// Copyright 2017 The Dawn Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef DAWNNATIVE_DEVICE_H_ #define DAWNNATIVE_DEVICE_H_ #include "common/Serial.h" #include "dawn_native/Error.h" #include "dawn_native/Extensions.h" #include "dawn_native/Format.h" #include "dawn_native/Forward.h" #include "dawn_native/ObjectBase.h" #include "dawn_native/Toggles.h" #include "dawn_native/DawnNative.h" #include "dawn_native/dawn_platform.h" #include namespace dawn_native { class AdapterBase; class AttachmentState; class AttachmentStateBlueprint; class BindGroupLayoutBase; class DynamicUploader; class ErrorScope; class ErrorScopeTracker; class FenceSignalTracker; class MapRequestTracker; class StagingBufferBase; class DeviceBase { public: DeviceBase(AdapterBase* adapter, const DeviceDescriptor* descriptor); virtual ~DeviceBase(); void HandleError(InternalErrorType type, const char* message); bool ConsumedError(MaybeError maybeError) { if (DAWN_UNLIKELY(maybeError.IsError())) { ConsumeError(maybeError.AcquireError()); return true; } return false; } template bool ConsumedError(ResultOrError resultOrError, T* result) { if (DAWN_UNLIKELY(resultOrError.IsError())) { ConsumeError(resultOrError.AcquireError()); return true; } *result = resultOrError.AcquireSuccess(); return false; } MaybeError ValidateObject(const ObjectBase* object) const; AdapterBase* GetAdapter() const; dawn_platform::Platform* GetPlatform() const; ErrorScopeTracker* GetErrorScopeTracker() const; FenceSignalTracker* GetFenceSignalTracker() const; MapRequestTracker* GetMapRequestTracker() const; // Returns the Format corresponding to the wgpu::TextureFormat or an error if the format // isn't a valid wgpu::TextureFormat or isn't supported by this device. // The pointer returned has the same lifetime as the device. ResultOrError GetInternalFormat(wgpu::TextureFormat format) const; // Returns the Format corresponding to the wgpu::TextureFormat and assumes the format is // valid and supported. // The reference returned has the same lifetime as the device. const Format& GetValidInternalFormat(wgpu::TextureFormat format) const; virtual CommandBufferBase* CreateCommandBuffer( CommandEncoder* encoder, const CommandBufferDescriptor* descriptor) = 0; Serial GetCompletedCommandSerial() const; Serial GetLastSubmittedCommandSerial() const; Serial GetFutureCallbackSerial() const; Serial GetPendingCommandSerial() const; virtual MaybeError TickImpl() = 0; // Many Dawn objects are completely immutable once created which means that if two // creations are given the same arguments, they can return the same object. Reusing // objects will help make comparisons between objects by a single pointer comparison. // // Technically no object is immutable as they have a reference count, and an // application with reference-counting issues could "see" that objects are reused. // This is solved by automatic-reference counting, and also the fact that when using // the client-server wire every creation will get a different proxy object, with a // different reference count. // // When trying to create an object, we give both the descriptor and an example of what // the created object will be, the "blueprint". The blueprint is just a FooBase object // instead of a backend Foo object. If the blueprint doesn't match an object in the // cache, then the descriptor is used to make a new object. ResultOrError GetOrCreateBindGroupLayout( const BindGroupLayoutDescriptor* descriptor); void UncacheBindGroupLayout(BindGroupLayoutBase* obj); ResultOrError GetOrCreateComputePipeline( const ComputePipelineDescriptor* descriptor); void UncacheComputePipeline(ComputePipelineBase* obj); ResultOrError GetOrCreatePipelineLayout( const PipelineLayoutDescriptor* descriptor); void UncachePipelineLayout(PipelineLayoutBase* obj); ResultOrError GetOrCreateRenderPipeline( const RenderPipelineDescriptor* descriptor); void UncacheRenderPipeline(RenderPipelineBase* obj); ResultOrError GetOrCreateSampler(const SamplerDescriptor* descriptor); void UncacheSampler(SamplerBase* obj); ResultOrError GetOrCreateShaderModule( const ShaderModuleDescriptor* descriptor); void UncacheShaderModule(ShaderModuleBase* obj); Ref GetOrCreateAttachmentState(AttachmentStateBlueprint* blueprint); Ref GetOrCreateAttachmentState( const RenderBundleEncoderDescriptor* descriptor); Ref GetOrCreateAttachmentState(const RenderPipelineDescriptor* descriptor); Ref GetOrCreateAttachmentState(const RenderPassDescriptor* descriptor); void UncacheAttachmentState(AttachmentState* obj); // Dawn API BindGroupBase* CreateBindGroup(const BindGroupDescriptor* descriptor); BindGroupLayoutBase* CreateBindGroupLayout(const BindGroupLayoutDescriptor* descriptor); BufferBase* CreateBuffer(const BufferDescriptor* descriptor); WGPUCreateBufferMappedResult CreateBufferMapped(const BufferDescriptor* descriptor); CommandEncoder* CreateCommandEncoder(const CommandEncoderDescriptor* descriptor); ComputePipelineBase* CreateComputePipeline(const ComputePipelineDescriptor* descriptor); PipelineLayoutBase* CreatePipelineLayout(const PipelineLayoutDescriptor* descriptor); QuerySetBase* CreateQuerySet(const QuerySetDescriptor* descriptor); QueueBase* CreateQueue(); RenderBundleEncoder* CreateRenderBundleEncoder( const RenderBundleEncoderDescriptor* descriptor); RenderPipelineBase* CreateRenderPipeline(const RenderPipelineDescriptor* descriptor); SamplerBase* CreateSampler(const SamplerDescriptor* descriptor); ShaderModuleBase* CreateShaderModule(const ShaderModuleDescriptor* descriptor); SwapChainBase* CreateSwapChain(Surface* surface, const SwapChainDescriptor* descriptor); TextureBase* CreateTexture(const TextureDescriptor* descriptor); TextureViewBase* CreateTextureView(TextureBase* texture, const TextureViewDescriptor* descriptor); // For Dawn Wire BufferBase* CreateErrorBuffer(); QueueBase* GetDefaultQueue(); void InjectError(wgpu::ErrorType type, const char* message); void Tick(); void SetDeviceLostCallback(wgpu::DeviceLostCallback callback, void* userdata); void SetUncapturedErrorCallback(wgpu::ErrorCallback callback, void* userdata); void PushErrorScope(wgpu::ErrorFilter filter); bool PopErrorScope(wgpu::ErrorCallback callback, void* userdata); MaybeError ValidateIsAlive() const; ErrorScope* GetCurrentErrorScope(); void Reference(); void Release(); virtual ResultOrError> CreateStagingBuffer( size_t size) = 0; virtual MaybeError CopyFromStagingToBuffer(StagingBufferBase* source, uint64_t sourceOffset, BufferBase* destination, uint64_t destinationOffset, uint64_t size) = 0; DynamicUploader* GetDynamicUploader() const; // The device state which is a combination of creation state and loss state. // // - BeingCreated: the device didn't finish creation yet and the frontend cannot be used // (both for the application calling WebGPU, or re-entrant calls). No work exists on // the GPU timeline. // - Alive: the device is usable and might have work happening on the GPU timeline. // - BeingDisconnected: the device is no longer usable because we are waiting for all // work on the GPU timeline to finish. (this is to make validation prevent the // application from adding more work during the transition from Available to // Disconnected) // - Disconnected: there is no longer work happening on the GPU timeline and the CPU data // structures can be safely destroyed without additional synchronization. enum class State { BeingCreated, Alive, BeingDisconnected, Disconnected, }; State GetState() const; bool IsLost() const; std::vector GetEnabledExtensions() const; std::vector GetTogglesUsed() const; bool IsExtensionEnabled(Extension extension) const; bool IsToggleEnabled(Toggle toggle) const; bool IsValidationEnabled() const; size_t GetLazyClearCountForTesting(); void IncrementLazyClearCountForTesting(); size_t GetDeprecationWarningCountForTesting(); void EmitDeprecationWarning(const char* warning); void LoseForTesting(); void AddFutureCallbackSerial(Serial serial); protected: void SetToggle(Toggle toggle, bool isEnabled); void ForceSetToggle(Toggle toggle, bool isEnabled); MaybeError Initialize(QueueBase* defaultQueue); void ShutDownBase(); // Incrememt mLastSubmittedSerial when we submit the next serial void IncrementLastSubmittedCommandSerial(); // Check for passed fences and set the new completed serial void CheckPassedSerials(); private: virtual ResultOrError CreateBindGroupImpl( const BindGroupDescriptor* descriptor) = 0; virtual ResultOrError CreateBindGroupLayoutImpl( const BindGroupLayoutDescriptor* descriptor) = 0; virtual ResultOrError CreateBufferImpl(const BufferDescriptor* descriptor) = 0; virtual ResultOrError CreateComputePipelineImpl( const ComputePipelineDescriptor* descriptor) = 0; virtual ResultOrError CreatePipelineLayoutImpl( const PipelineLayoutDescriptor* descriptor) = 0; virtual ResultOrError CreateQuerySetImpl( const QuerySetDescriptor* descriptor) = 0; virtual ResultOrError CreateRenderPipelineImpl( const RenderPipelineDescriptor* descriptor) = 0; virtual ResultOrError CreateSamplerImpl( const SamplerDescriptor* descriptor) = 0; virtual ResultOrError CreateShaderModuleImpl( const ShaderModuleDescriptor* descriptor) = 0; virtual ResultOrError CreateSwapChainImpl( const SwapChainDescriptor* descriptor) = 0; // Note that previousSwapChain may be nullptr, or come from a different backend. virtual ResultOrError CreateSwapChainImpl( Surface* surface, NewSwapChainBase* previousSwapChain, const SwapChainDescriptor* descriptor) = 0; virtual ResultOrError> CreateTextureImpl( const TextureDescriptor* descriptor) = 0; virtual ResultOrError CreateTextureViewImpl( TextureBase* texture, const TextureViewDescriptor* descriptor) = 0; MaybeError CreateBindGroupInternal(BindGroupBase** result, const BindGroupDescriptor* descriptor); MaybeError CreateBindGroupLayoutInternal(BindGroupLayoutBase** result, const BindGroupLayoutDescriptor* descriptor); ResultOrError CreateBufferInternal(const BufferDescriptor* descriptor); MaybeError CreateComputePipelineInternal(ComputePipelineBase** result, const ComputePipelineDescriptor* descriptor); MaybeError CreatePipelineLayoutInternal(PipelineLayoutBase** result, const PipelineLayoutDescriptor* descriptor); MaybeError CreateQuerySetInternal(QuerySetBase** result, const QuerySetDescriptor* descriptor); MaybeError CreateRenderBundleEncoderInternal( RenderBundleEncoder** result, const RenderBundleEncoderDescriptor* descriptor); MaybeError CreateRenderPipelineInternal(RenderPipelineBase** result, const RenderPipelineDescriptor* descriptor); MaybeError CreateSamplerInternal(SamplerBase** result, const SamplerDescriptor* descriptor); MaybeError CreateShaderModuleInternal(ShaderModuleBase** result, const ShaderModuleDescriptor* descriptor); MaybeError CreateSwapChainInternal(SwapChainBase** result, Surface* surface, const SwapChainDescriptor* descriptor); ResultOrError> CreateTextureInternal(const TextureDescriptor* descriptor); MaybeError CreateTextureViewInternal(TextureViewBase** result, TextureBase* texture, const TextureViewDescriptor* descriptor); void ApplyToggleOverrides(const DeviceDescriptor* deviceDescriptor); void ApplyExtensions(const DeviceDescriptor* deviceDescriptor); void SetDefaultToggles(); void ConsumeError(std::unique_ptr error); // Each backend should implement to check their passed fences if there are any and return a // completed serial. Return 0 should indicate no fences to check. virtual Serial CheckAndUpdateCompletedSerials() = 0; // During shut down of device, some operations might have been started since the last submit // and waiting on a serial that doesn't have a corresponding fence enqueued. Fake serials to // make all commands look completed. void AssumeCommandsComplete(); // mCompletedSerial tracks the last completed command serial that the fence has returned. // mLastSubmittedSerial tracks the last submitted command serial. // During device removal, the serials could be artificially incremented // to make it appear as if commands have been compeleted. They can also be artificially // incremented when no work is being done in the GPU so CPU operations don't have to wait on // stale serials. // mFutureCallbackSerial tracks the largest serial we need to tick to for the callbacks to // fire Serial mCompletedSerial = 0; Serial mLastSubmittedSerial = 0; Serial mFutureCallbackSerial = 0; // ShutDownImpl is used to clean up and release resources used by device, does not wait for // GPU or check errors. virtual void ShutDownImpl() = 0; // WaitForIdleForDestruction waits for GPU to finish, checks errors and gets ready for // destruction. This is only used when properly destructing the device. For a real // device loss, this function doesn't need to be called since the driver already closed all // resources. virtual MaybeError WaitForIdleForDestruction() = 0; wgpu::DeviceLostCallback mDeviceLostCallback = nullptr; void* mDeviceLostUserdata = nullptr; AdapterBase* mAdapter = nullptr; Ref mRootErrorScope; Ref mCurrentErrorScope; // The object caches aren't exposed in the header as they would require a lot of // additional includes. struct Caches; std::unique_ptr mCaches; std::unique_ptr mDynamicUploader; std::unique_ptr mErrorScopeTracker; std::unique_ptr mFenceSignalTracker; std::unique_ptr mMapRequestTracker; Ref mDefaultQueue; struct DeprecationWarnings; std::unique_ptr mDeprecationWarnings; uint32_t mRefCount = 1; State mState = State::BeingCreated; FormatTable mFormatTable; TogglesSet mEnabledToggles; TogglesSet mOverridenToggles; size_t mLazyClearCountForTesting = 0; ExtensionsSet mEnabledExtensions; }; } // namespace dawn_native #endif // DAWNNATIVE_DEVICE_H_