third_party/angle/src/libANGLE/renderer/vulkan/RendererVk.h - cobalt - Git at Google

 //
 // Copyright 2016 The ANGLE 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.
 //
 // RendererVk.h:
 //    Defines the class interface for RendererVk.
 //

 #ifndef LIBANGLE_RENDERER_VULKAN_RENDERERVK_H_
 #define LIBANGLE_RENDERER_VULKAN_RENDERERVK_H_

 #include <vulkan/vulkan.h>
 #include <memory>
 #include <mutex>
 #include "vk_ext_provoking_vertex.h"

 #include "common/PoolAlloc.h"
 #include "common/angleutils.h"
 #include "libANGLE/BlobCache.h"
 #include "libANGLE/Caps.h"
 #include "libANGLE/renderer/vulkan/CommandGraph.h"
 #include "libANGLE/renderer/vulkan/QueryVk.h"
 #include "libANGLE/renderer/vulkan/UtilsVk.h"
 #include "libANGLE/renderer/vulkan/vk_format_utils.h"
 #include "libANGLE/renderer/vulkan/vk_helpers.h"
 #include "libANGLE/renderer/vulkan/vk_internal_shaders_autogen.h"

 namespace egl
 {
 class Display;
 class BlobCache;
 }  // namespace egl

 namespace rx
 {
 class DisplayVk;
 class FramebufferVk;

 namespace vk
 {
 struct Format;
 }  // namespace vk

 // Supports one semaphore from current surface, and one semaphore passed to
 // glSignalSemaphoreEXT.
 using SignalSemaphoreVector = angle::FixedVector<VkSemaphore, 2>;

 inline void CollectGarbage(std::vector<vk::GarbageObject> *garbageOut) {}

 template <typename ArgT, typename... ArgsT>
 void CollectGarbage(std::vector<vk::GarbageObject> *garbageOut, ArgT object, ArgsT... objectsIn)
 {
     if (object->valid())
     {
         garbageOut->emplace_back(vk::GarbageObject::Get(object));
     }
     CollectGarbage(garbageOut, objectsIn...);
 }

 class RendererVk : angle::NonCopyable
 {
   public:
     RendererVk();
     ~RendererVk();

     angle::Result initialize(DisplayVk *displayVk,
                              egl::Display *display,
                              const char *wsiExtension,
                              const char *wsiLayer);
     void onDestroy(vk::Context *context);

     void notifyDeviceLost();
     bool isDeviceLost() const;

     std::string getVendorString() const;
     std::string getRendererDescription() const;

     gl::Version getMaxSupportedESVersion() const;
     gl::Version getMaxConformantESVersion() const;

     VkInstance getInstance() const { return mInstance; }
     VkPhysicalDevice getPhysicalDevice() const { return mPhysicalDevice; }
     const VkPhysicalDeviceProperties &getPhysicalDeviceProperties() const
     {
         return mPhysicalDeviceProperties;
     }
     const VkPhysicalDeviceSubgroupProperties &getPhysicalDeviceSubgroupProperties() const
     {
         return mPhysicalDeviceSubgroupProperties;
     }
     const VkPhysicalDeviceFeatures &getPhysicalDeviceFeatures() const
     {
         return mPhysicalDeviceFeatures;
     }
     VkDevice getDevice() const { return mDevice; }

     angle::Result selectPresentQueueForSurface(DisplayVk *displayVk,
                                                VkSurfaceKHR surface,
                                                uint32_t *presentQueueOut);

     const gl::Caps &getNativeCaps() const;
     const gl::TextureCapsMap &getNativeTextureCaps() const;
     const gl::Extensions &getNativeExtensions() const;
     const gl::Limitations &getNativeLimitations() const;

     uint32_t getQueueFamilyIndex() const { return mCurrentQueueFamilyIndex; }

     const vk::MemoryProperties &getMemoryProperties() const { return mMemoryProperties; }

     // TODO(jmadill): We could pass angle::FormatID here.
     const vk::Format &getFormat(GLenum internalFormat) const
     {
         return mFormatTable[internalFormat];
     }

     const vk::Format &getFormat(angle::FormatID formatID) const { return mFormatTable[formatID]; }

     // Queries the descriptor set layout cache. Creates the layout if not present.
     angle::Result getDescriptorSetLayout(
         vk::Context *context,
         const vk::DescriptorSetLayoutDesc &desc,
         vk::BindingPointer<vk::DescriptorSetLayout> *descriptorSetLayoutOut);

     // Queries the pipeline layout cache. Creates the layout if not present.
     angle::Result getPipelineLayout(vk::Context *context,
                                     const vk::PipelineLayoutDesc &desc,
                                     const vk::DescriptorSetLayoutPointerArray &descriptorSetLayouts,
                                     vk::BindingPointer<vk::PipelineLayout> *pipelineLayoutOut);

     angle::Result getPipelineCacheSize(DisplayVk *displayVk, size_t *pipelineCacheSizeOut);
     angle::Result syncPipelineCacheVk(DisplayVk *displayVk);

     // Issues a new serial for linked shader modules. Used in the pipeline cache.
     Serial issueShaderSerial();

     const angle::FeaturesVk &getFeatures() const
     {
         ASSERT(mFeaturesInitialized);
         return mFeatures;
     }
     uint32_t getMaxVertexAttribDivisor() const { return mMaxVertexAttribDivisor; }

     bool isMockICDEnabled() const { return mEnabledICD == vk::ICD::Mock; }

     // Query the format properties for select bits (linearTilingFeatures, optimalTilingFeatures and
     // bufferFeatures).  Looks through mandatory features first, and falls back to querying the
     // device (first time only).
     bool hasLinearImageFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);
     VkFormatFeatureFlags getImageFormatFeatureBits(VkFormat format,
                                                    const VkFormatFeatureFlags featureBits);
     bool hasImageFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);
     bool hasBufferFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);

     angle::Result queueSubmit(vk::Context *context,
                               const VkSubmitInfo &submitInfo,
                               const vk::Fence &fence,
                               Serial *serialOut);
     angle::Result queueWaitIdle(vk::Context *context);
     VkResult queuePresent(const VkPresentInfoKHR &presentInfo);

     angle::Result newSharedFence(vk::Context *context, vk::Shared<vk::Fence> *sharedFenceOut);
     inline void resetSharedFence(vk::Shared<vk::Fence> *sharedFenceIn)
     {
         sharedFenceIn->resetAndRecycle(&mFenceRecycler);
     }

     template <typename... ArgsT>
     void collectGarbageAndReinit(vk::SharedResourceUse *use, ArgsT... garbageIn)
     {
         std::vector<vk::GarbageObject> sharedGarbage;
         CollectGarbage(&sharedGarbage, garbageIn...);
         if (!sharedGarbage.empty())
         {
             collectGarbage(std::move(*use), std::move(sharedGarbage));
         }
         else
         {
             // Force releasing "use" even if no garbage was created.
             use->release();
         }
         // Keep "use" valid.
         use->init();
     }

     void collectGarbage(vk::SharedResourceUse &&use, std::vector<vk::GarbageObject> &&sharedGarbage)
     {
         mSharedGarbage.emplace_back(std::move(use), std::move(sharedGarbage));
     }

     static constexpr size_t kMaxExtensionNames = 200;
     using ExtensionNameList = angle::FixedVector<const char *, kMaxExtensionNames>;

     angle::Result getPipelineCache(vk::PipelineCache **pipelineCache);
     void onNewGraphicsPipeline() { mPipelineCacheDirty = true; }

     void onNewValidationMessage(const std::string &message);
     std::string getAndClearLastValidationMessage(uint32_t *countSinceLastClear);

     uint64_t getMaxFenceWaitTimeNs() const;
     Serial getCurrentQueueSerial() const { return mCurrentQueueSerial; }
     Serial getLastSubmittedQueueSerial() const { return mLastSubmittedQueueSerial; }
     Serial getLastCompletedQueueSerial() const { return mLastCompletedQueueSerial; }

     void onCompletedSerial(Serial serial);

     bool shouldCleanupGarbage()
     {
         return (mSharedGarbage.size() > mGarbageCollectionFlushThreshold);
     }

   private:
     angle::Result initializeDevice(DisplayVk *displayVk, uint32_t queueFamilyIndex);
     void ensureCapsInitialized() const;

     void initFeatures(const ExtensionNameList &extensions);
     void initPipelineCacheVkKey();
     angle::Result initPipelineCache(DisplayVk *display,
                                     vk::PipelineCache *pipelineCache,
                                     bool *success);

     template <VkFormatFeatureFlags VkFormatProperties::*features>
     VkFormatFeatureFlags getFormatFeatureBits(VkFormat format,
                                               const VkFormatFeatureFlags featureBits);

     template <VkFormatFeatureFlags VkFormatProperties::*features>
     bool hasFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);

     angle::Result cleanupGarbage(vk::Context *context, bool block);

     egl::Display *mDisplay;

     mutable bool mCapsInitialized;
     mutable gl::Caps mNativeCaps;
     mutable gl::TextureCapsMap mNativeTextureCaps;
     mutable gl::Extensions mNativeExtensions;
     mutable gl::Limitations mNativeLimitations;
     mutable bool mFeaturesInitialized;
     mutable angle::FeaturesVk mFeatures;

     VkInstance mInstance;
     bool mEnableValidationLayers;
     vk::ICD mEnabledICD;
     VkDebugUtilsMessengerEXT mDebugUtilsMessenger;
     VkDebugReportCallbackEXT mDebugReportCallback;
     VkPhysicalDevice mPhysicalDevice;
     VkPhysicalDeviceProperties mPhysicalDeviceProperties;
     VkPhysicalDeviceSubgroupProperties mPhysicalDeviceSubgroupProperties;
     VkPhysicalDeviceFeatures mPhysicalDeviceFeatures;
     VkPhysicalDeviceLineRasterizationFeaturesEXT mLineRasterizationFeatures;
     VkPhysicalDeviceProvokingVertexFeaturesEXT mProvokingVertexFeatures;
     std::vector<VkQueueFamilyProperties> mQueueFamilyProperties;
     std::mutex mQueueMutex;
     VkQueue mQueue;
     uint32_t mCurrentQueueFamilyIndex;
     uint32_t mMaxVertexAttribDivisor;
     VkDevice mDevice;
     AtomicSerialFactory mQueueSerialFactory;
     AtomicSerialFactory mShaderSerialFactory;

     Serial mLastCompletedQueueSerial;
     Serial mLastSubmittedQueueSerial;
     Serial mCurrentQueueSerial;

     bool mDeviceLost;

     vk::Recycler<vk::Fence> mFenceRecycler;

     std::mutex mGarbageMutex;
     vk::SharedGarbageList mSharedGarbage;

     vk::MemoryProperties mMemoryProperties;
     vk::FormatTable mFormatTable;

     // All access to the pipeline cache is done through EGL objects so it is thread safe to not use
     // a lock.
     vk::PipelineCache mPipelineCache;
     egl::BlobCache::Key mPipelineCacheVkBlobKey;
     uint32_t mPipelineCacheVkUpdateTimeout;
     bool mPipelineCacheDirty;
     bool mPipelineCacheInitialized;

     // A cache of VkFormatProperties as queried from the device over time.
     std::array<VkFormatProperties, vk::kNumVkFormats> mFormatProperties;

     // ANGLE uses a PipelineLayout cache to store compatible pipeline layouts.
     std::mutex mPipelineLayoutCacheMutex;
     PipelineLayoutCache mPipelineLayoutCache;

     // DescriptorSetLayouts are also managed in a cache.
     std::mutex mDescriptorSetLayoutCacheMutex;
     DescriptorSetLayoutCache mDescriptorSetLayoutCache;

     // Latest validation data for debug overlay.
     std::string mLastValidationMessage;
     uint32_t mValidationMessageCount;

     // How close to VkPhysicalDeviceLimits::maxMemoryAllocationCount we allow ourselves to get
     static constexpr double kPercentMaxMemoryAllocationCount = 0.3;
     // How many objects to garbage collect before issuing a flush()
     uint32_t mGarbageCollectionFlushThreshold;
 };

 }  // namespace rx

 #endif  // LIBANGLE_RENDERER_VULKAN_RENDERERVK_H_
	//
	// Copyright 2016 The ANGLE 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.
	//
	// RendererVk.h:
	// Defines the class interface for RendererVk.
	//

	#ifndef LIBANGLE_RENDERER_VULKAN_RENDERERVK_H_
	#define LIBANGLE_RENDERER_VULKAN_RENDERERVK_H_

	#include <vulkan/vulkan.h>
	#include <memory>
	#include <mutex>
	#include "vk_ext_provoking_vertex.h"

	#include "common/PoolAlloc.h"
	#include "common/angleutils.h"
	#include "libANGLE/BlobCache.h"
	#include "libANGLE/Caps.h"
	#include "libANGLE/renderer/vulkan/CommandGraph.h"
	#include "libANGLE/renderer/vulkan/QueryVk.h"
	#include "libANGLE/renderer/vulkan/UtilsVk.h"
	#include "libANGLE/renderer/vulkan/vk_format_utils.h"
	#include "libANGLE/renderer/vulkan/vk_helpers.h"
	#include "libANGLE/renderer/vulkan/vk_internal_shaders_autogen.h"

	namespace egl
	{
	class Display;
	class BlobCache;
	} // namespace egl

	namespace rx
	{
	class DisplayVk;
	class FramebufferVk;

	namespace vk
	{
	struct Format;
	} // namespace vk

	// Supports one semaphore from current surface, and one semaphore passed to
	// glSignalSemaphoreEXT.
	using SignalSemaphoreVector = angle::FixedVector<VkSemaphore, 2>;

	inline void CollectGarbage(std::vector<vk::GarbageObject> *garbageOut) {}

	template <typename ArgT, typename... ArgsT>
	void CollectGarbage(std::vector<vk::GarbageObject> *garbageOut, ArgT object, ArgsT... objectsIn)
	{
	if (object->valid())
	{
	garbageOut->emplace_back(vk::GarbageObject::Get(object));
	}
	CollectGarbage(garbageOut, objectsIn...);
	}

	class RendererVk : angle::NonCopyable
	{
	public:
	RendererVk();
	~RendererVk();

	angle::Result initialize(DisplayVk *displayVk,
	egl::Display *display,
	const char *wsiExtension,
	const char *wsiLayer);
	void onDestroy(vk::Context *context);

	void notifyDeviceLost();
	bool isDeviceLost() const;

	std::string getVendorString() const;
	std::string getRendererDescription() const;

	gl::Version getMaxSupportedESVersion() const;
	gl::Version getMaxConformantESVersion() const;

	VkInstance getInstance() const { return mInstance; }
	VkPhysicalDevice getPhysicalDevice() const { return mPhysicalDevice; }
	const VkPhysicalDeviceProperties &getPhysicalDeviceProperties() const
	{
	return mPhysicalDeviceProperties;
	}
	const VkPhysicalDeviceSubgroupProperties &getPhysicalDeviceSubgroupProperties() const
	{
	return mPhysicalDeviceSubgroupProperties;
	}
	const VkPhysicalDeviceFeatures &getPhysicalDeviceFeatures() const
	{
	return mPhysicalDeviceFeatures;
	}
	VkDevice getDevice() const { return mDevice; }

	angle::Result selectPresentQueueForSurface(DisplayVk *displayVk,
	VkSurfaceKHR surface,
	uint32_t *presentQueueOut);

	const gl::Caps &getNativeCaps() const;
	const gl::TextureCapsMap &getNativeTextureCaps() const;
	const gl::Extensions &getNativeExtensions() const;
	const gl::Limitations &getNativeLimitations() const;

	uint32_t getQueueFamilyIndex() const { return mCurrentQueueFamilyIndex; }

	const vk::MemoryProperties &getMemoryProperties() const { return mMemoryProperties; }

	// TODO(jmadill): We could pass angle::FormatID here.
	const vk::Format &getFormat(GLenum internalFormat) const
	{
	return mFormatTable[internalFormat];
	}

	const vk::Format &getFormat(angle::FormatID formatID) const { return mFormatTable[formatID]; }

	// Queries the descriptor set layout cache. Creates the layout if not present.
	angle::Result getDescriptorSetLayout(
	vk::Context *context,
	const vk::DescriptorSetLayoutDesc &desc,
	vk::BindingPointer<vk::DescriptorSetLayout> *descriptorSetLayoutOut);

	// Queries the pipeline layout cache. Creates the layout if not present.
	angle::Result getPipelineLayout(vk::Context *context,
	const vk::PipelineLayoutDesc &desc,
	const vk::DescriptorSetLayoutPointerArray &descriptorSetLayouts,
	vk::BindingPointer<vk::PipelineLayout> *pipelineLayoutOut);

	angle::Result getPipelineCacheSize(DisplayVk displayVk, size_t pipelineCacheSizeOut);
	angle::Result syncPipelineCacheVk(DisplayVk *displayVk);

	// Issues a new serial for linked shader modules. Used in the pipeline cache.
	Serial issueShaderSerial();

	const angle::FeaturesVk &getFeatures() const
	{
	ASSERT(mFeaturesInitialized);
	return mFeatures;
	}
	uint32_t getMaxVertexAttribDivisor() const { return mMaxVertexAttribDivisor; }

	bool isMockICDEnabled() const { return mEnabledICD == vk::ICD::Mock; }

	// Query the format properties for select bits (linearTilingFeatures, optimalTilingFeatures and
	// bufferFeatures). Looks through mandatory features first, and falls back to querying the
	// device (first time only).
	bool hasLinearImageFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);
	VkFormatFeatureFlags getImageFormatFeatureBits(VkFormat format,
	const VkFormatFeatureFlags featureBits);
	bool hasImageFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);
	bool hasBufferFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);

	angle::Result queueSubmit(vk::Context *context,
	const VkSubmitInfo &submitInfo,
	const vk::Fence &fence,
	Serial *serialOut);
	angle::Result queueWaitIdle(vk::Context *context);
	VkResult queuePresent(const VkPresentInfoKHR &presentInfo);

	angle::Result newSharedFence(vk::Context context, vk::Shared<vk::Fence> sharedFenceOut);
	inline void resetSharedFence(vk::Shared<vk::Fence> *sharedFenceIn)
	{
	sharedFenceIn->resetAndRecycle(&mFenceRecycler);
	}

	template <typename... ArgsT>
	void collectGarbageAndReinit(vk::SharedResourceUse *use, ArgsT... garbageIn)
	{
	std::vector<vk::GarbageObject> sharedGarbage;
	CollectGarbage(&sharedGarbage, garbageIn...);
	if (!sharedGarbage.empty())
	{
	collectGarbage(std::move(*use), std::move(sharedGarbage));
	}
	else
	{
	// Force releasing "use" even if no garbage was created.
	use->release();
	}
	// Keep "use" valid.
	use->init();
	}

	void collectGarbage(vk::SharedResourceUse &&use, std::vector<vk::GarbageObject> &&sharedGarbage)
	{
	mSharedGarbage.emplace_back(std::move(use), std::move(sharedGarbage));
	}

	static constexpr size_t kMaxExtensionNames = 200;
	using ExtensionNameList = angle::FixedVector<const char *, kMaxExtensionNames>;

	angle::Result getPipelineCache(vk::PipelineCache **pipelineCache);
	void onNewGraphicsPipeline() { mPipelineCacheDirty = true; }

	void onNewValidationMessage(const std::string &message);
	std::string getAndClearLastValidationMessage(uint32_t *countSinceLastClear);

	uint64_t getMaxFenceWaitTimeNs() const;
	Serial getCurrentQueueSerial() const { return mCurrentQueueSerial; }
	Serial getLastSubmittedQueueSerial() const { return mLastSubmittedQueueSerial; }
	Serial getLastCompletedQueueSerial() const { return mLastCompletedQueueSerial; }

	void onCompletedSerial(Serial serial);

	bool shouldCleanupGarbage()
	{
	return (mSharedGarbage.size() > mGarbageCollectionFlushThreshold);
	}

	private:
	angle::Result initializeDevice(DisplayVk *displayVk, uint32_t queueFamilyIndex);
	void ensureCapsInitialized() const;

	void initFeatures(const ExtensionNameList &extensions);
	void initPipelineCacheVkKey();
	angle::Result initPipelineCache(DisplayVk *display,
	vk::PipelineCache *pipelineCache,
	bool *success);

	template <VkFormatFeatureFlags VkFormatProperties::*features>
	VkFormatFeatureFlags getFormatFeatureBits(VkFormat format,
	const VkFormatFeatureFlags featureBits);

	template <VkFormatFeatureFlags VkFormatProperties::*features>
	bool hasFormatFeatureBits(VkFormat format, const VkFormatFeatureFlags featureBits);

	angle::Result cleanupGarbage(vk::Context *context, bool block);

	egl::Display *mDisplay;

	mutable bool mCapsInitialized;
	mutable gl::Caps mNativeCaps;
	mutable gl::TextureCapsMap mNativeTextureCaps;
	mutable gl::Extensions mNativeExtensions;
	mutable gl::Limitations mNativeLimitations;
	mutable bool mFeaturesInitialized;
	mutable angle::FeaturesVk mFeatures;

	VkInstance mInstance;
	bool mEnableValidationLayers;
	vk::ICD mEnabledICD;
	VkDebugUtilsMessengerEXT mDebugUtilsMessenger;
	VkDebugReportCallbackEXT mDebugReportCallback;
	VkPhysicalDevice mPhysicalDevice;
	VkPhysicalDeviceProperties mPhysicalDeviceProperties;
	VkPhysicalDeviceSubgroupProperties mPhysicalDeviceSubgroupProperties;
	VkPhysicalDeviceFeatures mPhysicalDeviceFeatures;
	VkPhysicalDeviceLineRasterizationFeaturesEXT mLineRasterizationFeatures;
	VkPhysicalDeviceProvokingVertexFeaturesEXT mProvokingVertexFeatures;
	std::vector<VkQueueFamilyProperties> mQueueFamilyProperties;
	std::mutex mQueueMutex;
	VkQueue mQueue;
	uint32_t mCurrentQueueFamilyIndex;
	uint32_t mMaxVertexAttribDivisor;
	VkDevice mDevice;
	AtomicSerialFactory mQueueSerialFactory;
	AtomicSerialFactory mShaderSerialFactory;

	Serial mLastCompletedQueueSerial;
	Serial mLastSubmittedQueueSerial;
	Serial mCurrentQueueSerial;

	bool mDeviceLost;

	vk::Recycler<vk::Fence> mFenceRecycler;

	std::mutex mGarbageMutex;
	vk::SharedGarbageList mSharedGarbage;

	vk::MemoryProperties mMemoryProperties;
	vk::FormatTable mFormatTable;

	// All access to the pipeline cache is done through EGL objects so it is thread safe to not use
	// a lock.
	vk::PipelineCache mPipelineCache;
	egl::BlobCache::Key mPipelineCacheVkBlobKey;
	uint32_t mPipelineCacheVkUpdateTimeout;
	bool mPipelineCacheDirty;
	bool mPipelineCacheInitialized;

	// A cache of VkFormatProperties as queried from the device over time.
	std::array<VkFormatProperties, vk::kNumVkFormats> mFormatProperties;

	// ANGLE uses a PipelineLayout cache to store compatible pipeline layouts.
	std::mutex mPipelineLayoutCacheMutex;
	PipelineLayoutCache mPipelineLayoutCache;

	// DescriptorSetLayouts are also managed in a cache.
	std::mutex mDescriptorSetLayoutCacheMutex;
	DescriptorSetLayoutCache mDescriptorSetLayoutCache;

	// Latest validation data for debug overlay.
	std::string mLastValidationMessage;
	uint32_t mValidationMessageCount;

	// How close to VkPhysicalDeviceLimits::maxMemoryAllocationCount we allow ourselves to get
	static constexpr double kPercentMaxMemoryAllocationCount = 0.3;
	// How many objects to garbage collect before issuing a flush()
	uint32_t mGarbageCollectionFlushThreshold;
	};

	} // namespace rx

	#endif // LIBANGLE_RENDERER_VULKAN_RENDERERVK_H_