

 VideoEncoder::EncoderInfo MakeEncoderInfo() {
   VideoEncoder::EncoderInfo encoder_info;
   encoder_info.resolution_bitrate_limits = {
       {640 * 360, kStartBitrateBps360p, 0, 5000000},
       {1280 * 720, kStartBitrateBps720p, 0, 5000000},
       {1920 * 1080, 2000000, 0, 5000000}};
   return encoder_info;
 }

 }  // namespace

 class BitrateConstraintTest : public ::testing::Test {
  public:
   BitrateConstraintTest()
       : frame_rate_provider_(), input_state_provider_(&frame_rate_provider_) {}

  protected:
   void OnEncoderSettingsUpdated(int width_px,
                                 int height_px,
                                 const std::vector<TestParams>& params,
                                 bool svc = false) {
     VideoCodec video_codec;
     VideoEncoderConfig encoder_config;
     FillCodecConfig(&video_codec, &encoder_config, width_px, height_px, params,
                     svc);

     EncoderSettings encoder_settings(MakeEncoderInfo(),
                                      std::move(encoder_config), video_codec);
     bitrate_constraint_.OnEncoderSettingsUpdated(encoder_settings);
     input_state_provider_.OnEncoderSettingsChanged(encoder_settings);
   }

   FakeFrameRateProvider frame_rate_provider_;
   VideoStreamInputStateProvider input_state_provider_;
   BitrateConstraint bitrate_constraint_;
 };

 TEST_F(BitrateConstraintTest, AdaptUpAllowedAtSinglecastIfBitrateIsEnough) {
   OnEncoderSettingsUpdated(/*width_px=*/640, /*height_px=*/360,
                            {{.active = true}});

   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpDisallowedAtSinglecastIfBitrateIsNotEnough) {
   OnEncoderSettingsUpdated(/*width_px=*/640, /*height_px=*/360,
                            {{.active = true}});

   // 1 bps less than needed for 720p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

   EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpAllowedAtSinglecastIfBitrateIsEnoughForOneSpatialLayer) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL1T1}});

   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpDisallowedAtSinglecastIfBitrateIsNotEnoughForOneSpatialLayer) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL1T1}});

   // 1 bps less than needed for 720p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

   EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpAllowedAtSinglecastIfBitrateIsNotEnoughForMultipleSpatialLayers) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL2T1}});

   // 1 bps less than needed for 720p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpAllowedAtSinglecastUpperLayerActiveIfBitrateIsEnough) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = false, .scalability_mode = ScalabilityMode::kL2T1},
        {.active = true}});

   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpDisallowedAtSinglecastUpperLayerActiveIfBitrateIsNotEnough) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = false, .scalability_mode = ScalabilityMode::kL2T1},
        {.active = true}});

   // 1 bps less than needed for 720p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

   EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest, AdaptUpAllowedLowestActiveIfBitrateIsNotEnough) {
   OnEncoderSettingsUpdated(/*width_px=*/640, /*height_px=*/360,
                            {{.active = true}, {.active = false}});

   // 1 bps less than needed for 360p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k180p,
       /*restrictions_after=*/k360p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpAllowedLowestActiveIfBitrateIsNotEnoughForOneSpatialLayer) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL1T2},
        {.active = false}});

   // 1 bps less than needed for 360p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k180p,
       /*restrictions_after=*/k360p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpAllowedLowestActiveIfBitrateIsEnoughForOneSpatialLayerSvc) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL1T1},
        {.active = false}},
       /*svc=*/true);

   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k180p,
       /*restrictions_after=*/k360p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpDisallowedLowestActiveIfBitrateIsNotEnoughForOneSpatialLayerSvc) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL1T1},
        {.active = false}},
       /*svc=*/true);

   // 1 bps less than needed for 360p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

   EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k180p,
       /*restrictions_after=*/k360p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpAllowedLowestActiveIfBitrateIsNotEnoughForTwoSpatialLayersSvc) {
   OnEncoderSettingsUpdated(
       /*width_px=*/640, /*height_px=*/360,
       {{.active = true, .scalability_mode = ScalabilityMode::kL2T1},
        {.active = false}},
       /*svc=*/true);

   // 1 bps less than needed for 360p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k180p,
       /*restrictions_after=*/k360p));
 }

 TEST_F(BitrateConstraintTest, AdaptUpAllowedAtSimulcastIfBitrateIsNotEnough) {
   OnEncoderSettingsUpdated(/*width_px=*/640, /*height_px=*/360,
                            {{.active = true}, {.active = true}});

   // 1 bps less than needed for 720p.
   bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k720p));
 }

 TEST_F(BitrateConstraintTest,
        AdaptUpInFpsAllowedAtNoResolutionIncreaseIfBitrateIsNotEnough) {
   OnEncoderSettingsUpdated(/*width_px=*/640, /*height_px=*/360,
                            {{.active = true}});

   bitrate_constraint_.OnEncoderTargetBitrateUpdated(1);

   EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
       input_state_provider_.InputState(),
       /*restrictions_before=*/k360p,
       /*restrictions_after=*/k360p));
 }

 }  // 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 "video/adaptation/bitrate_constraint.h"

	#include <utility>
	#include <vector>

	#include "api/video_codecs/scalability_mode.h"
	#include "api/video_codecs/video_encoder.h"
	#include "call/adaptation/encoder_settings.h"
	#include "call/adaptation/test/fake_frame_rate_provider.h"
	#include "call/adaptation/video_source_restrictions.h"
	#include "call/adaptation/video_stream_input_state_provider.h"
	#include "test/gtest.h"

	namespace webrtc {

	namespace {
	const VideoSourceRestrictions k180p{/max_pixels_per_frame=/320 * 180,
	/target_pixels_per_frame=/320 * 180,
	/max_frame_rate=/30};
	const VideoSourceRestrictions k360p{/max_pixels_per_frame=/640 * 360,
	/target_pixels_per_frame=/640 * 360,
	/max_frame_rate=/30};
	const VideoSourceRestrictions k720p{/max_pixels_per_frame=/1280 * 720,
	/target_pixels_per_frame=/1280 * 720,
	/max_frame_rate=/30};

	struct TestParams {
	bool active;
	absl::optional<ScalabilityMode> scalability_mode;
	};

	void FillCodecConfig(VideoCodec* video_codec,
	VideoEncoderConfig* encoder_config,
	int width_px,
	int height_px,
	const std::vector<TestParams>& params,
	bool svc) {
	size_t num_layers = params.size();
	video_codec->codecType = kVideoCodecVP8;
	video_codec->numberOfSimulcastStreams = svc ? 1 : num_layers;

	encoder_config->number_of_streams = svc ? 1 : num_layers;
	encoder_config->simulcast_layers.resize(num_layers);

	for (size_t layer_idx = 0; layer_idx < num_layers; ++layer_idx) {
	int layer_width_px = width_px >> (num_layers - 1 - layer_idx);
	int layer_height_px = height_px >> (num_layers - 1 - layer_idx);

	if (params[layer_idx].scalability_mode)
	video_codec->SetScalabilityMode(*params[layer_idx].scalability_mode);
	video_codec->simulcastStream[layer_idx].active = params[layer_idx].active;
	video_codec->simulcastStream[layer_idx].width = layer_width_px;
	video_codec->simulcastStream[layer_idx].height = layer_height_px;

	encoder_config->simulcast_layers[layer_idx].scalability_mode =
	params[layer_idx].scalability_mode;
	encoder_config->simulcast_layers[layer_idx].active =
	params[layer_idx].active;
	encoder_config->simulcast_layers[layer_idx].width = layer_width_px;
	encoder_config->simulcast_layers[layer_idx].height = layer_height_px;
	}
	}

	constexpr int kStartBitrateBps360p = 500000;
	constexpr int kStartBitrateBps720p = 1000000;

	VideoEncoder::EncoderInfo MakeEncoderInfo() {
	VideoEncoder::EncoderInfo encoder_info;
	encoder_info.resolution_bitrate_limits = {
	{640 * 360, kStartBitrateBps360p, 0, 5000000},
	{1280 * 720, kStartBitrateBps720p, 0, 5000000},
	{1920 * 1080, 2000000, 0, 5000000}};
	return encoder_info;
	}

	} // namespace

	class BitrateConstraintTest : public ::testing::Test {
	public:
	BitrateConstraintTest()
	: frame_rate_provider_(), input_state_provider_(&frame_rate_provider_) {}

	protected:
	void OnEncoderSettingsUpdated(int width_px,
	int height_px,
	const std::vector<TestParams>& params,
	bool svc = false) {
	VideoCodec video_codec;
	VideoEncoderConfig encoder_config;
	FillCodecConfig(&video_codec, &encoder_config, width_px, height_px, params,
	svc);

	EncoderSettings encoder_settings(MakeEncoderInfo(),
	std::move(encoder_config), video_codec);
	bitrate_constraint_.OnEncoderSettingsUpdated(encoder_settings);
	input_state_provider_.OnEncoderSettingsChanged(encoder_settings);
	}

	FakeFrameRateProvider frame_rate_provider_;
	VideoStreamInputStateProvider input_state_provider_;
	BitrateConstraint bitrate_constraint_;
	};

	TEST_F(BitrateConstraintTest, AdaptUpAllowedAtSinglecastIfBitrateIsEnough) {
	OnEncoderSettingsUpdated(/width_px=/640, /height_px=/360,
	{{.active = true}});

	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpDisallowedAtSinglecastIfBitrateIsNotEnough) {
	OnEncoderSettingsUpdated(/width_px=/640, /height_px=/360,
	{{.active = true}});

	// 1 bps less than needed for 720p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

	EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpAllowedAtSinglecastIfBitrateIsEnoughForOneSpatialLayer) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL1T1}});

	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpDisallowedAtSinglecastIfBitrateIsNotEnoughForOneSpatialLayer) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL1T1}});

	// 1 bps less than needed for 720p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

	EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpAllowedAtSinglecastIfBitrateIsNotEnoughForMultipleSpatialLayers) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL2T1}});

	// 1 bps less than needed for 720p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpAllowedAtSinglecastUpperLayerActiveIfBitrateIsEnough) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = false, .scalability_mode = ScalabilityMode::kL2T1},
	{.active = true}});

	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpDisallowedAtSinglecastUpperLayerActiveIfBitrateIsNotEnough) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = false, .scalability_mode = ScalabilityMode::kL2T1},
	{.active = true}});

	// 1 bps less than needed for 720p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

	EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest, AdaptUpAllowedLowestActiveIfBitrateIsNotEnough) {
	OnEncoderSettingsUpdated(/width_px=/640, /height_px=/360,
	{{.active = true}, {.active = false}});

	// 1 bps less than needed for 360p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k180p,
	/restrictions_after=/k360p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpAllowedLowestActiveIfBitrateIsNotEnoughForOneSpatialLayer) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL1T2},
	{.active = false}});

	// 1 bps less than needed for 360p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k180p,
	/restrictions_after=/k360p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpAllowedLowestActiveIfBitrateIsEnoughForOneSpatialLayerSvc) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL1T1},
	{.active = false}},
	/svc=/true);

	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k180p,
	/restrictions_after=/k360p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpDisallowedLowestActiveIfBitrateIsNotEnoughForOneSpatialLayerSvc) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL1T1},
	{.active = false}},
	/svc=/true);

	// 1 bps less than needed for 360p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

	EXPECT_FALSE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k180p,
	/restrictions_after=/k360p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpAllowedLowestActiveIfBitrateIsNotEnoughForTwoSpatialLayersSvc) {
	OnEncoderSettingsUpdated(
	/width_px=/640, /height_px=/360,
	{{.active = true, .scalability_mode = ScalabilityMode::kL2T1},
	{.active = false}},
	/svc=/true);

	// 1 bps less than needed for 360p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps360p - 1);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k180p,
	/restrictions_after=/k360p));
	}

	TEST_F(BitrateConstraintTest, AdaptUpAllowedAtSimulcastIfBitrateIsNotEnough) {
	OnEncoderSettingsUpdated(/width_px=/640, /height_px=/360,
	{{.active = true}, {.active = true}});

	// 1 bps less than needed for 720p.
	bitrate_constraint_.OnEncoderTargetBitrateUpdated(kStartBitrateBps720p - 1);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k720p));
	}

	TEST_F(BitrateConstraintTest,
	AdaptUpInFpsAllowedAtNoResolutionIncreaseIfBitrateIsNotEnough) {
	OnEncoderSettingsUpdated(/width_px=/640, /height_px=/360,
	{{.active = true}});

	bitrate_constraint_.OnEncoderTargetBitrateUpdated(1);

	EXPECT_TRUE(bitrate_constraint_.IsAdaptationUpAllowed(
	input_state_provider_.InputState(),
	/restrictions_before=/k360p,
	/restrictions_after=/k360p));
	}

	} // namespace webrtc