call/adaptation/resource_adaptation_processor.cc - src - Git at Google

 /*
  *  Copyright 2020 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/adaptation/resource_adaptation_processor.h"

 #include <algorithm>
 #include <string>
 #include <utility>

 #include "absl/algorithm/container.h"
 #include "api/sequence_checker.h"
 #include "api/video/video_adaptation_counters.h"
 #include "call/adaptation/video_stream_adapter.h"
 #include "rtc_base/logging.h"
 #include "rtc_base/ref_counted_object.h"
 #include "rtc_base/strings/string_builder.h"
 #include "rtc_base/task_utils/to_queued_task.h"

 namespace webrtc {

 ResourceAdaptationProcessor::ResourceListenerDelegate::ResourceListenerDelegate(
     ResourceAdaptationProcessor* processor)
     : task_queue_(nullptr), processor_(processor) {}

 void ResourceAdaptationProcessor::ResourceListenerDelegate::SetTaskQueue(
     TaskQueueBase* task_queue) {
   RTC_DCHECK(!task_queue_);
   RTC_DCHECK(task_queue);
   task_queue_ = task_queue;
   RTC_DCHECK_RUN_ON(task_queue_);
 }

 void ResourceAdaptationProcessor::ResourceListenerDelegate::
     OnProcessorDestroyed() {
   RTC_DCHECK_RUN_ON(task_queue_);
   processor_ = nullptr;
 }

 void ResourceAdaptationProcessor::ResourceListenerDelegate::
     OnResourceUsageStateMeasured(rtc::scoped_refptr<Resource> resource,
                                  ResourceUsageState usage_state) {
   if (!task_queue_->IsCurrent()) {
     task_queue_->PostTask(ToQueuedTask(
         [this_ref = rtc::scoped_refptr<ResourceListenerDelegate>(this),
          resource, usage_state] {
           this_ref->OnResourceUsageStateMeasured(resource, usage_state);
         }));
     return;
   }
   RTC_DCHECK_RUN_ON(task_queue_);
   if (processor_) {
     processor_->OnResourceUsageStateMeasured(resource, usage_state);
   }
 }

 ResourceAdaptationProcessor::MitigationResultAndLogMessage::
     MitigationResultAndLogMessage()
     : result(MitigationResult::kAdaptationApplied), message() {}

 ResourceAdaptationProcessor::MitigationResultAndLogMessage::
     MitigationResultAndLogMessage(MitigationResult result, std::string message)
     : result(result), message(std::move(message)) {}

 ResourceAdaptationProcessor::ResourceAdaptationProcessor(
     VideoStreamAdapter* stream_adapter)
     : task_queue_(nullptr),
       resource_listener_delegate_(
           rtc::make_ref_counted<ResourceListenerDelegate>(this)),
       resources_(),
       stream_adapter_(stream_adapter),
       last_reported_source_restrictions_(),
       previous_mitigation_results_() {
   RTC_DCHECK(stream_adapter_);
 }

 ResourceAdaptationProcessor::~ResourceAdaptationProcessor() {
   RTC_DCHECK_RUN_ON(task_queue_);
   RTC_DCHECK(resources_.empty())
       << "There are resource(s) attached to a ResourceAdaptationProcessor "
       << "being destroyed.";
   stream_adapter_->RemoveRestrictionsListener(this);
   resource_listener_delegate_->OnProcessorDestroyed();
 }

 void ResourceAdaptationProcessor::SetTaskQueue(TaskQueueBase* task_queue) {
   RTC_DCHECK(!task_queue_);
   RTC_DCHECK(task_queue);
   task_queue_ = task_queue;
   resource_listener_delegate_->SetTaskQueue(task_queue);
   RTC_DCHECK_RUN_ON(task_queue_);
   // Now that we have the queue we can attach as adaptation listener.
   stream_adapter_->AddRestrictionsListener(this);
 }

 void ResourceAdaptationProcessor::AddResourceLimitationsListener(
     ResourceLimitationsListener* limitations_listener) {
   RTC_DCHECK_RUN_ON(task_queue_);
   RTC_DCHECK(std::find(resource_limitations_listeners_.begin(),
                        resource_limitations_listeners_.end(),
                        limitations_listener) ==
              resource_limitations_listeners_.end());
   resource_limitations_listeners_.push_back(limitations_listener);
 }

 void ResourceAdaptationProcessor::RemoveResourceLimitationsListener(
     ResourceLimitationsListener* limitations_listener) {
   RTC_DCHECK_RUN_ON(task_queue_);
   auto it =
       std::find(resource_limitations_listeners_.begin(),
                 resource_limitations_listeners_.end(), limitations_listener);
   RTC_DCHECK(it != resource_limitations_listeners_.end());
   resource_limitations_listeners_.erase(it);
 }

 void ResourceAdaptationProcessor::AddResource(
     rtc::scoped_refptr<Resource> resource) {
   RTC_DCHECK(resource);
   {
     MutexLock crit(&resources_lock_);
     RTC_DCHECK(absl::c_find(resources_, resource) == resources_.end())
         << "Resource \"" << resource->Name() << "\" was already registered.";
     resources_.push_back(resource);
   }
   resource->SetResourceListener(resource_listener_delegate_);
   RTC_LOG(INFO) << "Registered resource \"" << resource->Name() << "\".";
 }

 std::vector<rtc::scoped_refptr<Resource>>
 ResourceAdaptationProcessor::GetResources() const {
   MutexLock crit(&resources_lock_);
   return resources_;
 }

 void ResourceAdaptationProcessor::RemoveResource(
     rtc::scoped_refptr<Resource> resource) {
   RTC_DCHECK(resource);
   RTC_LOG(INFO) << "Removing resource \"" << resource->Name() << "\".";
   resource->SetResourceListener(nullptr);
   {
     MutexLock crit(&resources_lock_);
     auto it = absl::c_find(resources_, resource);
     RTC_DCHECK(it != resources_.end()) << "Resource \"" << resource->Name()
                                        << "\" was not a registered resource.";
     resources_.erase(it);
   }
   RemoveLimitationsImposedByResource(std::move(resource));
 }

 void ResourceAdaptationProcessor::RemoveLimitationsImposedByResource(
     rtc::scoped_refptr<Resource> resource) {
   if (!task_queue_->IsCurrent()) {
     task_queue_->PostTask(ToQueuedTask(
         [this, resource]() { RemoveLimitationsImposedByResource(resource); }));
     return;
   }
   RTC_DCHECK_RUN_ON(task_queue_);
   auto resource_adaptation_limits =
       adaptation_limits_by_resources_.find(resource);
   if (resource_adaptation_limits != adaptation_limits_by_resources_.end()) {
     VideoStreamAdapter::RestrictionsWithCounters adaptation_limits =
         resource_adaptation_limits->second;
     adaptation_limits_by_resources_.erase(resource_adaptation_limits);
     if (adaptation_limits_by_resources_.empty()) {
       // Only the resource being removed was adapted so clear restrictions.
       stream_adapter_->ClearRestrictions();
       return;
     }

     VideoStreamAdapter::RestrictionsWithCounters most_limited =
         FindMostLimitedResources().second;

     if (adaptation_limits.counters.Total() <= most_limited.counters.Total()) {
       // The removed limitations were less limited than the most limited
       // resource. Don't change the current restrictions.
       return;
     }

     // Apply the new most limited resource as the next restrictions.
     Adaptation adapt_to = stream_adapter_->GetAdaptationTo(
         most_limited.counters, most_limited.restrictions);
     RTC_DCHECK_EQ(adapt_to.status(), Adaptation::Status::kValid);
     stream_adapter_->ApplyAdaptation(adapt_to, nullptr);

     RTC_LOG(INFO) << "Most limited resource removed. Restoring restrictions to "
                      "next most limited restrictions: "
                   << most_limited.restrictions.ToString() << " with counters "
                   << most_limited.counters.ToString();
   }
 }

 void ResourceAdaptationProcessor::OnResourceUsageStateMeasured(
     rtc::scoped_refptr<Resource> resource,
     ResourceUsageState usage_state) {
   RTC_DCHECK_RUN_ON(task_queue_);
   RTC_DCHECK(resource);
   // |resource| could have been removed after signalling.
   {
     MutexLock crit(&resources_lock_);
     if (absl::c_find(resources_, resource) == resources_.end()) {
       RTC_LOG(INFO) << "Ignoring signal from removed resource \""
                     << resource->Name() << "\".";
       return;
     }
   }
   MitigationResultAndLogMessage result_and_message;
   switch (usage_state) {
     case ResourceUsageState::kOveruse:
       result_and_message = OnResourceOveruse(resource);
       break;
     case ResourceUsageState::kUnderuse:
       result_and_message = OnResourceUnderuse(resource);
       break;
   }
   // Maybe log the result of the operation.
   auto it = previous_mitigation_results_.find(resource.get());
   if (it != previous_mitigation_results_.end() &&
       it->second == result_and_message.result) {
     // This resource has previously reported the same result and we haven't
     // successfully adapted since - don't log to avoid spam.
     return;
   }
   RTC_LOG(INFO) << "Resource \"" << resource->Name() << "\" signalled "
                 << ResourceUsageStateToString(usage_state) << ". "
                 << result_and_message.message;
   if (result_and_message.result == MitigationResult::kAdaptationApplied) {
     previous_mitigation_results_.clear();
   } else {
     previous_mitigation_results_.insert(
         std::make_pair(resource.get(), result_and_message.result));
   }
 }

 ResourceAdaptationProcessor::MitigationResultAndLogMessage
 ResourceAdaptationProcessor::OnResourceUnderuse(
     rtc::scoped_refptr<Resource> reason_resource) {
   RTC_DCHECK_RUN_ON(task_queue_);
   // How can this stream be adapted up?
   Adaptation adaptation = stream_adapter_->GetAdaptationUp();
   if (adaptation.status() != Adaptation::Status::kValid) {
     rtc::StringBuilder message;
     message << "Not adapting up because VideoStreamAdapter returned "
             << Adaptation::StatusToString(adaptation.status());
     return MitigationResultAndLogMessage(MitigationResult::kRejectedByAdapter,
                                          message.Release());
   }
   // Check that resource is most limited.
   std::vector<rtc::scoped_refptr<Resource>> most_limited_resources;
   VideoStreamAdapter::RestrictionsWithCounters most_limited_restrictions;
   std::tie(most_limited_resources, most_limited_restrictions) =
       FindMostLimitedResources();

   // If the most restricted resource is less limited than current restrictions
   // then proceed with adapting up.
   if (!most_limited_resources.empty() &&
       most_limited_restrictions.counters.Total() >=
           stream_adapter_->adaptation_counters().Total()) {
     // If |reason_resource| is not one of the most limiting resources then abort
     // adaptation.
     if (absl::c_find(most_limited_resources, reason_resource) ==
         most_limited_resources.end()) {
       rtc::StringBuilder message;
       message << "Resource \"" << reason_resource->Name()
               << "\" was not the most limited resource.";
       return MitigationResultAndLogMessage(
           MitigationResult::kNotMostLimitedResource, message.Release());
     }

     if (most_limited_resources.size() > 1) {
       // If there are multiple most limited resources, all must signal underuse
       // before the adaptation is applied.
       UpdateResourceLimitations(reason_resource, adaptation.restrictions(),
                                 adaptation.counters());
       rtc::StringBuilder message;
       message << "Resource \"" << reason_resource->Name()
               << "\" was not the only most limited resource.";
       return MitigationResultAndLogMessage(
           MitigationResult::kSharedMostLimitedResource, message.Release());
     }
   }
   // Apply adaptation.
   stream_adapter_->ApplyAdaptation(adaptation, reason_resource);
   rtc::StringBuilder message;
   message << "Adapted up successfully. Unfiltered adaptations: "
           << stream_adapter_->adaptation_counters().ToString();
   return MitigationResultAndLogMessage(MitigationResult::kAdaptationApplied,
                                        message.Release());
 }

 ResourceAdaptationProcessor::MitigationResultAndLogMessage
 ResourceAdaptationProcessor::OnResourceOveruse(
     rtc::scoped_refptr<Resource> reason_resource) {
   RTC_DCHECK_RUN_ON(task_queue_);
   // How can this stream be adapted up?
   Adaptation adaptation = stream_adapter_->GetAdaptationDown();
   if (adaptation.status() == Adaptation::Status::kLimitReached) {
     // Add resource as most limited.
     VideoStreamAdapter::RestrictionsWithCounters restrictions;
     std::tie(std::ignore, restrictions) = FindMostLimitedResources();
     UpdateResourceLimitations(reason_resource, restrictions.restrictions,
                               restrictions.counters);
   }
   if (adaptation.status() != Adaptation::Status::kValid) {
     rtc::StringBuilder message;
     message << "Not adapting down because VideoStreamAdapter returned "
             << Adaptation::StatusToString(adaptation.status());
     return MitigationResultAndLogMessage(MitigationResult::kRejectedByAdapter,
                                          message.Release());
   }
   // Apply adaptation.
   UpdateResourceLimitations(reason_resource, adaptation.restrictions(),
                             adaptation.counters());
   stream_adapter_->ApplyAdaptation(adaptation, reason_resource);
   rtc::StringBuilder message;
   message << "Adapted down successfully. Unfiltered adaptations: "
           << stream_adapter_->adaptation_counters().ToString();
   return MitigationResultAndLogMessage(MitigationResult::kAdaptationApplied,
                                        message.Release());
 }

 std::pair<std::vector<rtc::scoped_refptr<Resource>>,
           VideoStreamAdapter::RestrictionsWithCounters>
 ResourceAdaptationProcessor::FindMostLimitedResources() const {
   std::vector<rtc::scoped_refptr<Resource>> most_limited_resources;
   VideoStreamAdapter::RestrictionsWithCounters most_limited_restrictions{
       VideoSourceRestrictions(), VideoAdaptationCounters()};

   for (const auto& resource_and_adaptation_limit_ :
        adaptation_limits_by_resources_) {
     const auto& restrictions_with_counters =
         resource_and_adaptation_limit_.second;
     if (restrictions_with_counters.counters.Total() >
         most_limited_restrictions.counters.Total()) {
       most_limited_restrictions = restrictions_with_counters;
       most_limited_resources.clear();
       most_limited_resources.push_back(resource_and_adaptation_limit_.first);
     } else if (most_limited_restrictions.counters ==
                restrictions_with_counters.counters) {
       most_limited_resources.push_back(resource_and_adaptation_limit_.first);
     }
   }
   return std::make_pair(std::move(most_limited_resources),
                         most_limited_restrictions);
 }

 void ResourceAdaptationProcessor::UpdateResourceLimitations(
     rtc::scoped_refptr<Resource> reason_resource,
     const VideoSourceRestrictions& restrictions,
     const VideoAdaptationCounters& counters) {
   auto& adaptation_limits = adaptation_limits_by_resources_[reason_resource];
   if (adaptation_limits.restrictions == restrictions &&
       adaptation_limits.counters == counters) {
     return;
   }
   adaptation_limits = {restrictions, counters};

   std::map<rtc::scoped_refptr<Resource>, VideoAdaptationCounters> limitations;
   for (const auto& p : adaptation_limits_by_resources_) {
     limitations.insert(std::make_pair(p.first, p.second.counters));
   }
   for (auto limitations_listener : resource_limitations_listeners_) {
     limitations_listener->OnResourceLimitationChanged(reason_resource,
                                                       limitations);
   }
 }

 void ResourceAdaptationProcessor::OnVideoSourceRestrictionsUpdated(
     VideoSourceRestrictions restrictions,
     const VideoAdaptationCounters& adaptation_counters,
     rtc::scoped_refptr<Resource> reason,
     const VideoSourceRestrictions& unfiltered_restrictions) {
   RTC_DCHECK_RUN_ON(task_queue_);
   if (reason) {
     UpdateResourceLimitations(reason, unfiltered_restrictions,
                               adaptation_counters);
   } else if (adaptation_counters.Total() == 0) {
     // Adaptations are cleared.
     adaptation_limits_by_resources_.clear();
     previous_mitigation_results_.clear();
     for (auto limitations_listener : resource_limitations_listeners_) {
       limitations_listener->OnResourceLimitationChanged(nullptr, {});
     }
   }
 }

 }  // namespace webrtc
	/*
	* Copyright 2020 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/adaptation/resource_adaptation_processor.h"

	#include <algorithm>
	#include <string>
	#include <utility>

	#include "absl/algorithm/container.h"
	#include "api/sequence_checker.h"
	#include "api/video/video_adaptation_counters.h"
	#include "call/adaptation/video_stream_adapter.h"
	#include "rtc_base/logging.h"
	#include "rtc_base/ref_counted_object.h"
	#include "rtc_base/strings/string_builder.h"
	#include "rtc_base/task_utils/to_queued_task.h"

	namespace webrtc {

	ResourceAdaptationProcessor::ResourceListenerDelegate::ResourceListenerDelegate(
	ResourceAdaptationProcessor* processor)
	: task_queue_(nullptr), processor_(processor) {}

	void ResourceAdaptationProcessor::ResourceListenerDelegate::SetTaskQueue(
	TaskQueueBase* task_queue) {
	RTC_DCHECK(!task_queue_);
	RTC_DCHECK(task_queue);
	task_queue_ = task_queue;
	RTC_DCHECK_RUN_ON(task_queue_);
	}

	void ResourceAdaptationProcessor::ResourceListenerDelegate::
	OnProcessorDestroyed() {
	RTC_DCHECK_RUN_ON(task_queue_);
	processor_ = nullptr;
	}

	void ResourceAdaptationProcessor::ResourceListenerDelegate::
	OnResourceUsageStateMeasured(rtc::scoped_refptr<Resource> resource,
	ResourceUsageState usage_state) {
	if (!task_queue_->IsCurrent()) {
	task_queue_->PostTask(ToQueuedTask(
	[this_ref = rtc::scoped_refptr<ResourceListenerDelegate>(this),
	resource, usage_state] {
	this_ref->OnResourceUsageStateMeasured(resource, usage_state);
	}));
	return;
	}
	RTC_DCHECK_RUN_ON(task_queue_);
	if (processor_) {
	processor_->OnResourceUsageStateMeasured(resource, usage_state);
	}
	}

	ResourceAdaptationProcessor::MitigationResultAndLogMessage::
	MitigationResultAndLogMessage()
	: result(MitigationResult::kAdaptationApplied), message() {}

	ResourceAdaptationProcessor::MitigationResultAndLogMessage::
	MitigationResultAndLogMessage(MitigationResult result, std::string message)
	: result(result), message(std::move(message)) {}

	ResourceAdaptationProcessor::ResourceAdaptationProcessor(
	VideoStreamAdapter* stream_adapter)
	: task_queue_(nullptr),
	resource_listener_delegate_(
	rtc::make_ref_counted<ResourceListenerDelegate>(this)),
	resources_(),
	stream_adapter_(stream_adapter),
	last_reported_source_restrictions_(),
	previous_mitigation_results_() {
	RTC_DCHECK(stream_adapter_);
	}

	ResourceAdaptationProcessor::~ResourceAdaptationProcessor() {
	RTC_DCHECK_RUN_ON(task_queue_);
	RTC_DCHECK(resources_.empty())
	<< "There are resource(s) attached to a ResourceAdaptationProcessor "
	<< "being destroyed.";
	stream_adapter_->RemoveRestrictionsListener(this);
	resource_listener_delegate_->OnProcessorDestroyed();
	}

	void ResourceAdaptationProcessor::SetTaskQueue(TaskQueueBase* task_queue) {
	RTC_DCHECK(!task_queue_);
	RTC_DCHECK(task_queue);
	task_queue_ = task_queue;
	resource_listener_delegate_->SetTaskQueue(task_queue);
	RTC_DCHECK_RUN_ON(task_queue_);
	// Now that we have the queue we can attach as adaptation listener.
	stream_adapter_->AddRestrictionsListener(this);
	}

	void ResourceAdaptationProcessor::AddResourceLimitationsListener(
	ResourceLimitationsListener* limitations_listener) {
	RTC_DCHECK_RUN_ON(task_queue_);
	RTC_DCHECK(std::find(resource_limitations_listeners_.begin(),
	resource_limitations_listeners_.end(),
	limitations_listener) ==
	resource_limitations_listeners_.end());
	resource_limitations_listeners_.push_back(limitations_listener);
	}

	void ResourceAdaptationProcessor::RemoveResourceLimitationsListener(
	ResourceLimitationsListener* limitations_listener) {
	RTC_DCHECK_RUN_ON(task_queue_);
	auto it =
	std::find(resource_limitations_listeners_.begin(),
	resource_limitations_listeners_.end(), limitations_listener);
	RTC_DCHECK(it != resource_limitations_listeners_.end());
	resource_limitations_listeners_.erase(it);
	}

	void ResourceAdaptationProcessor::AddResource(
	rtc::scoped_refptr<Resource> resource) {
	RTC_DCHECK(resource);
	{
	MutexLock crit(&resources_lock_);
	RTC_DCHECK(absl::c_find(resources_, resource) == resources_.end())
	<< "Resource \"" << resource->Name() << "\" was already registered.";
	resources_.push_back(resource);
	}
	resource->SetResourceListener(resource_listener_delegate_);
	RTC_LOG(INFO) << "Registered resource \"" << resource->Name() << "\".";
	}

	std::vector<rtc::scoped_refptr<Resource>>
	ResourceAdaptationProcessor::GetResources() const {
	MutexLock crit(&resources_lock_);
	return resources_;
	}

	void ResourceAdaptationProcessor::RemoveResource(
	rtc::scoped_refptr<Resource> resource) {
	RTC_DCHECK(resource);
	RTC_LOG(INFO) << "Removing resource \"" << resource->Name() << "\".";
	resource->SetResourceListener(nullptr);
	{
	MutexLock crit(&resources_lock_);
	auto it = absl::c_find(resources_, resource);
	RTC_DCHECK(it != resources_.end()) << "Resource \"" << resource->Name()
	<< "\" was not a registered resource.";
	resources_.erase(it);
	}
	RemoveLimitationsImposedByResource(std::move(resource));
	}

	void ResourceAdaptationProcessor::RemoveLimitationsImposedByResource(
	rtc::scoped_refptr<Resource> resource) {
	if (!task_queue_->IsCurrent()) {
	task_queue_->PostTask(ToQueuedTask(
	[this, resource]() { RemoveLimitationsImposedByResource(resource); }));
	return;
	}
	RTC_DCHECK_RUN_ON(task_queue_);
	auto resource_adaptation_limits =
	adaptation_limits_by_resources_.find(resource);
	if (resource_adaptation_limits != adaptation_limits_by_resources_.end()) {
	VideoStreamAdapter::RestrictionsWithCounters adaptation_limits =
	resource_adaptation_limits->second;
	adaptation_limits_by_resources_.erase(resource_adaptation_limits);
	if (adaptation_limits_by_resources_.empty()) {
	// Only the resource being removed was adapted so clear restrictions.
	stream_adapter_->ClearRestrictions();
	return;
	}

	VideoStreamAdapter::RestrictionsWithCounters most_limited =
	FindMostLimitedResources().second;

	if (adaptation_limits.counters.Total() <= most_limited.counters.Total()) {
	// The removed limitations were less limited than the most limited
	// resource. Don't change the current restrictions.
	return;
	}

	// Apply the new most limited resource as the next restrictions.
	Adaptation adapt_to = stream_adapter_->GetAdaptationTo(
	most_limited.counters, most_limited.restrictions);
	RTC_DCHECK_EQ(adapt_to.status(), Adaptation::Status::kValid);
	stream_adapter_->ApplyAdaptation(adapt_to, nullptr);

	RTC_LOG(INFO) << "Most limited resource removed. Restoring restrictions to "
	"next most limited restrictions: "
	<< most_limited.restrictions.ToString() << " with counters "
	<< most_limited.counters.ToString();
	}
	}

	void ResourceAdaptationProcessor::OnResourceUsageStateMeasured(
	rtc::scoped_refptr<Resource> resource,
	ResourceUsageState usage_state) {
	RTC_DCHECK_RUN_ON(task_queue_);
	RTC_DCHECK(resource);
	// \|resource\| could have been removed after signalling.
	{
	MutexLock crit(&resources_lock_);
	if (absl::c_find(resources_, resource) == resources_.end()) {
	RTC_LOG(INFO) << "Ignoring signal from removed resource \""
	<< resource->Name() << "\".";
	return;
	}
	}
	MitigationResultAndLogMessage result_and_message;
	switch (usage_state) {
	case ResourceUsageState::kOveruse:
	result_and_message = OnResourceOveruse(resource);
	break;
	case ResourceUsageState::kUnderuse:
	result_and_message = OnResourceUnderuse(resource);
	break;
	}
	// Maybe log the result of the operation.
	auto it = previous_mitigation_results_.find(resource.get());
	if (it != previous_mitigation_results_.end() &&
	it->second == result_and_message.result) {
	// This resource has previously reported the same result and we haven't
	// successfully adapted since - don't log to avoid spam.
	return;
	}
	RTC_LOG(INFO) << "Resource \"" << resource->Name() << "\" signalled "
	<< ResourceUsageStateToString(usage_state) << ". "
	<< result_and_message.message;
	if (result_and_message.result == MitigationResult::kAdaptationApplied) {
	previous_mitigation_results_.clear();
	} else {
	previous_mitigation_results_.insert(
	std::make_pair(resource.get(), result_and_message.result));
	}
	}

	ResourceAdaptationProcessor::MitigationResultAndLogMessage
	ResourceAdaptationProcessor::OnResourceUnderuse(
	rtc::scoped_refptr<Resource> reason_resource) {
	RTC_DCHECK_RUN_ON(task_queue_);
	// How can this stream be adapted up?
	Adaptation adaptation = stream_adapter_->GetAdaptationUp();
	if (adaptation.status() != Adaptation::Status::kValid) {
	rtc::StringBuilder message;
	message << "Not adapting up because VideoStreamAdapter returned "
	<< Adaptation::StatusToString(adaptation.status());
	return MitigationResultAndLogMessage(MitigationResult::kRejectedByAdapter,
	message.Release());
	}
	// Check that resource is most limited.
	std::vector<rtc::scoped_refptr<Resource>> most_limited_resources;
	VideoStreamAdapter::RestrictionsWithCounters most_limited_restrictions;
	std::tie(most_limited_resources, most_limited_restrictions) =
	FindMostLimitedResources();

	// If the most restricted resource is less limited than current restrictions
	// then proceed with adapting up.
	if (!most_limited_resources.empty() &&
	most_limited_restrictions.counters.Total() >=
	stream_adapter_->adaptation_counters().Total()) {
	// If \|reason_resource\| is not one of the most limiting resources then abort
	// adaptation.
	if (absl::c_find(most_limited_resources, reason_resource) ==
	most_limited_resources.end()) {
	rtc::StringBuilder message;
	message << "Resource \"" << reason_resource->Name()
	<< "\" was not the most limited resource.";
	return MitigationResultAndLogMessage(
	MitigationResult::kNotMostLimitedResource, message.Release());
	}

	if (most_limited_resources.size() > 1) {
	// If there are multiple most limited resources, all must signal underuse
	// before the adaptation is applied.
	UpdateResourceLimitations(reason_resource, adaptation.restrictions(),
	adaptation.counters());
	rtc::StringBuilder message;
	message << "Resource \"" << reason_resource->Name()
	<< "\" was not the only most limited resource.";
	return MitigationResultAndLogMessage(
	MitigationResult::kSharedMostLimitedResource, message.Release());
	}
	}
	// Apply adaptation.
	stream_adapter_->ApplyAdaptation(adaptation, reason_resource);
	rtc::StringBuilder message;
	message << "Adapted up successfully. Unfiltered adaptations: "
	<< stream_adapter_->adaptation_counters().ToString();
	return MitigationResultAndLogMessage(MitigationResult::kAdaptationApplied,
	message.Release());
	}

	ResourceAdaptationProcessor::MitigationResultAndLogMessage
	ResourceAdaptationProcessor::OnResourceOveruse(
	rtc::scoped_refptr<Resource> reason_resource) {
	RTC_DCHECK_RUN_ON(task_queue_);
	// How can this stream be adapted up?
	Adaptation adaptation = stream_adapter_->GetAdaptationDown();
	if (adaptation.status() == Adaptation::Status::kLimitReached) {
	// Add resource as most limited.
	VideoStreamAdapter::RestrictionsWithCounters restrictions;
	std::tie(std::ignore, restrictions) = FindMostLimitedResources();
	UpdateResourceLimitations(reason_resource, restrictions.restrictions,
	restrictions.counters);
	}
	if (adaptation.status() != Adaptation::Status::kValid) {
	rtc::StringBuilder message;
	message << "Not adapting down because VideoStreamAdapter returned "
	<< Adaptation::StatusToString(adaptation.status());
	return MitigationResultAndLogMessage(MitigationResult::kRejectedByAdapter,
	message.Release());
	}
	// Apply adaptation.
	UpdateResourceLimitations(reason_resource, adaptation.restrictions(),
	adaptation.counters());
	stream_adapter_->ApplyAdaptation(adaptation, reason_resource);
	rtc::StringBuilder message;
	message << "Adapted down successfully. Unfiltered adaptations: "
	<< stream_adapter_->adaptation_counters().ToString();
	return MitigationResultAndLogMessage(MitigationResult::kAdaptationApplied,
	message.Release());
	}

	std::pair<std::vector<rtc::scoped_refptr<Resource>>,
	VideoStreamAdapter::RestrictionsWithCounters>
	ResourceAdaptationProcessor::FindMostLimitedResources() const {
	std::vector<rtc::scoped_refptr<Resource>> most_limited_resources;
	VideoStreamAdapter::RestrictionsWithCounters most_limited_restrictions{
	VideoSourceRestrictions(), VideoAdaptationCounters()};

	for (const auto& resource_and_adaptation_limit_ :
	adaptation_limits_by_resources_) {
	const auto& restrictions_with_counters =
	resource_and_adaptation_limit_.second;
	if (restrictions_with_counters.counters.Total() >
	most_limited_restrictions.counters.Total()) {
	most_limited_restrictions = restrictions_with_counters;
	most_limited_resources.clear();
	most_limited_resources.push_back(resource_and_adaptation_limit_.first);
	} else if (most_limited_restrictions.counters ==
	restrictions_with_counters.counters) {
	most_limited_resources.push_back(resource_and_adaptation_limit_.first);
	}
	}
	return std::make_pair(std::move(most_limited_resources),
	most_limited_restrictions);
	}

	void ResourceAdaptationProcessor::UpdateResourceLimitations(
	rtc::scoped_refptr<Resource> reason_resource,
	const VideoSourceRestrictions& restrictions,
	const VideoAdaptationCounters& counters) {
	auto& adaptation_limits = adaptation_limits_by_resources_[reason_resource];
	if (adaptation_limits.restrictions == restrictions &&
	adaptation_limits.counters == counters) {
	return;
	}
	adaptation_limits = {restrictions, counters};

	std::map<rtc::scoped_refptr<Resource>, VideoAdaptationCounters> limitations;
	for (const auto& p : adaptation_limits_by_resources_) {
	limitations.insert(std::make_pair(p.first, p.second.counters));
	}
	for (auto limitations_listener : resource_limitations_listeners_) {
	limitations_listener->OnResourceLimitationChanged(reason_resource,
	limitations);
	}
	}

	void ResourceAdaptationProcessor::OnVideoSourceRestrictionsUpdated(
	VideoSourceRestrictions restrictions,
	const VideoAdaptationCounters& adaptation_counters,
	rtc::scoped_refptr<Resource> reason,
	const VideoSourceRestrictions& unfiltered_restrictions) {
	RTC_DCHECK_RUN_ON(task_queue_);
	if (reason) {
	UpdateResourceLimitations(reason, unfiltered_restrictions,
	adaptation_counters);
	} else if (adaptation_counters.Total() == 0) {
	// Adaptations are cleared.
	adaptation_limits_by_resources_.clear();
	previous_mitigation_results_.clear();
	for (auto limitations_listener : resource_limitations_listeners_) {
	limitations_listener->OnResourceLimitationChanged(nullptr, {});
	}
	}
	}

	} // namespace webrtc