third_party/angle/src/libANGLE/renderer/vulkan/SemaphoreVk.cpp - cobalt - Git at Google

 // Copyright 2019 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.
 //
 // SemaphoreVk.cpp: Defines the class interface for SemaphoreVk, implementing
 // SemaphoreImpl.

 #include "libANGLE/renderer/vulkan/SemaphoreVk.h"

 #include "common/debug.h"
 #include "libANGLE/Context.h"
 #include "libANGLE/renderer/vulkan/BufferVk.h"
 #include "libANGLE/renderer/vulkan/ContextVk.h"
 #include "libANGLE/renderer/vulkan/RendererVk.h"
 #include "libANGLE/renderer/vulkan/TextureVk.h"

 namespace rx
 {

 namespace
 {
 vk::ImageLayout GetVulkanImageLayout(GLenum layout)
 {
     switch (layout)
     {
         case GL_NONE:
             return vk::ImageLayout::Undefined;
         case GL_LAYOUT_GENERAL_EXT:
             return vk::ImageLayout::ExternalShadersWrite;
         case GL_LAYOUT_COLOR_ATTACHMENT_EXT:
             return vk::ImageLayout::ColorAttachment;
         case GL_LAYOUT_DEPTH_STENCIL_ATTACHMENT_EXT:
         case GL_LAYOUT_DEPTH_STENCIL_READ_ONLY_EXT:
         case GL_LAYOUT_DEPTH_READ_ONLY_STENCIL_ATTACHMENT_EXT:
         case GL_LAYOUT_DEPTH_ATTACHMENT_STENCIL_READ_ONLY_EXT:
             // Note: once VK_KHR_separate_depth_stencil_layouts becomes core or ubiquitous, we
             // should optimize depth/stencil image layout transitions to only be performed on the
             // aspect that needs transition.  In that case, these four layouts can be distinguished
             // and optimized.  Note that the exact equivalent of these layouts are specified in
             // VK_KHR_maintenance2, which are also usable, granted we transition the pair of
             // depth/stencil layouts accordingly elsewhere in ANGLE.
             return vk::ImageLayout::DepthStencilAttachment;
         case GL_LAYOUT_SHADER_READ_ONLY_EXT:
             return vk::ImageLayout::ExternalShadersReadOnly;
         case GL_LAYOUT_TRANSFER_SRC_EXT:
             return vk::ImageLayout::TransferSrc;
         case GL_LAYOUT_TRANSFER_DST_EXT:
             return vk::ImageLayout::TransferDst;
         default:
             UNREACHABLE();
             return vk::ImageLayout::Undefined;
     }
 }
 }  // anonymous namespace

 SemaphoreVk::SemaphoreVk() = default;

 SemaphoreVk::~SemaphoreVk() = default;

 void SemaphoreVk::onDestroy(const gl::Context *context)
 {
     ContextVk *contextVk = vk::GetImpl(context);
     contextVk->addGarbage(&mSemaphore);
 }

 angle::Result SemaphoreVk::importFd(gl::Context *context, gl::HandleType handleType, GLint fd)
 {
     switch (handleType)
     {
         case gl::HandleType::OpaqueFd:
             return importOpaqueFd(context, fd);

         default:
             ANGLE_VK_UNREACHABLE(vk::GetImpl(context));
             return angle::Result::Stop;
     }
 }

 angle::Result SemaphoreVk::wait(gl::Context *context,
                                 const gl::BufferBarrierVector &bufferBarriers,
                                 const gl::TextureBarrierVector &textureBarriers)
 {
     ContextVk *contextVk = vk::GetImpl(context);

     if (!bufferBarriers.empty() || !textureBarriers.empty())
     {
         // Create one global memory barrier to cover all barriers.
         contextVk->getCommandGraph()->syncExternalMemory();
     }

     uint32_t rendererQueueFamilyIndex = contextVk->getRenderer()->getQueueFamilyIndex();

     if (!bufferBarriers.empty())
     {
         // Perform a queue ownership transfer for each buffer.
         for (gl::Buffer *buffer : bufferBarriers)
         {
             BufferVk *bufferVk             = vk::GetImpl(buffer);
             vk::BufferHelper &bufferHelper = bufferVk->getBuffer();

             // If there were GL commands using this buffer prior to this call, that's a
             // synchronization error on behalf of the program.
             ASSERT(!bufferHelper.isCurrentlyInGraph());

             vk::CommandBuffer *queueChange;
             ANGLE_TRY(bufferHelper.recordCommands(contextVk, &queueChange));

             // Queue ownership transfer.
             bufferHelper.changeQueue(rendererQueueFamilyIndex, queueChange);
         }
     }

     if (!textureBarriers.empty())
     {
         // Perform a queue ownership transfer for each texture.  Additionally, we are being
         // informed that the layout of the image has been externally transitioned, so we need to
         // update our internal state tracking.
         for (const gl::TextureAndLayout &textureAndLayout : textureBarriers)
         {
             TextureVk *textureVk   = vk::GetImpl(textureAndLayout.texture);
             vk::ImageHelper &image = textureVk->getImage();
             vk::ImageLayout layout = GetVulkanImageLayout(textureAndLayout.layout);

             // If there were GL commands using this image prior to this call, that's a
             // synchronization error on behalf of the program.
             ASSERT(!image.isCurrentlyInGraph());

             // Inform the image that the layout has been externally changed.
             image.onExternalLayoutChange(layout);

             vk::CommandBuffer *queueChange;
             ANGLE_TRY(image.recordCommands(contextVk, &queueChange));

             // Queue ownership transfer.
             image.changeLayoutAndQueue(image.getAspectFlags(), layout, rendererQueueFamilyIndex,
                                        queueChange);
         }
     }

     contextVk->insertWaitSemaphore(&mSemaphore);
     return angle::Result::Continue;
 }

 angle::Result SemaphoreVk::signal(gl::Context *context,
                                   const gl::BufferBarrierVector &bufferBarriers,
                                   const gl::TextureBarrierVector &textureBarriers)
 {
     ContextVk *contextVk = vk::GetImpl(context);

     if (!bufferBarriers.empty())
     {
         // Perform a queue ownership transfer for each buffer.
         for (gl::Buffer *buffer : bufferBarriers)
         {
             BufferVk *bufferVk             = vk::GetImpl(buffer);
             vk::BufferHelper &bufferHelper = bufferVk->getBuffer();

             vk::CommandBuffer *queueChange;
             ANGLE_TRY(bufferHelper.recordCommands(contextVk, &queueChange));

             // Queue ownership transfer.
             bufferHelper.changeQueue(VK_QUEUE_FAMILY_EXTERNAL, queueChange);
         }
     }

     if (!textureBarriers.empty())
     {
         // Perform a queue ownership transfer for each texture.  Additionally, transition the image
         // to the requested layout.
         for (const gl::TextureAndLayout &textureAndLayout : textureBarriers)
         {
             TextureVk *textureVk   = vk::GetImpl(textureAndLayout.texture);
             vk::ImageHelper &image = textureVk->getImage();
             vk::ImageLayout layout = GetVulkanImageLayout(textureAndLayout.layout);

             // Don't transition to Undefined layout.  If external wants to transition the image away
             // from Undefined after this operation, it's perfectly fine to keep the layout as is in
             // ANGLE.  Note that vk::ImageHelper doesn't expect transitions to Undefined.
             if (layout == vk::ImageLayout::Undefined)
             {
                 layout = image.getCurrentImageLayout();
             }

             vk::CommandBuffer *layoutChange;
             ANGLE_TRY(image.recordCommands(contextVk, &layoutChange));

             // Queue ownership transfer and layout transition.
             image.changeLayoutAndQueue(image.getAspectFlags(), layout, VK_QUEUE_FAMILY_EXTERNAL,
                                        layoutChange);
         }
     }

     if (!bufferBarriers.empty() || !textureBarriers.empty())
     {
         // Create one global memory barrier to cover all barriers.
         contextVk->getCommandGraph()->syncExternalMemory();
     }

     return contextVk->flushImpl(&mSemaphore);
 }

 angle::Result SemaphoreVk::importOpaqueFd(gl::Context *context, GLint fd)
 {
     ContextVk *contextVk = vk::GetImpl(context);
     RendererVk *renderer = contextVk->getRenderer();

     if (!mSemaphore.valid())
     {
         mSemaphore.init(renderer->getDevice());
     }

     ASSERT(mSemaphore.valid());

     VkImportSemaphoreFdInfoKHR importSemaphoreFdInfo = {};
     importSemaphoreFdInfo.sType      = VK_STRUCTURE_TYPE_IMPORT_SEMAPHORE_FD_INFO_KHR;
     importSemaphoreFdInfo.semaphore  = mSemaphore.getHandle();
     importSemaphoreFdInfo.flags      = 0;
     importSemaphoreFdInfo.handleType = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_FD_BIT;
     importSemaphoreFdInfo.fd         = fd;

     ANGLE_VK_TRY(contextVk, vkImportSemaphoreFdKHR(renderer->getDevice(), &importSemaphoreFdInfo));

     return angle::Result::Continue;
 }

 }  // namespace rx
	// Copyright 2019 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.
	//
	// SemaphoreVk.cpp: Defines the class interface for SemaphoreVk, implementing
	// SemaphoreImpl.

	#include "libANGLE/renderer/vulkan/SemaphoreVk.h"

	#include "common/debug.h"
	#include "libANGLE/Context.h"
	#include "libANGLE/renderer/vulkan/BufferVk.h"
	#include "libANGLE/renderer/vulkan/ContextVk.h"
	#include "libANGLE/renderer/vulkan/RendererVk.h"
	#include "libANGLE/renderer/vulkan/TextureVk.h"

	namespace rx
	{

	namespace
	{
	vk::ImageLayout GetVulkanImageLayout(GLenum layout)
	{
	switch (layout)
	{
	case GL_NONE:
	return vk::ImageLayout::Undefined;
	case GL_LAYOUT_GENERAL_EXT:
	return vk::ImageLayout::ExternalShadersWrite;
	case GL_LAYOUT_COLOR_ATTACHMENT_EXT:
	return vk::ImageLayout::ColorAttachment;
	case GL_LAYOUT_DEPTH_STENCIL_ATTACHMENT_EXT:
	case GL_LAYOUT_DEPTH_STENCIL_READ_ONLY_EXT:
	case GL_LAYOUT_DEPTH_READ_ONLY_STENCIL_ATTACHMENT_EXT:
	case GL_LAYOUT_DEPTH_ATTACHMENT_STENCIL_READ_ONLY_EXT:
	// Note: once VK_KHR_separate_depth_stencil_layouts becomes core or ubiquitous, we
	// should optimize depth/stencil image layout transitions to only be performed on the
	// aspect that needs transition. In that case, these four layouts can be distinguished
	// and optimized. Note that the exact equivalent of these layouts are specified in
	// VK_KHR_maintenance2, which are also usable, granted we transition the pair of
	// depth/stencil layouts accordingly elsewhere in ANGLE.
	return vk::ImageLayout::DepthStencilAttachment;
	case GL_LAYOUT_SHADER_READ_ONLY_EXT:
	return vk::ImageLayout::ExternalShadersReadOnly;
	case GL_LAYOUT_TRANSFER_SRC_EXT:
	return vk::ImageLayout::TransferSrc;
	case GL_LAYOUT_TRANSFER_DST_EXT:
	return vk::ImageLayout::TransferDst;
	default:
	UNREACHABLE();
	return vk::ImageLayout::Undefined;
	}
	}
	} // anonymous namespace

	SemaphoreVk::SemaphoreVk() = default;

	SemaphoreVk::~SemaphoreVk() = default;

	void SemaphoreVk::onDestroy(const gl::Context *context)
	{
	ContextVk *contextVk = vk::GetImpl(context);
	contextVk->addGarbage(&mSemaphore);
	}

	angle::Result SemaphoreVk::importFd(gl::Context *context, gl::HandleType handleType, GLint fd)
	{
	switch (handleType)
	{
	case gl::HandleType::OpaqueFd:
	return importOpaqueFd(context, fd);

	default:
	ANGLE_VK_UNREACHABLE(vk::GetImpl(context));
	return angle::Result::Stop;
	}
	}

	angle::Result SemaphoreVk::wait(gl::Context *context,
	const gl::BufferBarrierVector &bufferBarriers,
	const gl::TextureBarrierVector &textureBarriers)
	{
	ContextVk *contextVk = vk::GetImpl(context);

	if (!bufferBarriers.empty() \|\| !textureBarriers.empty())
	{
	// Create one global memory barrier to cover all barriers.
	contextVk->getCommandGraph()->syncExternalMemory();
	}

	uint32_t rendererQueueFamilyIndex = contextVk->getRenderer()->getQueueFamilyIndex();

	if (!bufferBarriers.empty())
	{
	// Perform a queue ownership transfer for each buffer.
	for (gl::Buffer *buffer : bufferBarriers)
	{
	BufferVk *bufferVk = vk::GetImpl(buffer);
	vk::BufferHelper &bufferHelper = bufferVk->getBuffer();

	// If there were GL commands using this buffer prior to this call, that's a
	// synchronization error on behalf of the program.
	ASSERT(!bufferHelper.isCurrentlyInGraph());

	vk::CommandBuffer *queueChange;
	ANGLE_TRY(bufferHelper.recordCommands(contextVk, &queueChange));

	// Queue ownership transfer.
	bufferHelper.changeQueue(rendererQueueFamilyIndex, queueChange);
	}
	}

	if (!textureBarriers.empty())
	{
	// Perform a queue ownership transfer for each texture. Additionally, we are being
	// informed that the layout of the image has been externally transitioned, so we need to
	// update our internal state tracking.
	for (const gl::TextureAndLayout &textureAndLayout : textureBarriers)
	{
	TextureVk *textureVk = vk::GetImpl(textureAndLayout.texture);
	vk::ImageHelper &image = textureVk->getImage();
	vk::ImageLayout layout = GetVulkanImageLayout(textureAndLayout.layout);

	// If there were GL commands using this image prior to this call, that's a
	// synchronization error on behalf of the program.
	ASSERT(!image.isCurrentlyInGraph());

	// Inform the image that the layout has been externally changed.
	image.onExternalLayoutChange(layout);

	vk::CommandBuffer *queueChange;
	ANGLE_TRY(image.recordCommands(contextVk, &queueChange));

	// Queue ownership transfer.
	image.changeLayoutAndQueue(image.getAspectFlags(), layout, rendererQueueFamilyIndex,
	queueChange);
	}
	}

	contextVk->insertWaitSemaphore(&mSemaphore);
	return angle::Result::Continue;
	}

	angle::Result SemaphoreVk::signal(gl::Context *context,
	const gl::BufferBarrierVector &bufferBarriers,
	const gl::TextureBarrierVector &textureBarriers)
	{
	ContextVk *contextVk = vk::GetImpl(context);

	if (!bufferBarriers.empty())
	{
	// Perform a queue ownership transfer for each buffer.
	for (gl::Buffer *buffer : bufferBarriers)
	{
	BufferVk *bufferVk = vk::GetImpl(buffer);
	vk::BufferHelper &bufferHelper = bufferVk->getBuffer();

	vk::CommandBuffer *queueChange;
	ANGLE_TRY(bufferHelper.recordCommands(contextVk, &queueChange));

	// Queue ownership transfer.
	bufferHelper.changeQueue(VK_QUEUE_FAMILY_EXTERNAL, queueChange);
	}
	}

	if (!textureBarriers.empty())
	{
	// Perform a queue ownership transfer for each texture. Additionally, transition the image
	// to the requested layout.
	for (const gl::TextureAndLayout &textureAndLayout : textureBarriers)
	{
	TextureVk *textureVk = vk::GetImpl(textureAndLayout.texture);
	vk::ImageHelper &image = textureVk->getImage();
	vk::ImageLayout layout = GetVulkanImageLayout(textureAndLayout.layout);

	// Don't transition to Undefined layout. If external wants to transition the image away
	// from Undefined after this operation, it's perfectly fine to keep the layout as is in
	// ANGLE. Note that vk::ImageHelper doesn't expect transitions to Undefined.
	if (layout == vk::ImageLayout::Undefined)
	{
	layout = image.getCurrentImageLayout();
	}

	vk::CommandBuffer *layoutChange;
	ANGLE_TRY(image.recordCommands(contextVk, &layoutChange));

	// Queue ownership transfer and layout transition.
	image.changeLayoutAndQueue(image.getAspectFlags(), layout, VK_QUEUE_FAMILY_EXTERNAL,
	layoutChange);
	}
	}

	if (!bufferBarriers.empty() \|\| !textureBarriers.empty())
	{
	// Create one global memory barrier to cover all barriers.
	contextVk->getCommandGraph()->syncExternalMemory();
	}

	return contextVk->flushImpl(&mSemaphore);
	}

	angle::Result SemaphoreVk::importOpaqueFd(gl::Context *context, GLint fd)
	{
	ContextVk *contextVk = vk::GetImpl(context);
	RendererVk *renderer = contextVk->getRenderer();

	if (!mSemaphore.valid())
	{
	mSemaphore.init(renderer->getDevice());
	}

	ASSERT(mSemaphore.valid());

	VkImportSemaphoreFdInfoKHR importSemaphoreFdInfo = {};
	importSemaphoreFdInfo.sType = VK_STRUCTURE_TYPE_IMPORT_SEMAPHORE_FD_INFO_KHR;
	importSemaphoreFdInfo.semaphore = mSemaphore.getHandle();
	importSemaphoreFdInfo.flags = 0;
	importSemaphoreFdInfo.handleType = VK_EXTERNAL_SEMAPHORE_HANDLE_TYPE_OPAQUE_FD_BIT;
	importSemaphoreFdInfo.fd = fd;

	ANGLE_VK_TRY(contextVk, vkImportSemaphoreFdKHR(renderer->getDevice(), &importSemaphoreFdInfo));

	return angle::Result::Continue;
	}

	} // namespace rx