src/dawn/native/Instance.cpp - dawn - Git at Google

 // Copyright 2018 The Dawn & Tint Authors
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are met:
 //
 // 1. Redistributions of source code must retain the above copyright notice, this
 //    list of conditions and the following disclaimer.
 //
 // 2. Redistributions in binary form must reproduce the above copyright notice,
 //    this list of conditions and the following disclaimer in the documentation
 //    and/or other materials provided with the distribution.
 //
 // 3. Neither the name of the copyright holder nor the names of its
 //    contributors may be used to endorse or promote products derived from
 //    this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
 // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #include "dawn/native/Instance.h"

 #include <utility>

 #include "dawn/common/Assert.h"
 #include "dawn/common/FutureUtils.h"
 #include "dawn/common/GPUInfo.h"
 #include "dawn/common/Log.h"
 #include "dawn/common/SystemUtils.h"
 #include "dawn/native/CallbackTaskManager.h"
 #include "dawn/native/ChainUtils.h"
 #include "dawn/native/Device.h"
 #include "dawn/native/ErrorData.h"
 #include "dawn/native/Surface.h"
 #include "dawn/native/Toggles.h"
 #include "dawn/native/ValidationUtils_autogen.h"
 #include "dawn/platform/DawnPlatform.h"

 // For SwiftShader fallback
 #if defined(DAWN_ENABLE_BACKEND_VULKAN)
 #include "dawn/native/VulkanBackend.h"
 #endif  // defined(DAWN_ENABLE_BACKEND_VULKAN)

 #if defined(DAWN_ENABLE_BACKEND_D3D11) || defined(DAWN_ENABLE_BACKEND_D3D12)
 #include "dawn/native/D3DBackend.h"
 #include "dawn/native/d3d/BackendD3D.h"
 #include "dawn/native/d3d/D3DError.h"
 #endif  // defined(DAWN_ENABLE_BACKEND_D3D11) || defined(DAWN_ENABLE_BACKEND_D3D12)

 #if defined(DAWN_ENABLE_BACKEND_OPENGL)
 #include "dawn/native/OpenGLBackend.h"
 #endif  // defined(DAWN_ENABLE_BACKEND_OPENGL)

 #if defined(DAWN_USE_X11)
 #include "dawn/native/X11Functions.h"
 #endif  // defined(DAWN_USE_X11)

 namespace dawn::native {

 // Forward definitions of each backend's "Connect" function that creates new BackendConnection.
 // Conditionally compiled declarations are used to avoid using static constructors instead.
 #if defined(DAWN_ENABLE_BACKEND_D3D11)
 namespace d3d11 {
 BackendConnection* Connect(InstanceBase* instance);
 }
 #endif  // defined(DAWN_ENABLE_BACKEND_D3D11)
 #if defined(DAWN_ENABLE_BACKEND_D3D12)
 namespace d3d12 {
 BackendConnection* Connect(InstanceBase* instance);
 }
 #endif  // defined(DAWN_ENABLE_BACKEND_D3D12)
 #if defined(DAWN_ENABLE_BACKEND_METAL)
 namespace metal {
 BackendConnection* Connect(InstanceBase* instance);
 }
 #endif  // defined(DAWN_ENABLE_BACKEND_METAL)
 #if defined(DAWN_ENABLE_BACKEND_NULL)
 namespace null {
 BackendConnection* Connect(InstanceBase* instance);
 }
 #endif  // defined(DAWN_ENABLE_BACKEND_NULL)
 #if defined(DAWN_ENABLE_BACKEND_OPENGL)
 namespace opengl {
 BackendConnection* Connect(InstanceBase* instance, wgpu::BackendType backendType);
 }
 #endif  // defined(DAWN_ENABLE_BACKEND_OPENGL)
 #if defined(DAWN_ENABLE_BACKEND_VULKAN)
 namespace vulkan {
 BackendConnection* Connect(InstanceBase* instance);
 }
 #endif  // defined(DAWN_ENABLE_BACKEND_VULKAN)

 namespace {

 dawn::platform::CachingInterface* GetCachingInterface(dawn::platform::Platform* platform) {
     if (platform != nullptr) {
         return platform->GetCachingInterface();
     }
     return nullptr;
 }

 }  // anonymous namespace

 wgpu::Bool APIGetInstanceFeatures(InstanceFeatures* features) {
     if (features->nextInChain != nullptr) {
         return false;
     }

     features->timedWaitAnyEnable = true;
     features->timedWaitAnyMaxCount = kTimedWaitAnyMaxCountDefault;
     return true;
 }

 InstanceBase* APICreateInstance(const InstanceDescriptor* descriptor) {
     return InstanceBase::Create(descriptor).Detach();
 }

 // InstanceBase

 // static
 Ref<InstanceBase> InstanceBase::Create(const InstanceDescriptor* descriptor) {
     static constexpr InstanceDescriptor kDefaultDesc = {};
     if (descriptor == nullptr) {
         descriptor = &kDefaultDesc;
     }

     const DawnTogglesDescriptor* instanceTogglesDesc = nullptr;
     FindInChain(descriptor->nextInChain, &instanceTogglesDesc);

     // Set up the instance toggle state from toggles descriptor
     TogglesState instanceToggles =
         TogglesState::CreateFromTogglesDescriptor(instanceTogglesDesc, ToggleStage::Instance);
     // By default disable the AllowUnsafeAPIs instance toggle, it will be inherited to adapters
     // and devices created by this instance if not overriden.
     instanceToggles.Default(Toggle::AllowUnsafeAPIs, false);

     Ref<InstanceBase> instance = AcquireRef(new InstanceBase(instanceToggles));
     if (instance->ConsumedError(instance->Initialize(descriptor))) {
         return nullptr;
     }
     return instance;
 }

 InstanceBase::InstanceBase(const TogglesState& instanceToggles) : mToggles(instanceToggles) {}

 InstanceBase::~InstanceBase() = default;

 void InstanceBase::WillDropLastExternalRef() {
     // InstanceBase uses RefCountedWithExternalCount to break refcycles.

     // Stop tracking events. See comment on ShutDown.
     mEventManager.ShutDown();

     // InstanceBase holds backends which hold Refs to PhysicalDeviceBases discovered, which hold
     // Refs back to the InstanceBase.
     // In order to break this cycle and prevent leaks, when the application drops the last external
     // ref and WillDropLastExternalRef is called, the instance clears out any member refs to
     // physical devices that hold back-refs to the instance - thus breaking any reference cycles.
     for (auto& backend : mBackends) {
         if (backend != nullptr) {
             backend->ClearPhysicalDevices();
         }
     }
 }

 // TODO(crbug.com/dawn/832): make the platform an initialization parameter of the instance.
 MaybeError InstanceBase::Initialize(const InstanceDescriptor* descriptor) {
     DAWN_TRY(ValidateSTypes(descriptor->nextInChain, {{wgpu::SType::DawnInstanceDescriptor},
                                                       {wgpu::SType::DawnTogglesDescriptor}}));

     const DawnInstanceDescriptor* dawnDesc = nullptr;
     FindInChain(descriptor->nextInChain, &dawnDesc);
     if (dawnDesc != nullptr) {
         for (uint32_t i = 0; i < dawnDesc->additionalRuntimeSearchPathsCount; ++i) {
             mRuntimeSearchPaths.push_back(dawnDesc->additionalRuntimeSearchPaths[i]);
         }
     }
     // Default paths to search are next to the shared library, next to the executable, and
     // no path (just libvulkan.so).
     if (auto p = GetModuleDirectory()) {
         mRuntimeSearchPaths.push_back(std::move(*p));
     }
     if (auto p = GetExecutableDirectory()) {
         mRuntimeSearchPaths.push_back(std::move(*p));
     }
     mRuntimeSearchPaths.push_back("");

     mCallbackTaskManager = AcquireRef(new CallbackTaskManager());

     // Initialize the platform to the default for now.
     mDefaultPlatform = std::make_unique<dawn::platform::Platform>();
     SetPlatform(dawnDesc != nullptr ? dawnDesc->platform : mDefaultPlatform.get());

     DAWN_TRY(mEventManager.Initialize(descriptor));

     return {};
 }

 void InstanceBase::APIRequestAdapter(const RequestAdapterOptions* options,
                                      WGPURequestAdapterCallback callback,
                                      void* userdata) {
     static constexpr RequestAdapterOptions kDefaultOptions = {};
     if (options == nullptr) {
         options = &kDefaultOptions;
     }
     auto adapters = EnumerateAdapters(options);
     if (adapters.empty()) {
         callback(WGPURequestAdapterStatus_Unavailable, nullptr, "No supported adapters.", userdata);
     } else {
         callback(WGPURequestAdapterStatus_Success, ToAPI(adapters[0].Detach()), nullptr, userdata);
     }
 }

 Ref<AdapterBase> InstanceBase::CreateAdapter(Ref<PhysicalDeviceBase> physicalDevice,
                                              FeatureLevel featureLevel,
                                              const DawnTogglesDescriptor* requiredAdapterToggles,
                                              wgpu::PowerPreference powerPreference) const {
     // Set up toggles state for default adapter from given toggles descriptor and inherit from
     // instance toggles.
     TogglesState adapterToggles =
         TogglesState::CreateFromTogglesDescriptor(requiredAdapterToggles, ToggleStage::Adapter);
     adapterToggles.InheritFrom(mToggles);
     // Set up forced and default adapter toggles for selected physical device.
     physicalDevice->SetupBackendAdapterToggles(&adapterToggles);

     return AcquireRef(
         new AdapterBase(std::move(physicalDevice), featureLevel, adapterToggles, powerPreference));
 }

 const TogglesState& InstanceBase::GetTogglesState() const {
     return mToggles;
 }

 const ToggleInfo* InstanceBase::GetToggleInfo(const char* toggleName) {
     return mTogglesInfo.GetToggleInfo(toggleName);
 }

 Toggle InstanceBase::ToggleNameToEnum(const char* toggleName) {
     return mTogglesInfo.ToggleNameToEnum(toggleName);
 }

 const FeatureInfo* InstanceBase::GetFeatureInfo(wgpu::FeatureName feature) {
     Feature f = FromAPI(feature);
     if (f == Feature::InvalidEnum) {
         return nullptr;
     }
     return &kFeatureNameAndInfoList[f];
 }

 std::vector<Ref<AdapterBase>> InstanceBase::EnumerateAdapters(
     const RequestAdapterOptions* options) {
     if (options == nullptr) {
         // Default path that returns all WebGPU core adapters on the system with default toggles.
         RequestAdapterOptions defaultOptions = {};
         return EnumerateAdapters(&defaultOptions);
     }

     const DawnTogglesDescriptor* togglesDesc = nullptr;
     FindInChain(options->nextInChain, &togglesDesc);

     FeatureLevel featureLevel =
         options->compatibilityMode ? FeatureLevel::Compatibility : FeatureLevel::Core;
     std::vector<Ref<AdapterBase>> adapters;
     for (const auto& physicalDevice : EnumeratePhysicalDevices(options)) {
         DAWN_ASSERT(physicalDevice->SupportsFeatureLevel(featureLevel));
         adapters.push_back(
             CreateAdapter(physicalDevice, featureLevel, togglesDesc, options->powerPreference));
     }
     return SortAdapters(std::move(adapters), options);
 }

 size_t InstanceBase::GetPhysicalDeviceCountForTesting() const {
     size_t count = 0;
     for (auto& backend : mBackends) {
         if (backend != nullptr) {
             count += backend->GetPhysicalDeviceCountForTesting();
         }
     }
     return count;
 }

 BackendConnection* InstanceBase::GetBackendConnection(wgpu::BackendType backendType) {
     if (mBackendsTried[backendType]) {
         return mBackends[backendType].get();
     }

     auto Register = [this](BackendConnection* connection, wgpu::BackendType expectedType) {
         if (connection != nullptr) {
             DAWN_ASSERT(connection->GetType() == expectedType);
             DAWN_ASSERT(connection->GetInstance() == this);
             mBackends[connection->GetType()] = std::unique_ptr<BackendConnection>(connection);
         }
     };

     switch (backendType) {
 #if defined(DAWN_ENABLE_BACKEND_NULL)
         case wgpu::BackendType::Null:
             Register(null::Connect(this), wgpu::BackendType::Null);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_NULL)

 #if defined(DAWN_ENABLE_BACKEND_D3D11)
         case wgpu::BackendType::D3D11:
             Register(d3d11::Connect(this), wgpu::BackendType::D3D11);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_D3D11)

 #if defined(DAWN_ENABLE_BACKEND_D3D12)
         case wgpu::BackendType::D3D12:
             Register(d3d12::Connect(this), wgpu::BackendType::D3D12);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_D3D12)

 #if defined(DAWN_ENABLE_BACKEND_METAL)
         case wgpu::BackendType::Metal:
             Register(metal::Connect(this), wgpu::BackendType::Metal);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_METAL)

 #if defined(DAWN_ENABLE_BACKEND_VULKAN)
         case wgpu::BackendType::Vulkan:
             Register(vulkan::Connect(this), wgpu::BackendType::Vulkan);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_VULKAN)

 #if defined(DAWN_ENABLE_BACKEND_DESKTOP_GL)
         case wgpu::BackendType::OpenGL:
             Register(opengl::Connect(this, wgpu::BackendType::OpenGL), wgpu::BackendType::OpenGL);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_DESKTOP_GL)

 #if defined(DAWN_ENABLE_BACKEND_OPENGLES)
         case wgpu::BackendType::OpenGLES:
             Register(opengl::Connect(this, wgpu::BackendType::OpenGLES),
                      wgpu::BackendType::OpenGLES);
             break;
 #endif  // defined(DAWN_ENABLE_BACKEND_OPENGLES)

         default:
             break;
     }

     mBackendsTried.set(backendType);
     return mBackends[backendType].get();
 }

 std::vector<Ref<PhysicalDeviceBase>> InstanceBase::EnumeratePhysicalDevices(
     const RequestAdapterOptions* options) {
     DAWN_ASSERT(options);

     BackendsBitset backendsToFind;
     if (options->backendType != wgpu::BackendType::Undefined) {
         backendsToFind = {};
         if (!ConsumedErrorAndWarnOnce(ValidateBackendType(options->backendType))) {
             backendsToFind.set(options->backendType);
         }
     } else {
         backendsToFind.set();
     }

     std::vector<Ref<PhysicalDeviceBase>> discoveredPhysicalDevices;
     for (wgpu::BackendType b : IterateBitSet(backendsToFind)) {
         BackendConnection* backend = GetBackendConnection(b);

         if (backend != nullptr) {
             std::vector<Ref<PhysicalDeviceBase>> physicalDevices =
                 mBackends[b]->DiscoverPhysicalDevices(options);
             discoveredPhysicalDevices.insert(discoveredPhysicalDevices.end(),
                                              physicalDevices.begin(), physicalDevices.end());
         }
     }
     return discoveredPhysicalDevices;
 }

 bool InstanceBase::ConsumedError(MaybeError maybeError) {
     if (maybeError.IsError()) {
         ConsumeError(maybeError.AcquireError());
         return true;
     }
     return false;
 }

 bool InstanceBase::ConsumedErrorAndWarnOnce(MaybeError maybeErr) {
     if (!maybeErr.IsError()) {
         return false;
     }
     std::string message = maybeErr.AcquireError()->GetFormattedMessage();
     if (warningMessages.insert(message).second) {
         dawn::WarningLog() << message;
     }
     return true;
 }

 bool InstanceBase::IsBackendValidationEnabled() const {
     return mBackendValidationLevel != BackendValidationLevel::Disabled;
 }

 void InstanceBase::SetBackendValidationLevel(BackendValidationLevel level) {
     mBackendValidationLevel = level;
 }

 BackendValidationLevel InstanceBase::GetBackendValidationLevel() const {
     return mBackendValidationLevel;
 }

 void InstanceBase::EnableBeginCaptureOnStartup(bool beginCaptureOnStartup) {
     mBeginCaptureOnStartup = beginCaptureOnStartup;
 }

 bool InstanceBase::IsBeginCaptureOnStartupEnabled() const {
     return mBeginCaptureOnStartup;
 }

 void InstanceBase::EnableAdapterBlocklist(bool enable) {
     mEnableAdapterBlocklist = enable;
 }

 bool InstanceBase::IsAdapterBlocklistEnabled() const {
     return mEnableAdapterBlocklist;
 }

 void InstanceBase::SetPlatform(dawn::platform::Platform* platform) {
     if (platform == nullptr) {
         mPlatform = mDefaultPlatform.get();
     } else {
         mPlatform = platform;
     }
     mBlobCache = std::make_unique<BlobCache>(GetCachingInterface(platform));
 }

 void InstanceBase::SetPlatformForTesting(dawn::platform::Platform* platform) {
     SetPlatform(platform);
 }

 dawn::platform::Platform* InstanceBase::GetPlatform() {
     return mPlatform;
 }

 BlobCache* InstanceBase::GetBlobCache(bool enabled) {
     if (enabled) {
         return mBlobCache.get();
     }
     return &mPassthroughBlobCache;
 }

 uint64_t InstanceBase::GetDeviceCountForTesting() const {
     std::lock_guard<std::mutex> lg(mDevicesListMutex);
     return mDevicesList.size();
 }

 void InstanceBase::AddDevice(DeviceBase* device) {
     std::lock_guard<std::mutex> lg(mDevicesListMutex);
     mDevicesList.insert(device);
 }

 void InstanceBase::RemoveDevice(DeviceBase* device) {
     std::lock_guard<std::mutex> lg(mDevicesListMutex);
     mDevicesList.erase(device);
 }

 void InstanceBase::APIProcessEvents() {
     std::vector<Ref<DeviceBase>> devices;
     {
         std::lock_guard<std::mutex> lg(mDevicesListMutex);
         for (auto device : mDevicesList) {
             devices.push_back(device);
         }
     }

     for (auto device : devices) {
         device->APITick();
     }

     mCallbackTaskManager->Flush();
     mEventManager.ProcessPollEvents();
 }

 wgpu::WaitStatus InstanceBase::APIWaitAny(size_t count,
                                           FutureWaitInfo* futures,
                                           uint64_t timeoutNS) {
     return mEventManager.WaitAny(count, futures, Nanoseconds(timeoutNS));
 }

 const std::vector<std::string>& InstanceBase::GetRuntimeSearchPaths() const {
     return mRuntimeSearchPaths;
 }

 const Ref<CallbackTaskManager>& InstanceBase::GetCallbackTaskManager() const {
     return mCallbackTaskManager;
 }

 EventManager* InstanceBase::GetEventManager() {
     return &mEventManager;
 }

 void InstanceBase::ConsumeError(std::unique_ptr<ErrorData> error) {
     DAWN_ASSERT(error != nullptr);
     dawn::ErrorLog() << error->GetFormattedMessage();
 }

 const X11Functions* InstanceBase::GetOrLoadX11Functions() {
 #if defined(DAWN_USE_X11)
     if (mX11Functions == nullptr) {
         mX11Functions = std::make_unique<X11Functions>();
     }
     return mX11Functions.get();
 #else
     DAWN_UNREACHABLE();
 #endif  // defined(DAWN_USE_X11)
 }

 Surface* InstanceBase::APICreateSurface(const SurfaceDescriptor* descriptor) {
     if (ConsumedError(ValidateSurfaceDescriptor(this, descriptor))) {
         return Surface::MakeError(this);
     }

     return new Surface(this, descriptor);
 }

 }  // namespace dawn::native
	// Copyright 2018 The Dawn & Tint Authors
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are met:
	//
	// 1. Redistributions of source code must retain the above copyright notice, this
	// list of conditions and the following disclaimer.
	//
	// 2. Redistributions in binary form must reproduce the above copyright notice,
	// this list of conditions and the following disclaimer in the documentation
	// and/or other materials provided with the distribution.
	//
	// 3. Neither the name of the copyright holder nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
	// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
	// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
	// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#include "dawn/native/Instance.h"

	#include <utility>

	#include "dawn/common/Assert.h"
	#include "dawn/common/FutureUtils.h"
	#include "dawn/common/GPUInfo.h"
	#include "dawn/common/Log.h"
	#include "dawn/common/SystemUtils.h"
	#include "dawn/native/CallbackTaskManager.h"
	#include "dawn/native/ChainUtils.h"
	#include "dawn/native/Device.h"
	#include "dawn/native/ErrorData.h"
	#include "dawn/native/Surface.h"
	#include "dawn/native/Toggles.h"
	#include "dawn/native/ValidationUtils_autogen.h"
	#include "dawn/platform/DawnPlatform.h"

	// For SwiftShader fallback
	#if defined(DAWN_ENABLE_BACKEND_VULKAN)
	#include "dawn/native/VulkanBackend.h"
	#endif // defined(DAWN_ENABLE_BACKEND_VULKAN)

	#if defined(DAWN_ENABLE_BACKEND_D3D11) \|\| defined(DAWN_ENABLE_BACKEND_D3D12)
	#include "dawn/native/D3DBackend.h"
	#include "dawn/native/d3d/BackendD3D.h"
	#include "dawn/native/d3d/D3DError.h"
	#endif // defined(DAWN_ENABLE_BACKEND_D3D11) \|\| defined(DAWN_ENABLE_BACKEND_D3D12)

	#if defined(DAWN_ENABLE_BACKEND_OPENGL)
	#include "dawn/native/OpenGLBackend.h"
	#endif // defined(DAWN_ENABLE_BACKEND_OPENGL)

	#if defined(DAWN_USE_X11)
	#include "dawn/native/X11Functions.h"
	#endif // defined(DAWN_USE_X11)

	namespace dawn::native {

	// Forward definitions of each backend's "Connect" function that creates new BackendConnection.
	// Conditionally compiled declarations are used to avoid using static constructors instead.
	#if defined(DAWN_ENABLE_BACKEND_D3D11)
	namespace d3d11 {
	BackendConnection* Connect(InstanceBase* instance);
	}
	#endif // defined(DAWN_ENABLE_BACKEND_D3D11)
	#if defined(DAWN_ENABLE_BACKEND_D3D12)
	namespace d3d12 {
	BackendConnection* Connect(InstanceBase* instance);
	}
	#endif // defined(DAWN_ENABLE_BACKEND_D3D12)
	#if defined(DAWN_ENABLE_BACKEND_METAL)
	namespace metal {
	BackendConnection* Connect(InstanceBase* instance);
	}
	#endif // defined(DAWN_ENABLE_BACKEND_METAL)
	#if defined(DAWN_ENABLE_BACKEND_NULL)
	namespace null {
	BackendConnection* Connect(InstanceBase* instance);
	}
	#endif // defined(DAWN_ENABLE_BACKEND_NULL)
	#if defined(DAWN_ENABLE_BACKEND_OPENGL)
	namespace opengl {
	BackendConnection* Connect(InstanceBase* instance, wgpu::BackendType backendType);
	}
	#endif // defined(DAWN_ENABLE_BACKEND_OPENGL)
	#if defined(DAWN_ENABLE_BACKEND_VULKAN)
	namespace vulkan {
	BackendConnection* Connect(InstanceBase* instance);
	}
	#endif // defined(DAWN_ENABLE_BACKEND_VULKAN)

	namespace {

	dawn::platform::CachingInterface* GetCachingInterface(dawn::platform::Platform* platform) {
	if (platform != nullptr) {
	return platform->GetCachingInterface();
	}
	return nullptr;
	}

	} // anonymous namespace

	wgpu::Bool APIGetInstanceFeatures(InstanceFeatures* features) {
	if (features->nextInChain != nullptr) {
	return false;
	}

	features->timedWaitAnyEnable = true;
	features->timedWaitAnyMaxCount = kTimedWaitAnyMaxCountDefault;
	return true;
	}

	InstanceBase* APICreateInstance(const InstanceDescriptor* descriptor) {
	return InstanceBase::Create(descriptor).Detach();
	}

	// InstanceBase

	// static
	Ref<InstanceBase> InstanceBase::Create(const InstanceDescriptor* descriptor) {
	static constexpr InstanceDescriptor kDefaultDesc = {};
	if (descriptor == nullptr) {
	descriptor = &kDefaultDesc;
	}

	const DawnTogglesDescriptor* instanceTogglesDesc = nullptr;
	FindInChain(descriptor->nextInChain, &instanceTogglesDesc);

	// Set up the instance toggle state from toggles descriptor
	TogglesState instanceToggles =
	TogglesState::CreateFromTogglesDescriptor(instanceTogglesDesc, ToggleStage::Instance);
	// By default disable the AllowUnsafeAPIs instance toggle, it will be inherited to adapters
	// and devices created by this instance if not overriden.
	instanceToggles.Default(Toggle::AllowUnsafeAPIs, false);

	Ref<InstanceBase> instance = AcquireRef(new InstanceBase(instanceToggles));
	if (instance->ConsumedError(instance->Initialize(descriptor))) {
	return nullptr;
	}
	return instance;
	}

	InstanceBase::InstanceBase(const TogglesState& instanceToggles) : mToggles(instanceToggles) {}

	InstanceBase::~InstanceBase() = default;

	void InstanceBase::WillDropLastExternalRef() {
	// InstanceBase uses RefCountedWithExternalCount to break refcycles.

	// Stop tracking events. See comment on ShutDown.
	mEventManager.ShutDown();

	// InstanceBase holds backends which hold Refs to PhysicalDeviceBases discovered, which hold
	// Refs back to the InstanceBase.
	// In order to break this cycle and prevent leaks, when the application drops the last external
	// ref and WillDropLastExternalRef is called, the instance clears out any member refs to
	// physical devices that hold back-refs to the instance - thus breaking any reference cycles.
	for (auto& backend : mBackends) {
	if (backend != nullptr) {
	backend->ClearPhysicalDevices();
	}
	}
	}

	// TODO(crbug.com/dawn/832): make the platform an initialization parameter of the instance.
	MaybeError InstanceBase::Initialize(const InstanceDescriptor* descriptor) {
	DAWN_TRY(ValidateSTypes(descriptor->nextInChain, {{wgpu::SType::DawnInstanceDescriptor},
	{wgpu::SType::DawnTogglesDescriptor}}));

	const DawnInstanceDescriptor* dawnDesc = nullptr;
	FindInChain(descriptor->nextInChain, &dawnDesc);
	if (dawnDesc != nullptr) {
	for (uint32_t i = 0; i < dawnDesc->additionalRuntimeSearchPathsCount; ++i) {
	mRuntimeSearchPaths.push_back(dawnDesc->additionalRuntimeSearchPaths[i]);
	}
	}
	// Default paths to search are next to the shared library, next to the executable, and
	// no path (just libvulkan.so).
	if (auto p = GetModuleDirectory()) {
	mRuntimeSearchPaths.push_back(std::move(*p));
	}
	if (auto p = GetExecutableDirectory()) {
	mRuntimeSearchPaths.push_back(std::move(*p));
	}
	mRuntimeSearchPaths.push_back("");

	mCallbackTaskManager = AcquireRef(new CallbackTaskManager());

	// Initialize the platform to the default for now.
	mDefaultPlatform = std::make_unique<dawn::platform::Platform>();
	SetPlatform(dawnDesc != nullptr ? dawnDesc->platform : mDefaultPlatform.get());

	DAWN_TRY(mEventManager.Initialize(descriptor));

	return {};
	}

	void InstanceBase::APIRequestAdapter(const RequestAdapterOptions* options,
	WGPURequestAdapterCallback callback,
	void* userdata) {
	static constexpr RequestAdapterOptions kDefaultOptions = {};
	if (options == nullptr) {
	options = &kDefaultOptions;
	}
	auto adapters = EnumerateAdapters(options);
	if (adapters.empty()) {
	callback(WGPURequestAdapterStatus_Unavailable, nullptr, "No supported adapters.", userdata);
	} else {
	callback(WGPURequestAdapterStatus_Success, ToAPI(adapters[0].Detach()), nullptr, userdata);
	}
	}

	Ref<AdapterBase> InstanceBase::CreateAdapter(Ref<PhysicalDeviceBase> physicalDevice,
	FeatureLevel featureLevel,
	const DawnTogglesDescriptor* requiredAdapterToggles,
	wgpu::PowerPreference powerPreference) const {
	// Set up toggles state for default adapter from given toggles descriptor and inherit from
	// instance toggles.
	TogglesState adapterToggles =
	TogglesState::CreateFromTogglesDescriptor(requiredAdapterToggles, ToggleStage::Adapter);
	adapterToggles.InheritFrom(mToggles);
	// Set up forced and default adapter toggles for selected physical device.
	physicalDevice->SetupBackendAdapterToggles(&adapterToggles);

	return AcquireRef(
	new AdapterBase(std::move(physicalDevice), featureLevel, adapterToggles, powerPreference));
	}

	const TogglesState& InstanceBase::GetTogglesState() const {
	return mToggles;
	}

	const ToggleInfo* InstanceBase::GetToggleInfo(const char* toggleName) {
	return mTogglesInfo.GetToggleInfo(toggleName);
	}

	Toggle InstanceBase::ToggleNameToEnum(const char* toggleName) {
	return mTogglesInfo.ToggleNameToEnum(toggleName);
	}

	const FeatureInfo* InstanceBase::GetFeatureInfo(wgpu::FeatureName feature) {
	Feature f = FromAPI(feature);
	if (f == Feature::InvalidEnum) {
	return nullptr;
	}
	return &kFeatureNameAndInfoList[f];
	}

	std::vector<Ref<AdapterBase>> InstanceBase::EnumerateAdapters(
	const RequestAdapterOptions* options) {
	if (options == nullptr) {
	// Default path that returns all WebGPU core adapters on the system with default toggles.
	RequestAdapterOptions defaultOptions = {};
	return EnumerateAdapters(&defaultOptions);
	}

	const DawnTogglesDescriptor* togglesDesc = nullptr;
	FindInChain(options->nextInChain, &togglesDesc);

	FeatureLevel featureLevel =
	options->compatibilityMode ? FeatureLevel::Compatibility : FeatureLevel::Core;
	std::vector<Ref<AdapterBase>> adapters;
	for (const auto& physicalDevice : EnumeratePhysicalDevices(options)) {
	DAWN_ASSERT(physicalDevice->SupportsFeatureLevel(featureLevel));
	adapters.push_back(
	CreateAdapter(physicalDevice, featureLevel, togglesDesc, options->powerPreference));
	}
	return SortAdapters(std::move(adapters), options);
	}

	size_t InstanceBase::GetPhysicalDeviceCountForTesting() const {
	size_t count = 0;
	for (auto& backend : mBackends) {
	if (backend != nullptr) {
	count += backend->GetPhysicalDeviceCountForTesting();
	}
	}
	return count;
	}

	BackendConnection* InstanceBase::GetBackendConnection(wgpu::BackendType backendType) {
	if (mBackendsTried[backendType]) {
	return mBackends[backendType].get();
	}

	auto Register = [this](BackendConnection* connection, wgpu::BackendType expectedType) {
	if (connection != nullptr) {
	DAWN_ASSERT(connection->GetType() == expectedType);
	DAWN_ASSERT(connection->GetInstance() == this);
	mBackends[connection->GetType()] = std::unique_ptr<BackendConnection>(connection);
	}
	};

	switch (backendType) {
	#if defined(DAWN_ENABLE_BACKEND_NULL)
	case wgpu::BackendType::Null:
	Register(null::Connect(this), wgpu::BackendType::Null);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_NULL)

	#if defined(DAWN_ENABLE_BACKEND_D3D11)
	case wgpu::BackendType::D3D11:
	Register(d3d11::Connect(this), wgpu::BackendType::D3D11);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_D3D11)

	#if defined(DAWN_ENABLE_BACKEND_D3D12)
	case wgpu::BackendType::D3D12:
	Register(d3d12::Connect(this), wgpu::BackendType::D3D12);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_D3D12)

	#if defined(DAWN_ENABLE_BACKEND_METAL)
	case wgpu::BackendType::Metal:
	Register(metal::Connect(this), wgpu::BackendType::Metal);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_METAL)

	#if defined(DAWN_ENABLE_BACKEND_VULKAN)
	case wgpu::BackendType::Vulkan:
	Register(vulkan::Connect(this), wgpu::BackendType::Vulkan);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_VULKAN)

	#if defined(DAWN_ENABLE_BACKEND_DESKTOP_GL)
	case wgpu::BackendType::OpenGL:
	Register(opengl::Connect(this, wgpu::BackendType::OpenGL), wgpu::BackendType::OpenGL);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_DESKTOP_GL)

	#if defined(DAWN_ENABLE_BACKEND_OPENGLES)
	case wgpu::BackendType::OpenGLES:
	Register(opengl::Connect(this, wgpu::BackendType::OpenGLES),
	wgpu::BackendType::OpenGLES);
	break;
	#endif // defined(DAWN_ENABLE_BACKEND_OPENGLES)

	default:
	break;
	}

	mBackendsTried.set(backendType);
	return mBackends[backendType].get();
	}

	std::vector<Ref<PhysicalDeviceBase>> InstanceBase::EnumeratePhysicalDevices(
	const RequestAdapterOptions* options) {
	DAWN_ASSERT(options);

	BackendsBitset backendsToFind;
	if (options->backendType != wgpu::BackendType::Undefined) {
	backendsToFind = {};
	if (!ConsumedErrorAndWarnOnce(ValidateBackendType(options->backendType))) {
	backendsToFind.set(options->backendType);
	}
	} else {
	backendsToFind.set();
	}

	std::vector<Ref<PhysicalDeviceBase>> discoveredPhysicalDevices;
	for (wgpu::BackendType b : IterateBitSet(backendsToFind)) {
	BackendConnection* backend = GetBackendConnection(b);

	if (backend != nullptr) {
	std::vector<Ref<PhysicalDeviceBase>> physicalDevices =
	mBackends[b]->DiscoverPhysicalDevices(options);
	discoveredPhysicalDevices.insert(discoveredPhysicalDevices.end(),
	physicalDevices.begin(), physicalDevices.end());
	}
	}
	return discoveredPhysicalDevices;
	}

	bool InstanceBase::ConsumedError(MaybeError maybeError) {
	if (maybeError.IsError()) {
	ConsumeError(maybeError.AcquireError());
	return true;
	}
	return false;
	}

	bool InstanceBase::ConsumedErrorAndWarnOnce(MaybeError maybeErr) {
	if (!maybeErr.IsError()) {
	return false;
	}
	std::string message = maybeErr.AcquireError()->GetFormattedMessage();
	if (warningMessages.insert(message).second) {
	dawn::WarningLog() << message;
	}
	return true;
	}

	bool InstanceBase::IsBackendValidationEnabled() const {
	return mBackendValidationLevel != BackendValidationLevel::Disabled;
	}

	void InstanceBase::SetBackendValidationLevel(BackendValidationLevel level) {
	mBackendValidationLevel = level;
	}

	BackendValidationLevel InstanceBase::GetBackendValidationLevel() const {
	return mBackendValidationLevel;
	}

	void InstanceBase::EnableBeginCaptureOnStartup(bool beginCaptureOnStartup) {
	mBeginCaptureOnStartup = beginCaptureOnStartup;
	}

	bool InstanceBase::IsBeginCaptureOnStartupEnabled() const {
	return mBeginCaptureOnStartup;
	}

	void InstanceBase::EnableAdapterBlocklist(bool enable) {
	mEnableAdapterBlocklist = enable;
	}

	bool InstanceBase::IsAdapterBlocklistEnabled() const {
	return mEnableAdapterBlocklist;
	}

	void InstanceBase::SetPlatform(dawn::platform::Platform* platform) {
	if (platform == nullptr) {
	mPlatform = mDefaultPlatform.get();
	} else {
	mPlatform = platform;
	}
	mBlobCache = std::make_unique<BlobCache>(GetCachingInterface(platform));
	}

	void InstanceBase::SetPlatformForTesting(dawn::platform::Platform* platform) {
	SetPlatform(platform);
	}

	dawn::platform::Platform* InstanceBase::GetPlatform() {
	return mPlatform;
	}

	BlobCache* InstanceBase::GetBlobCache(bool enabled) {
	if (enabled) {
	return mBlobCache.get();
	}
	return &mPassthroughBlobCache;
	}

	uint64_t InstanceBase::GetDeviceCountForTesting() const {
	std::lock_guard<std::mutex> lg(mDevicesListMutex);
	return mDevicesList.size();
	}

	void InstanceBase::AddDevice(DeviceBase* device) {
	std::lock_guard<std::mutex> lg(mDevicesListMutex);
	mDevicesList.insert(device);
	}

	void InstanceBase::RemoveDevice(DeviceBase* device) {
	std::lock_guard<std::mutex> lg(mDevicesListMutex);
	mDevicesList.erase(device);
	}

	void InstanceBase::APIProcessEvents() {
	std::vector<Ref<DeviceBase>> devices;
	{
	std::lock_guard<std::mutex> lg(mDevicesListMutex);
	for (auto device : mDevicesList) {
	devices.push_back(device);
	}
	}

	for (auto device : devices) {
	device->APITick();
	}

	mCallbackTaskManager->Flush();
	mEventManager.ProcessPollEvents();
	}

	wgpu::WaitStatus InstanceBase::APIWaitAny(size_t count,
	FutureWaitInfo* futures,
	uint64_t timeoutNS) {
	return mEventManager.WaitAny(count, futures, Nanoseconds(timeoutNS));
	}

	const std::vector<std::string>& InstanceBase::GetRuntimeSearchPaths() const {
	return mRuntimeSearchPaths;
	}

	const Ref<CallbackTaskManager>& InstanceBase::GetCallbackTaskManager() const {
	return mCallbackTaskManager;
	}

	EventManager* InstanceBase::GetEventManager() {
	return &mEventManager;
	}

	void InstanceBase::ConsumeError(std::unique_ptr<ErrorData> error) {
	DAWN_ASSERT(error != nullptr);
	dawn::ErrorLog() << error->GetFormattedMessage();
	}

	const X11Functions* InstanceBase::GetOrLoadX11Functions() {
	#if defined(DAWN_USE_X11)
	if (mX11Functions == nullptr) {
	mX11Functions = std::make_unique<X11Functions>();
	}
	return mX11Functions.get();
	#else
	DAWN_UNREACHABLE();
	#endif // defined(DAWN_USE_X11)
	}

	Surface* InstanceBase::APICreateSurface(const SurfaceDescriptor* descriptor) {
	if (ConsumedError(ValidateSurfaceDescriptor(this, descriptor))) {
	return Surface::MakeError(this);
	}

	return new Surface(this, descriptor);
	}

	} // namespace dawn::native